Skip to main content
eScholarship
Open Access Publications from the University of California

About

The annual meeting of the Cognitive Science Society is aimed at basic and applied cognitive science research. The conference hosts the latest theories and data from the world's best cognitive science researchers. Each year, in addition to submitted papers, researchers are invited to highlight some aspect of cognitive science.

Workshops

Workshop on Corpus Collection, (Semi)-Automated Analysis, and Modeling ofLarge-Scale Naturalistic Language Acquisition Data

The main goal of this full-day workshop is to bring togetherresearchers from several distinct fields: behavioralpsychologists studying language acquisition, speechtechnology researchers, linguists, and computationalmodelers of cognitive development. These groups arebroadly interested in the same questions, i.e. what is thenature of speech and language, and how might a systemlearn to process it in supervised or unsupervised ways?Since the groups interested in these questions work ondifferent analysis levels, cross-pollination has been sparse.Recent technological innovations have made collectinglong naturalistic recordings of children’s home environmentfar simpler than in the past. However, the raw output of suchrecordings is not immediately usable for most analyses.Simultaneously, speech technology (ST) and machinelearning tools have improved immensely over the pastdecade, making it feasible to use such tools withincreasingly diverse and noise-laden data. Relatedly,cognitively viable computational models have made recentstrides in explaining learning and development, but fewsuch models can be applied to novel data-sets withoutencountering many hurdles about translatability acrossframeworks. This workshop brings together experts from allof these areas, and seeks to build bridges across them, withinsight from other similar interdisciplinary efforts in otherareas of cognitive science. Talks will discuss the matchbetween the theory-driven questions researchers would liketo ask, and the answers the current state of the art allows.The program committee is part of a newly formed groupcalled DARCLE (Daylong Audio Recordings of Children’sLanguage Environment); with the help of an NSF grant,DARCLE has created a repository called HomeBank forraw data, metadata, and analysis/processing tools for long-form recordings of child language. This workshop is anopportunity to network with related efforts in Europe, andfor a talk and demo of a related effort, the NSF-fundedSpeech Recognition Virtual Kitchen

Interactive spatiotemporal cognition:Data, theories, architectures, and autonomy

Everyday interactions often depend on thinking about spaceand time: collaborators need to know where events takeplace – and in what order – to, e.g., communicate drivingdirections, build pieces of furniture, or carry out strategicoperations in military and sports settings (Núñez &Cooperrider, 2013). A simple set of driving directions mayrequire a listener to interpret and reason about the spatialrelations – such as next to and behind – and the temporalrelations – such as after and during – that a speakerdescribes. The speaker may also use gestures to substitute,supplement, or disambiguate linguistic descriptions (Holle& Gunter, 2007; Perzanowski, Schultz, & Williams, 1998).Such rapid, rich, and productive interactions are transientand difficult to analyze behaviorally, and so they pose achallenge for experimenters. They are grounded in thephysical world, and accordingly challenge computationalmodels that cannot digest rich perceptual and environmentalinput in real time. Robotic systems are geared towardsprocessing and acting upon the physical world – and theyincreasingly support human-robotic interaction (e.g., Fonget al., 2006; Kawamura et al., 2003; Kortenkamp et al.,1999). But they, too, are uniquely challenged in maintainingproductive interactive exchanges with human teammates,because they must be tolerant of human idiosyncrasies,preferences, limitations, and errors (Trafton et al., 2013).Because these challenges cut across broad interests incognitive science – such as linguistics, artificial intelligence,robotics, and psychology – progress is unlikely without theengagement of multiple approaches, from psychologicalexperimentation to the construction of autonomous,embodied systems. In recent years, progress towardsunderstanding interactive spatiotemporal cognition hasaccelerated along parallel paths: there exist new behavioraland imaging methodologies to study event segmentation(e.g., Radvansky & Zacks, 2014), spatial inference (e.g.,Knauff & Ragni, 2013), and gestural cognition (e.g.,Novack et al., 2016); novel computational theories ofunderstanding physical reasoning (e.g., Battaglia et al.,2013) and mental simulation (e.g., Khemlani & Johnson-Laird, 2013); cognitive architectures that support richinteractivity (Huffman & Laird, 2014; Trafton et al., 2013);and a wide variety of technological platforms on which totransform theory into embodied interaction.The goal of the workshop is to allow these parallelapproaches to converge. Discussants will share recent dataand theory, consider novel architectural approaches, anddemonstrate burgeoning technological advances thatadvance the science of spatiotemporal inference. Theworkshop will promote interdisciplinary collaboration byfocusing on three unifying themes

Tutorials

Tutorial: Meta-Analytic Methods for Cognitive Science

Meta-analysis is a powerful yet underused tool in cognitive sci-ence. It allows researchers to leverage entire bodies of litera-ture to get a broad and quantitative overview of a particularphenomenon, thereby promoting theory development, and tomake more precise estimates of effect sizes, which enablesrobust planning of prospective studies (e.g. through power-analyses). In this tutorial, we will introduce meta-analysis as atool with which to inform everyday research, and provide par-ticipants with hands-on experience conducting their own meta-analysis. We will also present an online platform we have de-veloped for conducting meta-analyses in the field of languagedevelopment: MetaLab (http://metalab.stanford.edu).

Symposia

Comics and cognitive systems: The processing of visual narratives

Humans have drawn sequential images as a means ofexpression throughout history, from cave paintings andfrescoes to wall-carvings and tapestries (McCloud, 1993). Incontemporary society, we find them most prevalently incomics of the world, and over the past two decades,increasing attention has turned to this communicativesystem in the cognitive sciences.Earlier work often focused on theory alone, drawing fromparadigms in linguistics or semiotics (for review, see Cohn,2012; Wildfeuer & Bateman, 2016) or from theoristsoutside academia (e.g., McCloud, 1993). However, newerstudies test theoretical predictions with empirical corpusanalyses and both behavioral and neurocognitiveexperimentation. As in language research, combining thesemethodologies provides converging evidence on thestructure of visual narratives, their diversity across theworld, and their comprehension by minds and brains.Recent research has especially focused on the overlappingcognition between the processing of the “visual languages”constituting drawn visual narratives and the linguisticsystems of verbal and signed languages (Cohn, 2013;Magliano, Larson, Higgs, & Loschky, 2015). Thesepresentations further such analyses, and explore questionsrelated to the degree to which these visual languages sharemechanisms with linguistic and other cognitive systems.

Brain Science and Education: Is it Still a Bridge Too Far?

Does neuroscience have the potential to inform education? In this debate, three participants will describe emerging results in neuroscience with translatable links to learning and memory. Experts in learning sciences will discuss connections as well as limits in the ways that neuroscience can inform education at the individual and classroom levels. Although significant progress has been made in our understanding of how the brain learns and remembers, the question for this symposium is whether this progress does or can provide a direct bridge from brain science to education.

Aligning implicit learning and statistical learning: Two approaches, one phenomenon

The past 15-20 years have witnessed a particularly strong interest in our ability to rapidly extract structured information from the environment. This fundamental process of human cognition is widely believed to underpin many complex behaviors – from language development and social interaction to intuitive decision making and music cognition – so this interest spans practically all branches of cognitive science. Research on this topic can be found in two related, yet traditionally distinct research strands, namely "implicit learning" (Reber, 1967) and "statistical learning" (Saffran, Aslin, & Newport, 1996). Both lines of research focus on how we acquire information from complex stimulus domains and both rely heavily on the use of artificial systems (e.g., finite-state grammars, pseudoword lexicons). In typical experiments, participants are initially exposed to stimuli generated by an artificial system and then tested to determine what they have learned. Given these and other significant similarities, Perruchet and Pacton (2006) argue that these distinct lines of research actually represent two approaches to a single phenomenon, and Conway and Christiansen (2006) propose combining the two in name: "implicit-statistical learning". Yet, despite frequent acknowledgements that researchers in implicit learning and statistical learning might essentially be looking at the same phenomenon, there is surprisingly little alignment between the two strands. This symposium seeks to remedy this situation by bringing together leading researchers from both areas in order to promote a shared understanding of research questions and methodologies, to discuss similarities and differences between the two approaches, and to work towards a joint research agenda. The symposium comprises four presentations, followed by a thematic discussion, which provide coverage of these phenomena in terms of development (children and adults), different language learning tasks (sublexical phonotactics, word acquisition, grammar learning), and their role in both production and comprehension, each integrating multidisciplinary perspectives. Gomez focuses on implicit-statistical learning in early development, identifying words and grammatical sequences and the memory systems that underlie this learning. Monaghan and Rebuschat measure word learning and grammar learning in adults, while varying the knowledge that participants have of the structure they are acquiring. Dell and Anderson demonstrate how their work on acquisition of phonotactic constraints is exhibited in speakers’ productions, and discuss the inter-relation in speech between implicit and statistical learning. Finally, Conway provides an overview of the two fields, and proposes a novel framework that unifies implicit learning and statistical learning.

Papers

Explaining December 4, 2015:Cognitive Science Ripped from the Headlines

Do the discoveries of cognitive science generalize beyondartificial lab experiments? Or do they have little hope ofhelping us to understand real-world events? Fretting on thisquestion, I bought a copy of the Wall Street Journal andfound that the three front page headlines each connect tomy own research on explanatory reasoning. I report tests ofthe phenomena of inferred evidence, belief digitization, andrevealed truth in real-world contexts derived from theheadlines. If my own corner of cognitive science has suchexplanatory relevance to the real world, then cognitivescience as a whole must be in far better shape yet.

Modeling category learning using a dual-system approach: A simulation ofShepard, Hovland and Jenkins (1961) by COVIS

This paper examines the ability of a dual-system, formal modelof categorization COVIS (Ashby, Paul & Maddox, 2011) topredict the learning performance of participants on the six cat-egory structures described in Shepard, Hovland and Jenkin’s(1961) seminal study. COVIS assumes that category learningis mediated by two dissociable neural systems that compete tocontrol responding. The verbal system explicitly tests verbal-izable rules, whereas the implicit system gradually associateseach stimulus with the appropriate response. Although COVISis highly influential, there are no published evaluations of theformal model against classic category learning data (COVIS ismost typically applied heuristically to the design of new exper-iments). In the current paper, we begin to address this gap inthe literature. Specifically, we demonstrate that COVIS is ableto accommodate the ordinal pattern found by Shepard et al.,provided that adjustments consistent with the model’s theoret-ical framework are made.

Using Prior Data to Inform Model Parameters in the Predictive Performance Equation

The predictive performance equation (PPE) is a mathematical model of learning and retention that attempts to capitalize on the regularities seen in human learning to predict future performance. To generate predictions, PPE’s free parameters must be calibrated to a minimum amount of historical performance data, leaving PPE unable to generate valid predictions for initial learning events. We examined the feasibility of using the data from other individuals, who performed the same task in the past, to inform PPE’s free parameters for new individuals (prior-informed predictions). This approach could enable earlier and more accurate performance predictions. To assess the predictive validity of this methodology, the accuracy of PPE’s individualized and prior-informed predictions before the point in time where PPE can be fully calibrated using an individual’s unique performance history. Our results show that the prior data can be used to inform PPE’s free parameters, allowing earlier performance predictions to be made.

Modeling Impairments in Lexical Development

We implemented the connectionist model of social-pragmaticword learning (Caza & Knott, 2012) to test the hypothesis thatreduced joint attention between infant and mother wouldincrease the difference in acquisition between nouns andverbs as observed in Autistic Spectrum Disorder (ASD). Theratio of objects to actions in the observed event stream wasmanipulated to create an original noun-verb asymmetry. Tensimulations were run for each of the combinations of threeconditions of communicative reliability and two conditions ofunfiltered random associative learning, which is regarded bysome researchers as the primary mechanism of languagelearning in ASD. The simulations indicated that the reductionin the reliability of communicative actions does not lead toincreased noun-verb asymmetry within the originally plannedtraining epochs. A trend in the predicted direction appearedtoward the end of training, suggesting that further simulationsmay help resolve the issue within the current architecture.

Monolinguals’ and Bilinguals’ Use of Language in Forming Novel Object Categories

Monolinguals and bilinguals differ along a number ofdimensions, including way they label existing objectcategories (Pavlenko & Malt, 2011). In the present study, weask whether English monolinguals, Spanish-Englishbilinguals, and English-Spanish bilinguals also differ in theway they use language when forming novel categories.Previous research with monolinguals shows that a sharedlabel encourages children (e.g., Waxman & Markow, 1995)and adults (e.g., Lupyan, Rakison, & McClelland, 2007) toplace objects together. Our results further demonstrate thatwhen two objects shared a Licit Word label like “zeg,”monolinguals and bilinguals alike are encouraged to groupthem together. Illicit Words like “gxz,” on the other hand,only influence the categorization decisions of bilinguals.Thus, bilinguals appear to be more flexible in their use oflinguistic information in categorization. Neither group madeuse of non-linguistic cues (patterned frames), suggesting aunique role for language in category formation.

Learning How To Throw Darts The Effect Of Modeling Type And Reflection On Dart-Throwing Skills

In this study we investigate the effect of modeling type and reflection on the acquisition of dart-throwing skills, self- efficacy beliefs and self-reaction scores by replicating a study by Kitsantas, Zimmerman, and Cleary (2000). Participants observing a coping model were expected to surpass participants observing a mastery model who in turn were expected to outperform participants who learned without a model. Reflection was hypothesized to have a positive effect. Ninety undergraduate students were tested three times on dart-throwing skills, self-efficacy beliefs, and self-reaction scores. Contrary to what was expected, we found no main effects of modeling type and reflection. No interaction effects were found either. There was an effect of trial, indicating that participants improved dart-throwing skills, self-efficacy beliefs, and self-reaction scores over time. Furthermore, self- efficacy beliefs and dart-throwing skill were highly correlated. Our results suggest that learners do not benefit from observing a model and reflecting, but practice makes perfect.

On the Tragedy of Personnel Evaluation

In social-dilemma situations (public-good games) people may pursue their local, egoistic interests and thereby lower the global, overall payoff of their group and, paradoxically, even their own resulting payoff. One may also speak of intra- individual dilemmas, where people pursue local goals at the expense of their overall utility. Our current experiments transfer this idea to the context of personnel evaluation and personnel selection. In our experiments, participants were put in the position of a Human Resources manager, who should for instance select workers who optimize the overall payoff of the company, rather than those who optimize only their specific payoffs. The results of the experiments, however, suggest that most, albeit not all, participants tended to focus on directly comparing individuals without considering the overall contribution to a group. Thus employees with the best overall effects for a company or organization may be evaluated the most negatively. This possible ‘tragedy of personnel evaluation’ may be linked to maladaptive incentive structures (personnel evaluation), advancement of employees (personnel promotion) and job offers (personnel selection), and may have a substantial negative impact on the effectiveness of companies or organizations.

Are we ON the same page? Monolingual and bilingual acquisition of familiar and novel relational language

Verbs and prepositions pose significant challenges in second language learning, as languages differ in how they map these relational terms onto events. Second language learners must put aside their language-specific lens to uncover how a new language operates, perhaps having to rediscover semantic distinctions typically ignored in the first language. The current study examines how the acquisition of these novel mappings are affected by characteristics of the learner and of the language to be learned. English monolinguals and Dutch- English bilinguals learned novel terms that corresponded to containment and support relations of either English, Dutch, or Japanese. Results show that English distinctions are learned best across groups, potentially reflecting predispositions in human cognition. No differences were found between monolinguals and bilinguals in any language condition. The characteristics of the language to be learned appear to play a prominent role in the acquisition of novel semantic categories.

Dissociable effects of cue validity on bias formation and reversal

In two experiments we manipulated the prior probabilityof occurrence for two alternatives. After a first learningsession, in a second session the cue to bias the decisionwas reversed. Our investigation shows that subjects areable to learn the reverse bias only when the bias of the firstsession is in line with their expected outcome. When, dur-ing the first session, the actual outcome of the bias is notin line with the expected outcome, there is an inhibitionfor the reversal bias learning in the second session. Weinvestigate this phenomenon with computational modelsof choice showing that the inhibition of reversal is due toan increase in the rate at which subjects accumulate evi-dence for repeated, unexpected stimuli. We discuss a pos-sible theoretical explanation that links this phenomenonto similar results found in the literature on reversal learn-ing and to the effect of novelty on learning.

Effects of experience in a developmental model of reading

There is considerable evidence showing that age ofacquisition (AoA) is an important factor influencing lexicalprocessing. Early-learned words tend to be processed morequickly compared to later-learned words. The effect could bedue to the gradual reduction in plasticity as more words arelearned. Alternatively, it could originate from differenceswithin semantic representations. We implemented the trianglemodel of reading including orthographic, phonological andsemantic processing layers, and trained it according toexperience of a language learner to explore the AoA effects inboth naming and lexical decision. Regression analyses on themodel’s performance showed that AoA was a reliablepredictor of naming and lexical decision performance, and theeffect size was larger for lexical decision than for naming.The modelling results demonstrate that AoA operatesdifferentially on concrete and abstract words, indicating thatboth the mapping and the representation accounts of AoAwere contributing to the model’s performance.

Differentiating between Encoding and Processing during Diagnostic Reasoning: An Eye tracking study.

When finding a best explanation for observed symptoms a multitude of information has to be integrated and matched against explanations stored in memory. Although assumptions about ongoing memory processes can be derived from the process models, little process data exists that would allow to sufficiently test these assumptions. In order to explore memory processes in diagnostic reasoning, 29 participants were asked to solve a visual reasoning task (the Black Box paradigm) where critical information had to be retrieved from memory. This study focused on differentiating between processes that take place during the encoding and the evaluation of symptom information by comparing eye movement measures (the number of fixation and fixation duration per dwell). Results will be discussed in light of existing theories on sequential diagnostic reasoning. Further, it will be discussed to which extent eye movements can be informative about memory processes underlying sequential diagnostic reasoning.

Young children and adults integrate past expectations and current outcomes toreason about others’ emotions

Reasoning about others’ emotions is a crucial component in so-cial cognition. Here, we tested the ability of preschool childrento reason about an agent’s emotions following an unexpectedoutcome. Importantly, we controlled for the actual payoff ofthe outcome, while varying the prior expectation of the agents.Five-year-olds, but not four-year-olds, were able to correctlyjudge an agent’s emotions following an unexpected outcome(Experiment 1). When explicitly provided with the agent’s ex-pectations, 4-year-olds were then also able to correctly judgethe agent’s feelings (Experiment 2). Our results suggest thatthe ability to reason about emotions given outcomes and priorexpectations develops by 4 years of age, while the ability tospontaneously infer such prior expectations develops soon af-ter. We discuss our results in light of the developmental litera-ture on emotion understanding and counterfactual reasoning.

Language does not explain the wine-specific memory advantage of wine experts

Although people are poor at naming odors, naming a smell helps to remember that odor. Previous studies show wine experts have better memory for smells, and they also name wine and wine-related smells differently than novices. This leads us to ask whether wine experts’ odor memory is verbally mediated? In addition, does the odor memory advantage that experts have over novices generalize to all odors, or is it restricted to odors in their domain of expertise? Twenty-four wine experts and 24 novices smelled wines, wine-related odors and common odors, and were asked to remember these. Critically, half of the participants were asked to name the smells in addition to memorizing them, while the other half just remembered the smells. Wine experts had better memory for wines, but not for wine-related or common odors, indicating their memory is restricted to odors from their domain of expertise. Wine experts were also found to be more consistent and accurate than novices in their descriptions. But there was no relationship between experts’ ability to name odors and their memory for odors. This suggests experts’ odor memory advantage is not linguistically mediated, but may be the result of differential perceptual learning.

Sub-Categorical Properties of Stimuli Determine the Category-Order Effect

The category-order effect (COE) is observed when the categorical properties of items within the first half of a given list affect recall performance in a mixed-list serial-recall task. The present study examines whether the advantage is due to other sub-categorical properties (e.g., orthographic similarity and word frequency) rather than an artifact of stimuli used in previous studies (e.g., numbers vs. nouns). Participants were presented with numeric stimuli and nouns from a variety of semantic categories while their orthography and word frequency were systematically manipulated. The results suggest that a large portion of the COE can be attributed to the sub-categorical properties of the items.

Causal Learning With Continuous Variables Over Time

When estimating the strength of the relation between a cause(X) and effect (Y), there are two main statistical approachesthat can be used. The first is using a simple correlation. Thesecond approach, appropriate for situations in which thevariables are observed unfolding over time, is to take acorrelation of the change scores – whether the variablesreliably change in the same or opposite direction. The mainquestion of this manuscript is whether lay people use changescores for assessing causal strength in time series contexts.We found that subjects’ causal strength judgments were betterpredicted by change scores than the simple correlation, andthat use of change scores was facilitated by naturalisticstimuli. Further, people use a heuristic of simplifying themagnitudes of change scores into a binary code (increase vs.decrease). These findings help explain how people uncovertrue causal relations in complex time series contexts.

Viewing time affects overspecification:Evidence for two strategies of attribute selection during reference production

Speakers often produce definite referring expressions that areoverspecified: they tend to include more attributes than neces-sary to distinguish the target referent. The current paper inves-tigates how the occurrence of overspecification is affected byviewing time. We conducted an experiment in which speakerswere asked to refer to target objects in visual domains. Half ofthe speakers had unlimited time to inspect the domains, whileviewing time was limited (1000 ms) for the other half. The re-sults reveal that limited viewing time induces the occurrenceof overspecification. We conjecture that limited viewing timecaused speakers to rely heavily on quick heuristics during at-tribute selection, which urge them to select attributes that areperceptually salient. In the case of unlimited inspection time,speakers seem to rely on a combination of heuristic and moredeliberate selection strategies.

Trump supported it?! A Bayesian source credibility model applied to appeals tospecific American presidential candidates’ opinions

The credibility of politicians is crucial to their persuasivenessas election candidates. The paper applies a parameter-freeBaysian source credibility model (integrating trustworthinessand epistemic authority) in a real-life test predictingparticipants’ posterior belief in the goodness of an unnamedpolicy after a named candidate has publically supported orattacked it.Two studies test model predictions against policy supportand attack of five presidential candidates from the USA.Model predictions were measured against observed posteriorbelief in the goodness of the policy.The results strongly suggest the model captures essentialtraits of how participants update beliefs in policies givenappeals to a candidates’ support of attack. Further, individualdifferences suggest that people consider other factors thanthe ones elicited for the study. More studies into appeals tospecific candidates are warranted to construct more accuratemodels of the influence of source credibility on politicalreasoning.

Expressive faces are remembered with less pictorial fidelity than neutral faces

A repeated finding in the literature of face recognition is thatexpressive faces are remembered better than neutral faces.However, a better facial-identity recognition may come at acost of a reduced precision with which the pictorial facial fea-tures, irrelevant for identity recognition, are represented inmemory. By means of a continuous-report task, we testedthis hypothesis by measuring the memory precision of ex-pressive and neutral faces. Commensurable face-identity andfacial-expressions variations were generated with the methodof Fechnerian scaling. The results confirm our hypothesis, butonly under conditions of high memory load. We interpret thepresent findings as due to the effects of the categorical pro-cesses required for facial-identity recognition.

Three barriers to effective thought experiments, as revealed by a system thatexternalizes students’ thinking

This study aimed to develop a Thought Experiment External-izer (TE-ext) and to apply it in order to observe barriers toproblem solving. TE-ext enables students to visualize a prob-lem situation. Users of TE-ext can implement changes in thesituation and see the result as an animation. Experimentaluse of TE-ext identified three barriers to conducting an effec-tive thought experiment (TE). First, participants tended not tochange the situation from the original one; second, incorrect orinappropriate knowledge was applied to the situation; third, theparticipants did not apply the results of their TE to other situa-tions. These factors prevented participants from rejecting theirinitial incorrect model and finding a new one through TEs.

Mind reading: Discovering individual preferences from eye movements using switching hidden Markov models

Here we used a hidden Markov model (HMM) based ap- proach to infer individual choices from eye movements in preference decision-making. We assumed that during a deci- sion making process, participants may switch between explo- ration and decision-making periods, and this behavior can be better captured with a Switching HMM (SHMM). Through clustering individual eye movement patterns described in SHMMs, we automatically discovered two groups of partici- pants with different decision making behavior. One group showed a strong and early bias to look more often at the to-be chosen stimulus (i.e., the gaze cascade effect; Shimojo et al., 2003) with a short final decision-making period. The other group showed a weaker cascade effect with a longer final de- cision-making period. The SHMMs also showed capable of inferring participants’ preference choice on each trial with high accuracy. Thus, our SHMM approach made it possible to reveal individual differences in decision making and discover individual preferences from eye movement data.

Semantic Contamination of Visual Similarity Judgments

The roles of semantic and perceptual information in cognition are of widespread interest to many researchers. However, disentangling their contributions is complicated by their overlap in real-world categories. For instance, attempts to calibrate visual similarity based on participant judgments are undermined by the possibility that semantic knowledge contaminates these judgments. This study investigated whether inverting stimuli attenuates semantic contamination of visual similarity judgments in adults and children. Participants viewed upright and inverted triads of familiar animals, and judged which of two test items looked most like the target. One test item belonged to the same category as the target, and one belonged to a different category. Test items’ visual similarity to the target either corresponded or conflicted with category membership. Across age groups, conflicting category membership reduced accuracy and slowed reaction times to a greater extent in upright than inverted triads. Therefore, inversion attenuates semantic contamination of visual similarity judgments.

Human Reinforcement Learning of Sequential Action

Learning sequential actions is an essential human ability, formost daily activities are sequential. We modify the serial reac-tion time (SRT) task, originally used to teach people a con-sistent sequence of button presses by cueing them with thenext target response, to record mouse movements, collectingcontinuous response trajectories. Further, we introduce a rein-forcement learning version of the paradigm in which the nexttarget is not cued. Instead, learners must explore response al-ternatives, and receive a penalty for each incorrect response,as well as a reward for a correct response. Participants arenot told that they are to learn a single deterministic sequenceof responses, nor that it will repeat (nor how often), nor howlong it is. Given the difficulty of the task, it is unsurprisingthat some learners performed poorly. However, many learn-ers performed remarkably well, and some acquired the full 10-item sequence within 10 repetitions. We compare the high- andlow-performers’ detailed results in this reinforcement learning(RL) task with a cued trajectory SRT task, finding both simi-larities and discrepancies. Finally, we note that humans in thistask outperform three standard RL models and have differentpatterns of errors that suggest future modeling directions.

The Role of the Prefrontal Cortex in Inductive Reasoning: An fNIRS Study

This study examined neural activity associated with inductive inference using functional Near Infrared Spectroscopy (fNIRS). Induction is a powerful way of generating new knowledge by generalizing known information to novel items or contexts. Two key bases for identifying targets for induction are perceptual similarity, and rules that specify category- relevant features. Similarity- and rule-based induction have been argued to represent distinct mechanisms, such that only rule-based induction requires executive function processes associated with the prefrontal cortex (PFC), namely: active maintenance of representations and inhibition of salient but irrelevant features. Here, we address the lack of direct empirical evidence supporting this possibility by recording PFC activity using fNIRS while adult participants (n=24) performed an inductive inference task. We found that PFC activity during induction was greater when participants had been taught a category-inclusion rule versus when participants could only rely on overall similarity.

The Emergence of Linguistic Consciousness and the ‘hard problem’

Ray Jackendoff (2007) claims that most work on consciousness deals “almost exclusively with visualexperience” and suggests to focus more on linguistic awareness. Jackendoff proposes that phonologicalability – to divide utterances into words and syllables – is at the core of linguistic consciousness. Thisaccount can be supplemented by empirical research on language acquisition. Focusing on the step-by-stepemergence of linguistic consciousness in infancy can offer new and potentially fruitful angles forinvestigating states of consciousness. In addition computational models of word segmentation andpossible implications for linguistic consciousness are discussed.

An Empirical Evaluation of Models for How People Learn Cue Search Orders

We propose simple parameter-free models that predict howpeople learn environmental cue contingencies, use this infor-mation to measure the usefulness of cues, and in turn, use thesemeasures to construct search orders. To develop the models,we consider a total of 8 previously proposed cue measures,based on cue validity and discriminability, and develop simpleBayesian and biased-Bayesian learning mechanisms for infer-ring these measures from experience. We evaluate the modelpredictions against people’s search behavior in an experimentin which people could freely search cues for information todecide between two stimuli. Our results show that people’sbehavior is best predicted by models relying on cue measuresmaximizing short-term accuracy, rather than long-term explo-ration, and using the biased learning mechanism that increasesthe certainty of inferences about cue properties, but does notnecessarily learn true environmental contingencies.

A Deep Siamese Neural Network Learns the Human-Perceived SimilarityStructure of Facial Expressions Without Explicit Categories

In previous work, we showed that a simple neurocomputa-tional model The Model, or TM) trained on the Ekman &Friesen Pictures of Facial Affect (POFA) dataset to catego-rize the images into the six basic expressions can account forwide array of data (albeit from a single study) on facial ex-pression processing. The model demonstrated categorical per-ception of facial expressions, as well as the so-called facialexpression circumplex, a circular configuration based on MDSresults that places the categories in the order happy, surprise,fear, sadness, anger and disgust. Somewhat ironically, the cir-cumplex in TM was generated from the similarity between thecategorical outputs of the network, i.e., the six numbers rep-resenting the probability of the category given the face. Here,we extend this work by 1) using a new dataset, NimsStims,that is much larger than POFA, and is not as tightly controlledfor the correct Facial Action Units; 2) using a completely dif-ferent neural network architecture, a Siamese Neural Network(SNN) that maps two faces through twin networks into a 2Dsimilarity space; and 3) training the network only implicitly,based on a teaching signal that pairs of faces are in either inthe same or different categories. Our results show that in thissetting, the network learns a representation that is very similarto the original circumplex. Fear and surprise overlap, whichis consistent with the inherent confusability between these twofacial expressions. Our results suggest that humans evolvedin such a way that nearby emotions are represented by similarappearances.

On the adaptive nature of memory-based false belief

Previous studies have shown that people’s memories are changeable, and systematic incorrect memories (e.g., false memory) can be created. We hypothesize that people’s beliefs about the real world can be changed similarly to the way systematic incorrect memories and systematic incorrect beliefs (which we call memory-based false belief) are generated. We also predict that since memory-based false beliefs are consistent with abstract knowledge that is consisted with prototypical patterns and organization found in the real world, false beliefs work adaptively in making inferences about environmental information in the real world. We conducted behavioral and simulation studies in order to examine our hypotheses on people’s beliefs and inferences about the real world. The results showed that participants had systematic false beliefs about cities’ attributes (e.g., whether they have a professional baseball team), and that such false beliefs worked adaptively in making inferences about population size.

Causal Action: A Fundamental Constraint on Perception of Bodily Movements

Human actions are more than mere body movements. In contrast to other dynamic events in the natural world, human actions involve mental processes that enable willful bodily movements. We reported two experiments to demonstrate that human observers spontaneously assign the role of cause to relative limb movements, and the role of effect to body motion (i.e., the position changes of the body center of mass) when observing actions of others. Experiment 1 showed that this causal action constraint impacts people’s impression on the naturalness of observed actions. Experiment 2a/b revealed that the causal constraint guides the integration of different motion cues within a relational schema. We developed an ideal observer model to rule out the possibility that these effects resulted from the learning of statistical regularity in action stimuli. These findings demonstrate that causal relations concerning bodily movements play an important role in perceiving and understanding actions.

A Computational Exploration of Problem-Solving Strategies and Gaze Behaviorson the Block Design Task

The block design task, a standardized test of nonverbal reason-ing, is often used to characterize atypical patterns of cognitionin individuals with developmental or neurological conditions.Many studies suggest that, in addition to looking at quantita-tive differences in block design speed or accuracy, observingqualitative differences in individuals’ problem-solving strate-gies can provide valuable information about a person’s cogni-tion. However, it can be difficult to tie theories at the levelof problem-solving strategy to predictions at the level of ex-ternally observable behaviors such as gaze shifts and patternsof errors. We present a computational architecture that is usedto compare different models of problem-solving on the blockdesign task and to generate detailed behavioral predictions foreach different strategy. We describe the results of three differ-ent modeling experiments and discuss how these results pro-vide greater insight into the analysis of gaze behavior and errorpatterns on the block design task.

Preferring the Mighty to the Meek: Toddlers Prefer Novel Dominant Agents.

Every human society includes social hierarchies— relationships between individuals and groups of unequal rank or status. Recent research has shown that even preverbal infants represent hierarchical relationships, expecting larger agents and agents from larger groups to win dominance contests. However, to successfully navigate social hierarchies, infants must also integrate information about social rank into their own behavior, such as when deciding which individuals to approach and which to avoid. Here we demonstrate that two- year-old children (ages 21-31 months) preferred novel dominant agents to subordinates. That is, by the age of 21 months, toddlers not only use phylogenetically stable cues to predict the winner of dominance contests, they also like the dominant agents better. This finding suggests that young children use their ability to infer relative rank to selectively approach dominant individuals.

Unifying Conflicting Perspectives in Group Activities:Roles of Minority Individuals

For drawing higher-level perspectives in group activi-ties, resolving conflicts among group members is cru-cial. We investigated group activities with four memberswherein one member had a different perspective fromthe other three. Four members engaged in a rule discov-ery task in which they were required to unify conflictsfor the solution. Through two experiments, we investi-gated two hypotheses: 1) Innovative high-level perspec-tives are more likely to emerge from a minority individ-ual than from the majority of group members, 2) Groupmembers on the majority side might tend to have moreegocentric perspectives than an individual on the minor-ity side. Both hypotheses were supported.

Blink durations reflect mind wandering during reading

Mind wandering is a prevalent but highly subjective phenomenon that is difficult to measure. Typically studies use probes at random points throughout at study that pop in and ask participants “Are you mind wandering” where they indicate yes or no, and then resume the study. This study investigated a method of extracting eye blinks from raw eye tracking data while participants were reading texts that varied in degree of engagingness on a similar topic. Blink durations were found to increase for less engaging texts. We hypothesize that eye blink durations may increase with mind wandering and discuss implications for mind wandering research.

The Influence of Reputation Concerns and Social Biases on Children’s SharingBehavior

The present research builds on prior work on the social-contextualnature of children’s generosity by systematically examining bothobserver effects and whether the recipient is an in-group or out-group member. Although previous research has examined thesefactors independently, no study to date has examined them inconjunction. We also extend prior research by including bothmeasures of sharing behavior and children’s evaluations of sharingscenarios, and by investigating a larger sample (N=164) with abroader age range than is typical of prior research (5- to 9-year-olds). We found that, across the entire age range tested, childrenwere generous when observed and gave more to in-group membersthan out-group members, and that there was no interaction betweenthese effects. We also found that children’s own sharing behaviorpredicted their evaluations of sharing scenarios, with childrenrating in-group sharing as "nicer" than out-group sharing.

Are There Hidden Costs to Teaching Mathematics with Incorrect Examples?

This study aims to address potential costs of using incorrectworked examples in teaching mathematics. While suchpractice has been shown to be effective in educationalresearch, previous findings in the memory literature suggestthat exposure to an incorrect solution may lead students tolater believe that it is correct due to increased familiarity. Wedesigned a two-session experiment with 1-week delay inwhich students studied correct and incorrect worked outexamples. We found only small changes in students’ ability tosuccessfully distinguish between correct and incorrectsolutions over time. Students did rate the previously studiedincorrect examples as being more correct after the 1-wkdelay, but this did not affect their correctness ratings of newcorrect and incorrect worked examples or their problemsolving accuracy. We conclude that the unique nature ofmathematical problem solving may protect students from thedangers of using incorrect worked examples.

Interaction of Instructional Material Order and Subgoal Labels on Learning in Programming

Subgoal labeled expository instructions and worked examples have been shown to positively impact student learning and performance in computer science education. This study examined whether problem solving performance differed based on the order of expository instructions and worked examples and the presence of subgoal labels within the instructions for creating applications (Apps) for phones. Participants were 132 undergraduates. A significant interaction showed that when learners were presented with the worked example followed by the expository instructions containing subgoal labels, the learner was better at outlining the procedure for creating an application. However, the manipulations did not affect novel problem solving performance or explanations of solutions,. These results suggest that some limited benefit can be gained from presenting a worked example before expository instructions when subgoal labels are included.

No Effect of Verbal Labels for the Shapes on Type II Categorization Tasks

Category learning is thought to be mediated—in at least some category structures—by hypothesis-testing processes. Verbal labels for the stimuli and stimulus individuation have been shown to facilitate the formation, testing, and application of rules of category membership (Fotiadis & Protopapas, 2014). We sought to replicate the phenomenon of facilitation due to verbal names for the stimuli by training participants for two consecutive days to either learn new names for abstract shapes, or learn shape-ideogram pairings; a third group was unexposed to the shapes. After training, participants were given a Type II categorization task—thought to be mediated by verbal processes of rule discovery—utilizing the trained shapes. We hypothesized that verbal labels for the shapes and shape individuation would provide facilitative effects in learning to categorize. Results revealed no effect of training on categorization performance. This study suggests that caution should be taken when generalizing findings across perceptual modalities or different experimental paradigms.

Context-dependent Processes and Engagement in Reading Literature

It does not do the act of reading literature any justice to de-scribe it as simply processing text to acquire information orknowledge. We enjoy reading stories, we become absorbed inthem. Our absorption into stories is related to their contextualstructure. We develop a statistical method for the analysis ofreading time distributions which allows us to assess the con-text of a story rather than merely its text. This analysis detectsstatistically distinct distributions of reading times, with eachdistribution representing a distinct process or mode of read-ing. Our experiments support the hypothesis that the temporalchange in these modes of reading are related to changes in thedegrees of absorption of the subjects and also in the contextualstructure of the stories being read.

Effects of Working Memory Training on L2 Proficiency andWorking Memory Capacity

The current study examined the effects of workingmemory training on working memory capacity andsecond language ability in adult learners ofSpanish. In order to maximize the effect of the trainingfor language learners, the stimuli for the training taskswere Spanish words and sentences. While the traininggroup did not show greater improvements on workingmemory assessments relative to controls, they did showmore native-like patterns in a Spanish self-paced readingtask. The combination of second language materials withworking memory training may be helping users learn tocope with the increased processing demands associatedwith learning a new language, even if they are notnecessarily improving their working memory.

Representation: Problems and Solutions

The current orthodoxy in cognitive science, what I describe as a commitment to deep representationalism, faces intractable problems. If we take these objections seriously, and I will argue that we should, there are two possible responses: 1. We are mistaken that representation is the locus of our cognitive capacities — we manage to be the successful cognitive agents in some other, non-representational, way; or, 2. Our representational capacities do give us critical cognitive advantages, but they are not fundamental to us qua human beings. As Andy Clark has convincingly argued, anti- representationalism, option one, is explanatorily weak. Consequently, I will argue, we need to take the second option seriously. In the first half of the paper I rehearse the problems with the current representational view and in the second half of the paper I defend and give a positive sketch of a two-systems view of cognition – a non-representational perceptual system coupled with a representational language-dependent one – and look at some consequences of the view.

Lasting Political Attitude Change Induced by False Feedback About Own SurveyResponses

False feedback on choices has been documented to inducelasting preference change. Here we extend such effects to thepolitical domainand investigatethetemporal persistence ofinduced preferences, as well as, the possible role the length ofconfabulatory justifications may play. We conducted a two-day choice blindness experiment using political statements,with sessions being roughly one week apart. Changes inpolitical preferences remained one week after initialresponses, and were most prominent in participants who wereallowed to confabulate freely. These findings, being the firstto demonstrate lasting preference change using choiceblindness, are discussed in light of constructivist approachesto attitude formation through a process of self-perception.

How should autonomous vehicles behave in moral dilemmas? Humanjudgments reflect abstract moral principles

Self-driving autonomous vehicles (AVs) have the potential tomake the world a safer and cleaner place. A challengeconfronting the development of AVs is how these vehiclesshould behave in traffic situations where harm is unavoidable.It is important that AVs behave in ethically appropriate waysto mitigate harm. Ideally, they should obey a system ofprinciples that both concur with human moral judgments andare ethically defensible. Here we compare people’s moraljudgments of AV programming with their judgments aboutthe behavior of human drivers, with the goal of beginning toidentify such principles. As many debates within ethicsremain unresolved, empirical investigations like ours mayguide the development of ethical AVs (Bonnefon et al., 2015).In addition, people’s judgments about the behavior of AVsmay serve as a window into the abstract principles peopleapply in their moral reasoning.

Examining Search Processes in Low and High Creative Individuals with RandomWalks

The creative process involves several cognitive processes,such as working memory, controlled attention and taskswitching. One other process is cognitive search oversemantic memory. These search processes can be controlled(e.g., problem solving guided by a heuristic), or uncontrolled(e.g., mind wandering). However, the nature of this search inrelation to creativity has rarely been examined from a formalperspective. To do this, we use a random walk model tosimulate uncontrolled cognitive search over semanticnetworks of low and high creative individuals with an equalnumber of nodes and edges. We show that a random walkover the semantic network of high creative individuals “finds”more unique words and moves further through the networkfor a given number of steps. Our findings are consistent withthe associative theory of creativity, which posits that thestructure of semantic memory facilitates search processes tofind creative solutions.

Determining the alternatives for scalar implicature

Successful communication regularly requires listeners to makepragmatic inferences — enrichments beyond the literal mean-ing of a speaker’s utterance. For example, when interpretinga sentence such as “Alice ate some of the cookies,” listenersroutinely infer that Alice did not eat all of them. A Griceanaccount of this phenomenon assumes the presence of alterna-tives (like “all of the cookies”) with varying degrees of infor-mativity, but it remains an open question precisely what thesealternatives are. To address this question, we collect empiricalmeasurements of speaker and listener judgments about vary-ing sets of alternatives across a range of scales and use these asinputs to a computational model of pragmatic inference. Thisapproach allows us to test hypotheses about how well differ-ent sets of alternatives predict pragmatic judgments by peo-ple. Our findings suggest that comprehenders likely considera broader set of alternatives beyond those logically entailed bythe initial message.

The Role of Similarity in Constructive Memory: Evidence from Tasks with Children and Adults

Literature on memory research shows that when memorizing, people may blend two situations, i.e. when memorizing one story, they add elements from another story. Most of the cognitive models assume that the superficial similarity between two episodes is the primary factor for blending. However, there is evidence that people blend dissimilar stories as well, if these stories share the same relational structure. We contrasted the two factors in a single study and performed experiments with the same design and stimuli with adults and with 4-5-year-old children. The results show that there is no qualitative difference between the performance of adults and children. Also, both adults and children blend either pictures that have surface or structural similarity depending on the abstractness of the objects in them.

Dual process theory of reasoning and recognition memory errors:Individual differences in a memory prose task

Cognitive factors can mediate the tendency to create falsememory. We explored the role of the two systems ofreasoning in the production of false memories. Suchdifference can be assessed through the Cognitive ReflectionTest (CRT), a measure of the propensity to reflect rather thanproducing an intuitive response. By the use of a DRM-likeparadigm in a prose recognition memory task, we measuredCRT-related individual differences in producing falsememories. We observed that intuitive thinkers are more likelyto produce false memories.

A neurocomputational model of the effect of learned labels on infants’ objectrepresentations

The effect of labels on nonlinguistic representations is the focusof substantial debate in the developmental literature. A recentempirical study (Twomey & Westermann, 2016) suggested thatlabels are incorporated into object representations, such thatinfants respond differently to objects for which they know alabel relative to unlabeled objects. However, these empiricaldata cannot differentiate between two recent theories ofintegrated label-object representations, one of which assumeslabels are features of object representations, and one whichassumes labels are represented separately, but become closelyassociated with learning. We address this issue using aneurocomputational (auto-encoder) model to instantiate boththeoretical approaches. Simulation data support an account inwhich labels are features of objects, with the samerepresentational status as the objects’ visual and hapticcharacteristics.

A neural network model of hierarchical category development

Object recognition and categorization is a fundamental aspectof cognition in humans and animals. Models have been imple-mented around the idea that categories are sets of frequentlyco-occurring features. Out of these models a question has beenraised, namely what is the mechanism by which we learn a hi-erarchically organized set of categories, including types andsubtypes? In this paper we introduce such a model, the Domi-nant Property Assembly Network (DPAN). DPAN uses an un-supervised neural network to model an agent which developsa hierarchy of object categories based on highly correlated ob-ject features. Initially, the network generates representations ofhigh-level object types by identifying commonly co-occurringsets of features. Over time, the network will start to use aninhibition of return (IOR) operation to examine the featuresof a categorized object that make it unusual as an instance ofits identified category. The result is a network which, earlyin training, represents classes of objects using coarse-grainedcategories and recognizes objects as members of these generalclasses, but eventually is able to recognize subtle differencesbetween subtypes of objects within the broad classes, and rep-resent objects using these more fine-grained categories.

Improving Visual Memory with Auditory Input

Can input in one sensory modality strengthen memory in adifferent sensory modality? To address this question, weasked participants to encode images presented in variouslocations (e.g., a depicted dog in the top left corner of thescreen) while they heard spatially uninformative sounds.Some of these sounds matched the image (e.g., the word“dog” or a barking sound) while others did not. In asubsequent memory test, participants were better atremembering the locations of images that were encoded witha matching sound, even though these sounds were spatiallyuninformative – an effect that was mediated by whether thesounds were verbal or non-verbal. Because the sounds did notprovide any relevant location information, better spatialmemory cannot be attributed to auditory memory; rather, it isattributed to visual memory being strengthened by thematching auditory input. These findings provide the firstbehavioral evidence for cross-modal interactions in memory.

Measuring lay theories of parenting and child development

Parenting practices are known to play an important role inshaping children’s outcomes. For example, children whoseparents engage them in high-quality conversations and whoare given opportunities for free play are at an advantage forlearning and later academic outcomes. However, communicat-ing the results of relevant scientific findings to parents remainsa challenge. One possible moderator of uptake of parentinginformation is the implicit theories parents hold with regardto child development and parenting. As a first step in inves-tigating this possibility, the present work establishes a newmeasure of parenting attitudes including three subscales cor-responding to attitudes about rules and respect, affection andattachment, and early learning. We then examine whether sub-scale scores predict uptake of new information about children’slearning. Scores on the Early Learning subscale, but not theRules and Respect subscale, predicted generalization from thearticle, providing initial evidence of the validity of this mea-sure.

Emotions in lay explanations of behavior

Humans use rich intuitive theories to explain other people’sbehavior. Previous work in lay psychology of behavior havetended to treat emotion as causing primarily unintentional be-havior (e.g., being sad causes one to cry), neglecting how peo-ple incorporate emotions into explanations of rational, inten-tional actions. Here, we provide preliminary explorations intointegrating emotions into a theory of folk psychology. Specif-ically, we show that in the lay theory, people are willing toendorse emotions as causes of intentional actions. Moreover,people readily attribute beliefs and desires as explanations foremotional expressions. This work provides a first step in elabo-rating people’s rich understanding of emotions as an importantcomponent of intuitive social cognition.

But vs. Although under the microscope

Previous experimental studies on concessive connectiveshave only looked at their local facilitating or predictive ef-fect on discourse relation comprehension and have oftenviewed them as a class of discourse markers with simi-lar effects. We look into the effect of two connectives,but and although, for inferring contrastive vs. concessivediscourse relations to complement previous experimentalwork on causal inferences. An offline survey on AMTurkand an online eye-tracking-while-reading experiment areconducted to show that even between these two connec-tives, which mark the same set of relations, interpretationsare biased. The bias is consistent with the distribution ofthe connective across discourse relations. This suggeststhat an account of discourse connective meaning based onprobability distributions can better account for compre-hension data than a classic categorical approach, or an ap-proach where closely related connectives only have a coremeaning and the rest of the interpretation comes from thediscourse arguments.

Tangible models and haptic representations aid learning of molecular biology

Can novel 3D models help students develop a deeperunderstanding of core concepts in molecular biology? Weadapted 3D molecular models, developed by scientists, foruse in high school science classrooms. The models accuratelyrepresent the structural and functional properties of complexDNA and Virus molecules, and provide visual and hapticfeedback about biomolecular properties that are often implicitin traditional models. We investigated: 1) Can we measureconceptual growth on core concepts? 2) Do lessons with 3Dmodels improve student outcomes on these measures?, and 3)What factors mediate learning? Model use yielded measurablegains in conceptual knowledge and the greatest gains wererelated to how actively models were used during a lesson andthe facilitative role adopted by the teachers.

Structure-sensitive Noise Inference: Comprehenders Expect Exchange Errors

Previous research has found that comprehenders are willingto adopt non-literal interpretations of sentences whose literalreading is unlikely. Several studies found evidence that com-prehenders decide whether or not a given utterance should betaken at face value in accordance with principles of Bayesianrationality, by weighing the prior probability of potential inter-pretations against the degree to which they are (in)consistentwith the literal form of the utterance. While all of these re-sults are consistent with string-edit noise models, many errorprocesses are known to be sensitive to the underlying linguis-tic structure of the intended utterance. Here, we explore thecase of exchange errors and provide experimental evidencethat comprehenders’ noise model is structure-sensitive. Ourresults add further support to the noisy-channel theory of lan-guage comprehension, extend the set of known noise opera-tions to include positional exchanges, and show that compre-henders’ noise models are well-adapted to structure-sensitivesources of signal corruption during communication.

No stereotype threat effect in international chess

We examine data from over 6.6 million games of tour-nament chess between players rated by the internationalchess authority, FIDE. Previous research has focussed onthe low representation of women in chess. We repli-cate and extend previous analysis (Chabris and Glickman,2006) on an international level. We find no support fordifferential variability, differential drop-out between maleand female players, or social context (in the form of pro-portion of female players at a national level) as drivers ofdrivers of male-female differences. Further, we examinegames between mixed and same gender pairs for evidenceof a ‘stereotype threat’ effect. Contrary to previous re-ports, we find no evidence of stereotype threat. Thoughthis analysis contradicts one specific mechanism wherebygender stereotype may influence players, the persistentdifferences between male and female players suggeststhat systematic factors do exist and remain to be uncov-ered.

‘Unlikely’ Outcomes Might Never Occur, But What About ‘Unlikely (20% Chance)’ Outcomes?

A commonly suggested solution to reduce misinterpretations of verbal probability expressions in risk communications is to use a verbal-numerical (mixed format) approach, but it is not known whether this increases understanding over and above a purely numerical format. Using the ‘which outcome’ methodology (Teigen & Filkuková, 2013), we examined the effect of using verbal, numerical and mixed communication formats, as well as investigating whether marking outcomes as salient would alter the outcomes people perceived as ‘unlikely’ or having a 20% chance of occurring. We observed no effect of saliency, but replicated previous findings, with general preference for values at the high end of a distribution (including maximum/above maximum values) present in both verbal and mixed communication formats. This demonstrates the relevance of these findings for real-world consequential risk communication. Whilst the estimates differed between the mixed and numerical formats, we found that the mixed format yielded the more accurate estimates.

Visual Statistical Learning Deficits in Children with Developmental Dyslexia:an Event Related Potential Study

A growing body of research suggests that individuals withdevelopmental dyslexia perform below typical readers onnon-linguistic cognitive tasks involving the learning andencoding of statistical-sequential patterns. However, theneural mechanisms underlying such a deficit have not beenwell examined. The aim of the present study was toinvestigate the ERP correlates of sequence processing in asample of children diagnosed with dyslexia using aprobabilistic visual serial learning paradigm. The behavioralresults revealed that whereas age-matched typicallydeveloping children (n=12) showed learning in the task asreflected by their response times, the children with dyslexia(n=8) likely showed difficulty in learning. In conjunction withthese behavioral results, the ERPs of the typically developingchildren showed a P300-like response indicative of thisparadigm (Jost et al., 2015); whereas, the children diagnosedwith a reading disorder showed no such ERP effects. Thesefindings are consistent with the idea that differences instatistical-sequential learning ability might underlie thereading deficits observed in developmental dyslexia.

The St. Petersburg Paradox: A Subjective Probability Solution

The St. Petersburg Paradox (SPP), where people are willing topay only a modest amount for a lottery with infinite expectedgain, has been a famous showcase of human (ir)rationality.Since inception multiple solutions have been proposed,including the influential expected utility theory. Criticismsremain due to the lack of a priori justification for the utilityfunction. Here we report a new solution to the long-standingparadox, which focuses on the probability weightingcomponent (rather than the value/utility component) incalculating the expected value of the game. We show that anew Additional Transition Time (AT) based measure,motivated by both physics and psychology, can naturally leadto a converging expected value and therefore solve theparadox.

A test of two models of probability judgment: quantum versus noisy probability

We test contrasting predictions of two recent models of proba-bility judgment: the quantum probability model (Busemeyeret al., 2011) and the probability theory plus noise model(Costello and Watts, 2014). Both models assume that peo-ple estimate probability using formal processes that follow orsubsume standard probability theory. The quantum probabil-ity model predicts people’s estimates should agree with oneset of probability theory identities, while the probability the-ory plus noise model predicts a specific pattern of violation ofthose identities. Experimental results show just the form of vi-olation predicted by the probability theory plus noise model.These results suggest that people’s probability judgments donot follow quantum probability: instead, they follow the rulesof standard probability theory, with the systematic biases seenin those judgments due to the effects of random noise.

Influence of 3D images and 3D-printed objects on spatial reasoning

In this study, we experimentally investigated the influence ofa three-dimensional (3D) graphic image and a 3D-printed ob-ject on a spatial reasoning task in which participants were re-quired to infer cross sections of a liver in a situation where liverresection surgery was presupposed. The results of the studyindicated that using a 3D-printed object produced more accu-rate task performance and faster mental model construction ofa liver structure than a 3D image. During the task, using a3D-printed object was assumed to reduce cognitive load andinformation accessing cost more than using a 3D image.

Making it Right: Can the Right-Hemisphere Compensate for Language Function in Patients with Left-Frontal Brain Tumors?

Both the degree to which the left-hemisphere is specialized for language and the relative ability of the right-hemisphere to subserve language function are underspecified. The present study sought to identify whether the right-frontal fMRI activation seen in a number of case studies in patients with left-sided brain lesions exists as a group-level trend in patients with left-frontal tumors. It also sought to examine the possible compensatory nature of this activation. Thus, a retrospective analysis of 197 brain tumor patients who had undergone pre-surgical fMRI language mapping was conducted. Patients with left-frontal tumors were found to be more likely to show right- or co-dominant fMRI activation during language mapping tasks compared to patients who had tumors elsewhere in the brain. Further, patients with left-frontal tumors who were identified as right- or co-dominant for language were found to possess more intact language function as measured by the Boston Naming Test.

Spatial Meaning is Retained in Emotion Metaphors: Some Evidence from Spanish

Previous work has shown that the abstract use of the prepositions in and on retains spatial meaning, such as containment and support that includes the control relationship between a located object (the figure) and a reference object (the ground). We extend these ideas to the case of metaphorical descriptions of emotion in Spanish – some of them featuring the emotion as a located entity in the person ́s body, and some of them featuring emotion as the ground in which the person ́s body stands. Two rating experiments show that people judge emotions as more “controllable” when they are described as located entities (the figure) than when they are described as grounds.

Explanatory Judgment, Probability, and Abductive Inference

Abductive reasoning assigns special status to the explanatorypower of a hypothesis. But how do people make explana-tory judgments? Our study clarifies this issue by asking: (i)How does the explanatory power of a hypothesis cohere withother cognitive factors? (ii) How does probabilistic informa-tion affect explanatory judgments? In order to answer thesequestions, we conducted an experiment with 671 participants.Their task was to make judgments about a potentially explana-tory hypothesis and its cognitive virtues. In the responses, weisolated three constructs: Explanatory Value, Rational Accept-ability, and Entailment. Explanatory judgments strongly co-hered with judgments of causal relevance and with a sense ofunderstanding. Furthermore, we found that Explanatory Valuewas sensitive to manipulations of statistical relevance relationsbetween hypothesis and evidence, but not to explicit infor-mation about the prior probability of the hypothesis. Theseresults indicate that probabilistic information about statisticalrelevance is a strong determinant of Explanatory Value. Moregenerally, our study suggests that abductive and probabilisticreasoning are two distinct modes of inference.

The impact of biased hypothesis generation on self-directed learning

Self-directed learning confers a number of advantages relativeto passive observation, including the ability to test hypothe-ses rather than learn from data generated by the environment.However, it remains unclear to what extent self-directed learn-ing is constrained by basic cognitive processes and how thoselimits are related to the structure of the to-be-learned material.The present study examined how hypothesis generation af-fects the success of self-directed learning of categorical rules.Two experiments manipulated the hypothesis generation pro-cess and assessed its impact on the ability to learn 1D and 2Drules. Performance was strongly influenced by whether thestimulus representation facilitated the generation of hypothe-ses consistent with the target rule. Broadly speaking, the find-ings suggest that the opportunity to actively gather informa-tion is not enough to guarantee successful learning, and thatthe efficacy of self-directed learning closely depends on howhypothesis generation is shaped by the structure of the learn-ing environment.

Representing Sequence: The Influence of Timeline Axis and Directionon Causal Reasoning in Litigation Law

Can the representation of event sequence influence how jurorsremember and reason in a legal case? We addressed this ques-tion by examining the interaction between an individual’s pre-ferred spatial construal of time (SCT) for an external (visual-spatial) representation and the SCT of a courtroom graphic.One hundred fifty three undergraduates played the role of ju-rors in a fictitious civil trial. The details of a case were re-counted in a multimedia presentation featuring timelines an-imated in one of four orientations: left-right, right-left, top-bottom, and bottom-top. Participants were assessed on mea-sures of comprehension and causal reasoning. Results indi-cated effects of timeline orientation and SCT choice behav-ior on comprehension and reasoning. We discuss these resultsin terms of the role of attention in temporal-causal reasoning,and implications for the design of multimedia materials for thecourtroom.

Attractivity Weighting: Take-the-Best’s Foolproof Sibling

We describe a prediction method called “Attractivity Weighting” (AW). In the case of cue-based paired comparison tasks, AW predicts a weighted average of the cue values of the most successful cues. In many situations, AW’s prediction is based on the cue value of the most successful cue, resulting in behavior similar to Take-the-Best (TTB). Unlike TTB, AW has a desirable characteristic called “access optimality”: Its long-run success is guaranteed to be at least as great as the most successful cue. While access optimality is a desirable characteristic, concerns may be raised about the short-term performance of AW. To evaluate such concerns, we here present a study of AW’s short-term performance. The results suggest that there is little reason to worry about the short-run performance of AW. Our study also shows that, in random sequences of paired comparison tasks, the behavior of AW and TTB is nearly indiscernible.

A Perception-Based Threshold for Bidirectional Texture Functions

For creating photorealistic images, Computer Graphics re-searchers introduced Bidirectional Texture Functions (BTFs),which use view- and illumination-dependent textures for ren-dering. BTFs require massive storage, and several proposalswere made on how to compress them, but very few take intoaccount human perception. We present and discuss an exper-imental study on how decreasing the texture resolution influ-ences perceived quality of the rendered images. In a visualcomparison task, observer quality judgments and gaze datawere collected and analysed to determine the optimal down-sampling of BTF data without significant loss of their per-ceived visual quality.

Influencing Categorical Choices Through Physical Object Interaction

Recent research has shown that action knowledgeinfluences categorical decisions (Borghi, Flumini, Natraj &Wheaton, 2012; Chao & Martin, 2000; Iachini, Borghi &Senese, 2008; Kalénine, Shapiro, Flumini, Borghi &Buxbaum, 2013). Shipp, Vallée-Tourangeau, and Anthony,(2014) showed that action influences categorisation in aforced-choice triad task when combined with taxonomicinformation and presented within a functional context. Thepresent experiment examined whether participants wouldbe more likely to match items in a triad task based onshared actions following priming with the functionalactions of the objects. Participants engaged in the triad taskused in Shipp et al. after a priming phase where they eitherinteracted with a series of objects for their functionalcapacity (Action Priming), grouped them into categories(Taxonomic Priming) or moved them from one table toanother (Movement Priming). Items within the triads werepresented as an image either on a white background(context-lean condition) or as a functional scene with theobject being used by an agent (context-rich condition).Consistent with Shipp et al. the results showed that actionwas primarily used to base choices on the triad task whenthe action choice also shared a taxonomic relation, and waspresented in context. Additionally, participants were morelikely to select the action related item when they had beenprimed with the functional action of the objects. The resultsare discussed in terms of the transfer effect from the objectinteraction task that facilitates how the objects aresimulated (Barsalou, 1999, 2003; Yeh & Barsalou, 2006).

Dynamics of Strategy Adaptation in a Temporally Extended Monty Hall Dilemma

We present the results of two temporally extendedexperimental implementations of the Monty Hall dilemma inorder to examine the dynamics of belief. In the firstexperiment, we used the standard three-door version of thedilemma, but biased the probability of the winning doorpositionally. Participants capitalized on the increasedprobabilities but did not discover the optimal switch strategy.In the second experiment, we increased the number of doors,in each case removing all but two doors. As the number ofdoors increased, participants converged on the optimal switchstrategy, as well as increasing their confidence in theirstrategy. This suggests that the information relevant to theMHD is not win frequencies but how the different elements ofthe dilemma are related.

Causal Contrasts Promote Algebra Problem Solving

The causal-contrast approach is a new teaching method thatrecruits learners’ implicit causal discovery process to improvemath learning by juxtaposing contrasting information criticalto discovering the goal of each solution step. Students oftenblindly memorize mathematical procedures and havedifficulty transferring their knowledge to novel problems. Byenabling learners to infer the goal of each step, the causal-contrast approach substantially improved high-school algebraproblem solving compared to a traditional instructionalcontrol (Walker, Cheng & Stigler, 2014). The present studydeveloped Walker et al.’s instructional materials into acomputer-based teaching program and tested the newapproach on community-college students, a population forwhom the traditional approach is often ineffective. The studyadded two new conditions: a baseline that received noinstruction and a condition using a teaching video from KhanAcademy, a well-regarded online educational websiterepresentative of the traditional approach. A delayed post-testindicated that the causal-contrast condition produceddramatically greater success in solving transfer problems thanthe other three conditions.

A connectionist model for automatic generation of child-adult interaction patterns

This study introduces a neural network that models thesocial interactions from a video corpus. The corpusconsists of recordings of naturalistic observations ofsocial interactions among children and theirenvironment. The videos are annotated multimodallyincluding features like gestures. We explore how thisvideo corpus can be utilized for modelling by trainingour model on a portion of the annotated data extractedfrom the corpus, and then by using the model to predictnovel interaction sequences. We evaluate our model bycomparing its automatically generated sequences to anunseen portion of the corpus data. The initial resultsshow strong similarities between the generatedinteractions and those observed in the corpus.

Connections between ACT-R’s declarative memory system and Minerva2

As a first step towards applying ACT-R to problems of like-lihood judgment, we draw parallels between ACT-R and Hy-Gene. More specifically, in the spirit of theory integration, wedemonstrate the relation between ACT-R’s declarative memorysystem and the core of HyGene: Minerva2. We first start bytransforming ACT-R’s activation equations into what is in ourview a more intuitive form. This form then allows us to moretransparently see the correspondence of the effect of prior his-tory between the two theories and of the current context be-tween them. The results provide insights into the workings ofthe two theories and open an avenue for future attempts of the-ory integration, not only between the two theories, but also torelated theories of memory. Moreover, we hope these resultswill be important steps toward testing ACT-R’s capabilities ofaccounting for judgment phenomena.

Distributed Cognition in the Past Progressive: Narratives as Representational Tools for Clinical Reasoning

Cognition may require access to past events, for example to understand undesirable outcomes or diagnose failures. When cognition is distributed between multiple participants, a particular representational challenge occurs because not all of the participants may have directly experienced the focal event. Language can transcend temporal and physical limitations on event accessibility. We suggest that people create complex linguistic constructs as tools to facilitate retrospective cognition. We illustrate this process by analyzing the use of a particular linguistic construct (narrative) in the domain of clinical reasoning. Results demonstrated that narratives support clinical cognition during practitioner-patient interactions. Narratives extended access to clinically relevant events providing information about circumstances, subjective experiences, patient functioning, and prior decisions. Whereas, the hermeneutic nature of narrative allowed collaborative hypothesis testing and creation of meaning. The use of narrative in clinical cognition challenges Bruner’s (1991) distinction between narrative and paradigmatic reasoning and enriches the understanding of medical narratives.

Predicting Overprecision in Range Estimation

Overprecision (overconfidence in interval estimation) is a biaswith clear implications for economic outcomes in industriesreliant on forecasting possible ranges for future prices andunknown states of nature - such as mineral and petroleumexploration. Prior research has shown the ranges peopleprovide are too narrow given the knowledge they have – thatis, they underestimate uncertainty and are overconfident intheir knowledge. The underlying causes of this bias are,however, still unclear and individual differences research hasshed little light on traits predictive of susceptibility. Takingthis as a starting point, this paper directly contrasts the NaïveSampling Model and Informativeness-Accuracy Tradeoffaccounts of overprecision – seeing which better predictsperformance in an interval estimation task. This was achievedby identifying traits associated with these theories – ShortTerm Memory and Need for Cognitive Closure, respectively.Analyses indicate that NFCC but not STM predicts intervalwidth and thus, potentially, impacts overprecision.

A Dynamic Neural Field Model of Speech Cue Compensation

Categorical speech content can often be perceived directlyfrom continuous auditory cues in the speech stream, buthuman-level performance on speech recognition tasksrequires compensation for contextual variables like speakeridentity. Regression modeling by McMurray and Jongman(2011) has suggested that for many fricative phonemes, acompensation scheme can substantially increasecategorization accuracy beyond even the information from 24un-compensated raw speech cues. Here, we simulate thesame dataset instead using a neurally rather than abstractlyimplemented model: a hybrid dynamic neural field model andconnectionist network. Our model achieved slightly loweraccuracy than McMurray and Jongman’s but similar accuracypatterns across most fricatives. Results also comparedsimilarly to more recent models that were also less neurallyinstantiated but somewhat closer fitting to humans inaccuracy. An even less abstracted model is an immediatefuture goal, as is expanding the present model to additionalsensory modalities and constancy/compensation effects.

The face-space duality hypothesis: a computational model

Valentine’s face-space suggests that faces are represented in apsychological multidimensional space according to their per-ceived properties. However, the proposed framework was ini-tially designed as an account of invariant facial features only,and explanations for dynamic features representation were ne-glected. In this paper we propose, develop and evaluate a com-putational model for a twofold structure of the face-space, ableto unify both identity and expression representations in a singleimplemented model. To capture both invariant and dynamicfacial features we introduce the face-space duality hypothesisand subsequently validate it through a mathematical presen-tation using a general approach to dimensionality reduction.Two experiments with real facial images show that the pro-posed face-space: (1) supports both identity and expressionrecognition, and (2) has a twofold structure anticipated by ourformal argument.

Fuse to be used: A weak cue’s guide to attracting attention

Several studies examined cue competition in human learning by testing learners on a combination of conflicting cues rooting for different outcomes, with each cue perfectly predicting its outcome. A common result has been that learners faced with cue conflict choose the outcome associated with the rare cue (the Inverse Base Rate Effect, IBRE). Here, we investigate cue competition including IBRE with sentences containing cues to meanings in a visual world. We do not observe IBRE. Instead we find that position in the sentence strongly influences cue salience. Faced with conflict between an initial cue and a non-initial cue, learners choose the outcome associated with the initial cue, whether frequent or rare. However, a frequent configuration of non-initial cues that are not sufficiently salient on their own can overcome a competing salient initial cue rooting for a different meaning. This provides a possible explanation for certain recurring patterns in language change.

Stereotype-Based Intuitions: A Psycholinguistic Approach to ExperimentalPhilosophy’s ‘Sources Project’

Experimental philosophy’s ‘sources project’ seeks to developpsychological explanations of philosophically relevantintuitions which help us assess their evidentiary value. Thispaper develops a psycholinguistic explanation of intuitionsprompted by brief philosophical case-descriptions. For proofof concept, we target intuitions underlying a classic paradoxabout perception (‘argument from hallucination’). We tracethem to stereotype-driven inferences automatically executedin verb comprehension. We employ a forced-choiceplausibility-ranking task to show that contextuallyinappropriate stereotypical inferences are made from lesssalient uses of the verb “to see”. This yields a debunkingexplanation which resolves the philosophical paradox.

Mechanisms for storing and accessing event representations in episodic memory,and their expression in language: a neural network model

We present a neural network model of how events are storedin and retrieved from episodic long-term memory (LTM). Themodel is novel in giving an explicit account of the workingmemory (WM) medium mediating access to episodic mem-ory: it makes a specific proposal about how representations ofevents and situations in WM interface with representations ofevents and situations in episodic memory. It also provides theframework for an account of how operations accessing tempo-rally remote situations are reported in language.

What Makes You Feel You Are Learning: Cues to Self-Regulated Learning

While learning in a multitext environment increases with therise of electronic environments, little is known about whatmakes learners feel that they should continue learning oralready learn enough from one text. The current study aimedat examining what cues learners use to regulate their effortamong multiple sources in a multitext environment. Bymanipulating the amount of new information and conceptualoverlap across texts within a topic, we created three types oftext environments to generate different trajectories of twocues to perceived learning, new information (measured byrating of perceived new information) and encoding fluency(measured by ratings of reading ease). Results showed thatthe dominant cue to gauge perceived learning was theperceived amount of new information. The study extendedtheories in animal foraging and metacognition, andestablished a novel paradigm to better investigate adultlearning in the wild.

A Tale of Two Disasters: Biases in Risk Communication

Risk communication, where scientists inform policy-makersor the populace of the probability and magnitude of possibledisasters, is essential to disaster management – enablingpeople to make better decisions regarding preventative steps,evacuations, etc. Psychological research, however, hasidentified multiple biases that can affect people’sinterpretation of probabilities and thus risk. For example,availability (Tversky & Kahneman, 1973) is known toconfound probability estimates while the description-experience gap (D-E Gap) (Hertwig & Erev, 2009) shows lowprobability events being over-weighted when described andunder-weighted when learnt from laboratory tasks. This paperexamines how probability descriptions interact with realworld experience of events. Responses from 294 participantsacross 8 conditions showed that people’s responses, given thesame described probabilities and consequences, were alteredby their familiarity with the disaster (bushfire vs earthquake)and its salience to them personally. The implications of thisfor risk communication are discussed.

Individual Differences in Pupil Dilation during Naming Task

The present study investigates individual differences in pupildilation during standard word naming. We looked at (i) howindividual subjects’ pupil size changes over the course of timeand (ii) how well pupil size is predicted by the frequency ofthe stimuli. The time course of the pupil size was analysedwith generalized additive modeling. The results show large in-dividual variations in the pupil response pattern in this verysimple task. Although, we see a pupil response to both stimu-lus onset and articulation onset and offset, both the amplitudeof change and the direction of change differ substantially be-tween subjects. This raises the question of what makes thepupil response functions so diverse, and one factor indicatedby the frequency effect or the lack thereof might be shallowreading versus reading for content.

Modeling Commonsense Reasoning via Analogical Chaining: A Preliminary Report

Understanding the nature of commonsense reasoning is one ofthe deepest questions of cognitive science. Prior work hasproposed analogy as a mechanism for commonsense reasoning,with prior simulations focusing on reasoning about continuousbehavior of physical systems. This paper examines howanalogy might be used in commonsense more broadly. The twocontributions are (1) the idea of common sense units,intermediate-sized collections of facts extracted fromexperience (including cultural experience) which improvesanalogical retrieval and simplifies inferencing, and (2)analogical chaining, where multiple rounds of analogicalretrieval and mapping are used to rapidly constructexplanations and predictions. We illustrate these ideas via animplemented computational model, tested on examples froman independently-developed test of commonsense reasoning.

Social Cues Modulate Cognitive Status of Discourse Referents

We use visual world eye-tracking to test if a speaker’s eyegaze to a potential antecedent modulates the listener’sinterpretation of an ambiguous pronoun. Participants listenedto stories that included an ambiguous pronoun, such as “Thedolphin kisses the goldfish... He....” During the pre-pronominal context, an onscreen narrator gazed at one of thetwo characters. As expected, participants looked more at thesubject character overall. However, this was modulated by thenarrator’s eye gaze and the amount of time the participantspent looking at the gaze cue. For trials in which participantsattended to the narrator’s eye gaze for > 500ms, participantswere significantly more likely to interpret the pronoun asreferring to the object if the narrator had previously looked atthe object. Results suggest that eye gaze – a social cue – cantemper even strong linguistic/cognitive biases in pronounresolution, such as the subject/first-mention bias.

Hysteresis in Processing of Perceptual Ambiguity on Three DifferentTimescales

Sensory information is a priori incomplete andambiguous. Our perceptual system has to makepredictions about the sources of the sensoryinformation, based on concepts from perceptualmemory in order to create stable and reliablepercepts. We presented ambiguous anddisambiguated lattice stimuli (variants of the Neckercube) in order to measure a hysteresis effects invisual perception. Fifteen healthy participantsobserved two periods of ordered sequences oflattices with increasing and decreasing ambiguityand indicated their percepts, in two experimentalconditions with different starting stimuli of theordered sequence. We compared the stimulusparameters at the perceptual reversal betweenconditions and periods and found significantdifferences between conditions and periods,indicating memory contributions to perceptualoutcomes on three different time scales frommilliseconds over seconds up to lifetime memory.Our results demonstrate the fruitful application ofphysical concepts like hysteresis andcomplementarity to visual perception.

Critical Features of Joint Actions that Signal Human Interaction

We examined the visual perception of joint actions, in whichtwo individuals coordinate their body movements in space andtime to achieve a joint goal. Animations of interacting actionpairs (partners in human interactions) and non-interacting ac-tion pairs (individual actors sampled from different interactionsequences) were shown in the experiment. Participants wereasked to rate how likely the two actors were interacting. Therating data were then analyzed using multidimensional scalingto recover a two-dimensional psychological space for repre-senting joint actions. A descriptive model based on ordinallogit regression with a sparseness constraint was developed toaccount for human judgments by identifying critical featuresthat signal joint actions. We found that identification of jointactions could be accomplished by assessing inter-actor correla-tions between motion features derived from body movementsof individual actions. These critical features may enable rapiddetection of meaningful inter-personal interactions in complexscenes.

Visual constraints modulate stereotypical predictability of agents during situatedlanguage comprehension

We investigated how constraints imposed by the concurrentvisual context modulate the effects of prior gender and actioncues as well as of stereotypical knowledge during situatedlanguage comprehension. Participants saw videos of female ormale hands performing an action and then inspected a displayshowing the faces of two potential agents (one male and onefemale face) as they listened to German OVS sentences aboutstereotypically female or male actions. Unlike previousexperiments (Rodriguez et al., 2015), the display concurrentwith the sentence also showed a picture of the object of thevideotaped action and a ‘competitor object’ (with oppositestereotypical valence) that had not appeared in the video butcould be mentioned in the sentence. We measured eyemovements to the faces of the agents during comprehension.The design manipulated the match between the videotapedaction and the action described by the sentence (action-verb(phrase) match) and the match between the stereotypicalvalence of the verbally described action and the gender of theagent of the previous video (conveyed only by the hands;stereotypicality match). We replicated the results obtained inRodríguez et al. (2015): an overall target agent preference (i.e.the agent whose gender matched that of the hands seen in theprevious video), reduced by action-verb mismatches. However,unlike in their study, mismatch effects emerged earlier. Inaddition, stereotypicality effects emerged in the verb region.The earlier mismatch effects and added stereotypicality effectssuggest that the visual availability of the objects, perhapsjointly with the verbal input, facilitated the activation ofrepresentations from the recent videos (speeding up mismatcheffects) and the consideration of alternative representations,favoring stereotypical expectations.

Biases and Benefits of Number Lines and Pie Charts in Proportion Representation

In two experiments, we investigate how adults think aboutproportion across different symbolic and spatialrepresentations in a comparison task (Experiment 1) and atranslation task (Experiment 2). Both experiments showresponse patterns suggesting that decimal notation provides asymbolic advantage in precision when representing numericalmagnitude, whereas fraction notation does not. In addition,pie charts may show some advantages above number lineswhen translating between representations. Lastly, our findingssuggest that the translation between number lines andfractions may be particularly error-prone. We discuss whatthese performance patterns suggest in terms of how adultsrepresent proportional information across these differentformats and some potential avenues through which theseadvantages and disadvantages may arise, suggesting newquestions for future work.

Exploring the Relationship between Adolescents’Interest in Algebra and Procedural Declines

Algebra I is considered a gatekeeper course for highereducation, high-paying jobs, and access to STEM careers, yetmany students find themselves struggling to learn algebra.Prior research links intrinsic motivation for learning mathwith mathematics achievement, particularly duringadolescence. The current study measured middle schoolstudents’ interest in algebra and their procedural skills acrossthe span of an algebra unit to determine whether students whoshow declines in algebraic problem-solving also show adecline in a particular type of intrinsic motivation – interest inalgebra. Pre-test and post-test scores were used to categorizeparticipants into those who showed declines in problem-solving skills and those who did not. Of the overall sample (N= 367), a group of 25 students showed declining skills overthe course of the unit. These students also showed significantdeclines in interest in mathematics from pre- to post-test incomparison to students who did not show procedural declines.Our findings support the relationship between performanceand motivation in the classroom, particularly in algebra class.Educational implications are discussed.

Factors Influencing Categorization Strategy in Visual Category Learning

Studies in visual category learning show that participants usedifferent category generalization strategies. Some studies re-port a preference for a rule-based strategy, while others reporta preference for a similarity-based strategy. We conducted cat-egory learning experiments in which we varied three variables— family resemblance of a category, saliency of the definingrule and presentation of transfer stimulus after a delay. Ourresults show that these factors influence the choice of categorygeneralization strategy. Our study offers a possible explanationfor the divergent results in the literature.

Simulating Developmental Changes in Noun Richness throughPerformance-limited Distributional Analysis

In this paper we examine how a mechanism that learns wordclasses from distributional information can contribute to thesimulation of child language. Using a novel measure of nounrichness, it is shown that the ratio of nouns to verbs in youngchildren’s speech is considerably higher than in adult speech.Simulations with MOSAIC show that this effect can bepartially (but not completely) explained by an utterance-finalbias in learning. The remainder of the effect is explained bythe early emergence of a productive noun category, which canbe learned through distributional analysis.

The Comprehension of English Garden-path Sentences byMandarin and Korean Learners of English as a Second Language

How the properties of a first language (Mandarin, Korean)influence the comprehension of sentences in a secondlanguage (English) was investigated in a series of self-pacedreading time studies. Native Mandarin- and Korean-speakinglearners of English were compared with native Englishspeakers on how they resolved a temporary ambiguity aboutthe relationship between a verb and the noun following it in asentence (e.g., The club members understood [that] thebylaws would be applied to everyone.). Frequency biases ofverbs’ subcategorization structure (direct-object-bias vs.sentential-complement-bias) was manipulated in Experiment1. Results showed that L1-Mandarin learners of L2-Englishwere able to use both the verb bias and the complementizercue, and their usage of these cues was not modulated byproficiency. L1-Mandarin learners’ use of the verb bias cuecontrasts with previously reported findings with L1-Koreanlearners of L2-English, who showed sensitivity to verb biasonly in higher proficiency learners (Lee, Lu, & Garnsey,2013). The difference between L1-Mandarin and L1-Koreanlearners suggests that L1 word order (Mandarin & English,SVO; Korean SOV) influences how quickly L2 learners learnword-order-dependent cues about structures in the L2.Experiment 2 added plausibility manipulation (e.g., The clubmembers understood the bylaws/the pool...). Neither thenative speakers or the L2 groups (L1-Mandarin L2-English &L1-Korean L2-English) used plausibility to disambiguatesentences, challenging the claims that L2 learners rely moreheavily on plausibility than syntactic cues during sentenceprocessing.

Choice adaptation to increasing and decreasing event probabilities

A constant element of our modern environment is change. In decision-making research however, very little is known about how people make choices in dynamic environments. We report the results of an experiment where participants were asked to choose between two options: a dynamic and risky option that resulted in either a high or a low outcome, and a stationary and safe option that resulted in a medium outcome. The probability of the high outcome in the risky option decreased or increased linearly over the course of the task while the probability of the medium outcome stayed the same throughout. We find that adaptation to change is related to the direction of that change, and that the way people adapt to changing probabilities relates to their willingness to explore available options. A cognitive model based on Instance-Based Learning Theory reproduces the behavioral patterns.

A Robust Implementation of Episodic Memory for a Cognitive Architecture

The ability to remember events plays an important role in hu-man life. People can replay past events in their heads and makedecisions based on that information. In this paper, we describea novel extension to a cognitive architecture, ICARUS, that en-ables it to store, organize, generalize, and retrieve episodictraces that can help the agent in a variety of manners. Af-ter discussing previous work on the related topic, we reviewICARUS and explain the new extension to the architecture indetail. Then we discuss four architectural implications of thenew capability and list some future work before we conclude.

Consistency and credibility in legal reasoning: A Bayesian network approach

Witness credibility is important for establishing testimonial value.The story model posits that people construct narratives fromevidence but does not explain how credibility is assessed. Formalapproaches use Bayesian networks (BN) to represent legalevidence. Recent empirical work suggests people might alsoreason using qualitative causal networks. In two studies,participants read a realistic trial transcript and judge guilt andwitness credibility. Study 1 varied testimonial consistency anddefendant character. Guilt and credibility assessments wereaffected by consistency but not prior convictions. Study 2constructed a BN to represent consistency issues. Individualparameter estimates were elicited for the corresponding BN tocompute posterior predictions for guilt and credibility. The BNprovided a good model for overall and individual guilt andcredibility ratings. These results suggest people construct causalmodels of the evidence and consider witness credibility. The BNapproach is a promising direction for future research in legalreasoning.

Attention and the Development of Inductive Generalization: Evidence from Recognition Memory

Induction, the ability to generalize knowledge from known to novel instances, is essential for human learning. This study investigates how attention allocation during category learning and induction affects what information is represented and encoded to memory. In Experiment 1 5-year-olds and adults learned rule-based categories. They were then presented with an Induction-then-Recognition task. Similar to previous results with familiar categories, children exhibited better memory for items than adults. In Experiment 2, adults learned similarity-based categories and then were presented with an Induction-then-Recognition task. In this condition, adults’ memory was as good as children’s memory in Experiment 1. These results indicate that the way categories are represented affects the way induction is performed.

Predicting Decision in Human-Agent Negotiation using functional MRI

The importance of human-agent negotiation, and the role ofemotion in such negotiations, have been emphasized in human-agent interaction research. Thus far, studies have focused onbehavioral effects, rather than examining the neural underpin-nings of different behaviors shown in human-agent interac-tions. Here, we used a multi-round negotiation platform, in-stead of the more common single-shot negotiation, and wereable to find distinct brain patterns in emotion-related regionsof the brain during different types of offers. Using multi-voxelpattern analysis to analyze brain imaging data acquired duringfunctional MRI scanning, we show that it is possible to pre-dict whether the negotiator concedes, does not change, or asksfor more during the negotiation. Most importantly, we demon-strate that left dorsal anterior insula, which is known to be anemotion-related brain region, shows a different pattern of ac-tivity for each of the three offer types.

Searching large hypothesis spaces by asking questions

One way people deal with uncertainty is by asking questions.A showcase of this ability is the classic 20 questions gamewhere a player asks questions in search of a secret object. Pre-vious studies using variants of this task have found that peopleare effective question-askers according to normative Bayesianmetrics such as expected information gain. However, so far,the studies amenable to mathematical modeling have used onlysmall sets of possible hypotheses that were provided explic-itly to participants, far from the unbounded hypothesis spacespeople often grapple with. Here, we study how people eval-uate the quality of questions in an unrestricted 20 Questionstask. We present a Bayesian model that utilizes a large data setof object-question pairs and expected information gain to se-lect questions. This model provides good predictions regardingpeople’s preferences and outperforms simpler alternatives.

Using a smartphone game to promote transfer of skills in a real world environment

This article presents an experiment in which participant’sworking memory, tasks-switching and focusing skills aretrained in a game called Wollie on a smartphone. Before andafter the training period they performed three task (a recall,Stroop and task-switching). The goal of this research was tosee how the participants, from the test group, learn withinthe game and how this affects the three tasks. Only in theStroop results a clear difference between the two groups wasfound. However, we found that participants who had the mosttrouble in playing Wollie, improved the most on Stroop andtask-switching, indicating that these participants still lackedthe relevant skills for all these tasks.

Solution of division by access to multiplication: Evidence from eye tracking

People report solving division problems by mentally recastingdivision problems as multiplication (e.g., 72 ÷ 8 à 8 × [?] =72). Mediation of division by multiplication occurs mainly onlarger problems. Eye tracking data was used to determinewhether patterns of gaze durations on division problemsprovided support for mediation. Adults solved divisionproblems in two formats: traditional (e.g., 72 ÷ 8 = [ ]) andrecasted (e.g. 72 = 8 × [ ]). Processing of individual problemelements was compared across formats. Results providesupport for mediation. Processing patterns for traditionally-formatted problems were more similar to those for traditionaldivision in earlier work (72 ÷ 8) whereas problems in recastedformat (72 = 8 × [ ]) were more similar to patterns foundwhen participants solved multiplication problems (e.g., 8 × 9).These findings provide a novel source of support fordifferential processing of problems across presentationformats.

The role of word-word co-occurrence in word meaning learning

A growing body of research on early word learning suggeststhat learners gather word-object co-occurrence statistics acrosslearning situations. Here we test a new mechanism wherebylearners are also sensitive to word-word co-occurrence statis-tics. Indeed, we find that participants can infer the likely ref-erent of a novel word based on its co-occurrence with otherwords, in a way that mimics a machine learning algorithmdubbed ‘zero-shot learning’. We suggest that the interactionbetween referential and distributional regularities can bring ro-bustness to the process of word acquisition.

Where Should Researchers Look for Strategy Discoveries during the Acquisition of Complex Task Performance? The Case of Space Fortress

In complex task domains, such as games, students may ex-ceed their teachers. Such tasks afford diverse means to trade-off one type of performance for another, combining task ele-ments in novel ways to yield method variations and strategydiscoveries that, if mastered, might produce large or smallleaps in performance. For the researcher interested in the de-velopment of extreme expertise in the wild, the problem posedby such tasks is “where to look” to capture the explorations,trials, errors, and successes that eventually lead to the inven-tion of superior performance. In this paper, we present severalsuccessful discoveries of methods for superior performance.For these discoveries we used Symbolic Aggregate Approx-imation as our method of identifying changepoints withinscore progressions in the venerable game of Space Fortress.By decomposing performance at these changepoints, we findpreviously unknown strategies that even the designers of thetask had not anticipated.

Developmentally plausible learning of word categories from distributional statistics

In this paper we evaluate a mechanism for the learning of wordcategories from distributional information against criteria ofpsychological plausibility. We elaborate on the ideasdeveloped by Redington et al. (1998) by embedding themechanism in an existing model of language acquisition(MOSAIC) and gradually expanding the contexts it has accessto in a developmentally plausible way. In line with child data,the mechanism shows early development of a noun category,and later development of a verb category. It is furthermoreshown that the mechanism can maintain high performance atlower computational overhead by disregarding tokenfrequency information, thus improving the plausibility of themechanism as something that is used by language-learningchildren.

A Learned Label Modulates Object Representations in 10-Month-Old Infants

Despite substantial evidence for a bidirectional relationshipbetween language and representation, the roots of this relationshipin infancy are not known. The current study explores thepossibility that labels may affect object representations at theearliest stages of language acquisition. We asked parents to playwith their 10-month-old infants with two novel toys for threeminutes, every day for a week, teaching infants a novel word forone toy but not the other. After a week infants participated in afamiliarization task in which they saw each object for 8 trials insilence, followed by a test trial consisting of both objectsaccompanied by the trained word. Infants exhibited a faster declinein looking times to the previously unlabeled object. These dataspeak to the current debate over the status of labels in humancognition, supporting accounts in which labels are an integral partof representation.

An experimental study on the observation of facts in explanation reconstruction

Explanation reconstruction performs a crucial role not only inthe progress of science but also in educational practices anddaily activities, including the comprehension of phenomena.In this study, we conducted experiments to examine the factorsthat facilitate shifts in explanations. We focused on the tran-sition of attention on a key fact that contradicts an initial ex-planation and has a central role in its reconstruction. We useda short story as an experimental material in which participantsfirst constructed an initial explanation and then reconstructedit. In the experiment, we controlled the time of presentationof the key fact (bottom-up condition), reflective thinking (top-down condition), and the two together (bidirectional condition)to facilitate understanding of the explanatory shift. The experi-mental results are summarized as follows. First, when the priorexplanation was rejected, attention to the key fact was inhibitedalthough a new explanation was required. Second, the success-ful group increased their attention on the key fact just beforethe explanatory shift. Third, protection of the preceding expla-nation with unobserved facts was inhibited by guiding the par-ticipants ’attention toward the key fact. Finally, although theinitial explanation was not completely shifted, a explanatorypre-shift was achieved by activating reflective thinking withattention to the key fact.

What Determines Human Certainty?

Previous work on concept learning has focused on how con-cepts are acquired without addressing metacognitive aspectsof this process. An important part of concept learning froma learner’s perspective is subjectively knowing when a newconcept has been effectively learned. Here, we investigatelearners’ certainty in a classic Boolean concept-learning task.We collected certainty judgements during the concept-learningtask from 552 participants on Amazon Mechanical Turk. Wecompare different models of certainty in order to determineexactly what learners’ subjective certainty judgments encode.Our results suggest that learners’ certainty is best explained bylocal accuracy rather than plausible alternatives such as totalentropy or the maximum a posteriori hypothesis of an idealizedBayesian learner. This result suggests that certainty predomi-nately reflects learners’ performance and feedback, rather thanany metacognition about the inferential task they are solving.

Moral Judgments: Studying People with Helping Professions

While a considerable amount of research is done in the fieldof moral psychology, to our best knowledge, no systematicstudy of moral judgments made by professional groups whomake moral decisions as part of their occupational dutiesexists (e.g. firefighters, medical doctors, midwives, policeofficers). By their training and practice, such professionals areexpected to exhibit differences in moral judgment comparedto the general population. Here we report data about moraljudgments of firefighters and midwives using moral dilemmasin which one person must be sacrificed in order to save morepeople. The study reveals that midwives and firefighters areconsiderably less utilitarian compared to a control group ofstudents. Midwives almost never find the utilitarian action tobe permissible. This striking result demonstrates that furtherunderstanding of the specific mechanisms involved in specialprofessional groups’ moral judgment is needed.

Children consider others’ expected costs and rewards when deciding what to teach

Humans have an intuitive sense of how to help and informothers even in the absence of a specific request. How do weachieve this? Here we propose that even young children canreason about others’ expected costs and rewards to flexiblydecide what is best for others. We asked children to chooseone of two toys to teach to another agent while systematicallyvarying the relative costs and rewards of discovering each toy’sfunctions. Children’s choices were consistent with the predic-tions of a computational model that maximizes others’ utilitiesby minimizing their expected costs and maximizing their ex-pected rewards. These results suggest that even early in life,children draw rational inferences about others’ costs and ben-efits, and choose to communicate information that maximizestheir utilities.

Disfluency production in speech and gesture

The cognitive architecture and function of co-speech gesture has been the subject of a large body of research. We investigate two main questions in this field, namely, whether language and gesture are the same or two inter-related systems, and whether gestures help resolve speech problems, by examining the relationship between gesture and disfluency in neurotypical speakers. Our results support the view of separate, but inter- related systems by showing that speech problems do not necessarily cause gesture problems, and on many occasions, gestures signal an upcoming speech problem even before it surfaces in overt speech. We also show that while gestures are more common on fluent trials, speakers use both iconic and beat gestures on disfluent trials to facilitate communication, although the two gesture types support communication in different ways.

Predictions with Uncertain Categorization: A Rational Model

A key function of categories is to help predictions about unob-served features of objects. At the same time, humans often findthemselves in situations where the categories of the objectsthey perceive are uncertain. How do people make predictionsabout unobserved features in such situations? We propose arational model that solves this problem. Our model comple-ments existing models in that it is applicable in settings wherethe conditional independence assumption does not hold (fea-tures are correlated within categories) and where the featuresare continuous as opposed to discrete. The qualitative predic-tions of our model are borne out in two experiments.

Numeric Competencies and Anchoring Biases

Two experiments were conducted to examine the role of threefacets of numeracy (objective (ONS), subjective (SNS), andsymbolic number mapping (SMap)) in three anchoring tasks(experimenter-given, self-generate, and valuation). We foundthat the three numeric competencies were associated withdifferent anchoring tasks. SMap was associated with none ofthe three anchor tasks, while ONS consistently predictedstronger susceptibility to self-generated anchoring. The roleof ONS and SNS in experimenter-given and valuation taskswere inconsistent. In Experiment 1, where the direction ofadjustment from an anchor is specified, ONS and SNS werepositively associated with anchor susceptibility in a valuationtask, while they were not in an experimenter-given anchortask. On the other hand, in Experiment 2 where the directionof adjustment from an anchor is uncertain, ONS and SNSwere positively associated with anchor susceptibility in anexperimenter-given anchor task, while they were not in avaluation task.

A perspective on all cognition? A study of everyday environments from the perspective of distributed cognition.

Distributed cognition is a perspective that primarily has been applied to complex socio-technical systems such as flight decks of commercial airliners, or operating rooms where professionals perform cognitive tasks in environments specifically designed for this. For some scholars distributed cognition is exactly this kind of specialized cognitive system. On the other hand it has been claimed by some workers in the field that distributed cognition is not a kind of cognition but a perspective on all cognition. We have therefore studied an environment very different from the systems previously studied, namely single people’s homes. We find that there are many similarities between the home and the specialized socio-technical environments. To us this suggests that the specially designed complex environments can be seen as specialized cases of the general principles of distributed cognition which are not reflections of “particular work practices” but of general features of human cognition.

Temporal Structure Modulates ERP Correlates of Visual Sequential Learning

Sequential learning (SL) refers to the ability to learn thetemporal and ordinal patterns of one’s environment. Whereasresearch on the learning of ordinal patterns is common, thelearning of temporal patterns within sequential events hasbeen far less studied. The current study examines the effectsof synchronous and asynchronous temporal patterns on visualsequential learning. We hypothesize that entrainment (i.e.exposure to a regular rhythmic pattern) allows for betterprocessing of the ordinal structure of sequential events.Twenty healthy adult participants (11 females, 18–34 yearsold) performed two versions of a visual sequential learningparadigm while event-related potentials (ERPs) wererecorded. The SL task involved the visual presentation ofcolored circles, wherein a target circle was embedded thatwas partially predictable based on preceding predictorstimuli. One version of the task incorporated synchronoustemporal presentation of the stimuli whereas the other versioninvolved asynchronous presentation of stimuli using arandomized ISI on every trial. Reaction time datademonstrated that learning occurred in both temporalconditions. On the other hand, the mean ERP amplitudesbetween 350 and 750ms post-predictor onset in the posteriorregions of interest revealed that learning of the statisticalcontingencies between stimuli was disrupted for theasynchronous temporal condition but intact for thesynchronous condition. These neurophysiological datasuggest that the brain processes regular and irregular timingevents differently, with statistical learning of ordinal visualpatterns being improved by a synchronous temporal structure,possibly a result of heightened attention to the stimuli due toentrainment.

Knowledge and use of price distributions by populations and individuals

How much do individuals, compared to the population, knowabout the distribution of values in the world? Participantsreported the prices of consumer goods such as watches andbelts and we compared how accurately individuals vs. theoverall population knew the mean and dispersion of prices.Although individuals and the population both knew objects’average prices and relative standard deviations, the populationwas more sensitive to the absolute standard deviation ofprices. In a second experiment, we examined whetherindividuals’ impoverished distribution knowledge impairstheir ability to interpret advertisements. Consistent withpeople using Bayesian inference, the higher an object’s actualprice dispersion, the more participants relied onadvertisements; however, this effect is considerably smallerthan a simple proportional offset, suggesting again thatindividuals underestimate dispersion. Thus, despite having asense of the distribution of real world quantities, individualstend to know only a fraction of the world distribution.

A Unified Framework for Bounded and Unbounded Numerical Estimation

Representations of numerical value have been assessed usingbounded (e.g., 0-1000) and unbounded (e.g., 0-?) number-linetasks, with considerable debate regarding whether one or bothtasks elicit unique cognitive strategies (e.g., addition orsubtraction) and require unique cognitive models. To test this,we examined 86 5- to 9-year-olds' addition, subtraction, andestimation skill (bounded and unbounded). Against themeasurement-skills hypothesis, estimates were even morelogarithmic on unbounded than bounded number lines andwere better described by conventional log-linear models thanby alternative cognitive models. Moreover, logarithmic indexvalues reliably predicted arithmetic scores, whereas modelparameters of alternative models failed to do so. Resultssuggest that the logarithmic-to-linear shift theory provides aunified framework for numerical estimation with highdescriptive adequacy and yields uniquely accurate predictionsfor children’s early math proficiency.

Temporal Causal Strength Learning with Multiple Causes

When learning the relation between a cause and effect, howdo people control for all the other factors that influence thesame effect? Two experiments tested a hypothesis that peoplefocus on events in which the target cause changes and allother factors remain stable. In both four-cause (Experiment 1)and eight-cause (Experiment 2) scenarios, participants learnedcausal relations more accurately when they viewed datasets inwhich only one cause changed at a time. However,participants in the comparison condition, in which multiplecauses changed simultaneously, performed fairly well; inaddition to focusing on events when a single cause changed,they also used events in which multiple causes changed forupdating their beliefs about causal strength. These findingshelp explain how people are able to learn causal relations insituations when there are many alternative factors.

Document Cohesion Flow: Striving towards Coherence

Text cohesion is an important element of discourseprocessing. This paper presents a new approach to modeling,quantifying, and visualizing text cohesion using automatedcohesion flow indices that capture semantic links amongparagraphs. Cohesion flow is calculated by applyingCohesion Network Analysis, a combination of semanticdistances, Latent Semantic Analysis, and Latent DirichletAllocation, as well as Social Network Analysis. Experimentsperformed on 315 timed essays indicated that cohesion flowindices are significantly correlated with human ratings of textcoherence and essay quality. Visualizations of the globalcohesion indices are also included to support a more facileunderstanding of how cohesion flow impacts coherence interms of semantic dependencies between paragraphs.

The Relationship Between Inhibitory Control and Free Will Beliefs in 4-to 6-Year-Old-Children

This study explores the relationship between beliefs aboutself-control and the ability to exercise self-control in 4- to 6-year-old children. Sixty-eight children were asked a series ofquestions to gauge whether they believed that they couldfreely choose to act against their desires or inhibit themselvesfrom performing desired actions. Children were also asked toprovide qualitative explanations for why they could or couldnot exercise free will, and to complete two inhibitory controltasks: forbidden toy and day/night. Choice responses werenegatively correlated with performance on the forbidden toytask, when children performed that task first. There was also anegative correlation between a belief in an internal locus ofcontrol, and success on the forbidden toy measure. Refrainingfrom touching a forbidden toy appears to be correlated to lessbelief in free will. Though this may appear counter-intuitive,it is consistent with cross-cultural research.

Explanatory Biases in Social Categorization

Stereotypes are important simplifying assumptions we usefor navigating the social world, associating traits withsocial categories. These beliefs can be used to infer anindividual’s likely social category from observed traits (adiagnostic inference) or to make inferences about anindividual’s unknown traits based on their putative socialcategory (a predictive inference). We argue that theseinferences rely on the same explanatory logic as other sortsof diagnostic and predictive reasoning tasks, such as causalexplanation. Supporting this conclusion, we demonstratethat stereotype use involves four of the same biases knownto be used in causal explanation: A bias against categoriesmaking unverified predictions (Exp. 1), a bias towardsimple categories (Exp. 2), an asymmetry betweenconfirmed and disconfirmed predictions of potentialcategories (Exp. 3), and a tendency to treat uncertaincategorizations as certainly true or false (Exp. 4).

Are children flexible speakers? Effects of typicality and listener needs in children’s event descriptions

Do children take into account their addressees’ needs in spontaneous production? Developmental evidence for speaker adjustments is mixed. Some studies show that children are often under-informative when communicating with ignorant addressees but other studies demonstrate successes in children’s ability to integrate another person’s perspective. We asked whether children adapt their event descriptions depending on (a) the typicality of event components, and (b) the listener’s visual access to the events. We found that children’s ability to use information about the listener’s visual perspective to make specific adjustments to event descriptions emerged only in highly interactive contexts, in which participants collaborated towards mutual goals.

From embodied metaphors to metaphoric gestures

Humans turn abstract referents and discourse structuresinto gesture using metaphors. The semantic relation be-tween abstract communicative intentions and their phys-ical realization in gesture is a question that has not beenfully addressed. Our hypothesis is that a limited set ofprimary metaphors and image schemas underlies a widerange of gestures. Our analysis of a video corpus sup-ports this view: over 90% of the gestures in the corpus arestructured by image schemas via a limited set of primarymetaphors. This analysis informs the extension of a com-putational model that grounds various communicative in-tentions to a physical, embodied context, using those pri-mary metaphors and image schemas. This model is usedto generate gesture performances for virtual characters.

Relation between bimanual coordination and whole-body balancing on a slackline

To reveal the fundamental skills involved in slacklining,this study examined a hypothesis regarding single-legstanding on a slackline. In the field of practice,instructors teach learners how to maintain balance on aswinging flat belt (slackline), such as by moving theirhands in parallel. We hypothesized that bimanualcoordination in the horizontal direction mightcontribute to dynamic balancing on a slackline. In ourpilot study, two participants at different skill levelswere asked to maintain their balance on a slackline aslong as possible. The dynamic stability of bimanualcoordination was assessed by a nonlinear time seriesanalysis (cross recurrence quantification analysis), thencompared among the participants. Bimanualcoordination stability was higher in the experiencedplayer than in the novice player. The results suggestthat the single-leg standing skill might be correlatedwith bimanual coordination stability. Furtherinvestigations are expected to clarify this notion in thefuture.

Causality, Normality, and Sampling Propensity

We offer an account of the role of normality—both statisti-cal and prescriptive—in judgments of actual causation. Us-ing only standard tools from the literature on causal cognition,we argue that the phenomenon can be explained simply on theassumption that people stochastically sample (counterfactual)scenarios in a way that reflects normality. We show that a for-malization of this idea, giving rise to a novel measure of causalstrength, can account for some of the most puzzling qualitativepatterns uncovered in recent experimental work

Explanations in Causal Chains:Selecting Distal Causes Requires Exportable Mechanisms

When A causes B and B causes C, under what conditions isA a good explanation for the occurrence of C? We proposethat distal causes are only perceived to be explanatory if thecausal mechanism is insensitive to inessential variations ofboundary conditions. In two experiments, subjects first ob-served deterministic A → B → C relationships in a single ex-emplar of an unknown kind. They judged A to be crucial forC by default. However, when they subsequently learned thatthe causal mechanism fails to generate the A → C dependencyin other exemplars of the same kind, subjects devalued A asa crucial explanation for C even within the first exemplar. Werelate these findings to the idea that good explanations pick outportable dependency relations, and that sensitive causes fail tomeet this requirement.

The effect of ”mood”: Group-based collaborative problem solving by takingdifferent perspectives

Collaborative problem solving based on different perspectivesis an effective strategy for constructing new knowledge anddiscoveries. It remains unclear what kind of interaction pro-cess underlies development of an abstract or integrated per-spective upon experiencing conflict with different perspectivesin a group. The present study investigates two factors in anexperimental setting: (1) groups with a single opposing per-spective (maverick) would hold an advantage over groups and(2) groups with positive moods would hold an advantage overgroups with negativity. We investigate the factors influencingperspective taking in problem-solving groups using conversa-tional agents. Results showed that (1) a single different per-spective in the group can be accepted for perspective takingcompared to several members with an opposing perspective,and (2) positive mood generated by group members facilitat-ing perspective taking compared to negative mood.

The Impact of Interactivity on Simulation-Based Science Inquiry with Variable-Setting Controls

The current study investigated how interactivity of simulation controls affects data collection in science inquiry. A chemistry simulation was designed to allow either low or high interactivity in setting experimental variables. Adult participants were randomly assigned to one of the interactivity conditions and solved a series of assessment items. The results from the first item indicated that the highly interactive controls posed challenges in conducting a thorough investigation. Performance in the last item which is a repetition of the first item suggested that the participants were able to overcome the initial challenges over the course of their investigations. The results provide implications for designing educational simulations for learning and assessment.

Causal Reasoning in Infants and Adults: Revisiting backwards-blocking

Causal learning is a fundamental ability that enables human reasoners to learn about the complex interactions in the world around them. The available evidence with children and adults, however, suggests that the mechanism or set of mechanisms that underpins causal perception and causal reasoning are not well understood; that is, it is unclear whether causal perception and causal reasoning are underpinned by a Bayesian mechanism, associative mechanism, or both. It has been suggested that a Bayesian mechanism, rather than an associative mechanism, underpins causal reasoning because such a mechanism can better explain the putative backward- blocking finding in children and adults (e.g., Sobel, Tenenbaum, & Gopnik, 2004). In this paper, we report two experiments to examine to what extent infants and adults exhibit backward blocking and whether humans’ ability to reason about causal events is underpinned by an associative mechanism, a Bayesian mechanism, or both.

An Analysis of Frame Semantics of Continuous Processes

Qualitative Process theory provides a formal representation for human-like models of continuous processes. Prior research mapped qualitative process elements onto English language constructions, but did not connect the representations to existing frame semantic resources. Here we identify and classify QP language constituents through their instantiation in FrameNet frames to provide a unified semantics for linguistic and non-linguistic representations of processes. We demonstrate that all core QP relations can map to FN, though larger QP evoking phrasal constructions do exist outside of this mapping. We conclude with a corpus analysis showing that these frames occur in natural text involving a variety of continuous processes.

Inferring Generic Meaning From Pragmatic Reference Failure

Generic sentences (e.g., “birds lay eggs”) express generaliza-tions about kinds, in contrast to non-generic sentences thatexpress facts about specific individuals or sets of individuals(e.g., “all birds lay eggs”). Although generics are pervasive innatural language, there is no unique linguistic marker of gener-icity, making the identification of generics a challenge. We in-vestigate the morphosyntactic cues that listeners use to identifywhether a sentence should receive a generic interpretation ornot. We find that two factors – the definiteness of a sentence’ssubject NP and the tense of the sentence – are extremely im-portant in guiding intuitions about whether a sentence shouldreceive a generic interpretation. We argue that the importanceof these factors can be explained by taking generic interpreta-tions to arise due to a failure to ground expressions as referringto specific entities or events.

Effect of Aging on Inhibitory Attentional Mechanisms

The ability to inhibit the processing of irrelevant informationdeclines as adults age (Hasher & Zacks, 1988; Lustig, Hasherand Tonev, 2006; Mayr, 2001). However, previous researchinvestigating inhibitory control in older adults has notevaluated the extent to which irrelevant information isprocessed and later recognized. Using a dual task paradigmwith young adults, Dewald, Sinnett, and Doumas (2011)demonstrated inhibited recognition for previously ignoredwords, provided they had appeared infrequently with targetsin the primary task, compared to words that did not appearwith targets. The current study adapted this paradigm toexamine inhibitory mechanisms in a sample of older adults.Here, older adults exhibited inhibited recognition for allwords while young adults continued to show greaterinhibition for words that had appeared with targets comparedto words that had not. This finding suggests that older adultsmay experience a decline in the selective inhibition ofirrelevant information.

Analytic Eye Movement Patterns in Face Recognition are Associated with BetterPerformance and more Top-down Control of Visual Attention: an fMRI Study

Recent research has revealed two different eye movement pat-terns during face recognition: holistic and analytic. The pre-sent study investigated the neural correlates of these two pat-terns through functional magnetic resonance imaging (fMRI).A more holistic pattern was associated with more activation inthe face-selective perceptual areas, including the occipitalface area and fusiform face area. In contrast, participants us-ing a more analytic pattern demonstrated more activation inareas important for top-down control of visual attention, in-cluding the frontal eye field and intraparietal sulcus. In addi-tion, participants using the analytic patterns had better recog-nition performance than those showing holistic patterns. The-se results suggest that analytic eye movement patterns are as-sociated with more engagement of top-down control of visualattention, which may consequently enhance recognition per-formance.

Establish Trust and Express Attitude for a Non-Humanoid Robot

In recent years, there has been an increasing interest in design-ing social robots to interact with people to provide therapy andcompanionship. Most social robots currently being used arelight-weight and much smaller in size compared to people. Inthis work, we investigate designing interactions for larger andmore physically capable robots as they have more potential toassist people physically. A modified version of Baxter robotwas used, by sitting Baxter on top of an electronic wheelchair.Two experiments were designed for studying the role of facialexpressions and body movements in establishing trust with theuser and for expressing attitudes. Our results suggest that therobot is capable of expressing fine and distinguishable attitudes(proud vs. relaxed) using its body language, and the couplingbetween body movements and speech is essential for the robotto be viewed as a person.

Similarity-Based Reasoning is Shaped by Recent Learning Experience

Popular approaches to modeling analogical reasoning havecaptured a wide range of developmental and cognitivephenomena, but the use of structured symbolicrepresentations makes it difficult to account for the dynamicand context sensitive nature of similarity judgments. Here, theresults of a novel behavioral task are offered as an additionalchallenge for these approaches. Participants were presentedwith a familiar analogy problem (A:B::C:?), but with a twist.Each of the possible completions (D1, D2, D3), could beconsidered valid: There was no unambiguously “correct”answer, but an array of equally good candidates. We find thatparticipants’ recent experience categorizing objects (i.e.,manipulating the salience of the features), systematicallyaffected performance in the ambiguous analogy task. Theresults are consistent with a dynamic, context sensitiveapproach to modeling analogy that continuously updatesfeature weights over the course of experience

Curiosity and Its Influence on Children's Memory

Curiosity has a tumultuous past. Originally curiosity wasconsidered a vice of excess leading to misconduct anddisaster. Recently, curiosity has transformed into a virtue ofself-expression resulting in success and better performance. Inclassrooms, educators try to find ways of eliciting curiosityfrom their students: allowing them to pick their own researchtopics and books, including pop culture references in lecture,and many more strategies. Recent adult studies have revealedbetter memory for trivia facts that elicit more curiosity. Thecurrent study modifies the methods used in previous adultstudies in order to make them more appropriate for children.Results from a sample of 24 7- and 8-year-olds reveal that byage eight curiosity significantly affects memory for triviafacts. This research may shed light on the cognitiveadvantages of curiosity and legitimatize the encouragement ofcuriosity in classrooms for school age children.

The Effects of Discourse Cues on Garden-path Processing

We report a self-paced reading study that investigated garden-path sentences like While the boy washed {a/the} dog barkedloudly and While the man hunted {a/the} deer ran into thewoods. In such sentences, the critical noun phrase (dog, deer)tends to be misparsed as an object of the preceding verb, andhas to be re-analyzed as a subject of the following clause whenthe disambiguating verb (e.g. barked, ran) is encountered. Tobetter understand how discourse level information guides real-time processing, we build on earlier corpus work in linguisticswhich found a relationship between syntactic function andinformation status: Entities in subject position tend to bealready-mentioned (old/given) information and definite, whileentities in object position are typically new information andindefinite. We investigated whether the information status ofthe ambiguous noun influences the extent of processingdifficulty, and whether this effect also depends on the argumentstructure of the first verb. Results from self-paced readingshowed that information status matters when processing theambiguous NP after optionally transitive verbs (e.g. hunt) butnot after reflexive absolute verbs (e.g. wash). These resultssuggest that access to discourse-level representations during re-analysis of the noun phrase is modulated by verb argumentstructure

Children’s Use of Orthographic Cues in Language Processing

Rendaku, or sequential voicing, is a morphophonemic process in Japanese in which the voiceless word-initial consonant of the second element (=E2) of a compound word becomes voiced (e.g., ori + kami →origami, ‘folding’ + ‘paper’ → ‘paper folding’, /k/ becomes /g/). In adult grammar, rendaku is subject to two conditions: It applies if and only if (a) E2 is a Yamato word (native vocabulary) in the lexicon and (b) it contains no voiced consonant (e.g., b, d, & g). Recent psycholinguistic studies have revealed that Japanese-speaking preschoolers do not follow adult’s grammar; they develop their original prosodically-based rendaku processing strategy (preschooler-specific rendaku strategy). Their strategies qualitatively change in the early middle childhood to be adult-like rendaku, creating a discontinuity in children’s word-processing strategies. This study investigated factors responsible for this developmental discontinuity. We conducted an experiment using cross- modal linguistic stimuli (prosody & orthography) to see whether children’s orthographic knowledge affects their rendaku strategy or not. Our results showed that orthographic cues affected literate children’s rendaku processing. They were aware the correspondence between types of orthography and word categories in Japanese.

Modeling language discrimination in infants using i-vector representations

Experimental research suggests that at birth infants can dis-criminate two languages if they belong to different rhythmicclasses, and by 4 months of age they can discriminate two lan-guages within the same class provided they have been previ-ously exposed to at least one of them. In this paper, we presenta novel application of speech technology tools to model lan-guage discrimination, which may help to understand how in-fants achieve high performance on this task. By combininga Gaussian Mixture Model of the acoustic space and low-dimensional representations of novel utterances with a modelof a habituation paradigm, we show that brief exposure toFrench does not allow to discriminate between two previouslyunheard languages with similar phonological properties, butfacilitates discrimination of two phonologically distant lan-guages. The implications of these findings are discussed.

Are Financial Advisors Money Doctors or Charlatans? Evidence on Trust, Advice, and Risk Taking in Delegated Asset Management

We test the effects of advice and trust on risk-taking in three online experiments designed to elucidate under what conditions financial advice may increase risk-taking, irrespective of advisor performance. In our study, investors made 100 decisions, selecting between one of two alternatives: risky or conservative. We manipulate the suggestion of an advisor (risky vs. non-risky investments), the fee of the advice, as well as the trustworthiness of the advisor (by increasing the transparency of the advice presented) to test the effect of the advice on risk-taking. The results show that individuals asymmetrically follow the advice they received, with a bias towards following more risky than conservative advice. Moreover, trusted advice was more persuasive irrespective of what the advisor suggested and even the fee is higher.

A Recurrent Network Approach to Modeling Linguistic Interaction

What capacities enable linguistic interaction? While severalproposals have been advanced, little progress has been made incomparing and articulating them within an integrative frame-work. In this paper, we take initial steps towards a connec-tionist framework designed to systematically compare differ-ent cognitive models of social interactions. The frameworkwe propose couples two simple-recurrent network systems(Chang, 2002) to explore the computational underpinnings ofinteraction, and apply this modeling framework to predict thesemantic structure derived from transcripts of an experimen-tal joint decision task (Bahrami et al., 2010; Fusaroli et al.,2012). In an exploratory application of this framework, wefind (i) that the coupled network approach is capable of learn-ing from noisy naturalistic input but (ii) that integration of pro-duction and comprehension does not increase the network per-formance. We end by discussing the value of looking to tra-ditional parallel distributed processing as flexible models forexploring computational mechanisms of conversation.

The Aging Lexicon: Differences in the Semantic Networks of Younger and OlderAdults

How does the mental lexicon, the network of learned words inour semantic memory, change in old age? To address thisquestion, we employ a new network inference method to infernetworks from verbal fluency data of a group of younger andolder adults. We find that older adults produce more uniquewords in verbal fluency tasks than younger adults. In line withrecent theorizing, this suggests a larger mental lexicon forolder than for younger adults. Moreover, we find that relativeto the mental lexicon of younger adults, the mental lexicon ofolder adults is less small-world-like. Based on severalfindings linking network clustering to processing speed, thisfinding suggests that not only the size, but also the structureof the mental lexicon may contribute to apparent cognitivedecline in old age.

Aiding Preschoolers’ word-learning by scaffolding lexical awareness

Preschool-aged children develop awareness of the words theydo and do not know. Awareness of one’s lexicon mayencourage word learning if children pay more attention to thedefinition of unknown words. Here, we tested 3-4-year-oldchildren (N = 91) on a word learning task embedded in an e-book. When a novel word was read, children were eitherasked if they knew the word, asked a question about thestoryline, or asked no question. Then they were given adescription without visual input and asked to identify thereferent’s picture from three choices. Participants who wereasked if they knew a word before being provided with thedefinition identified more referents than children in the otherconditions. Children’s word learning was predicted by short-term memory.

Collective search on rugged landscapes:A cross-environmental analysis

In groups and organizations, agents use both individual and so-cial learning to solve problems. The balance between these twoactivities can lead collectives to very different levels of perfor-mance. We model collective search as a combination of simplelearning strategies to conduct the first large-scale comparativestudy, across fifteen challenging environments and two differ-ent network structures. In line with previous findings in thesocial learning literature, collectives using a hybrid of individ-ual and social learning perform much better than specialistsusing only one or the other. Importantly, we find that collec-tive performance varies considerably across different task en-vironments, and that different types of network structures canbe superior, depending on the environment. These results sug-gest that recent contradictions in the social learning literaturemay be due to methodological differences between two sepa-rate research traditions, studying disjoint sets of environmentsthat lead to divergent findings.

Is it a nine, or a six? Prosocial and selective perspective taking in four-year-olds

To successfully navigate the complex social world, peopleoften need to solve the problem of perspective selection:Between two conflicting viewpoints of the self and the other,whose perspective should one take? In two experiments, weshow that four-year-olds use others’ knowledge and goals todecide when to engage in visual perspective taking. Childrenwere more likely to take a social partner’s perspective todescribe an ambiguous symbol when she did not knownumbers and wanted to learn than when she knew numbersand wanted to teach. These results were shown in children’sown responses (Experiment 1) and in their evaluations ofothers’ responses (Experiment 2). By preschool years,children understand when perspective taking is appropriateand necessary and selectively take others’ perspectives insocial interactions. These results provide novel insights intothe nature and the development of perspective taking.

Can Monaural Auditory Displays Convey Directional Information to Users?

The purpose of this study is to build a monaural auditorydisplay to convey four pieces of directional information(upward, downward, rightward, and leftward) to userseffectively and intuitively without the need for wearingheadphones or preparing more than one speaker. We preparedfive types of monaural auditory displays consisting of trianglewave sounds and conducted an experiment to investigatewhich kinds of displays succeeded in conveying the fourpieces of information to participants. As a result, we couldconfirm that one of the prepared monaural auditory displays,designed as a “progress bar” on the basis of the mental-number line and spatial-number association of the responsecode effect, succeeded in conveying the four pieces ofinformation more effectively compared with the othercandidate sets (its average correct rates were about 0.88). Thisresult thus strongly shows that this monaural auditory displaywas quite useful for conveying primitive spatial informationto users

Spatial Attention to Social Cues is not a Monolithic Process

Social stimuli are a highly salient source of information, and seem to possess unique qualities that set them apart from other well-known categories. One characteristic is their ability to elicit spatial orienting, whereby directional stimuli like eye- gaze and pointing gestures act as exogenous cues that trigger automatic shifts of attention that are difficult to inhibit. This effect has been extended to non-social stimuli, like arrows, leading to some uncertainty regarding whether spatial orienting is specialized for social cues. Using a standard spatial cueing paradigm, we found evidence that both a pointing hand and arrow are effective cues, but that the hand is encoded more quickly, leading to overall faster responses. We then extended the paradigm to include multiple cues in order to evaluate congruent vs. incongruent cues. Our results indicate that faster encoding of the social cue leads to downstream effects on the allocation of attention resulting in faster orienting.

When High WMC Promotes Mental Set: A Model of the Water Jar Task

Differences in working memory capacity (WM C) relate to performance on a variety of problem solving tasks. High WM C is beneficial for solving analytical problems, but can hinder performance on insight problems (DeCaro & Beilock, 2010). One suggested reason for WM C-related differences in problem solving performance is differences in strategy selection, in which high WM C individuals tend toward complex algorithmic strategies (Engle, 2002). High WM C might increase the likelihood of non- optimal performance on Luchins’ (1942) water jar task because high WM C solvers tend toward longer solutions, not noticing when shorter solutions become available. We present empirical data showing this effect, and a computational model that replicates the findings by choosing among problem solving strategies with different WM demands. The high WM C model used a memory- intensive strategy, which led to long solutions when shorter ones were available. The low WM C model was unable to use that strategy, and switched to shorter solutions.

Thermodynamics and Cognition: Towards a Lawful Explanation of the Mind

An argument is developed to show that explanations ofbiological and physical systems can be unified via the secondlaw of thermodynamics (SLT). The SLT’s influence on theevolutionary history of life at the scale of the global Earthsystem justifies reunifying phenomena—i.e., mind andmatter—whose separation dates back to Modern Westernphilosophy and still influences contemporary scientificinvestigations. From this perspective it appears that thenecessity of ever-increasing entropy in nature may constrainthe organization and behavior of living organisms andcognitive processes. Via an example of explaining memory atthe scale of the brain-body-environment system, werecommend understanding cognition with respect to its role inincreasing entropy in nature. This framework may lead to afruitful understanding of cognition by appealing to thenecessity of physical laws.

Benefits for Grounded Feedback over Correctness in a Fraction Addition Tutor

Do students activate conceptual and procedural knowledgesimultaneously when learning fraction addition? In groundedfeedback, student actions on a target, to-be-learnedrepresentation are reflected in a more familiar feedbackrepresentation to promote conceptual learning withinprocedural practice. An experiment with 163 4th and 5thgraders shows improved learning with a grounded feedbacktutor over a symbols-only control with step-level right/wrongfeedback. Learning with grounding also transferred tosymbols-only assessment items, providing some support forthe simultaneous activation view.

Our morals really depends on our language:The foreign language effect within participants

Recent research has suggested that using a foreign languageto present hypothetical moral dilemmas increases the rate ofutilitarian judgments about those dilemmas (e.g., Greene et al,2001) and decreases incoherency between judgments inframing effect tasks (e.g., Tversky & Kahneman, 1981; seeCosta, Foucart, Arnon, Aparici, & Apesteguia, 2014; Costa,Foucart, Hayakawa, Aparici, Apesteguia, Heafner, & Keysar,2014; Keysar, Hayakawa, & An, 2012). However, existingresearch has mainly investigated this effect using between-participants designs (i.e., different participants in the foreignand native language conditions). Such designs are unable toexclude non-equivalent conditions as a confounding variable.In contrast, this study examined the foreign language effectusing a within-subjects design (i.e., all participants respondedto moral dilemmas (Greene et al, 2001) and framing effecttasks (Tversky & Kahneman, 1981) in both their native andforeign languages. The “foreign language effect” wasreplicated, excluding semantic non-equivalence betweenlanguage conditions as a potential confound. This resultsupports the hypothesis that the foreign language effect isindependent of meaning.

Learning and making novel predictions about others’ preferences

We often make decisions on behalf of others, such as pickingout gifts or making restaurant recommendations. Yet, withoutdirect access to others’ preferences, our choices on behalf ofothers depend on what we think they like. Across twoexperiments, we examined whether and how accuratelypeople are able to infer others’ preferences by observing theirchoices. Our results suggest that people are capable of makingreasonably accurate predictions about what others will choosenext, given what they have chosen before. These results laythe groundwork to systematically study how people makenovel predictions about others’ preferences, and whendifferent strategies might be appropriate.

Monitoring the Level of Attention by Posture Measurement and EEG

Attention is a factor that affects the performance of various in-telligent activities in humans. Up until now, the methods formeasuring the level of attention have been mostly based onsubjective reports or employing large and costly devices. Inthis paper, a new method of estimating the level of attentionis proposed, based on posture and EEG measurements. Thesedata can be recorded using easily available and less burden-some devices. From the obtained data, the time evolution ofattention was explored. Experiments showed that there is neg-ative correlation between posture variance and attention, andalso between EEG and attention.

Referential choice in identification and route directions

Though communicative goals are an important element in lan-guage production, few studies investigate the extent to whichthese goals might affect the form and content of referring ex-pressions. In this study, we directly contrast two tasks withdifferent goals: identification and instruction giving. Speak-ers had to refer to a target building nearby or further away, sothat their addressee would distinguish it between other build-ings (identification) or give route directions and use the samebuilding as a landmark (instructions). Our results showed thatirrespective of goals, the referring expressions consisted of thesame types of attributes, yet the attribute frequency and for-mulation differed. In the identification task, references werelonger, contained more locative and more post-nominal mod-ifiers. In addition, referential choices were influenced by thevisual distance between the speaker and the target: when thespeaker observed the target from far, references were longerand contained more often locative modifiers.

Statistical learning creates novel object associations via transitive relations

A remarkable ability of the cognitive system is the creation of new knowledge based on prior experiences. What cognitive mechanisms support such knowledge creation? We propose that statistical learning not only extracts existing relationships between objects, but also generates new associations between objects that have never been directly associated. Participants viewed a continuous color sequence consisting of base pairs (e.g., A-B, B-C), and learned these pairs. Importantly, they also successfully learned a novel pair (A-C) that could only be associated through transitive relations between the base pairs (Exp1). This learning, however, was not successful with three base pairs (e.g., learning A-D from A-B, B-C, C-D), revealing a limit in this transitive process (Exp2). Beyond temporal associations, novel transitive associations can also be formed across categorical hierarchies (Exp3), but with limits (Exp4&5). The current findings suggest that statistical learning provides an efficient scaffold through which new object associations are transitively created.

Information Search with Depleting and Non-Depleting Resources

Predictions about information search behavior have been informed by extensive research in food foraging behavior. However, information foraging environments may differ in key ways from food foraging environments, and these differences may impact search behavior. We investigated the effect of patch distribution (depleting or non-depleting) and ability to return to previously searched patches on participants’ decision to switch from one patch to another while searching. Whether or not a participant could return after leaving a patch led to fewer samples and fewer relevant items found. Whether or not the patches depleted and whether it was possible to return to a patch influenced stopping rules, indicating that these factors may alter the size of the increment applied through the Incremental Rule.

Conceptual Expansion During Divergent Thinking

Recent research on creative thinking has implicatedconceptual expansion as potential cognitive underpinnings.These theories were examined within the context of alaboratory study using two divergent thinking prompts.Participants generated alternative/creative uses for a brick andfor a glass bottle (separately) for two minutes and responseswere time-stamped using a Matlab GUI. Semantic distancesbetween responses and conceptual representations of the DTprompts were computed using latent semantic analysis.Results showed that semantic distance increased asresponding progressed, with significant differences betweenthe two tasks, and intraparticipant variation. Results haveimplications for theories of creative thinking and representmethodological and analytic advances in the study ofdivergent thinking.

Evaluating Causal Hypotheses: The Curious Case of Correlated Cues

Although the causal graphical model framework has achievedconsiderable success accounting for causal learning data, appli-cation of that formalism to multi-cause situations assumes thatpeople are insensitive to the statistical properties of the causesthemselves. The present experiment tests this assumption byfirst instructing subjects on a causal model consisting of twoindependent and generative causes and then requesting them tomake data likelihood judgments, that is, to estimate the proba-bility of some data given the model. The correlation betweenthe causes in the data was either positive, zero, or negative. Thedata was judged as most likely in the positive condition andleast likely in the negative condition, a finding that obtainedeven though all other statistical properties of the data (e.g.,causal strengths, outcome density) were controlled. These re-sults pose a problem for current models of causal learning.

Do Simple Probability Judgments Rely on Integer Approximation?

A great deal of research has been conducted on how humansreason about probability, yet it remains unknown what mentalcomputations support this ability. Research on thedevelopment of the Approximate Number Sense (ANS) hasshown that performance in a magnitude (i.e., estimations ofintegers) discrimination task is well fit by a psychophysicalmodel (Halberda & Feigenson, 2008). Whether or notestimations of integers plays a role in probability judgmentshas yet to be investigated. In the present study we use datafrom two adult experiments as well as results fromcomparisons of two computational models to investigate thepotential relationship between the ANS and probabilityjudgments.

Social Affordance Tracking over Time -A Sensorimotor Account of False-Belief Tasks

False-belief task have mainly been associated with the ex-planatory notion of the theory of mind and the theory-theory.However, it has often been pointed out that this kind of high-level reasoning is computational and time expensive. Dur-ing the last decades, the idea of embodied intelligence, i.e.complex behavior caused by sensorimotor contingencies, hasemerged in both the fields of neuroscience, psychology andartificial intelligence. Viewed from this perspective, the fail-ing in a false-belief test can be the result of the impairment torecognize and track others’ sensorimotor contingencies and af-fordances. Thus, social cognition is explained in terms of low-level signals instead of high-level reasoning. In this work, wepresent a generative model for optimal action selection whichsimultaneously can be employed to make predictions of others’actions. As we base the decision making on a hidden state rep-resentation of sensorimotor signals, this model is in line withthe ideas of embodied intelligence. We demonstrate how thetracking of others’ hidden states can give rise to correct false-belief inferences, while a lack thereof leads to failing. Withthis work, we want to emphasize the importance of sensorimo-tor contingencies in social cognition, which might be a key toartificial, socially intelligent systems.

The Illusion of Explanatory Depth in a Misunderstood Field:The IOED in Mental Disorders

Humans fail to understand the world around them and alsofail to recognize this lack of understanding. The illusion ofexplanatory depth (IOED) exemplifies these failures: peoplebelieve they understand the world more deeply than theyactually do and only realize that this belief is an illusion whenthey attempt to explain elements of the world. An unexploredfactor of the IOED is how people may become overconfidentby confusing their own understanding with others’understanding. In two experiments, we examine the IOED inmental disorders, a domain where society has a limitedunderstanding. In Experiment 1, we demonstrate that peopledisplay an IOED for mental disorders as well as devices, butthat it is smaller for mental disorders. In Experiment 2, weshow that exposing the IOED is specifically linked togenerating an explanation, rather than more generallythinking about a phenomenon.

Influences of Speaker-Listener Similarity on Shadowing and Comprehension

We routinely encounter speakers with different accents andspeaking styles. The speech perception literature offersexamples of disruption of comprehension for unfamiliarspeech and also of listeners’ rapid accommodation tounfamiliar accents. Much of this research uses a singlemeasure and/or focuses on isolated word perception. Weinvestigated listeners’ abilities to comprehend and shadowconnected speech spoken in a familiar or unfamiliar accent.We found increases in shadowing latencies andcomprehension errors in the Dissimilar Speech relative toSimilar Speech conditions—especially for relatively informalrather than more academic style speech. Additionally, therewas less accommodation over time to Dissimilar than SimilarSpeech. These results suggest that there are costs both in theimmediate timescale of processing speech (necessary forshadowing) and in the longer time scale of listeningcomprehension when accent and other speech quality is verydifferent from one’s own speech.

Hidden Markov Modeling of eye movements with image information leads to betterdiscovery of regions of interest

Hidden Markov models (HMM) can describe the spatial andtemporal characteristics of eye-tracking recordings incognitive tasks. Here, we introduce a new HMM approach.We developed HMMs based on fixation locations and we alsoused image information as an input feature. We demonstratethe benefits of the newly proposed model in a facerecognition study wherein an HMM was developed for everysubject. Discovery of regions of interest on facial stimuli isimproved as compared with earlier approaches. Moreover,clustering of the newly developed HMMs lead to very distinctgroups. The newly developed approach also allowsreconstructing image information at each fixation.

Reflexive Spatial Attention to Goal-Directed Reaching

Social interaction involves cues such as gaze direction, headorientation, and pointing gestures that serve to automaticallyorient attention to a specific referent or spatial location. In thispaper we demonstrate that an observed reaching actionsimilarly results in a reflexive shift in attention as evidencedby faster responses that are congruent with the direction of thereach, than responses that are incongruent. This facilitation isevident quickly after the onset of the reach action and is dueto the rapid prediction of the reach-goal. When the taskinvolves a saccadic response (Experiment 1) this prediction isinhibited and results in a reverse-congruence, faster responsesto incongruent than congruent cues, when the cue occurs afterthe reach is completed. This reverse-congruence is not presentwhen the task involves a key press (Experiment 2) or a mousemovement (Experiment 3). We propose that the inhibition ofthe predictive saccade is overcome when the eye movementstoward the goal are activated to guide the mouse movement.The three experiments together demonstrate that automaticattention distribution and its effects on behavior depend onthe response.

Longitudinal L2 Development of the English Article in Individual Learners

We investigate the accuracy development of the Englisharticle by learners of English as a second language. The studyfocuses on individual learners, tracking their learningtrajectories through their writings in the EF-Cambridge OpenLanguage Database (EFCAMDAT), an open access learnercorpus. We draw from 17,859 writings by 1,280 learners andask whether article accuracy in individual learners fluctuatesrandomly or whether learners can be clustered according totheir developmental trajectories. In particular, we apply k-means clustering to automatically cluster in a bottom upfashion learners with similar learning curves. We followlearners for a period covering one CEFR level. Given therelatively short learning window, the majority of learnersfollow a horizontal line. Nevertheless, we also identify groupsof learners showing a power-function and U-shaped curve.Crucially, these groups are ‘hidden’ when the aggregate oflearners is considered, a finding highlighting the importanceof individual level analysis.

Spatializing emotion: A mapping of valence or magnitude?

People implicitly associate different emotions with differentlocations in left-right space. Which dimensions of emotion dothey spatialize? Across many studies people spatializeemotional valence, mapping positive emotions onto theirdominant side of space and negative emotions onto their non-dominant side. Yet, other results suggest a contradictorymapping of emotional intensity (a.k.a., emotional magnitude),according to which people associate more intense emotionswith the right and less intense emotions with the left, regardlessof valence. To resolve this apparent contradiction, we firsttested whether people implicitly spatialize whicheverdimension of emotion they attend to. Results showed thepredicted valence mapping, but no intensity mapping. We thentested an alternative explanation of findings previouslyinterpreted as showing an intensity mapping; these data mayreflect a left-right mapping of spatial magnitude, not emotion.People implicitly spatialize emotional valence, but there is noclear evidence for an implicit lateral mapping of emotionalintensity.

Essays about service-learning events can be mined for program assessment

Psychological applications of human language technologycombined with multidisciplinary approaches to similarity cal-culations and data visualization offer avenues to broaden theuse of students’ own words in program assessment. Wecompared multiple analysis approaches on both simple to-ken counts (word roots and character trigrams) and top-downlanguage indicators from 85 student essays about service-learning events. Bioinformatic distance calculations on wordroot counts provided useable assessment information on at-titude change, showing patterns of word use that match theholistic goals of the assignment. Although these patterns werenot found in a subsequent batch of 81 essays, the tools we areproviding may facilitate other efforts to detect attitude changein student writing about service-learning events.

Language Informativity: Is starfish more of a fish in English than in Dutch?

Two studies examined how lexical information contained in words affects people’s category representations. Some words are lexically suggestive regarding the taxonomic position of their referent (e.g., bumblebee, starfish). However, this information differs from language to language (e.g., in Dutch the equivalent words hold no taxonomic information: hommel, vlinder). Three language groups, Dutch, English, and Indonesian speakers, were tested in similarity and typicality judgment tasks. The results show that the lexical information affects only the users of the language (e.g., Dutch speakers rated Dutch-informative items, both in similarity and typicality tasks, higher than English and Indonesian speakers). Results are discussed in light of theories of concept representation and the language relativity hypothesis.

Developmental Shift in the Relationship Between Sequential Learning, ExecutiveFunction, and Language Ability as Revealed by Event-Related Potentials

Previous research has shown a link between sequentiallearning (SL) and language as well as links between executivefunction (EF) and both language and SL. However, littleresearch has focused on both the development of therelationship between these factors and their neurologicalunderpinnings. Here we report a study of the event-relatedpotential (ERP) correlates of SL and behavioral measures oflanguage and EF in a sample of 7-12-year-old children.Results revealed that both SL and EF had independentassociations with language development but that thecontribution that both made toward language developmentshifted dramatically between the ages of 7 to 11-12 years. Theresults furthermore suggest that this developmental shift maybe due in part to the maturation of EF abilities and changesdue to neural entrenchment and commitment as aconsequence of language acquisition.

Ambiguity and Representational Stability: What is the role of embodied experiences?

Embodied cognition is sometimes presented as an alternative to computational approaches, the argument being that cognition is strongly influenced by an agent's body movement. However, the exact nature of this influence is still uncertain. In the current paper, we add to the conversation by analyzing adults’ predictions in a high-ambiguity task: Adults had to decide which of two objects would sink faster (or slower) in water. Ambiguity was achieved by pitting object volume and object mass against buoyancy: The winning object of a pair was sometimes the bigger and heavier one, and sometimes it was the smaller and lighter one. The crucial manipulation was whether the stimuli were real-life objects or 2D pictures. All participants were presented with pictures of the objects during a training phase (when they received feedback on their predictions). Real-life objects were either present during the phase prior to the training (jars-first condition), or during the phase after the training (jars-last condition). Findings showed a clear influence of hands-on experiences: When allowed to hold the objects, adults were more likely to demonstrate a simplistic focus on object heaviness. These results call for a more nuanced understanding of the effect of embodied experiences on the stability of representations. While embodiment sometimes can help distinguish relevant from irrelevant information, we show that it can also destabilize representations acquired through visual information.

Questions in informal teaching: A study of mother-child conversations

Questioning is a core component of formal pedagogy. Parents commonly question children, but do they use questions to teach? Research has shown that informal pedagogical situations elicit stronger inferences than the same evidence observed in non- pedagogical situations. Certain questions (“pedagogical questions”) have similar features. We investigate the frequency and distribution of pedagogical questions from mother-child conversations documented in the CHILDES database. We show that pedagogical questions are commonplace, are more frequent for middle-class mothers compared to working-class mothers, are more frequent during free play than during daily routines, and are more frequent in mothers who ask more questions. The results serve as a first step towards understanding the role of questions in informal pedagogy.

Comparing Predictive and Co-occurrence Based Models of Lexical SemanticsTrained on Child-directed Speech

Distributional Semantic Models have been successful atpredicting many semantic behaviors. The aim of this paper isto compare two major classes of these models – co-occurrence-based models, and prediction error-driven models– in learning semantic categories from child-directed speech.Co-occurrence models have gained more attention incognitive research, while research from computationallinguistics on big datasets has found more success withprediction-based models. We explore differences betweenthese types of lexical semantic models (as representatives ofHebbian vs. reinforcement learning mechanisms,respectively) within a more cognitively relevant context: theacquisition of semantic categories (e.g., apple and orange asfruit vs. soap and shampoo as bathroom items) from linguisticdata available to children. We found that models that performsome form of abstraction outperform those that do not, andthat co-occurrence-based abstraction models performed thebest. However, different models excel at different categories,providing evidence for complementary learning systems.

Geometric representations of evidence in models of decision-making

Traditionally, models of the decision-making process have fo-cused on the case where a decision-maker must choose be-tween two alternatives. The most successful of these, sequen-tial sampling models, have been extended from the binary caseto account for choices and response times between multiplealternatives. In this paper, I present a geometric representa-tion of diffusion and accumulator models of multiple-choicedecisions, and show how these can be analyzed as Markovprocesses on lattices. I then introduce psychological relation-ships between choice alternatives and show how this impactsthe sequential sampling process. I conclude with two examplesshowing how one can predict distributions of responses on acontinuum as well as response times by incorporating psycho-logical representations into a multi-dimensional random walkdiffusion process.

Centering and the Meaning of Conditionals

The centering inference - p & q, therefore if p then q - is important in reasoning research because it is logically valid for some accounts of conditionals (e. g. the material and the probability conditionals), but not for others (e. g. the inferential conditional, according to which a conditional is true if and only if there is an inferential connection between p and q). We tested participants' acceptance of centering compared to valid and invalid inferences not containing conditionals, varying the presence of an inferential connection and of a common topic of discourse between p and q. Participants' acceptance of centering was more similar to valid inferences than to invalid inferences, and there was no reliable effect of a connection between p and q. Acceptance rates were higher when there was a common topic of discourse, independently of the type of inference. The findings support the probability conditional account.

A rational speech-act model of projective content

Certain content of a linguistic construction can project whenthe construction is embedded in entailment-canceling environ-ments. For example, the conclusion that John smoked in thepast from the utterance John stopped smoking still holds forJohn didn’t stop smoking, in which the original utterance isembedded under negation. There are two main approaches toaccount for projection phenomena. The semantic approach addsrestrictions of the common ground to the conventional meaning.The pragmatic approach tries to derive projection from generalconversational principles. In this paper we build a probabilisticmodel of language understanding in which the listener jointlyinfers the world state and what common ground the speakerhas assumed. We take change-of-state verbs as an exampleand model its projective content under negation. Under certainassumptions, the model predicts the projective behavior and itsinteraction with the question under discussion (QUD), withoutany special semantic treatment of projective content.

Infants’ speech and gesture production in Mozambique and the Netherlands

In this paper, we explore the cultural differences in theproduction of speech and speech+gesture combinations byinfants at the age of 17-18 months in Mozambique and theNetherlands. We found that Dutch infants produce morespeech and gestures compared to Mozambican infants. Infantsin both communities make most use of content words. Theresults further show that Dutch infants make more use ofproximal pointing than Mozambicans, whereas Mozambicansmake more use of the offering gesture. Finally, the amount ofsemantically coherent speech+gesture combinations of theMozambican infants is higher than of the Dutch infants

A Neural Model of Context Dependent Decision Making in the Prefrontal Cortex

In this paper, we present a spiking neural model of contextdependent decision making. Prefrontal cortex (PFC) plays afundamental role in context dependent behaviour. We modelthe PFC at the level of single spiking neurons, to explore theunderlying computations which determine its contextual re-sponses. The model is built using the Neural EngineeringFramework and performs input selection and integration as anonlinear recurrent dynamical process. The results obtainedfrom the model closely match behavioural and neural experi-mental data obtained from macaque monkeys that are trainedto perform a context sensitive perceptual decision task. Theclose match suggests that the low-dimensional, nonlinear dy-namical model we suggest captures central aspects of contextdependent decision making in primates.

Discourse Analysis as a Solution to Interpretive Problems in Cognitive DevelopmentResearch

Cognitive development researchers have drawn conclusionsabout young children’s developing knowledge of number bystudying their behavior, while at the same timeacknowledging that behavior is an imperfect index ofknowledge, e.g., it may be disputed whether a givenbehavioral task accurately measures, overestimates, orunderestimates children’s knowledge. The texts of publishedresearch articles from these investigations are the focus of adiscourse analysis described in the present article. The resultsof the discourse analysis suggest that claims about what aperson knows are actually generalized descriptions ofbehavior. Therefore, in studying behavior on tasks to drawconclusions about participants’ conceptual knowledge,researchers are merely making behavioral generalizations, notinvestigating hidden cognitive or epistemic content.

Concept Membership vs Typicality in Sentence Verification Tasks

In the paper we discuss the relation between fuzzy sets and thegraded membership and typicality effects found in the studyof concepts. After a short overview of the topic, we presentthree experiments, carried out using the same method but withdifferent situational contexts, which examine whether gradedmembership and typicality could be considered as independentfactors capable of influencing the performance of human par-ticipants involved in sentence verification tasks, or they aresomehow interrelated. The paper concludes with a generaldiscussion of the experimental findings and the problems theypose for models of concepts based on the theory fuzzy sets.

Better safe than sorry:Risky function exploitation through safe optimization

Exploration-exploitation of functions, that is learningand optimizing a mapping between inputs and expectedoutputs, is ubiquitous to many real world situations.These situations sometimes require us to avoid certainoutcomes at all cost, for example because they arepoisonous, harmful, or otherwise dangerous. We testparticipants’ behavior in scenarios in which they haveto find the optimum of a function while at the sametime avoid outputs below a certain threshold. Intwo experiments, we find that Safe-Optimization, aGaussian Process-based exploration-exploitation algo-rithm, describes participants’ behavior well and thatparticipants seem to care first about whether a point issafe and then try to pick the optimal point from all suchsafe points. This means that their trade-off betweenexploration and exploitation indicates intelligent,approximate, and homeostasis-driven behavior

Intentionality and the Role of Labels in Categorization

Language has been shown to influence the ability to formcategories. Here we investigate whether linguistic labels areprivileged compared to other types of cues (e.g., numbers orsymbols), and whether labels exert their effects regardless ofwhether they are introduced intentionally. In a categorizationtask, we found that adults were more likely to use labels to de-termine category boundaries compared to numbers or symbols,and that these effects persisted in all intentionality manipula-tions. These findings suggest that labels have a powerful effecton categorization compared to other cues; most strikingly, la-bels (but not other cues) are used during categorization evenwhen people are specifically asked to ignore them. These re-sults provide novel support for the position that labels indicatecategory membership.

Constraining the Search Space in Cross-Situational Word Learning:Different Models Make Different Predictions

We test the predictions of different computational models ofcross-situational word learning that have been proposed in theliterature by comparing their behavior to that of young childrenand adults in the word learning task conducted by Ramscar,Dye, and Klein (2013). Our experimental results show that aHebbian learner and a model that relies on hypothesis testingfail to account for the behavioral data obtained from both pop-ulations. Ruling out such accounts might help reducing thesearch space and better focus on the most relevant aspects ofthe problem, in order to disentangle the mechanisms used dur-ing language acquisition to map words and referents in a highlynoisy environment.

Feature-based Joint Planning and Norm Learning in Collaborative Games

People often use norms to coordinate behavior andaccomplish shared goals. But how do people learn andrepresent norms? Here, we formalize the process by whichcollaborating individuals (1) reason about group plans duringinteraction, and (2) use task features to abstractly representnorms. In Experiment 1, we test the assumptions of our modelin a gridworld that requires coordination and contrast it with a“best response” model. In Experiment 2, we use our model totest whether group members’ joint planning relies more onstate features independent of other agents (landmark-basedfeatures) or state features determined by the configuration ofagents (agent-relative features).

Emotional Implications of Metaphor: Consequences of Metaphor Framing forMindset about Hardship

Do metaphors shape people’s emotional states and mindsetsfor dealing with hardship? Natural language metaphors mayact as frames that encourage people to reappraise anemotional situation, changing the way they respond to it.Recovery from cancer is one type of adversity that manypeople face, and it can be mediated by the mindset peopleadopt. We investigate whether two common metaphors fordescribing a cancer experience – the battle and the journey –encourage people to make different inferences about thepatient’s emotional state. After being exposed to the battlemetaphor participants inferred that the patient would feelmore guilt if he didn’t recover, while after being exposed tothe journey metaphor participants felt that he had a betterchance of making peace with his situation. We discussimplications of this work for investigations of metaphor andemotion, mindsets, and recovery.

Trust, Communication, and Inequality

Inequality in wealth is a pressing concern in many contempo-rary societies, where it has been show to co-occur with polit-ical polarization and policy volatility, however its causes areunclear. Here we demonstrate in a simple model where socialbehavior spreads through learning that inequality can covaryreliably with other cooperative behavior, despite a lack of ex-ogenous cause or deliberate coordination. In the context ofsimulated cultural evolution selecting for trust and cooperativeexchange, we find both cooperation and inequality to be moreprevalent in contexts where the same agents play both the rolesof the trusting investor and the trusted investee, in contrast tothe condition where these roles are divided between disjointpopulations. Cooperation is more likely in contexts of hightransparency about potential partners and with a high amountof partner choice; while inequality is more likely with highinformation but no choice in partners for those that want to in-vest. While not yet a full model of contemporary society, ourapproach holds promise for examining the causality and socialcontexts underlying shifts in income inequality.

What Were They Thinking? Diagnostic Coding of Conceptual Errors ina Mathematics Learning Software Data Archive

Decades of research have demonstrated that students facecritical conceptual challenges in learning mathematics. Asnew adaptive learning technologies become ubiquitous ineducation, they bring opportunities both to facilitateconceptual development in more focused ways and to gatherdata that may yield new insights into students’ learningprocesses. The present study analyzes data archives from aperceptual learning intervention designed to help studentsmaster key concepts related to linear measurement andfractions. Using algorithmic data coding on a database of78,034 errors from a sample of sixth graders, both conceptualerrors and other errors were captured and analyzed for changeover time. Results indicate that conceptual errors decreasedsignificantly. This approach suggests additional ways thatsuch datasets can be exploited to better understand how thesoftware impacts different students and how next generationsof adaptive software may be designed to code and respond tocommon error patterns in real time.

Generalisable patterns of gesture distinguish semantic categories in communicationwithout language

There is a long-standing assumption that gestural forms aregeared by a set of modes of representation (acting,representing, drawing, moulding) with each techniqueexpressing speakers’ focus of attention on specific aspects ofreferents (Müller, 2013). Beyond different taxonomiesdescribing the modes of representation, it remains unclearwhat factors motivate certain depicting techniques overothers. Results from a pantomime generation task show thatpantomimes are not entirely idiosyncratic but rather followgeneralisable patterns constrained by their semantic category.We show that a) specific modes of representations arepreferred for certain objects (acting for manipulable objectsand drawing for non-manipulable objects); and b) that use andordering of deictics and modes of representation operate intandem to distinguish between semantically related concepts(e.g., “to drink” vs “mug”). This study provides yet moreevidence that our ability to communicate through silentgesture reveals systematic ways to describe events and objectsaround us.

Singular Interpretations Linger During the Processing of Plural Noun Phrases

Plural nouns do not strictly refer to more than one object, whichsuggests that they are not semantically marked to mean “more thanone” and that plurality inferences are made via a scalarimplicature. Consistent with that hypothesis, recent evidence usinga picture-matching paradigm supports founds that participantswere equally fast to respond to a picture of a single object as apicture of multiple objects after reading a sentence containing aplural. This suggests that comprehenders activate both a semantic(i.e., singular) and a pragmatic interpretation (i.e., plural). Thecurrent study found that even after a 1500 ms delay,comprehenders still maintain activation of both meanings afterreading a sentence containing a plural. This suggests that theactivation of the singular meaning may not be due to theprocessing of a scalar implicature, but rather may be due to thenature of plural conceptual representations

Using determiners as contextual cues in sentence comprehension: A comparison between younger and older adults

Younger adults use both semantic and phonological cues to quickly and efficiently localize the referent during sentence comprehension. While some behavioral studies suggest that older adults use contextual information even more strongly than younger adults, ERP studies have shown that this population, as a group, is less apt at using contextual semantic cues to predict upcoming words. The current study extends the investigation of contextual cue processing in auditory sentence comprehension beyond semantic cue processing, by comparing younger and older adults in their ability to use phonological cues in indefinite articles (a/an) to localize the referent in an eye-tracking visual world paradigm. Our results suggest that both age groups use such phonological information for referent localization, but with different timelines: younger adults use the cues to anticipate an upcoming word, whereas older adults show delayed cue processing after the target word has been spoken. Together with findings from semantic context processing, these results support a model of sentence comprehension in which the use of contextual cues continues with aging, but is no longer as efficient as in the young system for anticipatory word retrieval.

Scarcity captures attention and induces neglect: Eyetracking and behavioral evidence

Resource scarcity poses challenging demands on the human cognitive system. Budgeting with limited resources induces an attentional focus on the problem at hand. This focus enhances processing of relevant information, but it also comes with a cost. Specifically, scarcity may cause a failure to notice beneficial information that helps alleviate the condition of scarcity. In three experiments, participants were randomly assigned with a small budget (“the poor”) or a large budget (“the rich”) to order a meal from a restaurant menu. The poor participants looked longer at the prices of the items and recalled the prices more accurately, compared to the rich participants. Importantly, the poor neglected a useful discount that would save them money. This neglect may arise as a result of attentional narrowing, and help explain a range of counter- productive behaviors of low-income individuals. The current findings have important implications for public policy and services for low-income individuals.

The Influence of Religious Beliefs on False Memory of Fabricated Events

Previous research has indicated that memories can be modified in conjunction with one’s attitudes, in particular, political beliefs. The current study extended this finding by focusing on the relationship between differing religious beliefs and false memories for news events. We predicted that religious people would be more inclined to remember fabricated news events positively depicting religion and less likely to remember events negatively depicting religion compared to non-religious people. Opposite effects were predicted for events depicting atheism. In contrast, we found that religious people were more likely to falsely remember both events depicting religion positively and negatively compared to non-religious individuals. However, the extent to which individuals felt positively about the events interacted with religious beliefs to predict reported false memories. Religious individuals were more likely to remember events if they felt positively about them whereas atheists were more likely to remember events if they felt negatively about them

Surprising blindness to conversational incoherencein both instant messaging and face-to-face speech

Language is widely assumed to be a well designed tool for re-liably communicating propositional information between peo-ple. This suggests that its users should be sensitive to failuresof communication, such as utterances that are blatantly inco-herent with respect to an ongoing conversation. We presentexperimental work suggesting that, in fact, people are surpris-ingly tolerant of conversational incoherence. In two previousstudies, participants engaged in instant-messaging conversa-tions that were either repeatedly crossed with other conversa-tions or had lines inserted into them that deliberately contra-dicted available information. In both cases, a substantial pro-portion of participants failed to notice. In a new study, confed-erates inserted unexpected, nonsensical lines into face-to-faceconversations. The majority of participants failed to notice.We argue these findings suggest that we should be wary ofmodeling spontaneous communication in terms of faithful in-formation transmission, or language as a well designed tool forthat purpose.

Analytical Thinking Predicts Less Teleological Reasoning and Religious Belief

Individual differences in reflectiveness have been found topredict belief in God. We hypothesize that this associationmay be due to a broader inclination for intuitive thinkers toendorse teleological explanations. In support of ourhypothesis, we find that scientifically unfounded teleologicalexplanations are more likely to be endorsed by intuitive compared to analytical thinkers, and that those who endorse teleological explanations are more likely to have religious beliefs.

Gender Differences in the Effect of Impatience on Men and Women’sTiming Decisions

Decisions over the timing of actions are critical in severalsafety, security and healthcare scenarios. These decisions, sim-ilar to discrete decisions, can be influenced by biases and in-dividual traits. In this paper, a bias of impatience is studiedin an experiment with 626 participants, with a focus on gen-der differences. Impatience was moderated with a manipula-tion of a variable-speed countdown. Men and women differedin how they expressed impatience. While men systematicallyand irrationally act earlier when become impatient followingthe slower countdowns, women react by irrationally request-ing earlier information about the outcome of each trial, andimpulsively pressing an inactive key.

Why Sense-Making through Magnitude May Be Harderfor Fractions than for Whole Numbers

What is the role of fraction magnitude knowledge in learningfraction addition? An experiment with 71 6th and 7 th gradestudents compared fraction addition instruction and practicewith a magnitude representation to a tightly controlled non-magnitude condition. In the magnitude condition, studentswith better fraction magnitude estimation skills benefittedmore from the conceptual instruction and this relationshipwas moderated by students’ knowledge of how magnituderelates to fraction addition and equivalence. However,students with better fraction magnitude estimation skillsbenefitted less from the practice problems with magnitude. Inthe non-magnitude condition, fraction magnitude estimationwas not predictive of learning. This study indicates thatstudents with magnitude knowledge can leverage it to learnfraction addition concepts from magnitude representations,but, for those students, magnitude representations may be adistraction from practicing the procedure.

The Primary and Convergent Retrieval Model of Recall

Memory models typically assume that recall is a two-stage process with learning affecting both processes to the same degree. This equal learning assumption is difficult to reconcile with studies of the 'testing effect', which reveal different forgetting rates following learning from test practice versus learning from restudy. Here we present a new memory model, termed Primary and Convergent Retrieval (PCR) that assumes successful recall leads to a selective enhancement for the second stage of recall (Convergent Retrieval). We applied this model to existing testing effect data. In two new experiments, we confirmed novel predictions of the PCR model for transfer between retrieval cues and for recall latencies. This is the first formally specified model of the testing effect and it has broad implications for the nature of learning and retrieval.

Modelling the co-development of word learning and perspective-taking

Word learning involves mapping observable words to unob-servable speaker intentions. The ability to infer referential in-tentions in turn has been shown to depend in part on accessto language. Thus, word learning and intention-reading co-develop. To explore this interaction, we present an agent-basedmodel in which an individual simultaneously learns a lexiconand learns about the speaker’s perspective, given a shared con-text and the speaker’s utterances, by performing Bayesian in-ference. Simulations with this model show that (i) lexicon-learning and perspective-learning are strongly interdependent:learning one is impossible without some knowledge of theother, (ii) lexicon- and perspective-learning can bootstrap eachother, resulting in successful inference of both even when thelearner starts with no knowledge of the lexicon and unhelpfulassumptions about the minds of others, and (iii) receiving ini-tial input from a ‘helpful’ speaker (who adopts the learner’sperspective on the world) paves the way for later learning fromspeakers with perspectives which diverge from the learner’s.This approach represents a first attempt to model the hypoth-esis that language and mindreading co-develop, and a first ex-ploration of the implications for theories of word learning andmindreading development.

Salience versus prior knowledge - how do children learn rules?

Categories are essential for thinking, learning, and communi-cating. Research has shown that young children and adultstreat categories very differently, with young children favor-ing whole objects while adults focus on the key informationin most cases. If so, then how can young children learn cat-egories requiring focused attention to key features? Studieshave shown that drawing attention to rules had facilitative ef-fects. We sought to identify whether the effect was driven byinstruction about rules or by stimulus-driven factors. Our re-sults suggest that even with instruction, 4-year-olds were notable to attend to key information. Simply making importantinformation more salient, however, allowed them to learn thecategory and transfer to situations when the key feature wasno longer salient.

Creative Interaction with Blocks and Robots

In order to creatively interact with robots we need to understand how creative thinkers work with objects to explore new ideas physically. Our approach involves comparing the model-making strategies of architects with students to expose the creative extras architects bring to working with physical models. To study this we coded students and architects performing a design task. Architects differed from students along three dimensions. First, architects were more selective; they used fewer blocks overall and fewer variations. Second, architects appear to think more about spatial relationships and material constraints. Lastly, architects more often experiment with re-orientations: they position a block one way to see its relations to its neighbors; they reposition it another way to see how that changes how things look and feel. These findings suggest that designers interact with the material more effectively than students. This embodied know-how is something next generation robots can support and possibly enhance.

A Hierarchical Probabilistic Language-of-Thought Modelof Human Visual Concept Learning

How do people rapidly learn rich, structured concepts fromsparse input? Recent approaches to concept learning havefound success by integrating rules and statistics. We describe ahierarchical model in this spirit in which the rules are stochas-tic, generative processes, and the rules themselves arise froma higher-level stochastic, generative process. We evaluate thisprobabilistic language-of-thought model with data from an ab-stract rule learning experiment carried out with adults. In thisexperiment, we find novel generalization effects, and we showthat the model gives a qualitatively good account of the exper-imental data. We then discuss the role of this kind of model inthe larger context of concept learning.

Perceiving Fully Occluded Objects via Physical Simulation

Conventional theories of visual object recognition treat objectseffectively as abstract, arbitrary patterns of image features.They do not explicitly represent objects as physical entities inthe world, with physical properties such as three-dimensionalshape, mass, stiffness, elasticity, surface friction, and so on.However, for many purposes, an object’s physical existence iscentral to our ability to recognize it and think about it. Thisis certainly true for recognition via haptic perception, i.e., per-ceiving objects by touch, but even in the visual domain an ob-ject’s physical properties may directly determine how it looksand thereby how we recognize it. Here we show how a physi-cal object representation can allow the solution of visual prob-lems, like perceiving an object under a cloth, that are other-wise difficult to accomplish without extensive experience, andwe provide behavioral and computational evidence that peoplecan use such a representation.

“This problem has no solution”: when closing one of two doors results in failure to access any.

We investigated what happens when the spontaneous encoding of a problem is incongruent with its solving strategy. We created word problems from which two distinct semantic representations could be abstracted. Only one of these representations was consistent with the solving strategy. We tested whether participants could recode a semantically incongruent representation in order to access another, less salient, solving strategy. In experiment 1, participants had to solve arithmetic problems and to indicate which problems were unsolvable. In experiment 2, participants received solved problems and had to decide whether the solution was appropriate or not. In both experiments, participants had more difficulties acknowledging that problems inducing an incongruent representation could be solved than they had for problems inducing a congruent representation. This was confirmed by response times. These results highlight how semantic aspects can lead even adults to fail or succeed in the solving of arithmetic problems requiring basic mathematical knowledge.

Analogical Generalization and Retrieval for Denominal Verb Interpretation

The creativity of natural language poses a significant theoretical problem. One example of this is denominal verbs (those derived from nouns) such as spoon in “She spooned me some sugar”. Traditional generative approaches typically posit a unique entry in the lexicon for this usage, though this approach has difficulty scaling. Construction Grammar has evolved as a competing theory which instead allows the syntactic form of the sentence itself to contribute semantic meaning. However, how people learn syntactic constructions remains an open question. One suggestion has been that they are learned through analogical generalization. We evaluate this hypothesis using a computational model of analogical generalization to simulate Kaschak and Glenberg’s (2000) study regarding interpretation of denominal verbs.

Mindfulness meditation as attention control training: A dual-blind investigation

Mindfulness meditation is a form of secular meditation thatemphasizes non-judgmental awareness of the presentmoment. Research into mindfulness has greatly expanded inrecent years (Davidson & Kasniak, 2015) and a growingliterature has documented effects of mindfulness training oncognition. However, the specific aspects of mindfulnessmeditation training for novice practitioners that mightinfluence cognition remain unexplored. The present studyused a rigorous, dual-blind design to investigate whether theattention-monitoring component of mindfulness meditationreduces mind-wandering and improves performance duringreading comprehension and sustained attention tasks. Whencompared with relaxation meditation, mindfulness trainingimproved recall of specific details from a text but did notreduce mind-wandering or affect sustained attention. Theresults are discussed with respect to design considerationswhen studying a meditation intervention.

Which Learning Algorithms Can GeneralizeIdentity-Based Rules to Novel Inputs?

We propose a novel framework for the analysis of learning al-gorithms that allows us to say when such algorithms can andcannot generalize certain patterns from training data to testdata. In particular we focus on situations where the rule thatmust be learned concerns two components of a stimulus beingidentical. We call such a basis for discrimination an identity-based rule. Identity-based rules have proven to be difficult orimpossible for certain types of learning algorithms to acquirefrom limited datasets. This is in contrast to human behaviouron similar tasks. Here we provide a framework for rigorouslyestablishing which learning algorithms will fail at generalizingidentity-based rules to novel stimuli. We use this frameworkto show that such algorithms are unable to generalize identity-based rules to novel inputs unless trained on virtually all possi-ble inputs. We demonstrate these results computationally witha multilayer feedforward neural network.

Pragmatic relativity: Gender and context affect the use of personal pronouns in discourse differentially across languages

Speakers need to use a variety of referring expressions (REs) (e.g. full noun phrases, pronouns or null forms) in pragmatically appropriate ways to produce coherent narratives. Languages, however, differ from each other in terms of a) whether REs as arguments can be dropped or not and b) whether personal pronouns encode gender or not. Here we examine two languages that differ from each other in these two aspects and ask whether the co-reference context (i.e., referents are maintained or re-introduced) and the gender encoding options affect the use of REs differentially. We elicited narratives from Dutch and Turkish speakers about two types of three-person events, one including people of the same and the other of mixed-gender. Speakers of both languages followed a general principle of using full forms such as noun phrases (NPs) while re-introducing a previously mentioned referent into the discourse and reduced forms (overt or null pronoun) while maintaining the same referent; a language independent strategy in discourse production. Turkish speakers, unlike Dutch speakers, used pronouns mainly to mark emphasis. Furthermore, Dutch but not Turkish speakers used pronouns differentially across the two videos. Thus, we argue that linguistic possibilities available in typologically different languages might tune speakers into taking different principles into account to establish coherence in narratives in pragmatically coherent ways.

Investigating Rational Analogy in the Spirit of John Stuart Mill:Bayesian Analysis of Confidence about Inferences across Aligned Simple Systems

What does it mean for analogy to be rational? John StuartMill described a probabilistic underpinning for analogicalinference based on the the odds of observing systemicpairwise correspondence across otherwise independentsystems by mere chance. Although proponents and criticshave debated its validity, Mill’s approach has yet to beimplemented computationally or studied psychologically. Inthis paper we examine Mill’s approach and show how it canbe instantiated using Bayes theorem. Then we describe twoexperiments that present subjects with partially-revealed,aligned binary strings with varying degrees of intra- and inter-string regularity. Experimental results are compared to aformal rational analysis of the stimuli revealing conditionswhereby participants exhibit confidence patterns consistentand inconsistent with Mill’s rational basis of analogy.

Translating testimonial claims into evidence for category-based induction

Inductive generalizations about the properties of kinds arebased on evidence. But evidence can come either from ourobservations, or from the testimony of knowledgeableinformants. The current study explores how we combineinformation from these two sources to make inductiveinferences. Participants learned about a novel object category,and observed the property occur with some frequency in asample of category members. Different groups of participantsalso heard an informant making either Generic, Quantified, orSpecific claims about the prevalence of the property.Participants who heard generic claims were more resistant toa straightforward use of statistical evidence in theirgeneralizations. Moreover, participants who rated theinformant as more knowledgeable (across conditions) gavehigher prevalence estimates. The results suggest twopathways through which testimony translates into evidencefor category learning, and raise questions on how to bestcombine evidence from these different sources into acommon representational form.

Simple Search Algorithms on Semantic Networks Learned from Language Use

Recent empirical and modeling research has focused on thesemantic fluency task because it is informative about seman-tic memory. An interesting interplay arises between the rich-ness of representations in semantic memory and the complex-ity of algorithms required to process it. It has remained anopen question whether representations of words and their re-lations learned from language use can enable a simple searchalgorithm to mimic the observed behavior in the fluency task.Here we show that it is plausible to learn rich representationsfrom naturalistic data for which a very simple search algorithm(a random walk) can replicate the human patterns. We sug-gest that explicitly structuring knowledge about words into asemantic network plays a crucial role in modeling human be-havior in memory search and retrieval; moreover, this is thecase across a range of semantic information sources.

Racial Essentialism is Associated with Prejudice Towards Blacks in 5- and 6-Year- Old White Children

Psychological essentialism is a cognitive bias that leads people to view members of a category as sharing a deep, underlying, inherent nature that causes them to be fundamentally similar to one another in non-obvious ways. Although essentialist beliefs can be beneficial, allowing people to view the social world as stable and predictable, essentialist beliefs about social categories such as race or ethnicity are also thought to underlie the development of stereotyping and prejudice. Whereas recent studies in adults have found that racial essentialism is associated with increased prejudice, the development of this relationship has rarely been examined. The present research examined the implications of essentialism for prejudice in a population of white five- and six-year old children in the United States, and revealed that essentialist beliefs about race are associated with increased implicit and explicit prejudice towards members of a minority racial group.

The Combinatorial Power of Experience

Recent research in the artificial grammar literature has found that a simple exemplar model of memory can account for a wide variety of artificial grammar results (Jamieson & Mewhort, 2009, 2010, 2011). This classic type of model has also been extended to account for natural language sentence processing effects (Johns & Jones, 2015). The current article extends this work to account for sentence production, and demonstrates that the structure of language itself provides sufficient power to generate syntactically correct sentences, even with no higher-level information about language provided to the model.

Discriminability of sound contrasts in the face of speaker variation quantified

How does a naive language learner deal with speaker variationirrelevant to distinguishing word meanings? Experimental datais contradictory, and incompatible models have been proposed.Here, we examine basic assumptions regarding the acousticsignal the learner deals with: Is speaker variability a hurdle indiscriminating sounds or can it easily be ignored? To this end,we summarize existing infant data. We then present machine-based discriminability scores of sound pairs obtained withoutany language knowledge. Our results show that speaker vari-ability decreases sound contrast discriminability, and that somecontrasts are affected more than others. However, chance per-formance is rare; most contrasts remain discriminable in theface of speaker variation. We take our results to mean thatspeaker variation is not a uniform hurdle to discriminatingsound contrasts, and careful examination is necessary whenplanning and interpreting studies testing whether and to whatextent infants (and adults) are sensitive to speaker differences.

A Twist On Event Processing: Reorganizing Attention to Cope with Novelty inDynamic Activity Sequences

Fluent event processing appears to critically involveselectively attending to information-rich junctures withincontinuously unfolding sensory streams (e.g., Newtson, 1973).What counts as information-rich would seem to depend on avariety of factors, however, including the novelty/familiarityof such events, as well as local opportunity for repeatedviewings. Using Hard, Recchia, & Tversky’s “Dwell-timeParadigm,” we investigated the extent to which viewers’attention to unfolding activity streams is affected bynovelty/familiarity and a second viewing. Viewers’ dwelltimes were recorded as they advanced twice each through threeslideshows varying in familiarity but equated on otherdimensions. Dwell time patterns revealed reorganization on anumber of fronts: a) familiarity elicited decreased dwellingoverall, b) dwell-time patterns changed systematically onsecond viewing, and c) familiarity modulated the specificnature of change associated with repeated viewing. Thesefindings illuminate reorganization in attention as actioninformation is first encountered and then quickly incorporatedto guide event processing.

Recursion in Nicaraguan Sign Language

Syntactic recursion is argued to be a key property of naturallanguages, allowing us to create an infinite number ofutterances from a finite number of words and rules. Somehave argued that recursion is uniquely human. There are atleast two possibilities for the origins of recursion: 1)Recursion is a property of the language faculty. 2) Recursionis an historical accomplishment and is culturally constructedover millennia. Here we ask whether an emerging signlanguage, Nicaraguan Sign Language (NSL), exhibitssyntactic recursion by comparing the language of the firstthree age cohorts of signers. Signers (n=27) watched anddescribed vignettes designed to elicit relative clauses. Resultssuggest that signers from all three cohorts have strategies tofulfill the discourse function of relative clauses, picking outan individual from a set. The grammatical form of theutterances differs across cohorts, with signers from latercohorts clearly producing embedded structures.

Comparing competing views of analogy making using eye-tracking technology

We used eye-tracking to study the time course of analogical reasoning in adults. We considered proportions of looking times and saccades. The main question was whether or not adults would follow the same search strategies for different types of analogical problems (Scene Analogies vs. Classical A:B:C:D vs a Scene version of A:B::C:D). We then compared these results to the predictions of various models of analogical reasoning. Results revealed a picture of common search patterns with local adaptations to the specifics of each paradigm in both looking-time duration and the number and types of saccades. These results are discussed in terms of conceptions of analogical reasoning.

Memory for the Random: A Simulation of Computer Program Recall

Contrary to a widely held belief, experts recall randommaterial better than non-experts. This phenomenon, predictedby the CHREST computational model, was first establishedwith chess players. Recently, it has been shown through ameta-analysis that it generalises to nearly all domains wherethe effect has been tested. In this paper, we carry outcomputer simulations to test whether the mechanismpostulated with chess experts – the acquisition and use of alarge number of chunks – also applies to computerprogramming experts. The results show that a simplifiedversion of CHREST (without the learning and use of high-level schemata known as templates) broadly captures the skilleffect with scrambled programs. However, it fails to accountfor the differences found in humans between different types ofrandomisation. To account for these differences, additionalmechanisms are necessary that use semantic processing.

Feature Overlap in Action Sequence

This study determined if features of an action plan held in working memory are activated to the same extent (consistent with serial memory theories) or in a gradient (consistent with theories that assume serial order is imposed prior to response selection). Two visual events (A and B) occurred in a sequence. Participants planned an action (3-finger, key sequence) to the first event (Action A) and maintained this action in working memory while executing a speeded response (1-finger key-press) to the second event (Action B). Afterwards, participants executed Action A. We manipulated whether Action B overlapped with the first, second or final feature of Action A, and examined the pattern of correct, Action B RTs at the different overlap locations by finger (index, middle, ring), as well as the error rates of both Action A and Action B. Results indicate that 3-finger sequences were not activated equally or in a gradient. Instead, feature activation reflected a serial position curve or a reverse serial position curve dependent on finger.

Modeling Adaptation to a Novel Accent

Listeners quickly adapt to novel accents. There are three mainhypotheses for how they do so. Some suggest that listenersexpand their phonetic categories, allowing more variability inhow a sound is pronounced. Others argue that listeners shifttheir categories instead, only accepting deviations consistentwith the accent. A third hypothesis is that listeners both shiftand expand their categories. Most work has supported thecategory expansion hypotheses, with the key exception of Mayeet al. (2008) who argued for a shifting strategy. Here, we applythe ideal adaptor model from Kleinschmidt & Jaeger (2015)to reexamine what conclusions can be drawn from their data.We compare adaptation models in which categories are shifted,expanded, or both shifted and expanded. We show that modelsinvolving expansion can explain the data as well as, if not betterthan, the shift model, in contrast to what has been previouslyconcluded from these data.

Gibson's Reasons for Realism and Gibsonian Reasons for Anti-Realism:An Ecological Approach to Model-Based Reasoning in Science

Representational views of the mind traditionally face askeptical challenge on perceptual knowledge: if ourexperience of the world is mediated by representations builtupon perceptual inputs, how can we be certain that ourrepresentations are accurate and our perceptual apparatusreliable? J. J. Gibson's ecological approach provides analternative framework, according to which direct perceptionof affordances does away with the need to posit internalmental representations as intermediary steps betweenperceptual input and behavioral output. Gibson accordinglyspoke of his framework as providing “reasons for realism.” Inthis paper I suggest that, granting Gibson his reasons forperceptual realism, the Gibsonian framework motivates anti-realism when it comes to scientific theorizing and modeling.If scientists are Gibsonian perceivers, then it makes sense totake their use of models in indirect investigations of real-world phenomena not as representations of the phenomena,but rather as autonomous tools with their own affordances.

Measuring the Causal Dynamics of Facial Interactionwith Convergent Cross Mapping

The nature of the dynamics of nonverbal interactions is of con-siderable interest to the study of human communication andfuture human-computer interaction. Facial expressions consti-tute an important source of nonverbal social signals. Whereasmost studies have focused on the facial expressions of iso-lated individuals, the aim of this study is to explore the cou-pling dynamics of facial expressions in social dyadic interac-tions. Using a special experimental set-up, the frontal facialdynamics of pairs of socially interacting persons were mea-sured and analyzed simultaneously. We introduce the use ofconvergent cross mapping, a method originating from dynam-ical systems theory, to assess the causal coupling of the dyadicfacial-expression dynamics. The results reveal the presence ofbidirectional causal couplings of the facial dynamics. We con-clude that convergent cross mapping yields encouraging resultsin establishing evidence for causal behavioral interactions.

Linguistic niches emerge from pressures at multiple timescales

What accounts for the vast diversity in the world’s languages?We explore one possibility: languages adapt to their linguis-tic environment (Linguistic Niche Hypothesis; Lupyan & Dale,2010). Recent studies have found support for this hypothesisthrough correlations between aspects of the environment andlinguistic structure. We synthesize this previous work and findthat languages spoken in cold, small regions tend to be morecomplex across a range of linguistic features. We also testa novel prediction of the Linguistic Niche Hypothesis by ex-amining the learnability of languages for first-language, childlearners.

Know Your Adversary: Insights for a Better Adversarial Behavioral Model

Given the global challenges of security, both in physical and cyber worlds, security agencies must optimize the use of their limited resources. To that end, many security agencies have begun to use "security game" algorithms, which optimally plan defender allocations, using models of adversary behavior that have originated in behavioral game theory. To advance our understanding of adversary behavior, this paper presents results from a study involving an opportunistic crime security game (OSG), where human participants play as opportunistic adversaries against an algorithm that optimizes defender allocations. In contrast with previous work which often assumes homogeneous adversarial behavior, our work demonstrates that participants are naturally grouped into multiple distinct categories that share similar behaviors. We capture the observed adversarial behaviors in a set of diverse models from different research traditions, behavioral game theory, and Cognitive Science, illustrating the need for heterogeneity in adversarial models.

Semantic, Lexical, and Geographic Cues are used in Geographic Fluency

Semantic fluency tasks have increasingly been used to probethe structure of human memory, adopting methodologies fromthe ecological foraging literature to describe memory as a tra-jectory through semantic space. Clusters of semantically re-lated items are often produced together, and the transitions be-tween these clusters of semantically related items are consis-tent with theories of optimal foraging, where the search pro-cess exhibits a balance between exploration and exploitationbehaviors (Hills, Jones, & Todd, 2012). Here, we use a seman-tic fluency memory task in which subjects recall geographiclocations. For each pairwise transition, we measure tempo-ral, geographic, semantic, lexical, and phonetic distances. Ingeneral, the dimensions are loosely but reliably correlated witheach other. Segmentation of the retrieval sequence into patchessupports the notion that subjects strategically leave patches aswithin-patch resources diminish, but also suggests that sub-jects may shift their attention between different sources of in-formation, perhaps reflecting dynamically changing patch def-initions.

Sentire Decision-Making in a Mixed-Motive Game

The complexity of situations makes individuals use emotionsto make sense of their environment and interdependent oth-ers. In this paper, we build on the idea that physiological re-actions give emotional information about the subject and wefocus on Electrodermal Activity (EDA), an index of arousal,to inspect deep processes of a dyadic interaction in a mixed-motive game. Our interest lies on how conflict episodes un-fold, to design intelligent agents that are more socially awareand thus able to express and recognise dyadic forms of con-flict. A qualitative analysis of the data allowed us to identifymoments where players made choices to cope with ongoingconflict or prospects of it in the future.

Modeling the Contribution of Central Versus Peripheral Vision in Scene, Object,and Face Recognition

It is commonly believed that the central visual field (fovea andparafovea) is important for recognizing objects and faces, andthe peripheral region is useful for scene recognition. However,the relative importance of central versus peripheral informa-tion for object, scene, and face recognition is unclear. Larsonand Loschky (2009) investigated this question in the context ofscene processing using experimental conditions where a cir-cular region only reveals the central visual field and blocksperipheral information (”Window”), and in a ”Scotoma” con-dition, where only the peripheral region is available. Theymeasured the scene recognition accuracy as a function of vi-sual angle, and demonstrated that peripheral vision was indeedmore useful in recognizing scenes than central vision in termsof achieving maximum recognition accuracy. In this work,we modeled and replicated the result of Larson and Loschky(2009), using deep convolutional neural networks (CNNs).Having fit the data for scenes, we used the model to predictfuture data for large-scale scene recognition as well as for ob-jects and faces. Our results suggest that the relative order ofimportance of using central visual field information is facerecognition>object recognition>scene recognition, and vice-versa for peripheral information. Furthermore, our results pre-dict that central information is more efficient than peripheralinformation on a per-pixel basis across all categories, which isconsistent with Larson and Loschky’s data.

The Charon Model of Moral Judgment

We present a model of moral judgment, Charon, which addsto previous models several factors that have been shown toinfluence moral judgment: 1) a more sophisticated account ofprior mental state, 2) imagination, 3) empathy, 4) thefeedback process between emotion and reason, 5) self-interest, and 6) self-control. We discuss previous classes ofmodels and demonstrate Charon’s extended explanatorypower with a focus on psychopathy and autism.

Investigating Semantic Conflict between General Knowledge and Novel Information in Real-Time Sentence Processing

There is extensive evidence that listeners use general knowledge to predict upcoming sentence endings; however, less is known about how novel information is integrated when there is disagreement between general knowledge and novel information. The present studies use the visual world paradigm to study the semantic competition between new information and general knowledge. Experiment 1 demonstrates that listeners learn to use limited exposure to new information and their general knowledge to anticipate sentence endings that align with the action of the sentence. Experiment 2 demonstrates participants learn to use combinatorial information from stories to elicit anticipatory eye movements to the target over the general knowledge distractor. Evidence from these experiments indicates even in the presence of semantic conflict with general knowledge, listeners rapidly increase the weight of novel information rather than general knowledge.

Extracting Human Face Similarity Judgments: Pairs or Triplets?

Two experimental protocols, pairwise rating and triplet rank-ing, have been commonly used for eliciting perceptual similar-ity judgments for faces and other objects. However, there hasbeen little systematic comparison of the two methods. Pairwiserating has the advantage of greater precision, but triplet rank-ing is potentially a cognitive less taxing task, thus resulting inless noisy responses. Here, we introduce several information-theoretic measures of how useful responses from the two pro-tocols are for the purpose of response prediction and parame-ter estimation. Using face similarity data collected on AmazonMechanical Turk, we demonstrate that triplet ranking is signif-icantly better for extracting subject-specific preferences, whilethe two are comparable when pooling across subjects. Whilethe specific conclusions should be interpreted cautiously, dueto the particularly simple Bayesian model for response gener-ation utilized here, the work provides a information-theoreticframework for quantifying how repetitions within and acrosssubjects can help to combat noise in human responses, as wellas giving some insight into the nature of similarity representa-tion and response noise in humans. More generally, this workdemonstrates that substantial noise and inconsistency corruptsimilarity judgments, both within- and across-subjects, withconsequent implications for experimental design and data in-terpretation.

Decision contamination in the wild:Sequential dependencies in Yelp review ratings

Current judgments are systematically biased by priorjudgments. Such biases occur in ways that seem to reflect thecognitive system’s ability to adapt to the statisticalregularities within the environment. These cognitivesequential dependencies have been shown to occur undercarefully controlled laboratory settings as well as more recentstudies designed to determine if such effects occur in realworld scenarios. In this study we use these well-knownfindings to guide our analysis of over 2.2 million businessreview ratings. We explore how both within-reviewer andwithin-business (between reviewer) ratings are influenced byprevious ratings. Our findings, albeit exploratory, suggestthat current ratings are influenced in systematic ways by priorratings. This work is couched within a broader program thataims to determine the validity of laboratory findings usinglarge naturally occurring behavioral data.

Using Motor Dynamics to Explore Real-time Competition in Cross-situational WordLearning: Evidence From Two Novel Paradigms

Children and adults can use cross-situational information toidentify words’ referents. What do learners retain about thepotential referents that occur with a word: do they encodemultiple referents or a single guess? We tested this questionusing novel mouse tracking and finger tracking paradigms.Adults were exposed to novel words in a series of ambiguoustraining trials and then tested on the words’ referents. In sometest trials, participants saw the target and three referents thathad never occurred with the word; other test trials included ahigh-probability competitor that had repeatedly occurred withthe word. Participants’ mouse movements were slower, lessaccurate, and took a more complex path to the selectedreferent when the competitor was present, indicating thatparticipants were aware that both the target and competitorhad previously occurred with the word. This suggests thatlearners can accrue information about multiple potentialreferents for a word, and that mouse tracking provides apromising way of assessing this knowledge. However, thisknowledge was not evident in participants’ finger movements,suggesting that the dynamics of finger movements might notcapture real-time competition between referents.

Modeling N400 amplitude using vector space models of word representation

We use a vector space model (VSM) to simulate semantic relat-edness effects in sentence processing, and use this connectionto predict N400 amplitude in an ERP study by Federmeierand Kutas (1999). We find that the VSM-based model is ableto capture key elements of the authors’ manipulations and re-sults, accounting for aspects of the results that are unexplainedby cloze probability. This demonstration provides a proof ofconcept for use of VSMs in modeling the particular contextrepresentations and corresponding facilitation processes thatseem to influence non-cloze-like behavior in the N400.

Grammatical gender affects odor cognition

Language interacts with olfaction in exceptional ways. Olfaction is believed to be weakly linked with language, as demonstrated by our poor odor naming ability, yet olfaction seems to be particularly susceptible to linguistic descriptions. We tested the boundaries of the influence of language on olfaction by focusing on a non-lexical aspect of language (grammatical gender). We manipulated the grammatical gender of fragrance descriptions to test whether the congruence with fragrance gender would affect the way fragrances were perceived and remembered. Native French and German speakers read descriptions of fragrances containing ingredients with feminine or masculine grammatical gender, and then smelled masculine or feminine fragrances and rated them on a number of dimensions (e.g., pleasantness). Participants then completed an odor recognition test. Fragrances were remembered better when presented with descriptions whose grammatical gender matched the gender of the fragrance. Overall, results suggest grammatical manipulations of odor descriptions can affect odor cognition.

How Different Frames of Reference Interact: A Neural Network Model

It has been argued that people use multiple frames of reference (FORs) for representing and updating spatial relationships between objects in a complex environment. When there are conflicts among representations of multiple FORs, they compete to determine behavior. “Frame of Reference-based Map of Salience” theory (FORMS) suggests that FORs with high salience may be processed in priority. Here, we report a computational neural network model for a two-cannon task, which naturally involves multiple FORs with different levels of salience: intrinsic frame of reference (IFOR) and egocentric frame of reference (EFOR). The goal is to investigate the computational neural mechanisms underlying human spatial performance. Our simulation results fit earlier behavioral results well. The model suggests although multiple FORs may be initially represented independently, they interfere with each other by the inhibitory competition of neurons in the later process (in hidden layer) for conflict resolution. Moreover, salience may modulate the competition by prioritizing FORs with high salience levels. These results represent a connectionist support for the FORMS theory.

Syntax Accommodation in Social Media Conversations

The psycholinguistic theory of Communication Accommoda-tion proposes that people modify communication dynamics(e.g. vocal patterns, gesture, word choice, syntax, etc.) tominimize (or maximize) their social differences. Research oncommunication accommodation has shown that people whowant social approval will modify their linguistic style to matchthat of their interactant; however, most studies have been con-ducted on small-scale datasets and in laboratory situations. Inthis work, we investigate the relationship between linguisticsyntactic usage and conversation participation in a more nat-uralistic conversational setting: social media conversations onReddit.com. We introduce a novel approach for calculatingdocument-level syntactic similarity by relying on natural lan-guage processing methods (parse tree generators) and graphtheory techniques (minimum weight perfect matching on com-plete bipartite graphs). Using the proposed method, we presentthe results of two experiments which demonstrate that userswho comment on a post tend to use syntax similar to that ofthe original post. Specifically, we provide evidence that com-ments on a post are more likely to follow the syntactic structureof the original post, compared to both random comments andalso posts by the author of the comment.

The Developmental Trajectory of Children's Statistical Learning Abilities

Infants, children and adults are capable of implicitly extracting regularities from their environment through statistical learning (SL). SL is present from early infancy and found across tasks and modalities, raising questions about the domain generality of SL. However, little is known about its’ developmental trajectory: Is SL fully developed capacity in infancy, or does it improve with age, like other cognitive skills? While SL is well established in infants and adults, only few studies have looked at SL across development with conflicting results: some find age-related improvements while others do not. Importantly, despite its postulated role in language learning, no study has examined the developmental trajectory of auditory SL throughout childhood. Here, we conduct a large-scale study of children's auditory SL across a wide age-range (5-12y, N=115). Results show that auditory SL does not change much across development. We discuss implications for modality-based differences in SL and for its role in language acquisition.

Under Pressure: How Time-Limited Cognition Explains Statistical Learning by8-Month Old Infants

In a classic experiment, Saffran, Aslin, and Newport (1996)used a headturn preference procedure to show that infants candiscriminate between familiar syllable sequences (“words”)and new syllable sequences (“non-words” and “part-words”).While several computational models have simulated aspects oftheir data and proposed that the learning of transitional prob-abilities could be mediated by neural-net or chunking mech-anisms, none have simulated the absolute values of infants’listening times in the different experimental conditions. In thispaper, we used CHREST, a model based on chunking, to sim-ulate these listening times. The model simulated the fact thatinfants listened longer to novel words (non-words and part-words) than familiar words. While the times observed with themodel were longer than those observed with infants, we makea novel finding with regard to phonological store trace decay.We also propose how to modify CHREST to produce data thatfits closer to the human data.

Exploring the Neural Mechanisms Supporting Structured Sequence Processing andLanguage Using Event-Related Potentials: Some Preliminary Findings

Structured sequence processing (SSP) refers to theneurocognitive mechanisms used to learn sequential patternsin the environment. SSP ability seems to be important forlanguage (Conway, Bauernschmidt, Huang, & Pisoni, 2010);however, there are few neural studies showing an empiricalconnection between SSP and language. The purpose of thisstudy was to investigate the association between SSP andlanguage processing by comparing the underlying neuralcomponents elicited during each type of task. Healthy adultsubjects completed a visual, non-linguistic SSP taskincorporating an artificial grammar and a visual morpho-syntactic language task. Both tasks were designed to causeviolations in expectations of items occurring in a series.Event-related potentials (ERPs) were used to examine theunderlying neural mechanisms associated with theseexpectancy violations. The results indicated the P3acomponent elicited by the SSP task and the P600 componentelicited by the language task shared similarities in theirtopographic distribution. These preliminary analyses suggestthat the P3a and P600 may reflect processes involvingdetection of sequential violations in non-language andlanguage domains, which is consistent with the idea thatlanguage processing relies on general-purpose SSPmechanisms.

Bifurcation analysis of a Gradient Symbolic Computation model of incremental processing

Language is ordered in time and an incremental processingsystem encounters temporary ambiguity in the middle of sen-tence comprehension. An optimal incremental processing sys-tem must solve two computational problems: On the one hand,it has to keep multiple possible interpretations without choos-ing one over the others. On the other hand, it must rejectinterpretations inconsistent with context. We propose a re-current neural network model of incremental processing thatdoes stochastic optimization of a set of soft, local constraintsto build a globally coherent structure successfully. Bifurcationanalysis of the model makes clear when and why the modelparses a sentence successfully and when and why it does not—the garden path and local coherence effects are discussed. Ourmodel provides neurally plausible solutions of the computa-tional problems arising in incremental processing

Coalescing the Vapors of Human Experienceinto a Viable and Meaningful Comprehension

Models of concept learning and theory acquisition often in-voke a stochastic search process, in which learners generatehypotheses through some structured random process and thenevaluate them on some data measuring their quality or value.To be successful within a reasonable time-frame, these mod-els need ways of generating good candidate hypotheses evenbefore the data are considered. Schulz (2012a) has proposedthat studying the origins of new ideas in more everyday con-texts, such as how we think up new names for things, can pro-vide insight into the cognitive processes that generate good hy-potheses for learning. We propose a simple generative modelfor how people might draw on their experience to proposenew names in everyday domains such as pub names or actionmovies, and show that it captures surprisingly well the namesthat people actually imagine. We discuss the role for an anal-ogous hypothesis-generation mechanism in enabling and con-straining causal theory learning.

Music Reading Expertise Modulates Visual Spans in both Music Note and EnglishLetter Reading

Here we investigated how music reading experience modu-lates visual spans in language reading. Participants wereasked to identify music notes, English letters, Chinese charac-ters, and novel symbols (Tibetan letters) presented at randomlocations on the screen while maintaining central fixation. Wefound that for music note reading, musicians outperformednon-musicians at some peripheral positions in both visualfields, and for English letter reading, musicians outperformednon-musicians at some peripheral positions in the RVF butnot in the LVF. In contrast, in both Chinese character andnovel symbol reading, musicians and non-musicians did notdiffer in their performance at peripheral positions. Since bothmusic and English reading involve a left-to-right reading di-rection and a RVF/LH advantage, these results suggest thatthe modulation of music reading experience on visual spans inlanguage reading depends on the similarities in the cognitiveprocesses involved.

Design from Zeroth Principles

A successful design accounts for the structure of the problemit is aimed at solving. When it is a human-directed design,this includes the expectations of its users. How do we arriveat such a design? One approach starts from first principles(e.g., simplicity, unity, symmetry, balance) to evaluate thequality of proposed designs. Here, we introduce design fromzeroth principles, a form of human-in-the-loop computationthat synthesizes a design that conforms to its users’ expecta-tions. The technique begins by constructing a transmissionchain seeded with a random design. Each user in the chain isexposed to the design and then recreates it, passing alongtheir recreation to the next user, who does the same. Throughthis iterative process, the users’ perceptual, inductive, and re-constructive biases directly transform the initial design intoone that is better fit to human cognition. Such designs are eas-ier to learn and harder to forget. We evaluated the approach inthree domains — stimulus–response mappings, vanity phonenumbers, and letter placement in typeset words — and showthat it produces a good design in each.

Should Moral Decisions be Different for Human and Artificial Cognitive Agents?

Moral judgments are elicited using dilemmas presentinghypothetical situations in which an agent must choosebetween letting several people die or sacrificing one person inorder to save them. The evaluation of the action or inaction ofa human agent is compared to those of two artificial agents –a humanoid robot and an automated system. Ratings ofrightness, blamefulness and moral permissibility of action orinaction in incidental and instrumental moral dilemmas areused. The results show that for the artificial cognitive agentsthe utilitarian action is rated as more morally permissible thaninaction. The humanoid robot is found to be less blameworthyfor his choices compared to the human agent or to theautomated system. Action is found to be more appropriate,morally permissible, more right, and less blameworthy thaninaction only for the incidental scenarios. The results areinterpreted and discussed from the perspective of perceivedmoral agency.

Attentive and Pre-Attentive Processes in Multiple Object Tracking:A Computational Investigation

The rich literature on multiple object tracking (MOT)conclusively demonstrates that humans are able to visuallytrack a small number of objects. There is considerably lessagreement on what perceptual and cognitive processes areinvolved. While it is clear that MOT is attentionallydemanding, various accounts of MOT performance centrallyinvolve pre-attentional mechanisms as well. In this paper wepresent an account of object tracking in the ARCADIAcognitive system that treats MOT as dependent upon both pre-attentive and attention-bound processes. We show that withminimal addition this model replicates a variety of corephenomena in the MOT literature and provides an algorithmicexplanation of human performance limitations.

How do Distributions of Item Sizes Affect the Precision and Bias in RepresentingSummary Statistics?

Many studies have shown that observers can accuratelyperceive and evaluate the statistical summary of presentedobjects’ attribute values, such as the average, withoutattending to each object. However, it remains controversialhow the visual system integrates the attribute values (e.g.,information on size) of multiple items and computes theaverage value. In this study, we tested how distributions ofitem sizes affect the precision and bias in judging averagevalues. We predicted that if observers utilize all of theavailable size information equally, the distribution wouldhave no effect, and vice versa. Our results showed that, withnovice observers, judgement precision differed among sizedistributions and that the observers overestimated the size ofthe average value compared to the actual size under allconditions. These results imply that observations of someitems in a set could be weighted more easily than others, withthe possibility that this process is easier for larger items thansmaller ones. However, this was not the case for experiencedobservers, who showed no effects of distribution type onaverage assessment performance. Our findings imply that theprocess of representing the average value may not beexplained by a single definitive mechanism and, is rathermediated by a mixture of multiple cognitive processes.

Who should I tell?Young children correct and maintain others’ beliefs about the self

We care tremendously about what other people think of us.Motivated by two lines of prior work – children’s inferentialand communicative capacities and strategic reputation man-agement – we examine how children infer what others thinkof them given others’ observations of their performance, andhow they influence these beliefs through disclosing their per-formance. In Experiment 1, 3-5 year-olds played a luck-basedgame; one confederates watched the child win and anotherconfederate watched the child lose. We asked the child to dis-close an additional, unobserved win to one of the two confed-erates. We find that younger children overwhelmingly choosethe person who previously saw them win. However, as ageincreased, children were more likely to choose to disclose tosomeone who previously saw them lose. In Experiment 2,adults played a similar third person version and selectivelychose the person who saw the main character previously lose.

Extended Metaphors are Very Persuasive

Metaphors pervade discussions of critical issues and influ-ence how people reason about these domains. For instance,when crime is a beast, people suggest enforcement-orientedapproaches to crime-reduction (e.g., by augmenting the po-lice force); when crime is a virus, on the other hand, peoplesuggest systemic reforms for the affected community. In thecurrent study, we find that extending metaphoric language intothe descriptions of policy interventions bolsters the persuasiveinfluence of metaphoric frames for an array of important is-sues. When crime is a beast, people are even more likely toendorse “attacking” the problem with harsh enforcement tac-tics; when crime is a virus people are even more likely to toendorse “treating” the problem through social reform.

How Does Generic Language Elicit Essentialist Beliefs?

Generic language (e.g., “tigers have stripes,” “girls hatemath”) is a powerful vehicle for communicating essentialistbeliefs. One way generic language likely communicates thesebeliefs is by leading children to generate kind-basedexplanations about particular properties; e.g., if a child hears“girls hate math,” he may infer that there must be an inherentcausal basis for the generalization, which in turn supportsessentialist beliefs. However, it is also possible that simplyhearing a category described with generics elicits the beliefthat the category is an appropriate kind to generalize about.On this account, even if the generic is negated (“girls don’thate math”), the generic language might nonetheless leadchildren to essentialize the category. The current studysupports the latter possibility, suggesting that even hearingnegated generics (“girls don’t hate math”) may still fostersocial essentialism.

Controlled vs. Automatic Processing: A Graph-Theoretic Approach to the Analysis of Serial vs. Parallel Processing in Neural Network Architectures

The limited ability to simultaneously perform multiple tasksis one of the most salient features of human performance anda defining characteristic of controlled processing. Based onthe assumption that multitasking constraints arise from sharedrepresentations between individual tasks, we describe a graph-theoretic approach to analyze these constraints. Our resultsare consistent with previous numerical work (Feng, Schwem-mer, Gershman, & Cohen, 2014), showing that even modestamounts of shared representation induce dramatic constraintson the parallel processing capability of a network architecture.We further illustrate how this analysis method can be appliedto specific neural networks to efficiently characterize the fullprofile of their parallel processing capabilities. We presentsimulation results that validate theoretical predictions, and dis-cuss how these methods can be applied to empirical studiesof controlled vs. and automatic processing and multitaskingperformance in humans.

Fractal Scaling and Implicit Bias: A Conceptual Replication of Correll (2008)

A racial priming article claimed that, relative to a controlcondition, an exotic variety of variability, called 1/ƒ noise, isaltered when stereotypes impact participants’ judgments in animplicit prejudice task (Correll, 2008). However, Madurskiand LeBel (2014) recently described two powerful, faithfullycloned, and apparently decisive studies that each failed toreturn a successful literal replication of Correll’s report.Madurski and LeBel outlined and subsequently eliminatedseveral potential extraneous reasons for their replicationfailures, such as different participant demographics,participant non-compliance, poor psychometrics, andhardware discrepancies. By contrast, this article reports asuccessful conceptual replication of the pattern reported byCorrell (cf. Schmidt, 2009). Notably, this conceptualreplication required adjustments to Correll’s original methodand statistical analyses. All the changes were dictated by asystems theory of 1/ƒ noise that was largely in place prior toCorrell’s report (Kello, Beltz, Holden, & Van Orden, 2007;Van Orden, Holden, & Turvey, 2003; 2005). Implications forthe replication debate are discussed, with emphasis oncontextualizing implicit cues.

The Relationship Between the Numerical Distance Effect and Approximate Number System Acuity is Non-Linear

People can estimate numerical quantities, like the number of grapes in a bunch, using the Approximate Number System (ANS). Individual differences in this ability (ANS acuity) are emerging as an important predictor in research areas ranging from math skills to judgment and decision making. One commonly used ANS acuity metric is the size of the Numerical Distance Effect (NDE): the amount of savings in RT or errors when distinguishing stimuli values as the numerical distance between them increases. However, the validity of this metric has recently been questioned. Here, we model the relationship between the NDE-size and ANS acuity. We demonstrate that the relationship between NDE- size and ANS acuity should not be linear, but rather should resemble an inverted J-shaped distribution, with the largest NDE-sizes typically being found for near average ANS acuities.

Strategic search in semantic memory

We search for various things every day – food, information onthe Internet or someone’s name in memory. Despite the dif-ferent nature of these tasks, they all have a common feature –a final goal with an unknown location in a complex environ-ment. This property of the search raises a problem of trade-offbetween exploration of new opportunities and exploitation ofthe known information. We used the data from the semanticfluency task experiment to investigate how humans switch be-tween exploration and exploitation strategies when they searchin memory and whether they do it optimally. On comparingfour different search models, the one that assumes that humansswitch search strategies according to the semantic quality ofthe current neighbourhood best fits the data. Moreover, par-ticipants who set higher thresholds for the words with betterquality of the neighbourhood tend to retrieve more words frommemory. We also used regression analysis to find out whichfactors affect efficiency of both search strategies.

Context, but not proficiency, moderates the effects of metaphor framing:A case study in India

Metaphors suffuse language and affect how people think. Ameta-analysis of metaphor framing studies conducted between1983 and 2000 concluded that metaphors are about 6% morepersuasive than literal language (Sopory & Dillard, 2002).However, each of these studies was conducted in English withsamples drawn from populations of native English speakers.Here, we test whether and how language proficiency moderatesthe influence of metaphor frames. Sampling from a populationof non-native, but generally proficient English speakers fromIndia, we found that metaphor frames systematically affectedpeople who reported using English primarily in informal con-texts (i.e., among friends and family and through the media)but not those who reported using English primarily in formalcontexts (i.e., for school or work). We discuss the implica-tions of this finding for countries like the US, where Englishis increasingly a non-native language for its residents, and fortheories of language processing more generally.

The Determinants of Knowability

Many propositions are not known to be true or false, andmany phenomena are not understood. What determineswhat propositions and phenomena are perceived asknowable or unknowable? We tested whether factorsrelated to scientific methodology (a proposition’sreducibility and falsifiability), its intrinsic metaphysics (themateriality of the phenomena and its scope ofapplicability), and its relation to other knowledge (itscentrality to one’s other beliefs and values) influenceknowability. Across a wide range of naturalistic scientificand pseudoscientific phenomena (Studies 1 and 2), as wellas artificial stimuli (Study 3), we found that reducibilityand falsifiability have strong direct effects on knowability,that materiality and scope have strong indirect effects (viareducibility and falsifiability), and that belief and valuecentrality have inconsistent and weak effects onknowability. We conclude that people evaluate theknowability of propositions consistently with principlesproposed by epistemologists and practicing scientists.

A scaleable spiking neural model of action planning

Past research on action planning has shed light on the neuralmechanisms underlying the selection of simple motor actions,along with the cognitive mechanisms underlying the planningof action sequences in constrained problem solving domains.We extend this research by describing a neural model thatrapidly plans action sequences in relatively unconstrained do-mains by manipulating structured representations of objectsand the actions they typically afford. We provide an analysisthat indicates our model is able to reliably accomplish goalsthat require correctly performing a sequence of up to 5 actionsin a simulated environment. We also provide an analysis ofthe scaling properties of our model with respect to the num-ber of objects and affordances that constitute its knowledgeof the environment. Using simplified simulations we find thatour model is likely to function effectively while picking from10,000 actions related to 25,000 objects.

Systems Factorial Analysis of Item and Associative Retrieval

Using hierarchical Bayesian estimation of RT distributions, wepresent a novel application of Systems Factorial Technology(Townsend & Nozawa, 1995) to the retrieval of item and asso-ciative information from episodic memory. We find that itemand associative information are retrieved concurrently, withpositive memory evidence arising from a holistic match be-tween the test pair and the contents of memory, in which bothitem and associative matches are pooled together into a sin-gle source. This retrieval architecture is inconsistent with bothstrictly serial processing and independence of item and asso-ciative information. Pooling of item and associative matchesimplies that while item and associative information may beseparable, they are not qualitatively different, nor are quali-tatively different processes (e.g., familiarity vs. recollection)used to retrieve these kinds of information.

Children learn non-exact number word meanings first

hildren acquire exact meanings for number words in distinctstages. First, they learn one, then two, and then three andsometimes four. Finally, children learn to apply the countingprocedure to their entire count list. Although these stages areubiquitous and well documented, the foundation of thesemeanings remains highly contested. Here we ask whetherchildren assign preliminary meanings to number words beforelearning their exact meanings by examining their responses onthe Give-a-Number task to numbers for which they do not yethave exact meanings. While several research groups haveapproached this question before, we argue that because thesedata do not usually conform to a normal distribution, typicalmethods of analysis likely underestimate their knowledge.Using non-parametric analyses, we show that children acquirenon-exact meanings for small number words like one, two,three, four and possibly for higher numbers well before theyacquire the exact meanings.

A Dream Model: Reactivation and Re-encoding Mechanisms for Sleep-dependentMemory Consolidation

We humans spend almost a third of our lives asleep, andthere is mounting evidence that sleep not only maintains, butactually improves many of our cognitive functions. Mem-ory consolidation–the process of crystallizing and integratingmemories into knowledge and skills–is particularly benefittedby sleep. We survey the evidence that sleep aids memory con-solidation in various declarative and implicit tasks and reviewthe basic neurophysiological structure of sleep with a focus onunderstanding what neural systems are involved. Drawing onmachine learning research, we discuss why it might be usefulfor humans–and robots, perhaps–to have such an offline pe-riod for processing, even though humans are clearly capable oflearning incrementally, online. Finally, we propose and simu-late two mechanisms for use in computational memory modelsto accomplish sleep-based consolidation via either or both 1)re-encoding knowledge representations and 2) reactivating andstrengthening recent memories.

Solving the knowledge-behavior gap:Numerical cognition explains age-related changes in fairness

Young children share fairly and expect others to do the same.Yet little is known about the underlying cognitivemechanisms that support fairness. Across two experiments,we investigated whether children’s numerical competenciesare linked with their sharing behavior. Preschoolers (aged2.5-5.5) participated in either third-party (Experiment 1) orfirst-party (Experiment 2) resource allocation tasks.Children’s numerical competence was then assessed using theGive-N-Task (Sarnecka & Carey, 2008; Wynn, 1990).Numerical competence – specifically knowledge of thecardinal principle explained age-related changes in fairsharing in both the third- and first-party contexts. Theseresults suggest that an understanding of the cardinal principleserves as an important mechanism for fair sharing behavior.

The Pragmatics of Spatial Language

How do people understand the pragmatics of spatial language?We propose a rational-speech act model for spatial reasoning,and apply it to the terms ‘in’ and ‘near’. We examine people’sfine-grain spatial reasoning in this domain by having them lo-cate where an event occurred, given an utterance. Our prag-matic listener model provides a quantitative and qualitative fitto people’s inferences.

Measuring Interest in Science: The Science Curiosity Scale

In the current study, we present the methods for creating andvalidating a science curiosity scale. We find that the scalepresented here is unidimensional and highly reliable.Moreover, it predicts engagement with a science documentaryclip more accurately than do measures of science intelligenceor education. Although more steps are needed, this providesinitial evidence for the utility of our measure of sciencecuriosity.

Conflict-based regulation of control in language production

Is language production dynamically regulated by cognitive control? If so, how domain-general is this process? In two experiments, we studied conflict adaptation, or conflict-driven adjustments of control, in two paradigms: Picture-Word Interference (PWI), which induces linguistic conflict, and Prime-Probe (PP), which induces visuospatial conflict. Exp. 1 tested within-task conflict adaptation separately in PWI and PP. Exp. 2 tested cross-task adaptation by alternating the two tasks in a task-switching paradigm. We found reliable within- task conflict adaptation in both PWI and PP, but neither an analysis of individual differences (Exp. 1), nor a direct manipulation of between-task conflict (Exp. 2) revealed cross- task adaptation. We further report a robust 2-back within-task adaptation in Exp. 2 to refute alternative accounts of null cross- task adaptation. These findings support models of dynamic, top-down control in language production that posit at least some degree of domain-specificity.

Active Viewing in Toddlers Facilitates Visual Object Learning:An Egocentric Vision Approach

Early visual object recognition in a world full of cluttered vi-sual information is a complicated task at which toddlers areincredibly efficient. In their everyday lives, toddlers con-stantly create learning experiences by actively manipulatingobjects and thus self-selecting object views for visual learn-ing. The work in this paper is based on the hypothesis that ac-tive viewing and exploration of toddlers actually creates high-quality training data for object recognition. We tested thisidea by collecting egocentric video data of free toy play be-tween toddler-parent dyads, and used it to train state-of-the-artmachine learning models (Convolutional Neural Networks, orCNNs). Our results show that the data collected by parentsand toddlers have different visual properties and that CNNscan take advantage of these differences to learn toddler-basedobject models that outperform their parent counterparts in aseries of controlled simulations.

Processing Consequences of Onomatopoeic Iconicity in Spoken Language Comprehension

Iconicity is a fundamental feature of human language. However its processing consequences at the behavioral and neural level in spoken word comprehension are not well understood. The current paper presents the behavioral and electrophysiological outcome of an auditory lexical decision task in which native speakers of Dutch listened to onomatopoeic words and matched control words while their electroencephalogram was recorded. Behaviorally, onomatopoeic words were processed as quickly and accurately as words with an arbitrary mapping between form and meaning. Event-related potentials time-locked to word onset revealed a significant decrease in negative amplitude in the N2 and N400 components and a late positivity for onomatopoeic words in comparison to the control words. These findings advance our understanding of the temporal dynamics of iconic form-meaning mapping in spoken word comprehension and suggest interplay between the neural representations of real-world sounds and spoken words.

Language Evolution in the Lab: The Case of Child Learners

Recent work suggests that cultural transmission can lead to the emergence of linguistic structure as speakers’ weak individual biases become amplified through iterated learning. However, to date, no published study has demonstrated a similar emergence of linguistic structure in children. This gap is problematic given that languages are mainly learned by children and that adults may bring existing linguistic biases to the task. Here, we conduct a large-scale study of iterated language learning in both children and adults, using a novel, child-friendly paradigm. The results show that while children make more mistakes overall, their languages become more learnable and show learnability biases similar to those of adults. Child languages did not show a significant increase in linguistic structure over time, but consistent mappings between meanings and signals did emerge on many occasions, as found with adults. This provides the first demonstration that cultural transmission affects the languages children and adults produce similarly.

Outcome or Strategy? A Bayesian Model of Intelligence Attribution

People have a common-sense notion of intelligence and use itto evaluate decisions and decision-makers. One can attributeintelligence by evaluating the strategy or the outcome of agoal-directed agent. We propose a model of intelligence at-tribution, based on inverse planning in Partially ObservableMarkov Decision Processes (POMDPs) in a probabilistic envi-ronment, inferring the most likely planning parameters givenobserved actions. The model explains the agent’s decisionsby a combination of probabilistic planning, a softmax decisionnoise, prior knowledge about the world and forgetting, estimat-ing the agent’s intelligence by a proxy measure of efficientlyoptimising costs and rewards. Behavioural evidence from twoexperiments shows that people cluster into those who attributeintelligence to the strategy and those who attribute intelligenceto the outcome of the observed actions. People in the strat-egy cluster attribute more intelligence to decisions that min-imise the agent’s overall cost, even if the outcome is unlucky.People in the outcome cluster attribute intelligence to the out-come, judging low-cost outcomes as a sign of intelligence evenif the outcome is accidental and make neutral judgements be-fore they observe the result. Our model explains human in-telligence judgements better than perceptual cues such as thenumber of revisits or moves.

Communicating generalizations about events

Habitual sentences (e.g. Bill smokes.) generalize an event overtime, but how do you know when a habitual sentence is true?We develop a computational model and use this to guide exper-iments into the truth conditions of habitual language. In Ex-pts. 1 & 2, we measure participants’ prior expectations aboutthe frequency with which an event occurs and validate thepredictions of the model for when a habitual sentence is ac-ceptable. In Expt. 3, we show that habituals are sensitive totop-down moderators of expected frequency: It is the expec-tation of future tendency that matters for habitual language.This work provides the mathematical glue between our intu-itive theories’ of others and events and the language we useto talk about them.

Learning Non-Adjacent Dependencies in Continuous Presentation of an Artificial Language

Many grammatical dependencies in natural language involve elements that are not adjacent, such as between the subject and verb in the child always runs. To date, most experiments showing evidence of learning non- adjacent dependencies have used artificial languages in which the to-be-learned dependencies are presented in isolation by presenting the minimal sequences that contain the dependent elements. However, dependencies in natural language are not typically isolated in this way. In this study we exposed learners to non-adjacent dependencies in long sequences of words. We accelerated the speed of presentation and learners showed evidence for learning of non-adjacent dependencies. The previous pause-based positional mechanisms for learning of non-adjacent dependency are challenged.

Process Modeling of Qualitative Decision Under Uncertainty

Fuzzy-trace theory assumes that decision-makers processqualitative “gist” representations and quantitative “verbatim”representations in parallel. Here, we develop a formal modelof fuzzy-trace theory that explains both processes. The modelalso integrates effects of individual differences in numeracy,metacognitive monitoring and editing, and sensation seeking.Parameters of the model varied in theoretically meaningfulways with differences in numeracy, monitoring, and sensationseeking, accounting for risk preferences at multiple levels.Relations to current theories and potential extensions arediscussed.

A Nonlinear Dynamical Systems Theory Perspective on Dual-ProcessingAccounts of Decision-Making under Uncertainty

Dual-processing accounts of reasoning havegained renewed attention in the past decade,particularly in the fields of social judgment,learning, and decision-making under uncertainty.Although the various accounts differ, thecommon thread is the distinction between twoqualitatively different types of reasoning:explicit/implicit, rational/affective, fast/slow, etc.Consequently, much research has focused oncharacterizing the two different processes. Lessextensive are the attempts to find mediators thatinfluence which process is used. In this paper, weargue that the missing perspective on these dual-processing theories is rooted in dynamicalsystems theory. By shifting the perspective to thedynamic interaction and transitions betweendifferent types of reasoning, we provide atheoretical framework for dual-processing withan emphasis on phase transitions. As a specialcase, we focus on dual-processing in decision-making and judgment under uncertainty forwhich we will propose suggestions for futureexperimental evaluation.

Coordinate to cooperate or compete:Abstract goals and joint intentions in social interaction

Successfully navigating the social world requires reasoningabout both high-level strategic goals, such as whether to co-operate or compete, as well as the low-level actions neededto achieve those goals. While previous work in experimentalgame theory has examined the former and work on multi-agentsystems has examined the later, there has been little work in-vestigating behavior in environments that require simultaneousplanning and inference across both levels. We develop a hierar-chical model of social agency that infers the intentions of otheragents, strategically decides whether to cooperate or competewith them, and then executes either a cooperative or competi-tive planning program. Learning occurs across both high-levelstrategic decisions and low-level actions leading to the emer-gence of social norms. We test predictions of this model inmulti-agent behavioral experiments using rich video-game likeenvironments. By grounding strategic behavior in a formalmodel of planning, we develop abstract notions of both co-operation and competition and shed light on the computationalnature of joint intentionality.

Effects of Gesture on Analogical Problem Solving:When the Hands Lead You Astray

We investigated the role of speech-accompanying gestures inanalogical problem solving. Participants attempted to solveDuncker’s (1945) Radiation Problem after reading and retelling astory that described an analogous solution in a different domain.Participants were instructed to gesture, instructed not to gesture, orgiven no instructions regarding gesture as they retold the story.Participants who were instructed to gesture as they retold theanalogous story were more likely to mention perceptual details intheir description and less likely to apply the analogous solution tothe problem than participants who were instructed not to gesture.These results suggest that gestures can be detrimental to analogousproblem solving when the perceptual elements of a story areirrelevant to its schematic similarity with a problem.

From uh-oh to tomorrow Predicting age of acquisition for early words across languages

Why do children learn some words earlier than others? Reg-ularities and differences in the age of acquisition for wordsacross languages yield insights regarding the mechanismsguiding word learning. In a large-scale corpus analysis,we estimate the ages at which 9,200 children learn 300-400words in seven languages, predicting them on the basis ofindependently-derived linguistic, environmental, and concep-tual factors. Predictors were surprisingly consistent across lan-guages, but varied across development and as a function oflexical category (e.g., concreteness predicted nouns while lin-guistic structure predicted function words). By leveraging dataat a significantly larger scale than previous work, our analyseshighlight the power that emerges from unifying previously dis-parate theories, but also reveal the amount of reliable variationthat still remains unexplained.

Lexical Complexity of Child-Directed and Overheard Speech:Implications for Learning

Although previous studies have found a link between thequantity and quality of child-directed speech learners receiveand their vocabulary development, no previous studies havefound a parallel link between overheard speech measured ata very young age and vocabulary development (Shneidman& Goldin-Meadow, 2012; Shneidman, Arroyo, Levine, &Goldin-Meadow, 2013; Weisleder & Fernald, 2013). This isdespite the fact that children are able to learn words from over-heard speech in laboratory settings (Shneidman & Woodward,2015). Drawing on the idea that children preferentially at-tend to stimuli that are at a manageable level of complexity(Kidd, Piantadosi, & Aslin, 2012, 2014), the present researchexplores the possibility that children do not initially tune intooverheard speech because it is initially too complex for theirstage of lexical development (i.e., contains too great a propor-tion of unfamiliar words). Using transcripts from CHILDESand the Santa Barbara Corpus, and estimates of vocabularyby age from the MB-CDI, we find that child-directed speechis significantly less complex than overheard speech throughat least 30 months. If attention based on complexity at leastpartially accounts for the statistical independence of overheardspeech and vocabulary development in early childhood, thenchildren might only begin learning from more complex, over-heard speech sometime after 30 months.

Degeneracy results in canalisation of language structure:A computational model of word learning

There is substantial variation in language experience betweenlearners, yet there is surprising similarity in the languagestructure they eventually acquire. While it is possible that thiscanalisation of language structure may be due to constraintsimposed by modulators, such as an innate language system, itmay instead derive from the broader, communicativeenvironment in which language is acquired. In this paper, thelatter perspective is tested for its adequacy in explaining therobustness of language learning to environmental variation. Acomputational model of word learning from cross-situational,multimodal information was constructed and tested. Key tothe model’s robustness was the presence of multiple,individually unreliable information sources that could supportlearning when combined. This “degeneracy” in the languagesystem had a detrimental effect on learning when compared toa noise-free environment, but was critically important foracquiring a canalised system that is resistant to environmentalnoise in communication.

General Mechanisms Underlying Language and Spatial Cognitive Development

Previous research showed that children’s spatial language production predicts their spatial skills, but the mechanisms underlying this relation remain a source of debate. This study examined whether 4-year-olds’ spatial skills were predicted by their attention to task-relevant information—in tasks that emphasize either memory or language—above and beyond their spatial word production. Children completed three types of tasks: (1) a memory task assessing attention to task-relevant color, size, and location cues; (2) a production task assessing adaptive use of language to describe scenes, varying in color, size, and location; and (3) spatial tasks. After controlling for age, gender, and vocabulary, children’s spatial skills were significantly predicted by their memory for task-relevant cues, above and beyond their task-related language production and adaptive use of language. These findings suggest that attending to relevant information is a process supporting spatial skill acquisition and underlies the relation between language and spatial cognition.

When the Words Don’t Matter: Arbitrary labels improve categorical alignmentthrough the anchoring of categories

Novel labels provide feedback that may enhance categoricalalignment between interlocutors. However, the nature of thisfeedback may not always be linguistic. Lupyan (2008) hasdemonstrated the effects of labels on individualcategorization, and even non-word labels have seeminglyproduced greater consistency in sorting strategies (Lupyan &Casasanto, 2014). We extend this to alignment bydemonstrating that arbitrary labels can increase sortingconsistency to bring people’s categories closer together, evenwithout dialogue. Importantly, we argue that increasedalignment is not always due to labeling in a linguistic sense.Results suggest that it is not the content of the non-wordlabels driving the alignment effects, but the very presence ofthe labels acting as ‘anchors’ for category formation. Thisdemonstrates a more general cognitive effect of arbitrarylabels on categorization.

Can the High-Level Semantics of a Scene be Preserved in the Low-Level Visual Features of that Scene? A Study of Disorder and Naturalness

Real-world scenes contain low-level visual features (e.g., edges, colors) and high-level semantic features (e.g., objects and places). Traditional visual perception models assume that integration of low-level visual features and segmentation of the scene must occur before high-level semantics are perceived. This view implies that low-level visual features of a scene alone do not carry semantic information related to that scene. Here we present evidence that suggests otherwise. We show that high-level semantics can be preserved in low-level visual features, and that different high-level semantics can be preserved in different types of low-level visual features. Specifically, the ‘disorder’ of a scene is preserved in edge features better than color features, whereas the converse is true for ‘naturalness.’ These findings suggest that semantic processing may start earlier than thought before, and integration of low-level visual features and segmentation of the scene may occur after semantic processing has begun, or in parallel.

Is the Self-Concept like other Concepts? The Causal Structure of Identity

We investigate the age-old questions of what makes us whowe are and what features of identity, if changed, would makeus a different person. Previous approaches to identity havesuggested that there is a type of feature that is most definingof identity (e.g., autobiographical memories or moralqualities). We propose a new approach to identity thatsuggests that, like concepts in general, more causally centralfeatures are perceived as more defining of the self-concept. Inthree experiments, using both measured and manipulatedcausal centrality, we find that changes to features of identitythat are perceived as more causally central are moredisruptive to both the identity of the self and others.

The Effect of Emotion and Induced Arousal on Numerical Processing

Prominent theories suggest that time and number arerepresented by a common magnitude system. However,distinct patterns of temporal and numerical processingoccur in the presence of emotional stimuli, calling intoquestion theories of a common magnitude system, whilealso unveiling questions regarding the mechanismsunderlying these temporal and numerical biases. Wetested whether numerical processing, like temporalprocessing, may be impacted by increased arousal levels,yet have a higher threshold level in order to impactestimates. If so, then induced arousal may reverse thetypical pattern of numerical underestimation in thepresence of emotions. Adults (N = 85) participated ineither a stress-induction or a control version of the task.Then, participants completed a numerical bisection task inthe presence and absence of emotional content. Increasingarousal had no impact on numerical processing, except inthe presence of happy faces, providing further evidencefor distinct processing mechanisms.

Putting the “th” in Tenths: The Role of Labeling Decimals in Revealing Place ValueStructure

Language is a powerful cognitive tool. For example, labelingobjects or features of problems can support categorization andrelational thinking. Less is known about their role in makinginferences about the structure of mathematics problems. Wetest the impact of labeling decimals such as 0.25 using formalplace value labels (“two tenths and five hundredths”)compared to informal labels (“point two five”) or no labels onchildren’s problem-solving performance. Third- and fourth-graders (N = 104) were randomly assigned to one of threeconditions (formal labels, informal labels, or no labels) andlabeled decimals while playing a magnitude comparison gameand number line estimation task. Formal labels facilitatedperformance on comparison problems that requiredunderstanding the role of zero, which highlighted place valuestructure. However, formal labels hindered performance whenexplicit understanding of place value magnitudes wasrequired. Findings highlight how the language teachers andstudents use can impact problem-solving success.

Implicit measurement of motivated causal attribution

Moral judgment often involves pinning causation for harm toa particular person. Since it reveals “who one sides with”, ex-pression of moral judgment can be a costly social act that peo-ple may be motivated to conceal. Here, we demonstrate thata simple, well-studied psycholinguistic task (implicit causal-ity) can be leveraged as a novel implicit measure of morallyrelevant causal attributions. Participants decided whether tocontinue sentences like “Amy killed Bob because...” with ei-ther the pronoun he or she. We found that (1) implicit causal-ity selections predicted explicit causal judgments, (2) select-ing the object (victim) for harm/force events (e.g., kill, rape)predicted endorsement of moral values previously linked tovictim-blame, and (3) higher hostile sexism predicted select-ing the female as the cause in male-on-female harm/force. Theimplicit causality task is a new measure of morally motivatedcausal attribution that may circumvent social desirability con-cerns.

Boredom, Information-Seeking and Exploration

Any adaptive organism faces the choice between taking actions with known benefits (exploitation), and sampling new actions to check for other, more valuable opportunities available (exploration). The latter involves information- seeking, a drive so fundamental to learning and long-term reward that it can reasonably be considered, through evolution or development, to have acquired its own value, independent of immediate reward. Similarly, behaviors that fail to yield information may have come to be associated with aversive experiences such as boredom, demotivation, and task disengagement. In accord with these suppositions, we propose that boredom reflects an adaptive signal for managing the exploration-exploitation tradeoff, in the service of optimizing information acquisition and long-term reward. We tested participants in three experiments, manipulating the information content in their immediate task environment, and showed that increased perceptions of boredom arise in environments in which there is little useful information, and that higher boredom correlates with higher exploration. These findings are the first step toward a model formalizing the relationship between exploration, exploitation and boredom.

Analyzing Distributional Learning of Phonemic Categories in Unsupervised DeepNeural Networks

Infants’ speech perception adapts to the phonemic categoriesof their native language, a process assumed to be driven bythe distributional properties of speech. This study investigateswhether deep neural networks (DNNs), the current state-of-the-art in distributional feature learning, are capable oflearning phoneme-like representations of speech in anunsupervised manner. We trained DNNs with unlabeled andlabeled speech and analyzed the activations of each layer withrespect to the phones in the input segments. The analysesreveal that the emergence of phonemic invariance in DNNs isdependent on the availability of phonemic labeling of theinput during the training. No increased phonemic selectivityof the hidden layers was observed in the purely unsupervisednetworks despite successful learning of low-dimensionalrepresentations for speech. This suggests that additionallearning constraints or more sophisticated models are neededto account for the emergence of phone-like categories indistributional learning operating on natural speech.

The Structure of Names in Memory:Deviations from Uniform Entropy Impair Memory for Linguistic Sequences

Human languages can be seen as socially evolved systems thathave been structured to optimize information flow incommunication. Communication appears to proceed both moreefficiently and more fluently when information is distributedevenly across the linguistic signal. In previous work (Ramscaret al., 2013), we used tools from information theory to examinehow naming systems evolved to meet this requirementhistorically, and how, over the past several hundred years,social legislation and rapid population growth have disruptednaming practices in the West, making names ever harder toprocess and remember. In support of these observations, wepresent findings from three experiments investigating namefluency, recognition, and recall. These results provideconverging empirical evidence for an optimal solution to namedesign, and offer a more nuanced understanding of how socialengineering has impaired the structure of names in memory.

What Do We Learn from Rating Metaphors?

What makes some metaphors easier to understand than oth-ers? Theoretical accounts of metaphor processing appeal todimensions like conventionality and aptness to explain vari-ability in metaphor comprehensibility. In a typical experiment,one group of naive participants rates a set of metaphoric sen-tences along these dimensions, while another is timed readingthe same sentences. Then, the ratings are used to predict re-sponse times in order to identify the most relevant linguistic di-mension for metaphor comprehension. However, surprisinglyhigh correlations between ratings of theoretically orthogonalconstructs and the results of an experiment in which a con-text manipulation affected ratings of metaphor conventionalityand aptness suggest that these measures should be treated asdependent, rather than explanatory, variables. We discuss theimplications of this perspective for theories of language pro-cessing.

Listener sensitivity to foreign-accented speech with grammatical errors

The present accent rating study investigates the interactionbetween accent strength and grammatical correctness on per-ceived accentedness. German native (L1) listeners rated Ger-man sentences produced by L1 and non-native (L2) speakers.Sentences either contained a grammatical error or were gram-matically correct. Results showed that grammatical correct-ness affected the accent rating of sentences produced by L1speakers, but not of those by L2 speakers. The inverse influ-ence of grammatical errors on sentences spoken with strongeraccents suggests that phonological information plays a moreimportant role for global perception of speech accentednessthan grammatical correctness does, revealing a hierarchical im-portance of factors that form an L2 accent. This finding is inline with recent findings from an online processing ERP study(Hanul ́ıkov ́a, van Alphen, van Goch, & Weber, 2012) in whichL1 listeners were tolerant towards grammatical errors made byL2 speakers, i.e. showed no P600 effect for grammatically in-correct sentences.

A Comparative Evaluation of Approximate Probabilistic Simulation and DeepNeural Networks as Accounts of Human Physical Scene Understanding

Humans demonstrate remarkable abilities to predict physicalevents in complex scenes. Two classes of models for physicalscene understanding have recently been proposed: “IntuitivePhysics Engines”, or IPEs, which posit that people make pre-dictions by running approximate probabilistic simulations incausal mental models similar in nature to video-game physicsengines, and memory-based models, which make judgmentsbased on analogies to stored experiences of previously en-countered scenes and physical outcomes. Versions of the lat-ter have recently been instantiated in convolutional neural net-work (CNN) architectures. Here we report four experimentsthat, to our knowledge, are the first rigorous comparisonsof simulation-based and CNN-based models, where both ap-proaches are concretely instantiated in algorithms that can runon raw image inputs and produce as outputs physical judg-ments such as whether a stack of blocks will fall. Both ap-proaches can achieve super-human accuracy levels and canquantitatively predict human judgments to a similar degree,but only the simulation-based models generalize to novel sit-uations in ways that people do, and are qualitatively consis-tent with systematic perceptual illusions and judgment asym-metries that people show.

Learning Behavior-Grounded Event Segmentations

The event segmentation theory (EST) postulates that humanssystematically segment the continuous sensorimotor informa-tion flow into events and event boundaries. The basis for theobserved segmentation tendencies, however, remains largelyunknown. We introduce a computational model that groundsEST in the interaction abilities of a system. The model learnsevents and event boundaries based on actively gathered senso-rimotor signals. It segments the signals based on principles ofprobabilistic predictive coding and surprise. The implementedmodel essentially simulates, anticipates, and learns event pro-gressions and event transitions online while interacting withthe environment by means of dynamic, predictive Bayesianmodels. Besides the model’s event segmentation capabilities,we show that the learned encodings can be used for higher-order planning. Moreover, the encodings systematically con-ceptualize environmental interactions and they help to identifythe factors that are critical for ensuring interaction success.

Information-Seeking, Learning and the Marginal Value Theorem: A Normative Approach to Adaptive Exploration

Daily life often makes us decide between two goals: maximizing immediate rewards (exploitation) and learning about the environment so as to improve our options for future rewards (exploration). An adaptive organism therefore should place value on information independent of immediate reward, and affective states may signal such value (e.g., curiosity vs. boredom: Hill & Perkins, 1985; Eastwood et al. 2012). This tradeoff has been well studied in “bandit” tasks involving choice among a fixed number of options, but is equally pertinent in situations such as foraging, hunting, or job search, where one encounters a series of new options sequentially. Here, we augment the classic serial foraging scenario to more explicitly reward the development of knowledge. We develop a formal model that quantifies the value of information in this setting and how it should impact decision making, paralleling the treatment of reward by the marginal value theorem (MVT) in the foraging literature. We then present the results of an experiment designed to provide an initial test of this model, and discuss the implications of this information-foraging framework on boredom and task disengagement.

Learning that numbers are the same, while learning that they are different

It has been suggested that the way that number words are used mayplay an important role in the development of number concepts.However, little is currently known about the overall ways in whichnumber words are used in child-directed speech. To address this,we performed an analysis of how number words are used in theCHILDES database. We looked at four statistics: 1) lexicalfrequency, 2) contextual diversity, 3) word co-occurrence, and 4)distributional similarity, to see if these distributional statisticssuggest why some aspects of number acquisition are easy andothers are hard, and if these statistics are informative about specificdebates in number acquisition. We found that that are manyimportant differences in how small and large number words areused (such as differences in frequency, co-occurrence patterns, anddistributional similarity), differences that may play an role inshaping hypotheses about children’s acquisition of numberconcepts. Keywords: number representation, language acquisition,concept acquisition, statistical learning, corpus analyses

Probabilistic Simulation Predicts Human Performance on Viscous Fluid-Pouring Problem

The physical behavior of moving fluids is highly complex, yetpeople are able to interact with them in their everyday liveswith relative ease. To investigate how humans achieve thisremarkable ability, the present study extended the classicalwater-pouring problem (Schwartz & Black, 1999) to examinehow humans take into consideration physical properties of flu-ids (e.g., viscosity) and perceptual variables (e.g., volume) ina reasoning task. We found that humans do not rely on simplequalitative heuristics to reason about fluid dynamics. Instead,they rely on the perceived viscosity and fluid volume to makequantitative judgments. Computational results from a prob-abilistic simulation model can account for human sensitivityto hidden attributes, such as viscosity, and their performanceon the water-pouring task. In contrast, non-simulation mod-els based on statistical learning fail to fit human performance.The results in the present paper provide converging evidencesupporting mental simulation in physical reasoning, in addi-tion to developing a set of experimental conditions that rectifythe dissociation between explicit prediction and tacit judgmentthrough the use of mental simulation strategies.

College Students’ Understanding of Linear Functions: Slope is Slippery

A common obstacle for students in the transition from arithmetic to algebra is developing a conceptual understanding of equations representing functions. Two experiments manipulated isomorphic problems in terms of their solution requirements (computation vs. interpretation) and format to test for understanding of linear functions. Experiment 1 provided problems in a story context, and found that performance on slope comparison problems was low, especially when problems were presented with equations. Experiment 2 tested whether performance on slope comparison problems improves when problem prompts include explicit mathematical terminology rather than just natural language consistent with the problem story. Results suggest that many undergraduate students fail to access the mathematical concept of slope when problem prompts are presented with natural language. Overall, the results suggest that even undergraduate students lack understanding of the slope concept and equations of linear functions, both which are foundational for advanced algebraic thinking.

L2 Idiom Processing: Figurative Attunement in Highly Idiomatic Contexts

Using cross-modal priming, we investigated the processing of idioms in non-native listeners in varying experimental contexts. As idiomatic processing models have presented evidence for an idiomatic mode of processing that can be activated for non-native speakers in highly figurative contexts (Bobrow & Bell, 1973), this experiment revisits those claims while also examining access to figurative meaning in addition to the literal meaning of individual words within an idiom. This experiment showed increased priming for visual targets related to the figurative meaning of an idiom when the experimental list contained a large proportion of idiomatic sentences compared to when the list contained only a small proportion of idiomatic sentences. Non-native speakers not only showed online access to figurative meaning but were also sensitive to highly idiomatic contexts; though, responses to the targets related to literal meaning of the final word of the idiom were faster in all instances than figuratively-related targets.

Synthesized size-sound sound symbolism

Studies of sound symbolism have shown that people can associate sound and meaning in consistent ways when presented with maximally contrastive stimulus pairs of nonwords such as bouba/kiki (rounded/sharp) or mil/mal (small/big). Recent work has shown the effect extends to antonymic words from natural languages and has proposed a role for shared cross-modal correspondences in biasing form- to-meaning associations. An important open question is how the associations work, and particularly what the role is of sound-symbolic matches versus mismatches. We report on a learning task designed to distinguish between three existing theories by using a spectrum of sound-symbolically matching, mismatching, and neutral (neither matching nor mismatching) stimuli. Synthesized stimuli allow us to control for prosody, and the inclusion of a neutral condition allows a direct test of competing accounts. We find evidence for a sound-symbolic match boost, but not for a mismatch difficulty compared to the neutral condition.

Examining the Specificity of the Seductive Allure Effect

Previous work has found that people feel significantly moresatisfied with explanations of psychological phenomena whenthose explanations contain neuroscience information — evenwhen this information is entirely irrelevant to the logic of theexplanations. This seductive allure effect was firstdemonstrated by Weisberg, Keil, Goodstein, Rawson, & Gray(2008), and has since been replicated several times inindependent labs (e.g., Fernandez-Duque, Evans, Christian, &Hodges, 2014; Rhodes, Rodriguez, & Shah, 2014; Weisberg,Taylor, & Hopkins, 2015). However, these studies onlyexamined psychological explanations with addedneuroscience information. The current study thus investigatedthe generality of this effect and found that the seductive allureeffect occurs across several scientific disciplines wheneverthe explanations include reference to smaller components ormore fundamental processes. These data suggest that peoplehave a general preference for reductive explanations.

More than Words: The Many Ways Extended Discourse Facilitates Word Learning

Child-directed speech is often temporally organized such that successive utterances refer to the same topic. This type of extended discourse on the same referent has been shown to possess several verbal signatures that could facilitate learning. Here, we reveal multiple non-verbal correlates to extended discourse that could also aid learning. Multimodal analyses of extended discourse episodes reveal that during these episodes, toddlers and parents exhibit greater sustained attention on objects, and greater coordination between their behaviors. The results indicate the interconnections between multiple aspects of the language-learning environment, and suggest that parents’ speech may both shape and be shaped by non-verbal processes. Implications for understanding how the learning environment influences development are discussed.

Two Potential Mechanisms Underlying the Link between Approximate NumberRepresentations and Symbolic Math in Preschool Children

The approximate number system (ANS) is frequentlyconsidered to be a foundation for the acquisition of uniquelyhuman symbolic numerical capabilities. However, themechanism by which the ANS influences symbolic numberrepresentations and mathematical thought remains poorlyunderstood. Here, we tested the relation between ANS acuity,cardinal number knowledge, approximate arithmetic, andsymbolic math achievement in a one-year longitudinalinvestigation of preschoolers’ early math abilities. Our resultssuggest that cardinal number knowledge is an intermediaryfactor in the relation between ANS acuity and symbolic mathachievement. Furthermore, approximate arithmeticperformance contributes unique variance to math achievementthat is not accounted for by ANS acuity. These findingssuggest that there are multiple routes by which the ANSinfluences math achievement. Therefore, interventionstargeting both the precision and manipulability of the ANSmay prove to be more beneficial for improving mathematicalreasoning compared to interventions targeting only one ofthese factors.

Construal level affects intuitive moral responses to narrative content

The Model of Intuitive Morality and Exemplars (MIME)predicts a mutual dependency between the moral scrutiny ofmediated narratives and media exposure. This study proposesmoral judgments of media content are not only related to basalmoral domain salience and exemplars, but also to the immediateprocessing state of the individual at the moment of exposure. Anexperiment manipulating construal level prior to exposure to amediated narrative was conducted to test this proposal. The resultssuggest that evaluations of moral violations are modulated byconstrual level. High-level construal led to harsher, moreconsistent judgments of domain-violator morality, eliminating theeffect of baseline moral intuitions. Low-level construal induced anapparent trade-off in moral evaluation strategy which is sensitive toboth narrative outcome and domain salience. When domainviolators were punished, intuitive moral salience was negativelycorrelated with moral evaluations; however, when domainviolators were rewarded, the opposite trend emerged. Thesefindings indicate the need for an adjustment to the MIME model toallow for processing states to interact with moral domain salienceand moral judgments of media content. They also suggest that thestrength and quality of moral intuitions are not robust to broadercognitive processes, but interact with them.

Beyond Markov: Accounting for Independence Violations in Causal Reasoning

Although many theories of causal cognition are based on causalgraphical models, a key property of such models—the inde-pendence relations stipulated by the Markov condition—isroutinely violated by human reasoners. Two accounts of whypeople violate independence are formalized and subjected toexperimental test. Subjects’ inferences were more consistentwith a dual prototype model in which people favor networkstates in which variables are all present or all absent than aleaky gate model in which information is transmitted throughnetwork nodes when it should normatively be blocked. Thearticle concludes with a call for theories of causal cognitionthat rest on foundations that are faithful to the kinds of causalinferences people actually draw.

Curiosity-Driven Development of Tool Use Precursors: a Computational Model

Studies of child development of tool use precursors show suc-cessive but overlapping phases of qualitatively different typesof behaviours. We hypothesize that two mechanisms in par-ticular play a role in the structuring of these phases: the in-trinsic motivation to explore and the representation used toencode sensorimotor experience. Previous models showedhow curiosity-driven learning mechanisms could allow theemergence of developmental trajectories. We build uponthose models and present the HACOB (Hierarchical ActiveCuriosity-driven mOdel Babbling) architecture that activelychooses which sensorimotor model to train in a hierarchy ofmodels representing the environmental structure. We studythis architecture using a simulated robotic arm interacting withobjects in a 2D environment. We show that overlapping phasesof behaviours are autonomously emerging in hierarchical mod-els using active model babbling. To our knowledge, this isthe first model of curiosity-driven development of simple tooluse and of the self-organization of overlapping phases of be-haviours. In particular, our model explains why and how in-trinsically motivated exploration of non-optimal methods tosolve certain sensorimotor problems can be useful to discoverhow to solve other sensorimotor problems, in accordance withSiegler’s overlapping waves theory, by scaffolding the learningof increasingly complex affordances in the environment.

Spatial Memory and Foraging: How Perfect Spatial Memory Improves Foraging Performance

Foraging is a search process common to all mobile organisms. Spatial memory can improve foraging efficiency and efficacy, and evidence indicates that many species—including humans—actively utilize spatial memory to aid in their foraging, yet most current models of foraging do not include spatial memory. In this study, a simple online foraging game was used to attempt to replicate and extend findings from a recent study (Kerster, Rhodes, & Kello, 2016) to further investigate the role of spatial memory in foraging. The game involved searching a simple 2d space by clicking the mouse to try and find as many resources as possible in 300 clicks. Spatial information was displayed that provided complete information about search history in order test how “perfect” spatial memory improves search performance. Over 1000 participants were recruited to participate in the task using Amazon’s Mechanical Turk, which allowed this test to be performed across a wide parameter space of different resource distributions. Results replicated many of the findings of earlier studies, and demonstrated that spatial memory can have a dramatic effect on search performance.

Temporal Expressions in Speech and Gesture

People use spatial metaphors to talk about temporal concepts.They also gesture frequently during speech. Thecharacteristics of these gestures give information regardingthe mental timelines people form to experience time. Thepresent study investigates the expression of temporal conceptson a natural setting with Turkish speakers. We found thatTurkish speakers used more metaphoric temporal phrases(e.g., short period, time flies quickly) than words referring totime without spatial content (e.g., today, nowadays) in asession where they talked about people’s fortune.Spontaneous gestures were mainly classified as metaphoricand beat gestures and were mostly produced on the sagittalaxis, which contradicts with the previous findings. Yet, wealso found that people used vertical axis to represent currentand future events. These findings suggest that lateral axis maynot always be the most common direction for co-speechtemporal gesture use, and the pragmatic constraints of theenvironment may influence the spatial conceptualization oftime.

Children’s Awareness of Authority to Change Rules in Various Social Contexts

To investigate children’s awareness of authority to changerules, we showed children (ages 4-7) videos of one childplaying a game alone or three children playing a gametogether. In the group video, the game rule was initiated either:by one of the children, by three children collaboratively or byan adult. They then were asked whether the characters in thevideos could change the rules. Children believed that thecharacter could change the rule when playing alone. Theirresponses to the group video depended on how the rule wasinitiated. They attributed authority to change rules only to thechild who initiated the rule, unless the rule was createdcollaboratively. We also asked children whether they couldchange norms (school/moral/artifact norms) in daily life; andfound moral/artifact distinction in children’s endorsement ofnorm changing. These results suggest that children recognizeflexibility in changing rules even in preschool years.

An Ecological Model of Memory and Inferences

In this paper, we develop a memory model that predicts retrieval characteristics of real-world facts. First, we show how ACT-R’s memory model can be used to predict people’s knowledge about real-world objects. The model assumes the probability of retrieving a chunk of information about an object and the time to retrieve this information depend on the pattern of prior environmental exposure to the object. Second, we use frequencies of information appearing on the Internet as a proxy for what information people would encounter in their natural environment, outside the laboratory. In two Experiments, we use this model to account for subjects’ associative knowledge about real-world objects as well as the associated retrieval latencies. Third, in a computer simulation, we explore how such model predictions can be used to understand the workings and performance of decision strategies that operate on the contents of declarative memory.

Conversational expectations account for apparent limits on theory of mind use

Theory of mind is a powerful cognitive ability: by the ageof six, people are capable of accurately reasoning about oth-ers’ beliefs and desires. An influential series of language un-derstanding experiments by Keysar and colleagues, however,showed that adults systematically failed to take a speaker’sbeliefs into account, revealing limitations on theory of mind.In this paper we argue that these apparent failures are in factsuccesses. Through a minimal pair of replications comparingscripted vs. unscripted speakers, we show that critical utter-ances used by Keysar and colleagues are uncooperative: theyare less informative than what a speaker would actually pro-duce in that situation. When we allow participants to naturallyinteract, we find that listener expectations are justified and er-rors are reduced. This ironically shows that apparent failuresof theory of mind are in fact attributable to sophisticated ex-pectations about speaker behavior—that is, to theory of mind.

Simpler structure for more informative words: a longitudinal study

As new concepts and discoveries accumulate over time, theamount of information available to speakers increases as well.One would expect that an utterance today would be more in-formative than an utterance 100 years ago (basing informationon surprisal; Shannon, 1948), given the increase in technol-ogy and scientific discoveries. This prediction, however, is atodds with recent theories regarding information in human lan-guage use, which suggest that speakers maintain a somewhatconstant information rate over time. Using the Google Ngramcorpus (Michel et al., 2011), we show for multiple languagesthat changes in lexical information (a unigram model) are actu-ally negatively correlated with changes in structural informa-tion (a trigram model), supporting recent proposals on infor-mation theoretic constraints.

The Influence of Language-specific Auditory Cues on the Learnability of Center-embedded Recursion

The learnability of center-embedded recursive structures has attracted much attention (Corballis, 2007; Friederici, 2004; Rey, Perruchet, & Fagot, 2012). However, most of the previous studies adopted the artificial grammar learning paradigm (Reber, 1967) and did not apply natural language stimuli. Rather, they applied synthetic meaningless training materials, which hardly represent the richness and complexity of natural language. Accordingly, in the current study, we attempt to tighten the link between artificial language learning and natural language acquisition in the auditory modality, by enriching our learning environment with phonological cues that occur in natural, spoken information; in particular, Chinese tones. In a grammaticality judgment task, we examined the syntactical processing by participants from different language backgrounds. Through the cross-language comparison between Chinese and Dutch native speakers, we aim to test the influence of language-specific phonological cues on processing complex linguistic structures. The results showed that tones had a more beneficial learning effect for Chinese than for Dutch participants. In other words, when participants learned a new language, they were likely to bring their own language routines implicitly from the familiar native language into processing the unfamiliar one.

U-INVITE: Estimating Individual Semantic Networks from Fluency Data

Semantic networks have been used extensively in psychologyto describe how humans organize facts and knowledge inmemory. Numerous methods have been proposed to constructsemantic networks using data from memory retrieval tasks,such as the semantic fluency task (listing items in a category).However these methods typically generate group-levelnetworks, and sometimes require a very large amount ofparticipant data. We present a novel computational methodfor estimating an individual’s semantic network usingsemantic fluency data that requires very little data. Weestablish its efficacy by examining the semantic relatedness ofassociations estimated by the model.

Contextual Events and Their Role in a Two-Choice Joint Simon Task

We examined the effects of individual versus joint action on aSimon task using motion tracking to explore the implicitcognitive dynamics underlying responses. In both individual andjoint conditions, participants were slower to respond, and weredifferentially attracted to the distracter response location, whenthe spatial component of the stimulus was incompatible with theresponse location. When two people completed similar twochoice tasks together, the results were not statistically differentfrom the individual condition, even though the magnitude of thestimulus-response compatibility effect was slightly larger.Neither was there an increased effect when the partner had nostimulus-response conflict to resolve. We found no evidence foran action conflict when the responses of the two partners weredifferent. These data imply that the literature regarding the JointSimon task is still in the process of determining the relevantevents that interact with and support joint action.

A Framework for Evaluating Speech Representations

Listeners track distributions of speech sounds along percep-tual dimensions. We introduce a method for evaluating hy-potheses about what those dimensions are, using a cognitivemodel whose prior distribution is estimated directly from speechrecordings. We use this method to evaluate two speaker nor-malization algorithms against human data. Simulations showthat representations that are normalized across speakers predicthuman discrimination data better than unnormalized representa-tions, consistent with previous research. Results further revealdifferences across normalization methods in how well eachpredicts human data. This work provides a framework forevaluating hypothesized representations of speech and lays thegroundwork for testing models of speech perception on naturalspeech recordings from ecologically valid settings.

Facilitating Spatial Task Learning in Interactive Multimedia Environments While Accounting for Individual Differences and Task Difficulty

Two experiments examined the effects of interactive tutorial features (compared to “passive” features) on learning spatial tasks, an area seldom explored in interactivity research. Experiment 1 results indicated that for simple spatial tasks, interactive tutorials hindered learning for participants of higher spatial ability but improved learning for lower-ability participants. This interaction can be explained by “compensation,” the notion that people of higher ability can compensate for poor external support (passive tutorials) while people of lower ability need the better support. It is likely that the increased cognitive load of interactivity (Kalyuga, 2007) hindered high-spatial participants on a relatively easy task. In Experiment 2, task difficulty was increased, and the results revealed that the interactive tutorial produced better learning than the passive tutorial, regardless of spatial abilities. With the relatively difficult task, the benefits of interactivity became clearer because most people actually needed the interactive features despite the associated cognitive load.

A Neural Dynamic Model Parses Object-Oriented Actions

Parsing actions entails that relations between objects are dis-covered. A pervasively neural account of this process requiresthat fundamental problems are solved: the neural pointer prob-lem, the binding problem, and the problem of generating dis-crete processing steps from time-continuous neural processes.We present a prototypical solution to these problems in a neuraldynamic model that comprises dynamic neural fields holdingrepresentations close to sensorimotor surfaces as well as dy-namic nodes holding discrete, language-like representations.Making the connection between these two types of represen-tations enables the model to parse actions as well as groundmovement phrases—all based on real visual input. We demon-strate how the dynamic neural processes autonomously gen-erate the processing steps required to parse or ground object-oriented action.

Vector Space Semantic Models Predict Subjective Probability Judgments for Real-World Events

We examine how people judge the probabilities of real-world events, such as natural disasters in different countries. We find that the associations between the words and phrases that constitute these events, as assessed by vector space semantic models, strongly correlate with the probabilities assigned to these events by participants. Thus, for example, the semantic proximity of “earthquake” and “Japan” accurately predicts judgments regarding the probability of an earthquake in Japan. Our results suggest that the mechanisms and representations at play in language are also active in high- level domains, such as judgment and decision making, and that existing insights regarding these representations can be used to make precise, quantitative, a priori predictions regarding the probability estimates of individuals.

Noisy Parameters in Risky Choice

We examine the effect of variability in model parameters on the predictions of expected utility theory and cumulative prospect theory, two of the most influential choice models in decision making research. We find that zero-mean and symmetrically distributed noise in the underlying parameters of these models can systematically distort choice probabilities, leading to false conclusions. Likewise, differences in choice proportions across decision makers might be due to differences in the amount of noise affecting underlying parameters rather than to differences in actual parameter values. Our results suggest that care and caution are needed when trying to infer the underlying preferences of decision makers, or the effects of psychological, biological, economic, and demographic variables on these preferences.

Do Do Do, The The The: Interactivity and Articulatory Suppression in Mental Arithmetic

Doing long sums in the absence of complementary actions or artefacts is a multi-step procedure that quickly taxes working memory; congesting the phonological loop further handicaps performance. In the experiment reported here, participants completed long sums either with hands down—the low interactivity condition—or by moving numbered tokens—the high interactivity condition—while they repeated ‘the’ continuously, loading the phonological loop, or not. As expected, articulatory suppression substantially affected performance, but more so in the low interactivity condition. Independent measures of basic arithmetic skill and mathematics anxiety moderated the impact of articulatory suppression on performance in the low but not in the high interactivity condition. These findings suggest that working memory resources are augmented with interactivity, underscoring the importance of characterizing the properties of the system as it is configured by the dynamic agent-environment coupling.

Between versus Within-Language Differences in Linguistic Categorization

Cross-linguistic research has shown that boundaries for lexical categories differ from language to language. The aim of this study is to explore these differences between languages in relation to the categorization differences within a language. Monolingual Dutch- (N=400) and French-speaking (N=300) Belgian adults provided lexical category judgments for three lexical categories that are roughly equivalent in Dutch and French. Each category was represented by good, borderline, and bad examples. A mixture modeling approach enabled us to identify latent groups of categorizers within a language and to evaluate cross-linguistic variation in relation to within- language variation. We found complex patterns of lexical variation within as well as between language groups. Even within a seemingly homogeneous group of speakers sharing the same mother tongue, latent groups of categorizers display a variability that resembles patterns of lexical variation found at a cross-linguistic level of comparison.

Event participants and linguistic arguments

Although there is a clear and intuitive mapping between lin-guistic arguments of verbs and event participants, the mappingis not perfect. We review the linguistic evidence that indicatesthat the mapping is imperfect. We also present the results of anew experimental study that provides further support for a dis-sociation between event participants and linguistic arguments.The study consists of two tasks. The first task elicited intu-itions on conceptual event participants, and the second taskelicited intuitions on linguistic arguments in instrument verbsand transaction verbs. The results suggest that while instru-ment phrases and currency/price phrases are considered neces-sary event participants, they are not linguistic arguments.

Decision-Making and Biases in Causal-Explanatory Reasoning

Decisions often rely on judgments about the probabilitiesof various explanations. Recent research has uncovered ahost of biases that afflict explanatory inference: Wouldthese biases also translate into decision-making? We findthat although people show biased inferences when makingexplanatory judgments in decision-relevant contexts (Exp.1A), these biases are attenuated or eliminated when thechoice context is highlighted by introducing an economicframing (price information; Exp. 1B–1D). However, biasedinferences can be “locked in” to subsequent decisions whenthe judgment and decision are separated in time (Exp. 2).Together, these results suggest that decisions can be morerational than the corresponding judgments—leading tochoices that are rational in the output of the decisionprocess, yet irrational in their incoherence with judgments.

Does Chess Instruction Enhance Mathematical Ability in Children?A Three-Group Design to Control for Placebo Effects

Pupils’ poor achievement in mathematics has recently been aconcern in many Western countries. In order to address this is-sue, it has been proposed to teach chess in schools. However,in spite of optimistic claims, no convincing evidence of the ac-ademic benefits of chess instruction has ever been provided,because no study has ever controlled for possible placebo ef-fects. In this experimental study, a three-group design (i.e., ex-perimental, placebo, and control groups) was implemented tocontrol for possible placebo effects. Measures of mathematicalability and metacognitive skills were taken before and after thetreatment. We were interested in metacognitive skills becausethey have been claimed to be boosted by chess instruction, inturn positively influencing the enhancement of mathematicalability. The results show that the experimental group (partici-pants attending a chess course) achieved better scores in math-ematics than the placebo group (participants attending a Gocourse) but not than the control group (participants attendingregular school lessons). With regard to metacognition, no dif-ferences were found between the three groups. These resultssuggest that some chess-related skills generalize to the mathe-matical domain, because the chess lessons compensated for thehours of school lessons lost, whereas the Go lessons did not.However, this transfer does not seem to be mediated by meta-cognitive skills, and thus appears to be too limited to offer ed-ucational advantages.

Are Symptom Clusters Explanatory? A Study in Mental Disorders and Non-Causal Explanation

Three experiments investigate whether and why people accept explanations for symptoms that appeal to mental disorders, such as: “She experiences delusions because she has schizophrenia.” Such explanations are potentially puzzling, as mental disorder diagnoses are made on the basis of symptoms, and the DSM implicitly rejects a commitment to some common, underlying cause. Do laypeople nonetheless conceptualize mental disorder classifications in causal terms? Or is this an instance of non-causal explanation? Experiment 1 shows that such explanations are indeed found explanatory. Experiment 2 presents participants with novel disorders that are stipulated to involve or not involve an underlying cause across symptoms and people. Disorder classifications are found more explanatory when a causal basis is stipulated, or when participants infer that one is present (even after it’s denied in the text). Finally, Experiment 3 finds that merely having a principled, but non-causal, basis for defining symptom clusters is insufficient to reach the explanatory potential of categories with a stipulated common cause. We discuss the implications for accounts of explanation and for psychiatry.

Not all overlaps are equal: Social affiliation and rare overlaps of preferences

Shared preferences are a critical component of social attrac-tion. Knowing that someone likes the same things as you do isindicative of broader underlying similarities that support suc-cessful social partnerships. However, not all overlaps in prefer-ences are equally informative. Here we propose that the rarityof overlaps in preferences may be a particularly salient cue forsocial affiliation. We find evidence that people are sensitiveto the rarity of overlaps in preferences and affiliate themselves(Experiment 1) or predict others’ affiliations (Experiment 2)with potential social partners who share a relatively rare pref-erence. Because preferences provide information about bothwhat people know and what they like, we also tested the ef-fect of overlaps in knowledge (without taste) and overlaps intaste (without knowledge) to understand why we are drawn topeople who share our preferences.

What Causal Illusions Might Tell us about the Identification of Causes

According to existing accounts of causation, people rely on asingle criterion to identify the cause of an event. Thephenomenon of causal illusions raises problems for suchviews. Causal illusions arise when a particular factor isperceived to be causal despite knowledge indicatingotherwise. According to what we will call the Dual-ProcessHypothesis of Causal Identification, identifying a causeinvolves two cognitive processes: 1) an automatic, intuitiveprocess that identifies possible causes on the basis ofperceptual cues (spatial and temporal) and 2) a slow,reflective process that identifies possible causes on the basisof causal inference, in particular, a consideration of possiblemechanism. Consistent with this hypothesis, we found that inresponse to a causal illusion shown in a naturalistic setting,people’s initial judgments of causation were higher than theirultimate judgments of causation (Experiment 1). Using anonline measure of the time-course of people’s causaljudgments, we found that people initially view animations ofcausal illusions as causal before concluding that they are non-causal (Experiment 2). Finally, we obtained similar resultsusing a deadline procedure, while also finding that the lowerthe cognitive reflectiveness (as measured by the CRT), thestronger people’s impressions of causation were (Experiment3). Implications for different classes of theories of causationare discussed.

Quantifying Joint Activities using Cross-Recurrence Block Representation

Humans, as social beings, are capable of employing variousbehavioral cues, such as gaze, speech, manual action, and bodyposture, in everyday communication. However, to extract fine-grained interaction patterns in social contexts has beenpresented with methodological challenges. Cross-RecurrencePlot Quantification Analysis (CRQA) is an analysis methodinvented in theoretical physics and recently applied tocognitive science to study interpersonal coordination. In thispaper, we extend this approach to analyzing joint activities inchild-parent interaction. We define a new representation asCross Recurrence Block based on CRQA. With thisrepresentation, we are able to capture interpersonal dynamicsfrom more than two behavioral streams in one CrossRecurrence Plot and derive a suite of measures to quantifydetailed characteristics of coordination. Using a datasetcollected from a child-parent interaction study, we show thatthese quantitative measures of joint activities revealdevelopmental changes in coordinative behavioral patternsbetween children and parents.

Temporal Horizons and Decision-Making: A Big Data Approach

Human behavior is plagued by shortsightedness. When faced withtwo options, smaller rewards are often chosen over larger rewards,even when such choices are potentially costly. In threeexperiments, we use big data techniques to examine how suchchoices might be driven by people’s temporal horizons. InExperiment 1, we determine the average distance into the futurepeople talk about in their tweets in order to determine the temporalhorizon of each U.S. state. States with further future horizons hadlower rates of risk taking behavior (smoking, binge drinking) andhigher rates of investment (e.g., education, infrastructure). InExperiment 2, we used an individual’s tweets to establish theirtemporal horizon and found that those with longer temporalhorizons were more willing to wait for larger rewards. InExperiment 3, we were once again able to predict the choicebehaviors of individuals from their tweets, this time showing thatthose with longer future horizons were less likely to take risks. Thefindings help establish a powerful relationship between people’sthoughts about the future and their decisions.

Using Subgoal Learning and Self-Explanation to Improve Programming Education

The present study explored passive, active, and constructive methods of learning problem solving procedures. Using subgoal learning, which has promoted retention and transfer in procedural domains, the study compared the efficacy of different methods for learning a programming procedure. The results suggest that constructive methods produced better problem solving performance than passive or active methods. The amount of instructional support that learners received in the three different constructive interventions also affected performance. Learners performed best when they either received hints about the subgoals of the procedure or received feedback on the subgoal labels that they constructed, but not when they received both. These findings suggest that in some cases constructing subgoal labels is better than passively or actively engaging with subgoal labels. There is an optimal level of instructional support for students engaging in constructive learning and that providing too much support can be equally as detrimental as providing too little support.

The Effects of Gender Stereotypes for Structure Mapping in Mathematics

Fear of a negative stereotype about one’s performance canlead to temporary underperformance on tests; e.g. womenmay underperform on a math test when prompted to thinkabout gender. The current study extends this literature toexamine whether stereotype threat not only leads tounderperformance on tests, but also may impact reasoningand learning more broadly. We focus in particular on theeffects of stereotype threat on analogical learning, a complexreasoning process that imposes a high working memory load.In this study, we examined the effects of gender stereotypeswhen females were asked to learn by comparing themathematical concepts of combinations and permutations.Overall, participants given a threat before learning gained lessfrom the instruction, as reflected by assessments administeredimmediately after the lesson and after a 1-week delay. Thiscould lead to systematic differences in the quality of abstractrepresentational knowledge for individuals from negativelystereotyped groups.

Improving with Practice: A Neural Model of Mathematical Development

The ability to improve in speed and accuracy as a result of re-peating some task is an important hallmark of intelligent bio-logical systems. Although gradual behavioural improvementsfrom practice have been modelled in spiking neural networks,few such models have attempted to explain cognitive devel-opment of a task as complex as addition. In this work, wemodel the progression from a counting-based strategy for ad-dition to a recall-based strategy. The model consists of twonetworks working in parallel: a slower basal ganglia loop, anda faster cortical network. The slow network methodically com-putes the count from one digit given another, correspondingto the addition of two digits, while the fast network gradually“memorizes” the output from the slow network. The faster net-work eventually learns how to add the same digits that initiallydrove the behaviour of the slower network. Performance ofthis model is demonstrated by simulating a fully spiking neu-ral network that includes basal ganglia, thalamus and variouscortical areas. Consequently, the model incorporates variousneuroanatomical data, in terms of brain areas used for calcula-tion and makes psychologically testable predictions related tofrequency of rehearsal. Furthermore, the model replicates de-velopmental progression through addition strategies in termsof reaction times and accuracy, and naturally explains observedsymptoms of dyscalculia.

Examining Referential Uncertainty in Naturalistic Contexts from the Child’s View: Evidence from an Eye-Tracking Study with Infants

Young infants are prolific word learners even though they are facing the challenge of referential uncertainty (Quine, 1960). Many laboratory studies have shown that human infants are skilled at inferring the correct referent of an object from ambiguous contexts (Swingley, 2009). However, little is known regarding how children visually attend to and select the target object among many other objects in view when parents name it during free play interactions. In the current study, we explored the looking pattern of 12-month-old infants using naturalistic first person images with varying degrees of referential ambiguity. Our data suggest that infants’ attention is selective and they tend to only select a small subset of objects to attend to at each learning instance despite the complexity of the data existed in the real world. This work allows us to better understand how perceptual properties of objects in infants’ view influence their visual attention, which is also related to how they select candidate objects to build word-object mappings.

The Naïve Utility Calculus unifies spatial and statistical routes to preference

Humans can seamlessly infer what other people like, based onwhat they do. Broadly, two types of accounts have beenproposed to explain different aspects of this ability. A firstaccount focuses on inferences from spatial information:agents choose and move towards things they like. A secondaccount focuses on inferences from statistical information:uncommon choices reveal preferences more clearly comparedto common choices. Here we argue that these two kinds ofinferences can be explained by the assumption that agentsmaximize utilities. We test this idea in a task where adultparticipants infer an agent’s preferences using a combinationof spatial and statistical information. We show that our modelpredicts human answers with higher accuracy than a set ofplausible alternative models.

Task-set Selection in Probabilistic Environments: a Model of Task-set Inference

To act effectively in a complicated, uncertain world, peopleoften rely on task-sets (TSs) that define action policies over arange of stimuli. Effectively selecting amongst TSs requiresassessing their individual utility given the current world state.However, the world state is, in general, latent, stochastic, andtime-varying, making TS selection a difficult inference for theagent. An open question is how observable environmentalfactors influence an actor's assessment of the world state andthus the selection of TSs. In this work, we designed a noveltask in which probabilistic cues predict one of two TSs on atrial-by-trial basis. With this task, we investigate how peopleintegrate multiple sources of probabilistic information in theservice of TS selection. We show that when action feedback isunavailable, TS selection can be modeled as “biased Bayesianinference”, such that individuals participants differentiallyweight immediate cues over TS priors when inferring thelatent world state. Additionally, using the model’s trial-by-trial posteriors over TSs, we calculate a measure of decisionconfidence and show that it inversely relates to reactiontimes. This work supports the hierarchical organization ofdecision-making by demonstrating that probabilistic evidencecan be integrated in the service of higher-order decisions overTSs, subsequently simplifying lower-order action selection.

N400 amplitudes reflect change in a probabilistic representation of meaning:Evidence from a connectionist model

The N400 component of the event-related brain potential iswidely used in research on language and semantic memory,but the cognitive functions underlying N400 amplitudes arestill unclear and actively debated. Recent simulations with aneural network model of word meaning suggest that N400amplitudes might reflect implicit semantic prediction error.Here, we extend these simulations to sentencecomprehension, using a neural network model of sentenceprocessing to simulate a number of N400 effects obtained inempirical research. In the model, sequentially incoming wordsupdate a representation capturing probabilities of elements ofsentence meaning, not only reflecting the constituentspresented so far, but also the model’s best guess at all featuresof the sentence meaning based on the statistical regularities inthe model’s environment internalized in its connectionweights. Simulating influences of semantic congruity, clozeprobability, a word’s position in the sentence, reversalanomalies, semantic and associative priming, categoricallyrelated incongruities, lexical frequency, repetition, andinteractions between repetition and semantic congruity, wefound that the update of the predictive representation ofsentence meaning consistently patterned with N400amplitudes. These results are in line with the idea that N400amplitudes reflect semantic surprise, defined as the change inthe probability distribution over semantic features in anintegrated representation of meaning occasioned by the arrivalof each successive constituent of a sentence.

Asking and evaluating natural language questions

The ability to ask questions during learning is a key aspect ofhuman cognition. While recent research has suggested com-mon principles underlying human and machine “active learn-ing,” the existing literature has focused on relatively simpletypes of queries. In this paper, we study how humans constructrich and sophisticated natural language queries to search for in-formation in a large yet computationally tractable hypothesisspace. In Experiment 1, participants were allowed to ask anyquestion they liked in natural language. In Experiment 2, par-ticipants were asked to evaluate questions that they did not gen-erate themselves. While people rarely asked the most informa-tive questions in Experiment 1, they strongly preferred moreinformative questions in Experiment 2, as predicted by an idealBayesian analysis. Our results show that rigorous information-based accounts of human question asking are more widely ap-plicable than previously studied, explaining preferences acrossa diverse set of natural language questions.

Sequential images are not universal,orCaveats for using visual narratives in experimental tasks

Sequential images have frequently been used as experimentalstimuli in the cognitive and psychological sciences to exploretopics like theory of mind, temporal cognition, discourse,social intelligence, and event sequencing, among others. Theassumption has been that sequential images provide a fairlyuniversal and transparent stimuli that require little to nolearning to decode, and thus are ideal for non-verbal tasks indevelopmental, clinical, and non-literate populations.However, decades of cross-cultural and developmentalresearch have actually suggested something different: thatsequential image comprehension is contingent on exposureand practice with a graphic system. I here review thisliterature and advocate for more sensitivity to the “fluency”needed to understand sequential images.

Deciding to Remember:Memory Maintenance as a Markov Decision Process

Working memory is a limited-capacity form of human mem-ory that actively holds information in mind. Which memoriesought to be maintained? We approach this question by showingan equivalence between active maintenance in working mem-ory and a Markov decision process in which, at each moment,a cognitive control mechanism selects a memory as the targetof maintenance. The challenge of remembering is then findinga maintenance policy well-suited to the task at hand. We com-pute the optimal policy under various conditions and defineplausible cognitive mechanisms that can approximate these op-timal policies. Framing the problem of maintenance in thisway makes it possible to capture in a single model many of theessential behavioral phenomena of memory maintenance, in-cluding directed forgetting and self-directed remembering. Fi-nally, we consider the case of imperfect metamemory — wherethe current state of memory is only partially observable — andshow that the fidelity of metamemory determines the effective-ness of maintenance.

When to Block versus Interleave Practice?Evidence Against Teaching Fraction Addition before Fraction Multiplication

In practice, mathematics education is blocked (i.e., teachingone topic at a time; CCSS, 2010), but research generallypromotes interleaving (i.e., teaching multiple topics together;Rohrer & Taylor, 2007). For example, fraction arithmetic isblocked with students being taught fraction addition beforefraction multiplication. Since students often confuse fractionoperations to produce arithmetic errors, interleaved fractionarithmetic instruction might be more productive than blockedinstruction to teach students to discriminate between theoperations. Additionally, a cognitive task analysis suggeststhat fraction multiplication may be a prerequisite to fractionaddition and thus reversing the blocking order may enhancelearning. Two experiments with fraction addition and fractionmultiplication were run. Experiments 1 and 2 show thatinterleaved instruction is generally better than the currentblocked instruction. Experiment 2 provides evidence thatblocking that reverses the standard order -- providing practiceon fraction multiplication before fraction addition -- producesbetter learning.

Helping people make better decisions using optimal gamification

Game elements like points and levels are a popular tool tonudge and engage students and customers. Yet, no theory cantell us which incentive structures work and how to design them.Here we connect the practice of gamification to the theory ofreward shaping in reinforcement learning. We leverage thisconnection to develop a method for designing effective incen-tive structures and delineating when gamification will succeedfrom when it will fail. We evaluate our method in two behav-ioral experiments. The results of the first experiment demon-strate that incentive structures designed by our method helppeople make better, less short-sighted decisions and avoid thepitfalls of less principled approaches. The results of the sec-ond experiment illustrate that such incentive structures can beeffectively implemented using game elements like points andbadges. These results suggest that our method provides a prin-cipled way to leverage gamification to help people make betterdecisions.

Learning biases may prevent lexicalization of pragmatic inferences:a case study combining iterated (Bayesian) learning and functional selection

Natural languages exhibit properties that are difficult to explainfrom a purely functional perspective. One of these properties isthe systematic lack of upper-bounds in the literal meaning ofscalar expressions. This investigation addresses the develop-ment and selection of such semantics from a space of possiblealternatives. To do so we put forward a model that integratesBayesian learning into the replicator-mutator dynamics com-monly used in evolutionary game theory. We argue this syn-thesis to provide a suitable and general model to analyze thedynamics involved in the use and transmission of language.Our results shed light on the semantics-pragmatics divide andshow how a learning bias in tandem with functional pressuremay prevent the lexicalization of pragmatic inferences.

A Computational Model of Perceptual Deficits in Medial Temporal Lobe Amnesia

Damage to the Medial Temporal Lobe (MTL) impairs declar- ative memory and perception. The Representational-Hierar- chical (RH) Account explains such impairments by assuming that MTL stores conjunctive representations of items and events, and that individuals with MTL damage must rely upon representations of simple visual features in posterior visual cortex. A recent study revealed a surprising anti-perceptual learning effect in MTL-damaged individuals: with exposure to a set of visual stimuli, discrimination performance worsened rather than improved. We expand the RH account to explain this paradox by assuming that visual discrimination is per- formed using a familiarity heuristic. Exposure to a set of highly similar stimuli entails repeated presentation of simple visual features, eventually rendering all feature representations equally (maximally) familiar and hence inutile for solving the task. Since the unique conjunctions represented in MTL do not occur repeatedly, healthy individuals are shielded from this perceptual interference. We simulate this mechanism with a neural network previously used to simulate recognition memory, thereby providing a model that accounts for both mnemonic and perceptual deficits caused by MTL damage us- ing a unified architecture and mechanism.

Linguistic input is tuned to children’s developmental level

Children rapidly learn a tremendous amount about languagedespite limitations imposed on them by their developing cog-nitive abilities. One possible explanation for this rapid learn-ing is that caregivers tune the language they produce tothese limitations, titrating the complexity of their speech todevelopmentally-appropriate levels. We test this hypothesis ina large-scale corpus analysis, measuring the contingency be-tween parents’ and children’s speech over the first 5 years.Our results support the linguistic tuning hypothesis, showinga high degree of mostly parent-led coordination early in de-velopment that decreases as children become more proficientlanguage learners and users.

The Plausible Impossible: Causal Constraints on Magical Reasoning

A common intuition, often captured in fiction, is that some impossible events (e.g., levitating a stone) are “more impossible” than others (e.g., levitating a feather). We investigated the source of this intuition, hypothesizing that graded notions of impossibility arise from explanatory considerations logically precluded by the violation at hand but still taken into account. Studies 1-2 involved college undergraduates (n = 192), and Study 3 involved preschool-aged children (n = 32). In Study 1, participants saw pairs of magical events (spells) that violated one of 18 causal principles—six physical, six biological, and six psychological—and were asked to indicate which spell would be more difficult to learn. Both spells violated the same causal principle but differed in their relation to a subsidiary principle. Participants’ judgments of spell difficulty honored the subsidiary principle, even when participants were given the option of judging the two spells equally difficult. Study 2 replicated the effects of Study 1 with Likert-type ratings, and Study 3 replicated those effects in children. Taken together, these findings suggest that events that defy causal explanation are interpreted in terms of explanatory considerations that hold in the absence of such violations.

Statistical learning bias predicts second-language reading efficiency

Statistical learning (SL) is increasingly invoked as a set ofgeneral-purpose mechanisms upon which language learning isbuilt during infancy and childhood. Here we investigated theextent to which SL is related to adult language processing. Inparticular, we asked whether SL proclivities towards relationsthat are more informative of English are related to efficiency inreading English sentences by native speakers of Korean. Wefound that individuals with a stronger statistical learningsensitivity showed a larger effect of conditional wordprobability on word reading times, indicating that they moreefficiently incorporated statistical regularities of the languageduring reading. In contrast, L2 English proficiency was relatedto overall reading speed but not to the use of statisticalregularities.

The Permeability of Fictional Worlds

Real people sometimes appear in fiction, for example,Napoleon in War and Peace. Readers may also believe that aperson who never actually appears in a novel couldpotentially appear there. In two experiments, we find evidencethat readers think that a real person could appear in specificnovels and physically interact with a character. This effect ismagnified when the person and character share spatial andtemporal elements of their setting.

The development of heuristics in children: Base-rate neglect and representativeness

This paper examines the development of therepresentativeness heuristic in early childhood. Using a novelparadigm, we investigated 3- to 6-year-old children’s abilityto use base-rate and individuating information in theirpredictive inferences. In Experiment 1, we presented childrenwith base-rate and individuating information separately to testtheir ability to use each independently. In Experiment 2, wepresented children with base-rate and individuatinginformation together. Two critical trial types were used, onein which the base-rate information and individuatinginformation pointed to the same response and one in whichthe base-rate and individuating information pointed toconflicting responses. Results suggest that children progressto adult-like heuristic-based responding at 6 years of age.

Combining Multiple Perspectives in Language Production: A Probabilistic Model

While speakers tailor referring expressions to the knowledgeof their addressees, they do so imperfectly. Our goal here is toprovide an explanation for this type of pattern by extending aprobabilistic model introduced to explain perspective-takingbehavior in comprehension. Using novel production data froma type of knowledge mismatch not previously investigated inproduction, we show that production patterns can also beexplained as arising from the probabilistic combination of thespeaker’s and the addressee’s perspectives. These resultsshow the applicability of the multiple-perspectives approachto language production, and to different types of knowledgemismatch between conversational partners.

Statistical Learning Ability Can Overcome the Negative Impact of Low Socioeconomic Status on Language Development

Statistical learning (SL) is believed to be a mechanism that enables successful language acquisition. Language acquisition in turn is heavily influenced by environmental factors such as socioeconomic status (SES). However, it is unknown to what extent SL abilities interact with SES in affecting language outcomes. To examine this potential interaction, we measured event-related potentials (ERPs) in 38 children aged 7-12 while performing a visual SL task consisting of a sequence of stimuli that contained covert statistical probabilities that predicted a target stimulus. Hierarchical regression results indicated that SL ability moderated the relationship between SES (average of both caregiver’s education level) and language scores (grammar, and marginally with receptive vocabulary). For children with high SL ability, SES had a weaker effect on language compared to children with low SL ability, suggesting that having good SL abilities could help ameliorate the disadvantages associated with being raised in a family with lower SES.

The Influence of Group Interaction on Creativity in Engineering Design

Group work is frequently part of idea generation, despite evidence that group interaction may reduce productivity during brainstorming sessions. Idea quantity is one aspect of creativity, but the originality of ideas generated is also important. In this paper, we examine how different aspects of group interaction, such as who makes the most contributions to an idea and the number of group members contribute to an idea, impact the originality of concepts generated by engineering students. We found that the most original concepts were produced when the concept originator was the top contributor to the design, and when the majority of group members contributed to the concept, particularly among senior students. These results are discussed in relation to previous work and suggestions are made for future research that assesses the interaction between design fixation and group processes.

There is more to gesture than meets the eye: Visual attention to gesture’s referents cannot account for itsfacilitative effects during math instruction

Teaching a new concept with gestures – hand movements thataccompany speech – facilitates learning above-and-beyondinstruction through speech alone (e.g., Singer & Goldin-Meadow, 2005). However, the mechanisms underlying thisphenomenon are still being explored. Here, we use eyetracking to explore one mechanism – gesture’s ability todirect visual attention. We examine how children allocatetheir visual attention during a mathematical equivalencelesson that either contains gesture or does not. We show thatgesture instruction improves posttest performance, andadditionally that gesture does change how children visuallyattend to instruction: children look more to the problem beingexplained, and less to the instructor. However lookingpatterns alone cannot explain gesture’s effect, as posttestperformance is not predicted by any of our looking-timemeasures. These findings suggest that gesture does guidevisual attention, but that attention alone cannot account for itsfacilitative learning effects.

Measuring and modeling distraction by self-referential processing in a complexworking memory span task

Two experiments using novel complex working memory spantasks were performed, both requiring the participants toremember a span of letters whilst being distracted by theprocessing of words. Word processing could either be self-referential (SRP) or not. In the first experiment recallperformance was compared between SRP and non-SRPconditions using the same words. In the second experiment,we compared SRP and non-SRP in two tasks equalized insemantic processing but using different words. In bothexperiments recall performance was significantly lower afterSRP compared to non-SRP, indicating that SRP has adisruptive effect on the recall task. A cognitive modelimplemented in PRIMs, using goal competition during SRP,interfering with rehearsal of letters, could account for theobserved experimental results. If SRP interferes withsubsequent tasks in this manner it should also interfere withtasks other than recall, such as SRP occurring in daily life.

Shakers and Maracas:Action-based Categorisation Choices in Triads Are Influenced by TaskInstructions

The forced-choice triad task has become increasinglypopular in use over recent years. While it is seen as beinga categorisation task (Lin & Murphy, 2001) variation intask instructions often leads to different results. Shipp,Vallée-Tourangeau, and Anthony (2014) used the triadtask to show that when participants are asked to choosean option that ‘goes best with the target’, they are morelikely to select the choice that shares an action relationwhen it also shares taxonomic information. Howeverusing the instruction to select the item that “goes best” isvague and might encourage a strategy other than acategorical decision. The present experiment used thesame triads as in Shipp et al. to test whether participantswould match items based on shared actions or sharedtaxonomic relations when given specific categorisationinstructions. The task instructions were manipulated sothat participants either selected the item that “goes best”,“goes best to form a category” or is “most similar” to thetarget. The results found instances where the instructionsof “goes best to form a category” led to a higherprobability that participants would select the actionchoices over the instructions of “goes best”. Howeverwhen participants were encouraged to use similarityoverall action choices were lower. Therefore the triadtask does encourage a natural categorisation strategy anddifferences in task instructions across research are aresult of the stimuli used.

Training Prospective Abilities through Conversation about the Extended Self

Prospection is an important cognitive achievement, and isrelated to uniquely human abilities such as planning, delay ofgratification, and goal attainment. While prospection developsrapidly during early childhood, little is known about themechanisms that support its development. Here we exploredwhether encouraging children to talk about their extendedselves (self outside the present context) boosts theirprospective abilities. Preschoolers (N = 81) participated in a5-minute interaction with an adult in which they were askedto talk about events in the near future, distant future, nearpast, or present. Compared with children discussing theirpresent and distant future, children asked to discuss events intheir near future or near past displayed better planning andprospective memory. Additionally, those two conditions weremost effective in eliciting self-projection (use of personalpronouns). Results suggest that experience communicatingabout the close-in-time, extended self contributes tochildren’s future-oriented thinking.

How people differ in syllogistic reasoning

Psychologists have studied syllogistic inferences for morethan a century, but no extant theory gives an adequate accountof them. Reasoners appear to reason using different strategies.A complete account of syllogisms must therefore explainthese strategies and the resulting differences from oneindividual to another in the patterns of conclusions that theydraw. We propose a dual-process theory that solves these twoproblems. It is based on the manipulation of mental models,i.e., iconic simulations of possibilities. We also propose a newway in which to analyze individual differences, whichdepends on implementing a stochastic computer program. Theprogram, mReasoner, generates an initial conclusion bybuilding and scanning a mental model. It can vary fourseparate factors in the process: the size of a model, itscontents, the propensity to consider alternative models, andthe propensity to revise its heuristic conclusions. The formertwo parameters control intuitive processes and the latter twocontrol deliberative processes. The theory accounts forindividual differences in an early study on syllogisms(Johnson-Laird & Steedman, 1978). The computational modelprovides an algorithmic account of the different processes onwhich three subsets of participants relied (Simulation 1). Italso simulates the performance of each individual participantin the study (Simulation 2). The theory and itsimplementation constitute the first robust account ofindividual differences in syllogistic reasoning.

Grounded Distributional Semantics for Abstract Words

Since Harnad (1990) pointed out the symbol grounding prob-lem, cognitive science research has demonstrated that ground-ing in perceptual or sensorimotor experience is crucial to lan-guage. Recent embodied cognition theories have argued thatlanguage is more important for grounding abstract than con-crete words; abstract words are grounded via language. Dis-tributional semantics has recently addressed the embodied na-ture of language and proposed multimodal semantic models.However, these models are not cognitively plausible becausethey do not address the recent embodiment view of abstractconcepts. Therefore, we propose a novel multimodal distribu-tional semantics in which abstract words are represented indi-rectly through grounded representations of their semanticallyrelated concrete words. A simulation experiment demonstratedthat the proposed model achieved better performance in com-puting the word similarity than other multimodal or text-baseddistributional models. This finding suggests that the indirectembodiment view is plausible and contributes to the improve-ment of multimodal distributional semantics.

Active Overhearing:Development in Preschoolers’ Skill at ‘Listening in’ to Naturalistic Overheard Speech

Overhearing can be seen as active learning, and overheardspeech provides an increasingly viable source of linguisticinput across development. This study extends previous re-sults showing learning from overhearing simplified, pedagogicspeech to a more ecologically valid context. Children learnmultiple words and facts corresponding to novel toys eitherthrough an overheard phone call or through direct instruction.Remarkably, 4.5–6-year-olds learned four new words equallywell in both conditions. Their performance on a set of six factswas even better, especially when taught directly. Analysis ofthe videos revealed that older children with high test accuracyboth looked toward the experimenter often, and tracked ob-jects as she discussed them. 3–4.5-year-olds only learned factsfrom overhearing, and exhibited greater varability in attention.These results suggest learning from overhearing is driven byattention to the indirect input, and may be a skill that under-goes substantial development during the preschool years.

Towards a Cognitively Realistic Representation of Word Associations

The ability to associate words is an important cognitive skill.In this study we investigate different methods for representingword associations in the brain, using the Remote AssociatesTest (RAT) as a task. We explore representations derived fromfree association norms and statistical n-gram data. Althoughn-gram representations yield better performance on the test, acloser match with the human performance is obtained with rep-resentations derived from free associations. We propose thatword association strengths derived from free associations playan important role in the process of RAT solving. Furthermore,we show that this model can be implemented in spiking neu-rons, and estimate the number of biologically realistic neuronsthat would suffice for an accurate representation.

Don’t Blink!Evaluating Training Paradigms for Overcoming the Attentional Blink

A lot of people show a decline in performance when they haveto report a second target stimulus in a stream of distractorstimuli. Curiously, this decline only happens when the secondtarget appears approximately 200-500ms after the first target.Recently, Choi, Chang, Shibata, Sasaki, and Watanabe (2012)have shown that a short, one-hour training can eliminate this“attentional blink”. Up to now, it is still unclear why thistraining works. In this paper, we have evaluated a range ofdifferent training paradigms to test several hypotheses aboutthe mechanism behind the reduction of the attentional blink.Our results show that none of these training paradigms havea large training effect when administered in isolation. Thetraining by Choi et al. (2012) outperforms them all. The mostlikely explanation for this effect are temporal expectationsrelative to the first target.

Allocation of attention during auditory word learning

The deployment of selective attention has been studied in depth as a mechanism of visual categorization for decades. However, little work has investigated how attentional mechanisms operate for non-visual domains, and many models of categorization tacitly presume domain-general attention use. In three experiments, we investigated whether learners deploy attention to novel auditory features when learning novel words in a similar fashion to the prevailing visual categorization findings. These studies yielded evidence of non-isomorphism, as selective attention in the auditory domain shows high context specificity, in contrast to the wide generalization of attention in the visual domain.

Examining Cardiac and Behavioral Responses in a Modality Dominance Task

The current study examined cardiac and behavioral responsesto changing auditory and visual information while usingmodified oddball tasks. When instructed to press the samebutton for auditory and visual oddballs, auditory dominancewas found with cross-modal presentation slowing downvisual response times and decreasing visual accuracy. Wheninstructed to make separate responses to auditory and visualoddballs, visual dominance was found with cross-modalpresentation slowing down response times and decreasingauditory accuracy. However, examination of cardiacresponses that were time-locked to stimulus onset show cross-modal facilitation effects, with discrimination of oddballs andstandards occurring earlier in the course of processing in thecross-modal condition than in the unimodal conditions. Thesefindings shed light on potential mechanisms underlyingmodality dominance effects and have implications on tasksthat require simultaneous processing of auditory and visualinformation.

From Words to Behaviour via Semantic Networks

The contents and structure of semantic networks have been the focus of much recent research, with major advances in the development of distributional models. In parallel, connectionist modeling has extended our knowledge of the processes engaged in semantic activation. However, these two lines of investigation have rarely brought together. Here, starting from a standard textual model of semantics, we allow activation to spread throughout its associated semantic network, as dictated by the patterns of semantic similarity between words. We find that the activation profile of the network, measured at various time points, can successfully account for response times in the lexical decision task, as well as for subjective concreteness and imageability ratings.

Evolution of polysemous word senses from metaphorical mappings

What forces have shaped the evolution of the lexicon? Lan-guages evolve under the pressure of having to communicatean unbounded set of ideas using a finite set of linguistic struc-tures. This suggests why the transmission of ideas should becompressed such that one word will develop multiple senses.Previous theory also suggests how a word might develop newsenses: Abstract concepts may be construed in terms of moreconcrete concepts. Here, we bring these two perspectives to-gether to examine metaphorical extensions of English wordmeanings over the past millennium, analyzing how sensesfrom a source domain are extended to new ones in a target do-main. Using empirical and computational methods, we foundthat metaphorical mappings are highly systematic and can beexplained in terms of a compact set of variables. Our workshows how metaphor can provide a cognitive device for com-pressing emerging ideas into an existing lexicon.

Using Violations of Fitts’ Law to Communicate during Joint Action

When people perform joint actions together, task knowledge is sometimes distributed asymmetrically such that one person has information that another person lacks. In such situations, interpersonal action coordination can be achieved if the knowledgeable person modulates basic parameters of her goal-directed actions in a way that provides relevant infor- mation to the less knowledgeable partner. We investigated whether systematic violations of predicted movement duration provide a sufficient basis for such communication. Results of a joint movement task show that knowledgeable partners spontaneously and systematically violated the pre- dictions of Fitts’ law in order to communicate if their partners could not see their movements. Unknowing partners had a benefit from these violations and more so if the violations provided a good signal-to-noise ratio. Together, our findings suggest that generating and perceiving systematic deviations from the predicted duration of a goal-directed action can enable non-conventionalized forms of communication during joint action.

Perceived Momentum Influences Responsibility Judgments

This work examines the extent to which people hold independent sequential events (e.g., players making correct/incorrect guesses) responsible for overall outcomes (e.g., the team winning/losing the game). Two types of events are found to garner the majority of responsibility for overall outcomes: (1) final events and (2) events that are perceived to disrupt momentum (e.g., an incorrect guess after a sequence of correct guesses). While previous research has shown that final events tend to be perceived as more responsible for overall outcomes, the current experiments are the first to document the role of perceived momentum on responsibility judgments. Specifically, we demonstrate that the effect is mediated by perceived momentum changes after the time of the event and moderated when exogenous factors (e.g., a delay between events) disrupt perceived momentum. We discuss how these findings relate to pivotality, the counterfactual simulation model, and the role of unexpectedness in responsibility judgments.

A computational investigation of the Sapir-Whorf hypothesis:The case of spatial relations

Investigations of the Sapir-Whorf hypothesis often ask whetherthere is a difference in the non-linguistic behavior of speak-ers of two languages, generally without modeling the underly-ing process. Such an approach leaves underexplored the rela-tive contributions of language and universal aspects of cogni-tion, and how those contributions differ across languages. Weexplore the naming and non-linguistic pile-sorting of spatialscenes across speakers of five languages via a computationalmodel grounded in an influential proposal: that language willaffect cognition when non-linguistic information is uncertain.We report two findings. First, native language plays a smallbut significant role in predicting spatial similarity judgmentsacross languages, consistent with earlier findings. Second, thesize of the native-language role varies systematically, such thatfiner-grained semantic systems appear to shape similarity judg-ments more than coarser-grained systems do. These findingscapture the tradeoff between language-specific and universalforces in cognition, and how that tradeoff varies across lan-guages.

Effects of Auditory Input on a Spatial Serial Response Time Task

The current study examined how relevant and irrelevantauditory stimuli affect the speed of responding to structuredvisual sequences. Participants were presented with a dot thatappeared in different locations on a touch screen monitor andthey were instructed to quickly touch the dot. Response timessped up over time, suggesting that participants learned thevisual sequences. Response times in Experiment 1 were slowerwhen the dot was paired with random sounds, suggesting thatirrelevant sounds slowed down visual processing/responding.Dots in Experiment 2 were paired with correlated sounds (bothauditory and visual information provided locationinformation). While the redundant intersensory informationdid not speed up response times, it did partially attenuateauditory interference. These findings have implications ontasks that require processing of simultaneously presentedauditory and visual information and provide evidence ofauditory interference and possibly dominance on a task thattypically favors the visual modality.

Memory for exemplars in category learning

Some argue that category learning is mediated by two com-peting learning systems: one explicit, one implicit (Ashby etal., 1998). These systems are hypothesised to be responsi-ble for learning rule-based and information-integration cate-gory structures respectively. However, little experimental workhas directly investigated whether people are conscious of cat-egory knowledge supposedly learned by the implicit system.Here we report one experiment that directly compared explicitrecognition memory for exemplars between these two categorystructures. Contrary to the predictions of the dual-systems ap-proach, we found preliminary evidence of superior exemplarmemory after information-integration category learning com-pared to rule-based learning. This result is consistent with thehypothesis that participants learn information-integration cate-gory structures by using complex rules.

Chinese and English speakers’ neural representations of word meaning offer adifferent picture of cross-language semantics than corpus and behavioral measures

Speakers of Chinese and English share decodable neuralsemantic representations, which can be elicited by words ineach language. We explore various, common models ofsemantic representation and their correspondences to eachother and to these neural representations. Despite very strongcross-language similarity in the neural data, we find that twoversions of a corpus-based semantic model do not show thesame strong correlation between languages. Behavior-basedmodels better approximate cross-language similarity, butthese models also fail to explain the similarities observed inthe neural data. Although none of the examined modelsexplain cross-language neural similarity, we explore how theymight provide additional information over and above cross-language neural similarity. We find that native speakers’ratings of noun-noun similarity and one of the corpus modelsdo further correlate with neural data after accounting forcross-language similarities.

Modeling developmental and linguistic relativity effects in color term acquisition

We model two patterns related to the acquisition of color termsin Russian and English: children produce overextension errorsfor some colors but not others, and language-specific distinc-tions affect color discrimination in a non-linguistic task. Botheffects, as well as a reasonable convergence with adult linguis-tic behavior, are shown by a Self-Organizing Map trained onnaturalistic input. We investigate the effect of different waysof representing colors, i.e., as perceptual features or in terms ofthe cognitive biases on categorization extracted from crosslin-guistic color naming data. We also consider the influence ofcolor term frequency. Our results suggest effects of all three ofterm frequency, cognitive biases, and perceptual features.

Animal, dog, or dalmatian? Level of abstraction in nominal referring expressions

Nominal reference is very flexible—the same object may becalled a dalmatian, a dog, or an animal when all are literallytrue. What accounts for the choices that speakers make in howthey refer to objects? The addition of modifiers (e.g. big dog)has been extensively explored in the literature, but fewer stud-ies have explored the choice of noun, including its level of ab-straction. We collected freely produced referring expressionsin a multi-player reference game experiment, where we ma-nipulated the object’s context. We find that utterance choiceis affected by the contextual informativeness of a description,its length and frequency, and the typicality of the object forthat description. Finally, we show how these factors naturallyenter into a formal model of production within the RationalSpeech-Acts framework, and that the resulting model predictsour quantitative production data.

Do classifier categories affect or reflect object concepts?

We conceptualize objects based on sensorimotor information gleaned from real-world experience. To what extent is conceptual information structured according to higher-level linguistic features? We investigate whether classifiers, a grammatical category, shape the conceptual representations of objects. In three experiments native Mandarin speakers (a classifier language) and native Dutch speakers (a language without classifiers) judged the similarity of a target object with four objects (presented as words or pictures). One object shared a classifier with the target, the other objects did not. Overall, the target object was judged as more similar to the object with the shared classifier than distractor objects in both Dutch and Mandarin speakers, with no difference between the two languages. Thus, even speakers of a non-classifier language are sensitive to object similarities underlying classifier systems, and using a classifier system does not exaggerate these similarities. This suggests that classifier systems reflect, rather than affect, conceptual structure.

Exploring the Cost Function in Color Perception and Memory:An Information-Theoretic Model of Categorical Effects in Color Matching

Recent evidence indicates that color categories can exert astrong influence over color matching in both perception andmemory. We explore this phenomenon by analyzing the costfunction for perceptual error. Our analysis is developed withinthe mathematical framework of rate–distortion theory. Ac-cording to our approach, the goal of perception is to minimizethe expected cost of error while subject to a strong constrainton the capacity of perceptual processing. We propose that thecost function in color perception is defined by the sum of twocomponents: a metric cost associated with the magnitude of er-ror in color space, and a cost associated with perceptual errorsthat cross color category boundaries. A computational modelembodying this assumption is shown to produce an excellent fitto empirical data. The results generally suggest that what ap-pear as ‘errors’ in working memory performance may reflectreasonable and systematic behaviors in the context of costs.

Abstraction in time: Finding hierarchical linguistic structure in a model ofrelational processing

Abstract mental representation is fundamental for humancognition. Forming such representations in time, especiallyfrom dynamic and noisy perceptual input, is a challenge forany processing modality, but perhaps none so acutely as forlanguage processing. We show that LISA (Hummel &Holyaok, 1997) and DORA (Doumas, Hummel, & Sandhofer,2008), models built to process and to learn structured (i.e.,symbolic) representations of conceptual properties andrelations from unstructured inputs, show oscillatory activationduring processing that is highly similar to the cortical activityelicited by the linguistic stimuli from Ding et al. (2016). Weargue, as Ding et al. (2016), that this activation reflectsformation of hierarchical linguistic representation, andfurthermore, that the kind of computational mechanisms inLISA/DORA (e.g., temporal binding by systematicasynchrony of firing) may underlie formation of abstractlinguistic representations in the human brain. It may be thisrepurposing that allowed for the generation or emergence ofhierarchical linguistic structure, and therefore, humanlanguage, from extant cognitive and neural systems. Weconclude that models of thinking and reasoning and models oflanguage processing must be integrated—not only forincreased plausiblity, but in order to advance both fieldstowards a larger integrative model of human cognition.

Modeling sampling duration in decisions from experience

Cognitive models of choice almost universally implicate se-quential evidence accumulation as a fundamental element ofthe mechanism by which preferences are formed. When to stop evidence accumulation is an important question that suchmodels do not currently try to answer. We present the first cog-nitive model that accurately predicts stopping decisions in in-dividual economic decisions-from-experience trials, using anonline learning model. Analysis of stopping decisions acrossthree different datasets reveals three useful predictors of sam-pling duration - relative evidence strength, how long it takesparticipants to see all rewards, and a novel indicator of con-vergence of an underlying learning process, which we call pre-dictive volatility. We quantify the relative strengths of thesefactors in predicting observers’ stopping points, finding thatpredictive volatility consistently dominates relative evidencestrength in stopping decisions.

Experience as a Free Parameter in the Cognitive Modeling of Language

To account for natural variability in cognitive processing, it is standard practice to optimize the parameters of a model to account for behavioral data. However, variability reflecting the information to which one has been exposed is usually ignored. Nevertheless, most language theories assign a large role to an individual’s experience with language. We present a new way to fit language-based behavioral data that combines simple learning and processing mechanisms using optimization of language materials. We demonstrate that benchmark fits on multiple linguistic tasks can be achieved using this method and will argue that one must account not only for the internal parameters of a model but also the external experience that people receive when theorizing about human behavior.

An Information-Processing Account of Representation Change:International Mathematical Olympiad Problems are Hard not only for Humans

In this paper, we present a new information-processing modelof math problem solving in which representation change the-ory can be implemented. Specifically, we divided the problemrepresentation process into two. One is to straightforwardlytranslate problem texts into formulas in a conservative exten-sion of Zermelo-Fraenkel’s set theory, and the other is to in-terpret the translated formulas in local mathematical theories.A ZF formula has several interpretations, and representationchange is thus implementable as a choice of an appropriate in-terpretation. Adopting the theory of real closed fields as an ex-ample of local theory and its quantifier elimination algorithmsas an approximate process of searching for solutions, we de-velop a prototype system. We use more than 400 problemsfrom three sources as benchmarks: exercise books, univer-sity entrance examination, and the International MathematicalOlympiad problems. Our experimental results suggest that ourmodel can serve as a basis of a quantitative study on represen-tation change in the sense that the performance of our proto-type system reflects difficulties of the problems quite precisely.

Inductive Ethics: A Bottom-Up Taxonomy of the Moral Domain

Moral Foundations Theory (MFT) posits that people moralize at least six distinct kinds of virtues. These virtues are divided into “individualizing” and “binding” virtues. Despite widespread enthusiasm for MFT, it is unknown how plausible it is as a model of people’s conceptualizations of the moral domain. In this research, we take a bottom-up approach to characterizing people’s conceptualization of the moral domain, and derive a taxonomy of morality that does not resemble MFT. We find that this model more accurately reflects people’s theories of morality than does MFT.

The Interaction of Memory and Attention in Novel Word Generalization:A Computational Investigation

People exhibit a tendency to generalize a novel noun to thebasic-level of a hierarchical taxonomy – a cognitively salientcategory such as “dog” – with the degree of generalization de-pending on the number and type of exemplars. Recently, achange in the presentation timing of exemplars has also beenshown to have an effect, surprisingly reversing the prior ob-served pattern of basic-level generalization. We explore theprecise mechanisms that could lead to such behavior by ex-tending a computational model of word learning and word gen-eralization to integrate cognitive processes of memory and at-tention. Our results show that the interaction of forgetting andattention to novelty, as well as sensitivity to both type and to-ken frequencies of exemplars, enables the model to replicatethe empirical results from different presentation timings. Ourresults reinforce the need to incorporate general cognitive pro-cesses within word learning models to better understand therange of observed behaviors in vocabulary acquisition.

Environmental Orientation Affects Emotional Expression Identification

Spatial metaphors for affective valence are common inEnglish, where up in space=happy/positive and down inspace=sad/negative. Past research suggests that thesemetaphors have some measure of psychological reality:people are faster to respond to valenced words and faceswhen they are presented in metaphor-congruent regions ofspace. Here we explore whether the orientation of a stimulus– rather than its position – is sufficient to elicit such spatial-valence congruency effects, and, if so, which spatial referenceframe(s) people use to represent this orientation. InExperiment 1, participants viewed images of happy and sadprofile faces in different orientations and had to identify theemotion depicted in each face. In Experiment 2, participantscompleted this task while lying down on their sides, therebydisassociating environmental and egocentric reference frames.Experiment 1 revealed a metaphor-congruent interactionbetween emotion and orientation, while Experiment 2revealed that this spatial-valence congruency effect was onlyreliable in the environmental frame of reference.

Testing the Tolerance Principle: Children form productive rules when it is morecomputationally efficient to do so

During language acquisition, children must learn when togeneralize a pattern – applying it broadly and to new words(‘add –ed’ in English) – and when to restrict generalization,storing the pattern only with specific lexical items. One effortto quantify the conditions for generalization, the TolerancePrinciple, has been shown to accurately predict children’sgeneralizations in dozens of corpus-based studies. Thisprinciple hypothesizes that a general rule will be formedwhen it is computationally more efficient than storing lexicalforms individually. It is formalized as: a rule R will generalizeif the number of exceptions does not exceed the number ofwords in the category N divided by the natural log of N(N/lnN). Here we test the principle in an artificial language of9 nonsense nouns. As predicted, children exposed to 5 regularforms and 4 exceptions generalized, applying the regular formto 100% of novel test words. Children exposed to 3 regularforms and 6 exceptions did not extend the rule, even thoughthe token frequency of the regular form was still high in thiscondition. The Tolerance Principle thus appears to capture abasic principle of generalization in rule formation.

Variability in category learning:The Effect of Context Change and Item Variation on Knowledge Generalization

We explore how context change and item variation duringnatural category learning influence memory and generalizationto new examples. Participants studied either images of the samebird or varied birds from each of several categories. Theseimages could be presented in a constant background color ordifferent background colors. During test, birds were presentedin only one of the studied background colors. Performance attest depended on the context overlap between study and test,with better performance when there was minimal contextchange during study. Also, contrary to previous findings, wefound that learners generalized better when items wererepeated during study and remembered old items better whenitems were varied during study. When there is a moderatedegree of context change, there is no benefit of repetition orvariation for either novel or old items. These results indicatethat context change and item variation have complementaryeffects on learning.

Performance Pressure and Comparison in Relational Category Learning

An important objective in higher-order cognition research isto understand how relational categories are acquired andapplied. Much of the research on relational category learninghas investigated the role of within-category comparisonopportunities in category acquisition and transfer – guided bypredictions from structure mapping theory that alignmentleads to highlighting and abstraction of shared relationalstructure (Gentner, 1983). Recent research has yielded awithin-category comparison advantage under the supervisedobservational learning mode (relative to twice as many single-item trials), but not under the supervised classification mode(Patterson & Kurtz, 2015). In the present study we investigatethe role that pressure to succeed at the training task – a criticaldifference between the two learning modes – plays in theapparent ineffectiveness of learning by comparison within theclassification mode. In a 2x2 between-subjects design wecrossed two levels of performance pressure (elevated andstandard) with two presentation formats (single-item andwithin-category pairs). The main findings are: (1) asignificant interaction showing a negative impact of increasedperformance pressure for single-item learners, but not forcomparison learners; and (2) a theoretically predicted, butempirically elusive effect of comparison over single-item inthe classification mode. We conclude that: (1) performancepressure exerts a deleterious effect on relational categorylearning (in accord with findings in the attribute categoryliterature) that opportunities to compare may compensate for;and (2) pressure to perform does not appear to underlielackluster comparison + classification performance (relativeto observational learning). Further, we offer new evidence onthe role that within-category comparison plays in relationalcategory learning.

Intermediate Judgments Inhibit Belief Updating: Zeno’s Paradox in Decision

Rational agents should update their beliefs in the light of newevidence. Equally, changes in belief should depend only onthe quality of the evidence, and not on factors such as the or-der in which the evidence is acquired, or whether intermedi-ate judgements are requested during evidence acquisition. Incontrast we show that requests for intermediate judgments caninhibit belief updating for real decision makers, which repre-sents a new type of decision making fallacy. This behaviour isparadoxical from the point of view of classical Bayesian mod-els, but we show that it is consistent with an a priori, parameterfree prediction of a cognitive model based on quantum theory.

Working memory encoding of events and their participants: a neural networkmodel with applications in sensorimotor processing and sentence generation

In this paper we present a model of how events and their partic-ipants are represented in working memory (WM). The model’scentral assumption is that events are experienced through se-quentially structured sensorimotor (SM) routines—as are theindividuals that participate in them. In the light of this assump-tion, we propose that events and individuals are stored in WMas prepared SM routines. This proposal allows a new mech-anism for binding representations of individuals to semanticroles such as AGENT and PATIENT. It also enables a novelaccount of how expectations about forthcoming events can in-fluence SM processing in real time as events are perceived.Finally, it supports an account of the interface between WMrepresentations and language.

What do you expect from an unfamiliar talker?

Speech perception is made much harder by variability betweentalkers. As a result, listeners need to adapt to each differenttalker’s particular acoustic cue distributions. Thinking of thisadaptation as a form of statistical inference, we explore the rolethat listeners’ prior expectations play in adapting to an unfa-miliar talker. Specifically, we test the hypothesis that listenerswill have a harder time adapting to talkers whose cue distribu-tions fall outside the range of normal variation across talkers.We also show that it is possible to infer listeners’ shared priorexpectations based on patterns of adaptation to different cuedistributions. This provides a potentially powerful tool for di-rectly probing listeners’ prior expectations about talkers thatdoes not rely on speech produced by many different talkers,which is costly to collect and annotate, and only indirectly re-lated to listeners’ subjective expectations.

Working Memory Affects Attention to Loss Value and Loss Frequency in Decision-Making under Uncertainty

Decision-making under uncertainty is pervasive. This worksought to understand the role of working memory (WM) in losssensitivity by utilizing two widely used tasks, the IowaGambling Task (IGT) and the Soochow Gambling Task (SGT),and manipulating WM with a dual-task paradigm. Wehypothesized that WM load would reduce attention to both lossvalue and frequency in the decision-making tasks. To betterdelineate the psychological processes underpinning choicebehavior, we developed an Expectancy-Frequency-Perseveration (EFP) model which parsimoniously capturesthree critical factors driving choices: expected value,frequency of gains and losses, and perseveration. Behavioraland computational modeling results indicate that WM loadcompromised performance in the IGT due to reduced attentionto loss value but enhanced performance in the SGT because ofdiminished attention to loss frequency. Our findings suggestthat WM heightens attention to losses, but that greater attentionis given to loss frequency than loss value.

Adapting Deep Network Features to Capture Psychological Representations

Deep neural networks have become increasingly successful atsolving classic perception problems such as object recognition,semantic segmentation, and scene understanding, often reach-ing or surpassing human-level accuracy. This success is duein part to the ability of DNNs to learn useful representationsof high-dimensional inputs, a problem that humans must alsosolve. We examine the relationship between the representa-tions learned by these networks and human psychological rep-resentations recovered from similarity judgments. We find thatdeep features learned in service of object classification accountfor a significant amount of the variance in human similarityjudgments for a set of animal images. However, these fea-tures do not capture some qualitative distinctions that are a keypart of human representations. To remedy this, we develop amethod for adapting deep features to align with human sim-ilarity judgments, resulting in image representations that canpotentially be used to extend the scope of psychological exper-iments.

Neurophysiological Effects of Negotiation Framing

In this study, we manipulated gain/loss framing context duringa simulated negotiation between a human user and a virtualagent. Task instructions placed users either in a loss or gainframed context, such that those in the loss frame had tominimize expenses whereas those in the gain frame had tomaximize profits. The virtual agent displayed facial emotionsso that we could also test how interpersonal emotions interactwith framing. Results suggest that individuals are moremotivated to minimize their losses than maximizing their gains.The loss frame caused individuals to demand more during thenegotiation, hence to minimize expenses. Neurophysiologicalresults suggest that cardiovascular patterns of challenge (i.e.,positive motivations) were present in the loss frame condition,most strongly when the virtual human smiled. We discuss theseresults in regards to Prospect Theory. This work also hasimplications for designing and rigorously evaluating human-like virtual agents.

Generalization of within-category feature correlations

Theoretical and empirical work in the field of classificationlearning is centered on a ‘reference point’ view, where learn-ers are thought to represent categories in terms of stored pointsin psychological space (e.g., prototypes, exemplars, clusters).Reference point representations fully specify how regions ofpsychological space are associated with class labels, but theydo not contain information about how features relate to oneanother (within- class or otherwise). We present a novel exper-iment suggesting human learners acquire knowledge of within-class feature correlations and use this knowledge during gen-eralization. Our methods conform strictly to the traditional ar-tificial classification learning paradigm, and our results can-not be explained by any prominent reference point model (i.e.,GCM, ALCOVE). An alternative to the reference point frame-work (DIVA) provides a strong account of the observed perfor-mance. We additionally describe preliminary work on a noveldiscriminative clustering model that also explains our results.

Deconstructing tomorrow: How children learn the semantics of time

Deictic time words (e.g., “tomorrow,” “yesterday”) refer totime periods relative to the present moment. While childrenproduce these words by age 2-3, they use them incorrectly forseveral more years. Here, as a case study in abstract wordlearning, we explored what children know about these wordsduring this delay. Specifically, we probed children’sknowledge of three aspects of meaning: deictic (past/future)status, sequential ordering (e.g., “tomorrow” is after“yesterday”), and remoteness from now. We asked 3- to 8-year-olds to place these words on a timeline extending fromthe past (left) to the future (right). Even 4-year-olds couldmeaningfully represent the words’ deictic status and order,and by 6, the majority displayed adult-like performance.Adult-like knowledge of remoteness, however, emergedindependently, after age 7. Thus, even while children usethese terms incorrectly, they are gradually constructing astructured semantic domain, including information about thedeictic, sequential, and metric relations among terms.

Spatial Interference and Individual Differences in Looking at Nothing for Verbal Memory

People tend to look at uninformative, blank locations inspace when retrieving information. This gaze behaviour,known as looking at nothing, is assumed to be driven by theuse of spatial indices associated with external information.We investigated whether people form spatial indices andlook at nothing when retrieving words from memory.Participants were simultaneously presented four words.During retrieval participants looked at the relevant, blanklocation, where the probe word had appeared previously,longer than the other blank locations. Additionally, wordpresentation was sometimes followed by a visual cue eitherco-located or not with the probe word. Valid cues functionedas visual reinforcement while invalid cues causedinterference. Finally, participants with better visuospatialmemory looked less at the relevant, blank location,suggesting a dynamic relationship between so-called“external” and “internal” memory. Overall findings suggestan automatic, instantaneous spatial indexing mechanism forwords and a dynamic looking at nothing behaviour.

Bayesian Pronoun Interpretation in Mandarin Chinese

Kehler and Rohde (2013) proposed a Bayesian theory of pro-noun interpretation where the influence of world knowledgeemerges as effects on the prior and the influence of informationstructure as effects on the likelihood: P(referent|pronoun) μP(pronoun|referent)P(referent). Here we present two experi-ments on Mandarin Chinese that allow us to test the generalityof the theory for a language with different syntactic-semanticassociations than English. Manipulations involving two dif-ferent classes of implicit-causality verbs and passive vs. activevoice confirmed key predictions of the Bayesian theory: effectsof these manipulations on the prior and likelihood in produc-tion were consistently reflected in pronoun interpretation pref-erences. Quantitative analysis shows that the Bayesian modelis the best fit for Mandarin compared to two competing anal-yses. These results lend both qualitative and quantitative sup-port to a cross linguistically general Bayesian theory of pro-noun interpretation.

Leveling the Field: Talking Levels in Cognitive Science

Talk of levels is everywhere in cognitive science. Whether it isin terms of adjudicating longstanding debates or motivatingfoundational concepts, one cannot go far without hearingabout the need to talk at different ‘levels’. Yet in spite of itswidespread application and use, the concept of levels hasreceived little sustained attention within cognitive science.This paper provides an analysis of the various ways the notionof levels has been deployed within cognitive science. Thepaper begins by introducing and motivating discussion viafour representative accounts of levels. It then turns to outliningand relating the four accounts using two dimensions ofcomparison. The result is the creation of a conceptualframework that maps the logical space of levels talk, whichoffers an important step toward making sense of levels talkwithin cognitive science

Know Your Enemy: Applying Cognitive Modeling in Security Domain

Game Theory -based decision aids have been successfully em-ployed in real-world policing, anti-terrorism, and wildlife con-servation efforts (Tambe, Jiang, An, & Jain, 2013). Cognitivemodeling, in concert with model tracing and dynamic parame-ter fitting techniques, may be used to improve the performanceof such decision aids by predicting individual attacker behav-ior in repeated security games. We present three simulations,showing that (1) cognitive modeling can aid in greatly improv-ing decision-aid performance in the security domain; and (2)despite the fact that individual attackers will differ in initialpreferences and in how they learn, model parameters can beadjusted dynamically to make useful predictions for each at-tacker.

Probability Prediction in Children with ASD

Individuals with Autism Spectrum Disorder (ASD) often struggle with making inductive generalizations. Yet for typically developing children, the capacity to make such generalizations is a hallmark of human learning. This ability requires some understanding of “intuitive statistics” (i.e., the understanding that there is a relationship between samples and populations), which have been previously demonstrated to emerge early on in infancy. We hypothesized that the challenges with inductive generalization among the ASD population may have its roots in weaknesses in probabilistic reasoning. In the current study, we gave children with ASD a probability prediction task adapted from the method used with infants in Teglas et al. (2007), and our results over two experiments with two groups (one from the U.S. and one from Singapore) suggest that compared with typically developing children, children with autism may have difficulties in engaging in probabilistic reason

Left-right mental timeline is robust to visuospatial and verbal interference

We test the robustness of American college students’ mentaltimeline to dual tasks that have interfered with spatial andverbal reasoning in prior work. We focus on the left-right axisfor representing sequences of events. We test Americancollege students, who read from left to right. We test forautomatic space-time mappings using two established space-time association tasks. We find that their tendency toassociate earlier events with the left side of space and laterevents with the right remains under conditions of visuospatialand verbal interference. We find this both when participantsmade time judgments about linguistic and non-linguisticstimuli. We discuss the relationship between these results andthose obtained for mental timelines that result from learningnew metaphors in language (Hendricks & Boroditsky, 2015),and the effects of the same interference tasks on number tasks(mental number-line and counting; van Dijck et al., 2009;Frank et al., 2012).

A speed-accuracy trade-off in children’s processing of scalar implicatures

Scalar implicatures—inferences from a weak description (“Iate some of the cookies”) that a stronger alternative is true(“I didn’t eat all”)—are paradigm cases of pragmatic infer-ence. Children’s trouble with scalar implicatures is thus animportant puzzle for theories of pragmatic development, giventheir communicative competence in other domains. Previousresearch has suggested that access to alternatives might be key.Here, we explore children’s reaction times in a new paradigmfor measuring scalar implicature processing. Alongside fail-ures on scalar implicatures with “some,” we replicate previ-ous reports of failures with “none,” and find evidence of aspeed-accuracy trade-off for both quantifiers. Motivated bythese findings, we explore the relationship between accuracyand reaction time with a Drift Diffusion Model. We find evi-dence consistent with the hypothesis that preschoolers lack ac-cess to the alternatives for scalar implicature computation, al-though this set of alternatives may be broader than previouslyassumed.

Systematic feature variation underlies adults’ and children’s use of in and on

The spatial prepositions in and on apply to a wide range ofcontainment and support relations, making exhaustivedefinitions difficult. Theories differ in whether they endorsegeometric or functional properties and how these properties arerelated to meaning and use. This study directly examines theroles of geometric and functional information in adults’ andchildren’s use of in and on by developing a large sample ofrelations situated within a small gradable geometric andfunctional feature space. We propose that variation in featuresacross items is systematically related to the use of in and onand demonstrate that feature-language relationships changeacross development: adults’ expression use is sensitive to bothgeometric and functional features, while children’s use variesonly according to geometric features.

Modeling Triage Decision Making

With the ever increasing amount of information available, the ability to prioritize the most relevant items for full processing is increasingly necessary to maintain expertise in a domain. As a result, accurate triage decisions--initial decisions about the relevance of a given article, book, or talk in order to determine whether to pursue that information further--are very important. In the present paper, we present a model of triage decision making that includes both an information search component to determine reading strategy and a decision making component to make the final decision. We apply the model to human relevance ratings as well as binary decisions of relevance for a set of emails.

The mismeasurement of mind:How neuropsychological testing creates a false picture of cognitive aging

Age-related declines in scores on neuropsychological tests arewidely believed to reveal that human cognitive capacitiesdecline across the lifespan. In a computational simulation, weshow how the behavioral patterns observed in PairedAssociate Learning (PAL), a particularly sensitive measure ofage-related performance change (Rabbitt & Lowe, 2000), arepredicted by the models used to formalize associative learningprocesses in other areas of behavioral and neuroscientificresearch. The simulation further predicts that manipulatinglanguage exposure will reproduce the experience-relatedperformance differences erroneously attributed to age-relateddecline in age-matched adults. Consistent with this, olderbilinguals outperformed native speakers in a German PALtest, an advantage that increased with age. These analyses andresults show that age-related PAL performance changesreflect the predictable effects of learning on the associabilityof test items, and indicate that failing to control for theseeffects is distorting our understanding of cognitive and braindevelopment in adulthood.

When are representations of causal events quantum versus classical?

Throughout our lives, we are faced with a variety of causalreasoning problems. Arguably, the most successful models ofcausal reasoning, Causal Graphical Models (CGMs), performwell in some situations, but there is considerable variation inhow well they are able to account for data, both across scenar-ios and between individuals. We propose a model of causalreasoning based on quantum probability (QP) theory that ac-counts for behavior in situations where CGMs fail. WhetherQP or classical models are appropriate depends on the repre-sentation of events constructed by the reasoner. We describean experiment that suggests the representation of events canchange with experience to become more classical, and that therepresentation constructed can vary between individuals, in away that correlates with a simple measure of cognitive ability,The Cognitive Reflection Task.

A model of conditional probability judgment

A standard view in cognitive psychology is that people esti-mate probabilities using heuristics that do not follow proba-bility theory. We describe a model of probability estimationwhere people do follow probability theory in estimation, butare subject to random error or noise. This model predicts thatpeople’s conditional probability estimates will agree closelywith probability theory for certain noise-cancelling expres-sions, but deviate from probability theory for other expres-sions. We describe an experiment which strongly confirmsthese predictions, suggesting that people estimate conditionalprobabilities in a way that follows standard probability theory,but is subject to the biasing effects of random noise.

When does passive learning improve the effectiveness of active learning?

Much of what we learn comes from a mix of information thatwe select (active) and information that we receive (passive).But which type of training is better for different kinds of learn-ing problems? Here, we explore this question by comparingdifferent sequences of active/passive training in an abstractconcept learning task. First, we replicate the active learningadvantage from Markant & Gureckis (2014) (Experiments 1aand 1b). Then, we provide a test of whether experiencing ac-tive learning first or passive learning first improves the effec-tiveness of concept learning (Experiment 2). Across both ex-periments, active training led to better learning of the targetconcept, but “passive-first” learners were more accurate than“active-first” learners and more efficient than “active-only”learners. These findings broaden our understanding of whendifferent sequences of active/passive learning are more effec-tive, suggesting that for certain problems active explorationcan be enhanced with prior passive experience.

Balancing Structural and Temporal Constraints in Multitasking Contexts

Recent research has shown that when people multitask, boththe subtask structure and the temporal constraints of thecomponent tasks strongly influence people’s task-switchingbehavior. In this paper, we propose an integrated theoreticalaccount and associated computational model that aims toquantify how people balance structural and temporalconstraints in everyday multitasking. We validate the theoryusing data from an empirical study in which drivers performeda visual-search task while navigating a driving environment.Through examination of illustrative protocols from the modeland human drivers as well as the overall fit on the aggregateglance data, we explore the implications of the theory andmodel for time-critical multitasking domains.

Do additional features help or harm during category learning?An exploration of the curse of dimensionality in human learners

How does the number of features impact category learning?One view suggests that additional features creates a “curse ofdimensionality” - where having more features causes the sizeof the search space to grow so quickly that discovering goodclassification rules becomes increasingly challenging. The op-posing view suggests that additional features provide a wealthof additional information which learners should be able to useto improve their classification performance. Previous researchexploring this issue appears to have produced conflicting re-sults: some find that learning improves with additional features(Hoffman & Murphy, 2006) while others find that it does not(Minda & Smith, 2001; Edgell et al., 1996). Here we inves-tigate the possibility that category structure may explain thisapparent discrepancy – that more features are useful in cate-gories with family resemblance structure, but are not (and mayeven be harmful) in more rule-based categories. We find whilethe impact of having many features does indeed depend on cat-egory structure, the results can be explained by a single unifiedmodel: one that attends to a single feature on any given trialand uses information learned from that particular feature tomake classification judgments.

Desirable difficulties in the development of active inquiry skills

This study explores developmental changes in the ability toask informative questions. We hypothesized an intrinsic linkbetween the ability to update beliefs in light of evidence andthe ability to ask informative questions. Four- to ten-year-oldchildren played an iPad game asking them to identify a hiddenbug. Learners could either ask about individual bugs, or makea series of feature queries (e.g., “Does the hidden bug haveantenna?”) that could more efficiently narrow the hypothesisspace. Critically the task display either helped children inte-grate evidence with the hypothesis space or required them toperform this operation themselves. Although we found thathelping children update their beliefs improved some aspects oftheir active inquiry behavior, children required to update theirown beliefs asked questions that were more context-sensitiveand thus informative. The results show how making a taskmore difficult may actually improve children’s active inquiryskills, thus illustrating a type of desirable difficulty.

Linguistic Signatures of Cognitive Processes during Writing

The relationship between working memory capacity andwriting ability was examined via a linguistic analysis ofstudent essays. Undergraduate students (n = 108) wrotetimed, prompt-based essays and completed a battery ofcognitive assessments. The surface- and discourse-levellinguistic features of students’ essays were then analyzedusing natural language processing tools. The results indicatedthat WM capacity was related to surface-level, but notdiscourse-level features of student essays. Additionally, theresults suggest that these relationships were attenuated forstudents with high inferencing skills, as opposed to those withlower inferencing skills

Statistical Learning of Prosodic Patterns and Reversal of Perceptual Cues forSentence Prominence

Recent work has proposed that prominence perception inspeech could be driven by predictability of prosodic patterns,connecting prominence perception to the concept of statisticallearning. In the present study, we tested the predictabilityhypothesis by conducting a listening test where subjects werefirst exposed to a 5-minute stream of sentences with a certainproportion of sentence-final words having either a falling orrising pitch trajectory. After the exposure stage, subjects wereasked to grade prominence in a set of novel sentences withsimilar pitch patterns. The results show that the subjects weresignificantly more likely to perceive words with low-probability pitch trajectories as prominent independently ofthe direction of the pitch change. This suggests that evenshort exposure to prosodic patterns with a certain statisticalstructure can induce changes in prominence perception,supporting the connection between prominence perceptionand attentional orientation towards low-probability events inan otherwise predictable context.

Integrating identification and perception: A case study of familiar and unfamiliarface processing

We are very familiar with certain objects; we can quickly rec-ognize our cars, friends and collaborators despite heavy occlu-sion, unusual lighting, or extreme viewing angles. We can alsodetermine if two very different views of a stranger are indeedof the same person. How can we recognize familiar objectsquickly, while performing deliberate, perceptual inference onunfamiliar objects? We describe a model combining an iden-tity classification network for familiar faces with an analysis bysynthesis approach for unfamiliar faces to make rich inferencesabout any observed face. We additionally develop an onlinenon-parametric clustering algorithm for recognition of repeat-edly experienced unfamiliar faces, and show how new facescan become familiar by being consolidated into the identityrecognition network. Finally, we show that this model predictshuman behavior in viewpoint generalization and identity clus-tering tasks, and predicts processing time differences betweenfamiliar and unfamiliar faces.

On the Link between Fact Learning and General Cognitive Ability

Adaptive fact learning systems have been developed to makeoptimal use of testing and spacing effects by taking intoaccount individual differences in learning efficiency.Measures derived from these systems, capturing theindividual differences, predict later performance in similarand different fact learning tasks. Additionally, there is a richbody of literature showing that individual differences ingeneral cognitive ability or working memory capacity canpredict scores on achievement tests. If these measures alsoinfluence fact learning, incorporating them might furtherenhance adaptive systems. However, here we provideevidence that performance during fact learning is neitherrelated to working memory capacity nor general cognitiveability. This means that the individual differences captured byour adaptive learning system encapsulate characteristics oflearners that are independent of their general cognitive ability.Consequently, adaptive learning methods should focusprimarily on memory-related processes.

The paradox of relational development: Could language learning be (temporarily) harmful?

Recent studies report a striking decline in children’s ability to notice same-different relations around age 3 (Walker et al., 2015). We propose that such a decline results from an object focus related to children’s avid noun-learning. To test this, we examine children’s performance on a classic relational task – the relational match-to-sample task (RMTS). Prior work has shown that 4-year-olds can pass this task (Christie & Gentner, 2014). However, if nominal language induces an object focus, their performance should be disrupted by a noun-labeling pretask. In two experiments, 4-year-olds either labeled objects or actions in a naming pretask. Then they completed the RMTS task. Consistent with the noun-focus explanation, the object-naming group failed the RMTS task, whereas the action-naming group and a control group both succeeded. This suggests that nominal language can lead to an object focus, and that this could explain the temporary decline in children’s relational processing.

Linguistic Priming and Learning Adjacent and Non-Adjacent Dependencies in Serial Reaction Time Tasks

Although syntactic priming is well studied and commonly assumed to involve implicit learning, the mechanisms behind this phenomenon are still under debate. We tested whether implicit learning of adjacent and non-adjacent sequences occurs in a non-linguistic, finger sequence task (Serial Reaction Time task), and if so, whether these implicitly-learned dependencies can cause syntactic priming in the linguistic domain. We followed the logic that exposure to statistical patterns in the SRT task may influence language users’ relative clause (RC) attachment biases, and trained participants on SRT sequences with adjacent or non-adjacent dependencies. Participants then wrote completions to relative clause fragments in a situation where they could opt for adjacent or non-adjacent linguistic structures. Participants successfully learned the adjacent and non-adjacent dependency implicitly during the SRT task, but, strikingly, their RC continuations did not exhibit priming effects. Implications for theories of syntactic priming and its relations to implicit learning are discussed.

Modeling the Visual Word Form Area Using a Deep Convolutional NeuralNetwork

The visual word form area (VWFA) is a region of the cortex lo-cated in the left fusiform gyrus, that appears to be a waystationin the reading pathway. The discovery of the VWFA occurredin the late twentieth century with the advancement of func-tional magnetic resonance imaging (fMRI). Since then, therehas been an increasing number of neuroimaging studies to un-derstand the VWFA, and there are disagreements as to its prop-erties. One such disagreement is regarding whether or not theVWFA is more selective for real words over pseudowords1. Arecent study using fMRI adaptation (Glezer, et al., 2009) pro-vided evidence that neurons in the VWFA are selectively tunedto real words. This contradicts the hypothesis that the VWFAis tuned to the sublexical structure of visual words, and there-fore has no preference for real words over pseudowords. Inthis paper, we develop a realistic model of the VWFA by train-ing a deep convolutional neural network to map printed wordsto their labels. The network is able to achieve an accuracy of98.5% on the test set. We then analyze this network to see ifit can account for the data Glezer et al. found for words andpseudowords, and find that it does.

Think Fast! Mental-state Language is Related to the Speed of False-belief Reasoning in Adulthood

When tested appropriately, infants appear to demonstrate false-belief understanding in the first year of life. Some have argued that this is inconsistent with the well-established relationship between social experience and preschoolers’ false-belief performance. We argue that these two sets of findings are not inconsistent because the ability to attribute false beliefs to others is necessary but not sufficient for false- belief performance, and we propose several ways that one social factor, hearing and using mental-state language, might relate to false-belief performance throughout the lifespan. We tested this account by examining the relationship between adults’ use of mental-state language and their false-belief understanding. Participants’ use of mental-state language was related to how quickly they could accurately predict the behavior of agents on the basis of desires and beliefs. These findings provide the first evidence that mental-state talk and false-belief performance are related into adulthood.

Simple Trees in Complex Forests: Growing Take The Best by Approximate Bayesian Computation

How can heuristic strategies emerge from smaller build-ing blocks? We propose Approximate Bayesian Com-putation (ABC) as a computational solution to thisproblem. As a first proof of concept, we demonstratehow a heuristic decision strategy such as Take The Best(TTB) can be learned from smaller, probabilisticallyupdated building blocks. Based on a self-reinforcingsampling scheme, different building blocks are com-bined and, over time, tree-like non-compensatory heuris-tics emerge. This new algorithm, coined ApproximatelyBayesian Computed Take The Best (ABC-TTB), is ableto recover data that was generated by TTB, leads tosensible inferences about cue importance and cue direc-tions, can outperform traditional TTB, and allows totrade-off performance and computational effort explic-itly.

Extraction of Event Roles From Visual Scenes is Rapid, Automatic, and Interacts with Higher-Level Visual Processing

A crucial component of event recognition is understanding the roles that people and objects take: did the boy hit the girl, or did the girl hit the boy? We often make these categorizations from visual input, but even when our attention is otherwise occupied, do we automatically analyze the world in terms of event structure? In two experiments, participants made speeded gender judgments for a continuous sequence of male-female interaction scenes. Even though gender was orthogonal to event roles (whether the Agent was male or Female, or vice- versa), a switching cost was observed when the target character’s role reversed from trial to trial, regardless of whether the actors, events, or side of the target character differed. Crucially, this effect held even when nothing in the task required attention to the relationship between actors. Our results suggest that extraction of event structure in visual scenes is a rapid and automatic process.

A 3D shape inference model matches human visual object similarity judgmentsbetter than deep convolutional neural networks

In the past few years, deep convolutional neural networks(CNNs) trained on large image data sets have shown impres-sive visual object recognition performances. Consequently,these models have attracted the attention of the cognitive sci-ence community. Recent studies comparing CNNs with neuraldata from cortical area IT suggest that CNNs may—in addi-tion to providing good engineering solutions—provide goodmodels of biological visual systems. Here, we report evidencethat CNNs are, in fact, not good models of human visual per-ception. We show that a 3D shape inference model explainshuman performance on an object shape similarity task betterthan CNNs. We argue that deep neural networks trained onlarge amounts of image data to maximize object recognitionperformance do not provide adequate models of human vision.

Cognitive Strategies in HCI and Their Implications on User Error

Human error while performing well-learned tasks on a com-puter is an infrequent, but pervasive problem. Such errors areoften attributed to memory deficits, such as loss of activation orinterference with other tasks (Altmann & Trafton, 2002). Weare arguing that this view neglects the role of the environment.As embodied beings, humans make extensive use of externalcues during the planning and execution of tasks. In this paper,we study how the visual interaction with a computer interfaceis linked to user errors. Gaze recordings confirm our hypoth-esis that the use of the environment increases when memorybecomes weak. An existing cognitive model of sequential ac-tion and procedural error (Halbrügge, Quade, & Engelbrecht,2015) is extended to account for the observed gaze behavior.

Connectionist Semantic Systematicity in Language Production

A novel connectionist model of sentence production is pre-sented, which employs rich situation model representationsoriginally proposed for modeling systematicity in comprehen-sion (Frank, Haselager, & van Rooij, 2009). The high overallperformance of our model demonstrates that such represen-tations are not only suitable for comprehension, but also formodeling language production. Further, the model is able toproduce novel encodings (active vs. passive) for a particularsemantics, as well as generate such encodings for previouslyunseen situations, thus demonstrating both syntactic and se-mantic systematicity. Our results provide yet further evidencethat such connectionist approaches can achieve systematicity,in production as well as comprehension.

Grammatical Bracketing Determines Learning of Non-adjacent Dependencies

Grammatical dependencies often involve elements that are not adjacent. However, most experiments in which non-adjacent dependencies are learned bracketed the dependent material with pauses, which is not how dependencies appear in natural language. Here we report successful learning of embedded NAD without pause bracketing. Instead, we induce learners to compute structure in an artificial language by entraining them through processing English sentences. We also found that learning becomes difficult when grammatical entrainment causes learners to compute boundaries that are misaligned with NAD structures. In sum, we demonstrated that grammatical entrainment can induce boundaries that can carry over to reveal structures in novel language materials, and this effect can be used to induce learning of non-adjacent dependencies.

Natural science: Active learning in dynamic physical microworlds

In this paper, we bring together research on active learningand intuitive physics to explore how people learn about“microworlds” with continuous spatiotemporal dynamics.Participants interacted with objects in simple two-dimensionalworlds governed by a physics simulator, with the goal ofidentifying latent physical properties such as mass, and forcesof attraction or repulsion. We find an advantage for activelearners over passive and yoked controls. Active participantsspontaneously performed several kinds of “natural exper-iments” which reveal the objects’ properties with varyingsuccess. While yoked participants’ judgments were affectedby the quality of the active participant they observed, they didnot share the learning advantage, performing no better thanpassive controls overall. We discuss possible explanations forthe divergence between active and yoked learners, and outlinefurther steps to categorize and explore active learning in thewild.

Inattentional Blindness in a Coupled Perceptual–Cognitive System

Attention is thought to be a part of a larger cluster of mecha-nisms that serve to orient a cognitive system, to filter contentswith respect to their task relevance, and to devote more com-putation to certain options than to others. All these activitiesproceed under the plausible assumption that not all informationcan be or ought to be processed for a system to satisfice in anever changing world. In this paper, we describe an attention-centric cognitive system called ARCADIA that demonstratesthe orienting, filtering, and resource-skewing functions men-tioned above. The demonstration involves maintaining focuson cognitive tasks in a dynamic environment. While ARCA-DIA carries out a task, limits on its attentional capacity resultin “inattentional blindness” under circumstances analogous tothose where people fail to perceive otherwise salient stimuli.

Recursive belief manipulation and second-order false-beliefs

The literature on first-order false-belief is extensive, but less isknown about the second-order case. The attainment of second-order false-belief mastery seems to mark a cognitively signifi-cant stage, but what is its status? Is it an example of complex-ity only development, or does it indicate that a more funda-mental conceptual change has taken place? In this paper weextend Bra ̈uner’s hybrid-logical analysis of first-order false-belief tasks (Bra ̈uner, 2014, 2015) to the second-order case,and argue that our analysis supports a version of the concep-tual change position.

Syntactic Flexibility in the Noun: Evidence from Picture Naming

Does syntactic information affect the production of bare nouns?Research into this issue has explored word-specific features (e.g.,gender). However, word-independent syntactic distributions mayalso play a role. For example, studies of word recognition haveuncovered strong effects of the diversity of a word's syntacticdistribution – its syntactic flexibility – on response times in thelexical decision paradigm. By contrast, studies of sentenceproduction have produced strong but conflicted effects of syntacticflexibility. We propose that syntactic flexibility also affectsproduction of individual words. We reanalyze a database ofpreviously collected timed picture naming data using two novelmeasures of syntactic flexibility, one based on the relationsstemming from the noun, and one based on the relations extendingto the noun. Our results show that nouns that project a diversearray of structures are produced faster, and those that are integratedinto a diverse array of structures are produced slower.

Alien species and alienable traits: An artificial language game investigating thespread of cultural variants between antagonistic groups

The spread of cultural variants, such as dress or speech pat-terns, may be promoted or inhibited by different types of bias.In model-based bias, variants are differentially adopted accord-ing to characteristics of individuals exhibiting them. A surpris-ing case of cross-group adoption comes from sociolinguisticfieldwork in which White speakers were observed exhibiting afeature of African-American Vernacular English, in spite of ex-pressing aggressively negative attitudes towards their African-American neighbors. A likely explanation for this is that thefeature in question had become dissociated for these speakersfrom the inalienable trait Blackness, but had retained associa-tions with the more alienable trait of being “street” or tough.We tested this by conducting an artificial-language experimentin which groups of four participants played a computer gamethat involved typing instant messages to each other, tradingresources, and fighting. Participants were assigned to one oftwo mutually antagonistic “alien species” (weaker Wiwos andtougher Burls) and learned an alien language with two species-specific dialects. In one condition, the Wiwos were told thatthat Burl dialect was mainly used by Burls; in the other con-dition they were told it was mainly used by “tougher aliens”.Burl variants were significantly more likely to be used by Wi-wos in the latter condition than in the former, even though theywere associated with tougher aliens in both conditions. Thissuggests that cultural variants linked to more alienable traitsare more likely to be adopted than those linked to inalienableones, even if the practical implications of the two traits are verysimilar.

Inferring priors in compositional cognitive models

We apply Bayesian data analysis to a structured cognitivemodel in order to determine the priors that support humangeneralizations in a simple concept learning task. We mod-eled 250,000 ratings in a “number game” experiment wheresubjects took examples of a numbers produced by a program(e.g. 4, 16, 32) and rated how likely other numbers (e.g. 8vs. 9) would be to be generated. This paper develops a dataanalysis technique for a family of compositional “Language ofThought” (LOT) models which permits discovery of subjects’prior probability of mental operations (e.g. addition, multi-plication, etc.) in this domain. Our results reveal high cor-relations between model mean predictions and subject gener-alizations, but with some qualitative mismatch for a stronglycompositional prior.

Which is in front of Chinese people: Past or Future?

Recent research shows that Chinese, when they gesture about time, tend to put the past “ahead” and the future “behind”. Do they think of time in the way as suggested by their gestures? In this study we investigate whether Chinese people explicitly have such past-in-front mappings. In experiment 1 we show that when time conceptions are constructed with neutral wording (without spatial metaphors), Chinese people are more likely to have a past- in-front-mapping than Spaniards. This could be due to cultural differences in temporal focus of attention, in that Chinese people are more past-oriented than Europeans. However, additional experiments (2 & 3) show that, independent of culture, Chinese people’s past-in-front mapping is sensitive to the wording of sagittal spatial metaphors. In comparison to a neutral condition, they have more past-in-front mappings when time conceptions are constructed with past-in-front spatial metaphors (“front day”, means the day before yesterday), whereas fewer past- in-front mappings are constructed with future-in-front metaphors. There thus appear to be both long-term effects of cultural attitudes on the spatialization of time, and also immediate effects of the space-time metaphors used to probe people’s mental representations.

A performance model for early word learning

The emergence of language around a child’s first birthday isone of the greatest transformations in human development.Does this transition require a fundamental shift in the child’sknowledge or beliefs, or could it instead be attributable to moregradual changes in processing abilities? We present a simplemodel of cognitive performance that supports the second con-clusion. The premise of this model is that any cognitive op-eration requires multiple steps, each of which require sometime to complete and have some probability of failure. Weuse meta-analysis to estimate these parameters for two com-ponents of simple ostensive word learning: social cue use andword recognition. When combined in our model, these esti-mates suggest that learning should be very difficult for chil-dren younger than around a year, especially with gaze alone.This model takes a first step towards quantifying performancelimitations for cognitive development and may be broadly ap-plicable to other developmental changes.

Cognitive biases and social coordination in the emergence of temporal language

Humans spatialize time. This occurs within individual mindsand also in larger, shared cultural systems like language.Understanding the origins of space-time mappings requiresanalyses at multiple levels, from initial individual biases tocultural evolution. Here we present a laboratory experimentthat simulates the cultural emergence of space-timemappings. Dyads had to communicate about temporalconcepts using only a novel, spatial signaling device. Overthe course of their interactions, participants rapidlyestablished semiotic systems that mapped systematicallybetween time and space. These semiotic systems exhibited anumber of similarities, but also striking idiosyncrasies. Byforegrounding the interaction of mechanisms that operate ondisparate timescales, laboratory experiments can shed light onthe commonalities and variety found in space-time mappingsin languages around the world.

Transfer of Cognitive Skills in Developmental Tasks

The main question we try to answer in this paper is whetherstage-like progression in cognitive development can beexplained by transfer of cognitive skill among tasks. Wefocus on the following question: To what extent does trainingon one task improve the performance on another task? Thetasks are Piaget’s (1959) Balance Scale Task and NumberConservation Task, and a task that we will call the Une-Sentence Task, which is taken from Karmiloff-Smith's (1979)experiment on the acquisition of determiners in French. Were-implemented already existing models within theframework of the PRIMs cognitive architecture (Taatgen,2013). Each task was subdivided in certain stages related tothe complexity of the problem-solving strategies. We showthat mastery of a certain stage of a problem becomes easier ifa higher stage of another task is mastered first.

The Description-ExperienceGap in Risky Choice Framing

We examined whether the classical framing effect observedwith the Asian Disease problem could be reversed when peoplemake decisions from experience. Ninety-five universitystudents were randomly allocated to one of three conditions:Description, Sampling (where the participants were allowed tosample through the outcomes presented as a pack of cards) andInteractive (where the participants were invited to spread outall possible outcomes in a sample) and made three gain-framedchoices and three loss-framed choices, with two filler tasksafter the first three choices. The results revealed a significantinteraction effect between framing and choice condition. In theDescription choice condition, participants were more risk-seeking with loss-framed problems. This pattern was reversedin the Sampling choice condition where participants were morerisk-seeking with gain frames. Finally, the Interactive choicecondition resulted in a classic pattern of framing effect,whereby people were more risk averse in the domain of gains.

First things first? Top-down influences on event apprehension

Not much is known about event apprehension, the earliest stage of information processing in elicited language production studies, using pictorial stimuli. A reason for our lack of knowledge on this process is that apprehension happens very rapidly (<350 ms after stimulus onset, Griffin & Bock 2000), making it difficult to measure the process directly. To broaden our understanding of apprehension, we analyzed landing positions and onset latencies of first fixations on visual stimuli (pictures of real-world events) given short stimulus presentation times, presupposing that the first fixation directly results from information processing during apprehension.

Definitely maybe and possibly even probably: efficient communication ofhigher-order uncertainty

Possibility and probability expressions, like possibly or prob-ably, are frequently assumed to communicate that the proba-bility of a proposition is above a certain threshold. Most pre-vious empirical research on these expressions has focused oncases of known objective chance: if the true objective proba-bility is given, would a speaker use possibly, probably or oneof their kin? Here, we investigate the use of probability expres-sions when speakers have subjective uncertainty about objec-tive chance, i.e., higher-order uncertainty. Experimental datasuggest that speakers’ choices of a probability expression is acomplex function of their state of higher-order uncertainty. Weformulate a computational probabilistic model of pragmaticspeaker behavior that explains the experimental data.

Dynamical systems modeling of the child–mother dyad:Causality between child-directed language complexity and language development

We model the causal links between child language (CL) andchild-directed language (CDL). We take pairs of sequences oflinguistic measurements from a longitudinal study. Each child-mother pair of sequences is considered as an instance of thetrajectory of a high-dimensional dynamical system. We thenuse Multispatial Convergent Cross Mapping to ascertain thedirections of causality between the pairs of sequences, that is,whether the complexity of CL drives that of CDL, the com-plexity of CDL drives that of CL, both, or neither. We find thatchildren are responsive to the amount of speech and the diver-sity of words produced by their mothers, but not vice-versa.However, the syntactic diversities of the children’s utterancesdrive the syntactic diversity of the mothers’ utterances. This isevidence for fine-grained fine-tuning of CDL in response onlyto the syntax of CL.

The Relational SNARC: Spatial Representation of Nonsymbolic Ratios?

Recent research has highlighted the operation of a ratioprocessing system that represents the analog magnitudes ofnonsymbolic ratios. This study investigated whether suchrepresentations would demonstrate spatial associationsparallel to the SNARC (spatial numeric association ofresponse codes) effect previously demonstrated with wholenumber magnitudes. Participants judged whethernonsymbolic ratio test stimuli were larger or smaller thanreference stimuli using response keys located alternatelyeither on the left or on the right side of space. Larger ratiomagnitudes were associated with the right side of space andsmaller magnitudes with the left. These results demonstratethat nonsymbolic ratio magnitudes – defined relationally bypairs of components – are characterized by a left-to-rightspatial mapping. The current focus on ratio magnitudesexpands our understanding of the basic human perceptualapparatus and how it might provide tools that grant intuitiveaccess to more advanced numerical concepts beyond wholenumbers.

Emotional influences on time perception

In studies on prospective time perception, a prolonging effectof arousal on time estimates is commonly reported fordurations under 2s while the effect vanishes for longerintervals. In this study, we investigated how arousal andpleasure induced by aural stimuli varying in volume andvalence influenced reproductions in the range from 1.1s to 5s.As expected, higher arousal was associated with higherestimates for 1.1s durations. However, this effect was alsofound for 3.8s durations. An additional analysis with linearmixed models revealed an interaction between volumemanipulation and subjective ratings regarding arousal andpleasure. Based on these results we propose that subjectiveexperience of the emotional quality of stimuli might beinteresting for further research on prospective timeperception. Moreover, the results showed that not only withinsubject variation should be statistically controlled whenanalyzing such data. Instead, statistical models should alsoinclude parameters controlling for stimulus material.

What does the crowd believe? A hierarchical approach to estimating subjectivebeliefs from empirical data

People’s beliefs about everyday events are both of theoreti-cal interest in their own right and an important ingredient inmodel building—especially in Bayesian cognitive models ofphenomena such as logical reasoning, future predictions, andlanguage use. Here, we explore several recently used methodsfor measuring subjective beliefs about unidimensional contigu-ous properties, such as the likely price of a new watch. Asa first step towards a way of assessing and comparing beliefelicitation methods, we use hierarchical Bayesian modeling forinferring likely population-level beliefs as the central tendencyof participants’ individual-level beliefs. Three different depen-dent measures are considered: (i) slider ratings of (relative)likelihood of intervals of values, (ii) a give-a-number task, and(iii) choice of the more likely of two intervals of values. Ourresults suggest that using averaged normalized slider ratingsfor binned quantities is a practical and fairly good approxima-tor of inferred population-level beliefs.

Active control of study leads to improved recognition memory in children

This paper reports an experiment testing whether volitionalcontrol over the presentation of stimuli leads to enhancedrecognition memory in 6- to 8-year-old children. Childrenwere presented with a simple memory game on an iPad.During the study phase, for half of the materials childrencould decide the order and pacing of stimuli presentation(active condition). For the other half of the materials, childrenobserved the study choices of another child (yokedcondition). We found that recognition performance was betterfor the objects studied in the active condition as compared tothe yoked condition. Furthermore, we found that the memoryadvantages of active learning persisted over a one-week delaybetween study and test. Our results support pedagogicalapproaches that emphasize self-guided learning and show thateven young children benefit from being able to control howthey learn.

Cohesive Features of Deep Text Comprehension Processes

This study investigates how cohesion manifests in readers’thought processes while reading texts when they areinstructed to engage in self-explanation, a strategy associatedwith deeper, more successful comprehension. In Study 1,college students (n = 21) were instructed to either paraphraseor self-explain science texts. Paraphrasing was characterizedby greater cohesion in terms of lexical overlap whereas self-explanation included greater lexical diversity and moreconnectives to specify relations between ideas. In Study 2,adolescent students (n = 84) were provided with instructionand practice in self-explanation and reading strategies across8 sessions. Self-explanations increased in lexical diversity butbecame more causally and semantically cohesive over time.Together, these results suggest that cohesive featuresexpressed in think alouds are indicative of the depth ofstudents’ comprehension processes.

Specificity at the basic level in event taxonomies: The case of Maniq verbs ofingestion

Previous research on basic-level object categories shows thereis cross-cultural variation in basic-level concepts, arguingagainst the idea that the basic level reflects an objectivereality. In this paper, I extend the investigation to the domainof events. More specifically, I present a case study of verbs ofingestion in Maniq illustrating a highly specific categorizationof ingestion events at the basic level. A detailed analysis ofthese verbs reveals they tap into culturally salient notions.Yet, cultural salience alone cannot explain specificity ofbasic-level verbs, since ingestion is a domain of universalhuman experience. Further analysis reveals, however, thatanother key factor is the language itself. Maniq’s preferencefor encoding specific meaning in basic-level verbs is not apeculiarity of one domain, but a recurrent characteristic of itsverb lexicon, pointing to the significant role of the languagesystem in the structure of event concepts.

Switch it up: Learning Categories via Feature Switching

This research introduces the switch task, a novel learning modethat fits with calls for a broader explanatory account of hu-man category learning (Kurtz, 2015; Markman & Ross, 2003;Murphy, 2002). Learning with the switch task is a processof turning each presented exemplar into a member of anotherdesignated category. This paper presents the switch task to fur-ther explore the contingencies between learning goals, learn-ing modes, outcomes, and category representations. The pro-cess of successfully transforming exemplars into members of atarget category requires generative knowledge such as within-category feature correspondences – similar to inference learn-ing. Given that the ability to switch items between categoriesnicely encapsulates category knowledge, how does this relateto more familiar tasks like inferring features and classifyingexemplars? To address this question we present an empiri-cal investigation of this new task, side-by-side with the well-established alternative of classification learning. The resultsshow that the category knowledge acquired through switchlearning shares similarities with inference learning and pro-vides insight into the processes at work. The implications ofthis research, particularly the distinctions between this learn-ing mode and well-known alternatives, are discussed.

Episodic memory as a prerequisite for online updates of model structure

Human learning in complex environments critically dependson the ability to perform model selection, that is to assess com-peting hypotheses about the structure of the environment. Im-portantly, information is accumulated continuously, which ne-cessitates an online process for model selection. While modelselection in human learning has been explored extensively, it isunclear how memory systems support learning in an online set-ting. We formulate a semantic learner and demonstrate that on-line learning on open model spaces results in a delicate choicebetween either tracking a possibly infinite number of compet-ing models or retaining experiences in an intact form. Sincenone of these choices is feasible for a bounded-resource mem-ory system, we propose an episodic learner that retains an op-timised subset of experiences in addition to semantic memory.On a simple model system we demonstrate that this norma-tive theory of episodic memory can effectively circumvent thechallenge of online model selection.

Stop paying attention: the need for explicit stopping in inhibitory control

Inhibitory control, the ability to stop inappropriate actions, isan important cognitive function often investigated via the stop-signal task, in which an infrequent stop signal instructs the sub-ject to stop a default go response. Previously, we proposed arational decision-making model for stopping, suggesting theobserver makes a repeated Go versus Wait choice at each in-stant, so that a Stop response is realized by repeatedly choosingto Wait. We propose an alternative model here that incorpo-rates a third choice, Stop. Critically, unlike the Wait action,choosing the Stop action not only blocks a Go response at thecurrent moment but also for the remainder of the trial – thedisadvantage of losing this flexibility is balanced by the bene-fit of not having to pay attention anymore. We show that thisnew model both reproduces known behavioral effects and hasinternal dynamics resembling presumed Go neural activationsin the brain.

A cross-linguistic investigation on the acquisition of complex numerals

Complex numerals (e.g., four hundred) have a multiplicative structure (four hundred = 4 x 100). This paper investigates whether children are sensitive to the meaning of the multiplicative structure. We designed a novel word learning paradigm and taught 4- to 6-year-old children the meaning of a novel numeral phrase (e.g., ‘one gobi houses’ to mean a group of three houses). We then asked whether they could generalize it to a novel context (e.g., ‘two gobi butterflies’ to mean two groups of three). Experiment 1 showed that only English-speaking children who received multiplier syntax training were able to generalize. Experiment 2 extended findings from Experiment 1 to Cantonese-speaking children and found that they could also generalize a novel multiplier to novel contexts. These results suggest that children as young as 4 can create a mapping between the structure of complex numerals and a multiplicative meaning.

tDCS to premotor cortex changes action verb understanding:Complementary effects of inhibitory and excitatory stimulation

Do neural systems for planning motor actions play a func-tional role in understanding action language? Across multi-ple neuroimaging studies, processing action verbs correlateswith somatotopic activity in premotor cortex (PMC). Yet, onlyone neurostimulation study supports a functional role for PMCin action verb understanding: paradoxically, inhibiting PMCmade people respond faster to action verbs. Here we investi-gated effects of PMC excitation and inhibition on action verbunderstanding using tDCS. Right-handers received excitatoryor inhibitory stimulation to left PMC hand areas, then madelexical decisions on unimanual action verbs and abstract verbs.tDCS polarity selectively affected how accurately participantsresponded to unimanual action verbs. Inhibitory stimulationto left PMC caused a relative improvement in performance forright-hand responses, whereas excitatory left PMC stimulationcaused a relative impairment. tDCS polarity did not differ-entially affect responses to abstract verbs. Premotor areas thatsubserve planning actions also support understanding languageabout these actions.

From low to high cognition: A multi-level model of behavioral control in theprimate brain

The basic cognitive architecture of the human brain remainsunknown. However, there is evidence for the existence ofdistinct behavioral control systems shared by humans andnonhumans; and there is further evidence pointing to distincthigher-level problem solving systems shared by humans andother primates. To clarify the nature of these proposedsystems and examine how they may interact in the brain, wepresent a four-level model of the primate brain and compareits performance to three other brain models in the face of achallenging foraging problem (i.e., with transparent, and thus,invisible barriers). In all manipulations (e.g., size of problemspace, number of obstacles), our model never performed thebest outright; however, it was always among the best,appearing to be a jack-of-all-trades. Thus, the virtues of ourprimate brain lie not only in the heights of thinking it canreach, but also in its range and versatility.

Learning in the wild - how labels influence what we learn

Learning concepts and categories in the real world is often ac-companied by verbal labels. The existing theoretical accountsof how labels influence what we learn range from facilitationto overshadowing, with changes occurring over development.Studies investigating how labels influence what people learnhave typically been confined to a category learning framework,where participants were tasked to learn how to discriminatecategories or infer missing category properties. Here, we in-vestigate how the absence or presence of labels, both commonand unique, alter how people attend and what they remember ina more general setting. Our results suggest that unique labelsmay promote visual exploration of objects; whereas, there wasno evidence to support the claim that hearing the same labelassociated with different members of a to-be-learned categorydirected attention to common features.

Cross-Linguistic Similarities Aid Third Language Learning in Bilinguals

Learning a new language involves significant vocabulary ac-quisition. Learners can accelerate this process by relying onwords with native-language overlap, such as cognates. Forbilingual third language learners, it is necessary to determinehow their two existing languages interact during novel lan-guage learning. A scaffolding account predicts transfer fromeither language for individual words, whereas an accumula-tion account predicts cumulative transfer from both languages.To compare these accounts, twenty English-German bilingualadults were taught an artificial language containing 48 novelwritten words that varied orthogonally in English and Germanwordlikeness (neighborhood size and orthotactic probability).Wordlikeness in each language improved word production ac-curacy, and similarity to one language provided the same bene-fit as dual-language overlap. In addition, participants’ memoryfor novel words was affected by the statistical distributions ofletters in the novel language. Results indicate that bilingualsutilize both languages during third language acquisition, sup-porting a scaffolding learning model.

Varieties of experience: A new look at folk philosophy of mind

Philosophers, psychologists, and neuroscientists have oftendivided the mind into fundamental component parts. Does thisintuition carry over into folk philosophy of mind? In a seriesof large-scale studies, we explore intuitive distinctions amongdifferent kinds of mental phenomena and consider how thesedistinctions might organize the conceptual space of thediverse “intelligent” and “social” entities in the modernworld. Across studies, independent exploratory factoranalyses reveal a common latent structure underlying mentalcapacity attributions, centered on three types of phenomenalexperiences: physiological experiences of biological needs(e.g., hunger, pain); social-emotional experiences of self- andother-relevant emotions (e.g., guilt, pride); and perceptual-cognitive abilities to detect and use information about theenvironment (e.g., hearing, memory). We argue for anexpanded model of folk philosophy of mind that goes beyondagency and experience (H. M. Gray, Gray, & Wegner, 2007)to make basic and important distinctions among differentvarieties of experience.

Benefiting from Being Alike:Interindividual Skill Differences Predict Collective Benefit in Joint Object Control

When two individuals perform a task together, they combinetheir individual skills to achieve a joint goal. Previousresearch has shown that interindividual skill differencespredict a group’s collective benefit in joint perceptualdecision-making. In the present study, we tested whether thisrelationship also holds for other task domains, using adynamic object control task in which two participants eachcontrolled either the vertical or horizontal movement directionof an object. Our findings demonstrate that the difference inindividuals’ skill levels was highly predictive of the dyad’scollective benefit. Differences in individuals’ subjectiveratings of task difficulty reflected skill differences and thusalso turned out to be a predictor of collective benefit.Generally, collective benefit was modulated by spatial taskdemands. Overall, the present study shows that previousfindings in joint decision-making can be extended to dynamicmotor tasks such as joint object control.

Reading experience shapes the mental timeline but not the mental number line

People conceptualize both time and numbers as unfoldingalong a horizontal line, either from left to right or from rightto left. The direction of both the mental timeline (MTL) andthe mental number line (MNL) are widely assumed to dependon the direction of reading and writing within a culture.Although experimental evidence supports this assumptionregarding the MTL, there is no clear evidence that readingdirection determines the direction of the MNL. Here wetested effects of reading experience on the direction of boththe MTL and MNL. Participants read English text eithernormally (from left to right) or mirror-reversed (from right toleft). After normal reading, participants showed the space-time associations and space-number associations typical ofWesterners. After mirror reading, participants’ space-timeassociations were significantly reduced but their space-number associations were unchanged. These results suggestthat the MTL and MNL have different experiential bases.Whereas the MTL can be shaped by reading experience, theMNL is shaped by other culture-specific practices throughwhich people experience numbers arrayed in left-right space.

Cultural Evolution Across Domains: Language, Technology and Art

The social and cognitive mechanisms of cultural evolutionhave been studied in detail for different domains: language,technology, the economy, art, etc. However, a model thatincorporates the function of a cultural tradition and that isable to compare evolutionary dynamics across culturaldomains has not been formulated. By exploring the dynamicsof comparable linguistic, technological and artisticexperimental tasks, we test the effect of domain-specificfunction on evolutionary mechanisms such as inheritance,innovation and selection. We find evidence that culturaldomain shapes both the structure of the traditions and the waythe cultural-evolutionary mechanisms operate. Thesimplifying effects of cultural transmission are noticeable inlanguage and technology, but not in art; innovation is highestin art and lowest in language; and functional pressures lead todifferent morphological adaptations across domains. Thisspeaks of a crucial role of function and domain in theevolution of culture.

A Neural Field Model of Word Repetition Effects in Early Time-Course ERPs inSpoken Word Perception

Previous attempts at modeling the neuro-cognitive mecha-nisms underlying word processing have used connectionist ap-proaches, but none has modeled spoken word architectures asthe input is presented in real-time. Hence, such models rely onthe ingenuity of the modeler to establish a mapping of real-time stimulus to the model’s input which may not preserveprocessing that happens during each time step. We present aneural field model which successfully replicates the effect ofimmediate auditory repetition of monosyllabic words and fitsit to a component of a well-studied mechanism for analyzinglanguage processing, the event-related potential (ERP). Thisrepresents a new modeling approach to studying the neuro-cognitive processes, one that is based on the bottom-up inter-action of real-time sensory information with higher-level cate-gories of cognitive processing.

Talking with tact: Polite language as a balance between kindness and informativity

Conveying information in a false or indirect manner in consid-eration of listeners’ wants (i.e. being polite) seemingly contra-dicts an important goal of a cooperative speaker: informationtransfer. We propose that a cooperative speaker considers bothepistemic utility, or utility of providing the listener new and ac-curate information, and social utility, or utility of maintainingor boosting the listener’s self-image (being polite). We for-malize this tradeoff within a probabilistic model of languageunderstanding and test it with empirical data on people’s infer-ences about the relation between a speaker’s goals, utterancesand the true states of the world.

Understanding “almost”: Empirical and computational studies of near misses

When did something almost happen? In this paper, we in-vestigate what brings counterfactual worlds close. In Exper-iments 1 and 2, we find that participants’ judgments aboutwhether something almost happened are determined by thecausal proximity of the alternative outcome. Something almosthappened, when a small perturbation to the relevant causalevent would have been sufficient to bring it about. In contrastto previous work that has argued that prior expectations areneglected when judging the closeness of counterfactual worlds(Kahneman & Varey, 1990), we show in Experiment 3 thatparticipants are more likely to say something almost happenedwhen they did not expect it. Both prior expectations and causaldistance influence judgments of “almost”. In Experiment 4, weshow how both causal proximity and beliefs about what wouldhave happened in the absence of the cause jointly explain judg-ments of “almost caused” and “almost prevented”.

Tit-­‐‑for-­‐‑Tat: Effects of Feedback and Speaker Reliability on ListenerComprehension Effort

Miscommunication is often seen as a detrimental aspectof human communication. However, miscommunicationcan differ in cause as well as severity. What distinguishesa miscommunication where conversation partnerscontinue to put forth the effort from miscommunicationwhere conversation partners simply give up? In this eye-­‐‑tracking study, participants heard globally ambiguousstatements that were either a result of an experimentalerror or speaker underspecification; participants eitherreceived positive or negative feedback on theseambiguous trials. We found that negative feedback,paired with the reliability of the message, will impact theamount of processing effort a comprehender putsforth—specifically, listeners were less forgiving of errorswhen they were penalized and when speakers’instructions lacked effort. This suggests that languageusers weigh conversational contexts and outcomes aswell as linguistic content during communication.

Distinguishing processing difficulties in inhibition, implicature, and negation

Despite their considerable communicative abilities, youngchildren often have difficulty interpreting complex linguisticstructures in context. Two examples of this phenomenon arenegation and pragmatic implicature, both of which pose some-times surprising difficulties for preschoolers. Both of thesestructures require children to resist a more salient alternativeinterpretation; since executive function abilities develop ex-tensively during childhood, perhaps failures are due to prob-lems in inhibition. To test this hypothesis, we designed tasksto measure inhibitory control, negation, and implicature com-prehension in children and adults. Using standard analyses aswell as drift diffusion models, we found different patterns ofprocessing on all three tasks, and no support for the hypothesisthat inhibitory control per se is playing a role in either adults’or children’s negation or implicature processing. Instead, ouranalyses reveal qualitatively different developmental trajecto-ries, suggesting task-specific factors driving these changes.

Answering Causal Queries about Singular Cases

Queries about singular causation face two problems: It needsto be decided whether the two observed events are instanti-ations of a generic cause-effect relation. Second, causationneeds to be distinguished from coincidence. We propose acomputational model that addresses both questions. It accessesgeneric causal knowledge either on the individual or the grouplevel. Moreover, the model considers the possibility of a co-incidence by adopting Cheng and Novick’s (2005) power PCmeasure of causal responsibility. This measure delivers theconditional probability that a cause is causally responsible foran effect given that both events have occurred. To take uncer-tainty about both the causal structure and the parameters intoaccount we embedded the causal responsibility measure withinthe structure induction (SI) model developed by Meder et al.(2014). We report the results of three experiments that showthat the SI model better captures the data than the power PCmodel.

The Impact of Granularity on the Effectiveness of Students’ Pedagogical Decision

In this study we explored the impact of student versus tutorpedagogical decision-making on learning. More specifically,we examined what would happen if we let students decidehow to handle the next task: to view it as a worked exam-ple or to solve it as a problem solving. We examined this im-pact at two levels of task granularity: problem vs. step. This2 × 2 study was conducted on an existing Intelligent TutoringSystem (ITS) called Pyrenees. 279 students were randomlyassigned to four conditions and the domain content and re-quired steps were strictly controlled to be equivalent acrossfour conditions: all students used the same system, followedthe same general procedure, studied the same training materi-als, and worked through the same training problems. The onlysubstantive differences among the four conditions were deci-sion agency {Student vs. Tutor} and granularity {Problem vs.Step}. That is: who decided to present an example or to solvea problem; and was the decision made problem-by-problem orstep-by-step? Our results showed that there was a significantinteraction effect between decision agency and granularity onstudent learning and a significant main effect of granularity ontime on training. That is, step level decisions can be more ef-fective than problem level decisions but the students were morelikely to make effective pedagogical decisions at problem levelthan step level. In general, on both problem and step levels, thestudents were significantly more likely to decide to do problemsolving rather than study it as a worked example.

Can Musical Engagement Alleviate Age-Related Decline in Inhibitory Control?

The purpose of our study was to determine whether activemusical engagement alleviates decline in inhibitory controldue to cognitive aging. Given that musical training in youngadults has been shown to improve attentional performance,we can expect this benefit to persist for older adults as well.With the help of the stop-signal procedure, we measuredresponse inhibition of young and older adults who provided aself-reported assessment of their musical engagement, usingthe recently validated Goldsmiths Musical SophisticationIndex. The Gold-MSI addresses a variety of musical activitiesand thus offers a more comprehensive measure than ability toplay a musical instrument used in the past. Results of theexperiment showed that older participants had longer stop-signal reaction times, independently of their musical trainingand engagement, but musical training and ensemble practicewere negatively related to the proportion of missed responsessuggesting a weak effect of certain types of musical activitieson inhibitory control.

A 6-month longitudinal study on numerical estimation in preschoolers

The current study investigated the development of numerical estimation in 3- to 5-year-old children sampled monthly for six months. At each session, children completed a task that assesses verbal number knowledge (Give-N task) and a numerical estimation task that assesses approximate number knowledge (Fast Cards). Results showed that children who acquired the cardinal principle (CP) during the course of the study showed marked improvement on the estimation task. Following CP acquisition, estimation became more accurate overall but also fluctuated widely. We discuss the implications of our findings for number word learning, particularly the mapping between verbal number and the approximate number system (ANS).

The distorting effect of deciding to stop sampling

usually collect information to serve specific goals andoften end up with samples that are unrepresentative of the un-derlying population. This can introduce biases on later judg-ments that generalize from these samples. Here we show thatgoals influence not only what information we collect, but alsowhen we decide to terminate search. Using an optimal stop-ping analysis, we demonstrate that even when learners have nocontrol over the content of a sample (i.e., natural sampling),the simple decision of when to stop sampling can yield sampledistributions that are non-representative and could potentiallybias future decision making. We test the prediction of thesetheoretical analyses with two behavioral experiments

Inferring Individual Differences Between and Within Exemplar andDecision-Bound Models of Categorization

Different models of categorization are often treated as compet-ing accounts, but specific models are often used to understandindividual differences, by estimating individual-level param-eters. We develop an approach to understanding categoriza-tion that allows for individual differences both between andwithin models, using two prominent categorization models thatmake different theoretical assumptions: the Generalized Con-text Model (GCM) and General Recognition Theory (GRT).We develop a latent-mixture model for inferring whether anindividual uses the GCM or GRT, while simultaneously allow-ing for the use of special-case simpler strategies. The GCMsimple strategies involve attending to a single stimulus dimen-sion, while the GRT simple strategies involve using unidimen-sional decision bounds. Our model also allows for simple con-taminant strategies. We apply the model to four previouslypublished categorization experiments, finding large and inter-pretable individual differences in the use of both models andspecific strategies, depending on the nature of the stimuli andcategory structures.

Adults’ guesses on probabilistic tasks reveal incremental representativeness biases

Participants in most binary-choice tasks with multiple trialstend to probability-match (Vulkan, 2000) — i.e., provide re-sponses that match the probability distribution of the presentedpopulation. Given a single trial, however, participants usuallychoose the majority option (James & Koehler, 2011). By us-ing a method that visually presents the probabilities of the twocompeting options, we examine responses when participantsare given only a single trial, and initial responses when partic-ipants are given multiple trials. While we still observe aggre-gate probability-matching in the multiple-trial condition, wefind robust sequence effects in participants’ initial responses,including robust maximizing behavior on the first response.This suggests that both maximizing in single-trial experimentsand aggregate probability-matching in multiple-trial ones canbe explained by a single, underlying mechanism; one thatseeks to provide a representative sample at each point duringsequence generation.

Publication-Based Presentations

A Bayesian Metric for Network Similarity

Networks of every kind and in numerous fields areomnipresent in today’s society (e.g. brain networks, socialnetworks) and are the intense subject of research. It wouldbe of great utility to have a computationally efficient andgenerally applicable method for assessing similarity ofnetworks. The field (going back to the 1950s) has not comeup with such a method (albeit a few moves in this directionexist, such as Jaccard coefficients, QAP--quadraticassignment procedure, and more recently Menezes & Roth,2013, and Asta & Shalizi, 2014). I present a Bayesian-basedmetric for assessing similarity of two networks, possibly ofdifferent size, that include nodes and links between nodes. Iassume the nodes are labeled so that both the nodes andlinks between two nodes that are shared between the twonetworks can be identified.The method calculates similarity as (a monotonictransformation of) the odds that the two observed networks,termed V and W, were produced by random sampling froma single master network, termed G, as opposed to generationby two different but similar networks, termed Gv and Gw.The simplest form of the method ignores strengths thatcould be assigned to nodes and links, and considers onlynodes and links that are, or are not, shared by the networks.Suppose there are n V nodes and N V links only in V, n Wnodes and N W links only in W and n c nodes and N c linksshared between the networks. Thus the number of nodes inV is n c + n V and the number in W is n c + n W . The number ofunique nodes in both V and W is n c + n V + n W = n. Thenumber of links in V is N c + N V and the number in W is N c +N W . The number of unique links in both V and W is N c + N V+ N W = N.The single master network, G, is assumed to consist of theunion of the nodes and links in the two networks, and has nnodes and N links. The probability a given shared node willbe randomly and independently sampled twice is[(n V +n c )/n][(n W +n c )/n]. The probability a given shared linkwill be randomly and independently sampled twice is[(N V +N c )/N][(N W +N c )/N].If there are two generating networks I assume they eachhave n nodes and N links. I also assume they are similar, because we would not be comparing dissimilar networks.The degree of similarity is controlled by ‘tuning’parameters 1 : Gv and Gw are assumed to share αn nodes andβN links. The probability a given shared node will besampled twice is then α[(n V +n c )/n][(n W +n c )/n], and theprobability a given shared link will be sampled twice isβ[(N V +N c )/N][(N W +N c )/N]. The likelihood ratio λ js for G vs(GV, GW) as generator of a given shared node is then 1/αand the likelihood ratio π js of a given shared link is then 1/β.For a non-shared node, say in V, similar reasoning gives alikelihood ratio λ kV of[1-(n W +n c )/n)] /[1– α(n W +n c )/n]and for a non-shared link a likelihood ratio π kV of[1-(N W +N c )/n)] /[1– α(N W +N c )/N]For a non-shared node or link in W substitute a Wsubscript for the V subscript in these likelihood ratios.Computational efficiency is a necessity if the similaritymetric is to be applied to large networks. For this reason Ido not calculate the exact probabilities for the numbers ofshared and non-shared nodes and links that are observed(the combinatoric complexity of such calculations isenormous). Instead I make the simplifying assumption thateach node and link contribute the likelihood ratios givenabove and that the total odds is obtained by multiplying allthe likelihood ratios together. This simplification canperhaps be justified if similar distortion is produced by thissimplifying assumption for both the cases of G and (G V ,G W )as generators. Under this simplifying assumption the overallodds becomes:φ(1/2) = (λ js ) nc (λ kV ) nV (λ jW ) nW (π js ) Nc (π kV ) NV (π jW ) NWTaking the log of this product converts the calculation tosums and makes calculation highly efficient.This abstract is too short to permit giving the different andmore complex results that hold for the several cases whenthe nodes and/or links have associated strengths. I give asummary of some of the results here. The results for linksand nodes are similar so consider the results for nodes. Letthere be just one set of strength values, Si for the i-th node.Norm these to sum to 1.0. For either generation by G or(Gv,Gw) assume sampling is made without replacement andproportional to strength. Let Ziv and Ziw be theprobabilities that node i will be sampled by n v +n c samples,or n w +n c samples respectively. The Z’s would be difficult to obtain analytically but could be estimated by Monte Carlosampling. Consider two possibilities for the way that Gv andGw overlap. In Case A the probability a node will be sharedis simply α, independent of strength. In Case B, theprobability a node will be shared is an increasingfunction of strength, Y i .For Case A the likelihood ratio for a shared node i is:1/α. For a node k only in V the likelihood ratio is: λ kV =(1-­‐Zkw)/{1 – α (1-­‐Zkw)}. For a node only in W exchangethe subscripts v and w. Then we have for the odds due tonodes: φ D = (1/α) nc Π k (λ kV )Π j (λ jW ).For Case B the likelihood ratio for a shared node i is1/Y i . For a node k only in V the likelihood ratio is: λ kV =(1-­‐Zkw)/{1–Y k (1-­‐Zkw)}. Again switch v and w subscriptsfor a node only in W. Then we have for the odds due tonodes: φ D = Π i (1/Y i )Π k (λ kV )Π j (λ jW ).These expressions would have analogous forms forlinks, with different Ns, Z’s and Y’s, and the overall oddswould, as before, be a product of the odds for nodes andthe odds for links.The critical difference between Cases A and B is thedegree to which evidence based on an observed sharednode or link is strength dependent: For Case B thisevidence rises as strength decreases. This should raiseconcerns: However strengths are obtained there is likelyto be measurement noise that reduces the reliability oflow strength values. This might argue in favor of usingCase A, or if one preferred Case B to restrict the Yi valuesto lie above a lower bound. The idea would be to letevidence depend most on the nodes (or links with highstrength values.It should be observed that the existence of acomputationally efficient and generally applicable metricfor network similarity would allow alignment of non-labeled networks. One would search for the alignment ofnodes that would maximize the metric.I have many relevant publications demonstrating somedegree of expertise in Bayesian modeling (e.g.: Shiffrin &Chandramouli, in press; Shiffrin, Chandramouli, &Grünwald, 2015; Chandramouli & Shiffrin, 2015; Nelson &Shiffrin, 2013; Cox & Shiffrin, 2012; Shiffrin, Lee, Kim, &Wagenmakers, 2008; Cohen, Shiffrin, Gold, Ross, & Ross,2007; Denton & Shiffrin; Huber, Shiffrin, Lyle, & Ruys,2001; Shiffrin & Steyvers, 1997). I note that the presentresults are in a vague sense an extension of the metricproposed for matching memory probes to memory tracesthat are given in Cox and Shiffrin (2012) and in theappendix of Nelsonb and Shiffrin (2013).

Verbalizing navigation: Explicit and implicit concepts

Every day, we navigate our environments with astonishingease. Most of our paths are familiar to us and can benavigated without (much) conscious thought; in other cases,we use various strategies to find our way (Tenbrink &Wiener, 2007). Since these processes are at the heart ofhuman spatial cognition they have been researchedextensively, often based on route directions as the mostcommon verbalizations of navigation. Our research extendsthis tradition across various wayfinding contexts, addressingstreet network scenarios (Hölscher, Tenbrink, & Wiener,2011), complex buildings (Tenbrink, Bergmann, &Konieczny, 2011), alpine environments (Egorova, Tenbrink,& Purves, 2015), and including effects of automatic systemsas producers (Tenbrink & Winter, 2009) or recipients(Moratz & Tenbrink, 2006; Tenbrink et al., 2010) of spatialdirections. In all of these studies natural language data areused to address concepts of navigation, some of which areexpressed explicitly, while others remain implicit and onlyindirectly reflected through the ways in which speakers uselanguage in spatial navigation contexts.

Member Abstracts

Do gestures serve an interpersonal function?

Some researchers argue that gestures serve an interpersonal function, such as making the intended message clear(e.g., Gallagher & Frith, 2003; cf. Kita, 2000). In this study, we tested whether gestures serve an interpersonal function,specifically predicting that the higher participants’ autism spectrum quotient, the less frequently they would gesture. Participantscompleted the Autism Spectrum Quotient questionnaire (Baron-Cohen, Wheelwright, Skinner, Martin, & Clubley, 2001). Toelicit gestures, participants did two tasks. In one, they explained spatial and social concepts. In another, they told the story ofa cartoon. The dependent variable is the gesture rate (gestures per word), to account for individual differences in volubility.Participants completed a standardized vocabulary test. The initial results show no correlation between gesture rate in either taskand ASQ scores. There is a negative correlation between ASQ and vocabulary scores. These results are inconsistent with theargument that gestures serve an important interpersonal function.

Emergence of Euclidean geometrical intuitions in hierarchical generative models

In this study, we aim to understand the origins of human intuitions about Euclidean geometry by simulating geo-metric concepts acquisition with unsupervised learning in hierarchical generative models. Specifically, we build a deep neuralnetwork that learns a hierarchical generative model of sensory inputs. The results show that hidden layer activities can supportthe categorization of different geometric objects and distinguish among various spatial relationships between geometric figures.Specifically, hidden layer activities can be decoded to compare line orientations, detect right triangles, and judge whether twotriangles are similar or not. We further analyze the response profiles of hidden layers units and find some units resembling pari-etal neurons in the brain. Using unsupervised deep learning, the current modeling work provides a possible explanation of howEuclidean geometrical intuitions might emerge from daily visual experience, which has significant implications for cognitivepsychology and computational neuroscience.

Implicit Emotional Priming of Traumatic Events: The Effects of Semantic Leveland Emotional Activation

Vivid representations are often made by traumatic events with intense emotions. The emotions may be activatedautomatically from memory on the mere exposure of an affect-loaded stimulus. The aims of this study were to investigate theimplicit emotional processing of traumatic events and the moderation of priming by semantic level of the events, using primednaming task at short stimulus onset asynchrony (150ms). A 3 semantic level of traumatic primed events (general, domestic,or foreign words) by 3 target emotions (high-arousal negative, moderate positive, low-arousal negative words) repeated designwas used. When the primed words were general (e.g. terror) or domestic (e.g. Sewol ferry disaster) events, response time ofhigh-arousal negative words (e.g. fear or angry) were significantly longer than other emotion words (e.g. happy or sadness).Our findings suggest contrast effects of affective priming as a result of automatic implicit regulation.

Current Research in Cognitive Science at Educational Testing Service (ETS)

The Cognitive Science Research group at ETS conducts research and development at the forefront of educationalassessment, using cognitive theory in the design of assessments, building cognitive models to guide interpretation of test-takers’performance, and researching cognitive issues in the context of assessment. Moving beyond traditional (e.g., multiple-choice)tests, the group explores assessments that use innovative, highly interactive digital environments such as online games, virtuallabs or other simulations, and human-agent conversation-based interactions. Researchers also investigate how to draw appropri-ate inferences about test-takers’ knowledge and skills from complex data sources such as eye-movements, interaction logs, andother sequential information. I will provide an overview of the group’s research, including the use of cognitive models to inter-pret test-takers’ actions within interactive assessment tasks and empirical studies on how test-takers externalize their knowledgewhen problem solving in domains such as science inquiry, inter-cultural competence, and mathematics argumentation.

Free-form response vs. yes/no-question methodologies in the study of humanreasoning

There are two widespread strategies for testing experimentally whether a conclusion follows naively from a sequenceof premises. The free-form response strategy (FFR) presents participants with the premises and asks them “what, if anything,follows?” In the simplest case, participants’ responses are coded as to whether they made the predicted inference. On the yes/noquestion strategy (YNQ), after presenting the premises, the researcher puts forth a sentence C and asks whether C follows fromthe premises.We compare the two methodologies with respect to six types of fallacious problems involving propositional connectives fromthe mental-models literature, to address the question of whether the methodologies are equally valid. We found that the twomethodologies overwhelmingly yield identical results. Interestingly, the exceptions we found show that in some cases FFR failsto detect an attractive fallacious conclusion that can be reliably probed with YNQ.

Noticing causal properties of objects from sequence statistics

How do we learn non-physical properties of physical objects? We explored how the statistical structure of eventscan be a source of object property learning. Twenty-five participants saw sequences of visual events surrounding two distinctobjects. Object identity determined 1) the direction of a high transition probability between two events, and 2) the frequency oftwo other events. Learning was unsupervised and unguided. However, participants spontaneously noticed these regularities. Inan explicit, verbal judgment task, they discriminated between frequent vs. rare events (t(24) = 10.7, p< 0.00001) and betweenpredictive vs. non-predictive event pairs (t(24) = 3.04, p<0.01), as appropriate to the object. These statistics gave rise to distinctconceptual interpretations: participants ascribed a causal interpretation to the predictive statistics (t(24) = 1.91, p<0.05) morethan to events frequently co-occurring with the objects (t(24) = 3.00, p<0.01). Such learning may underlie concept acquisition,particularly of functional kinds like artifacts.

Filling in the gaps: Event segmentation is robust to missing information

Fluent event processing involves segmenting streaming sensory information into discrete units. Adults and childrenselectively attend to these meaningful moments within event streams, which predicts later memory. In natural environments,however, uninterrupted attention is unlikely. Consequently, some information is missed, including event boundary information.To what extent does missing information alter the attentional dynamics of processing, specifically viewers’ ability to targetremaining boundaries with enhanced attention? Adults advanced at their own pace through slideshows of unfolding activity.Slides were systematically deleted to enable comparison of viewers’ attentional dynamics when specific content was presentversus absent. Average dwelling per slide increased with missing content. However, the attentional dynamics of processingwere unaltered; attention to boundaries displayed comparable enhancement regardless of missing content. Attention modulationduring processing of relatively familiar events appears to be highly robust to missing information. What occurs with more novelevents is an interesting question for future research.

Effects of the Plausibility of the Retracting Information on Memory Updating

The plausability of the retracting information, which can affect whether the retracted information be replaced bythe retracting information, had not been studied much in previous studies on continued influence effect. An experiment wasconducted to investigate how the plausability of a retracting information affects the understanding of an event in which someof the information had been retracted. In the experiment, the plausibility of the retracting information (low versus high) andthe manner of correcting information (simple retraction versus supplying an alternative) were manipulated, and the participantswere asked to answer memory questions and inference questions. Retracted information was better remembered for memoryquestions, but was used less frequently for inference questions when the retracting information was less plausible comparedto when the retracting information was quite plausible. The results were interpreted to support the ‘memory-based’ theory ofmemory updating.

Which Statistic Matters? Effects of Category Size and Distribution on StatisticalCategory Learning

The present study investigates whether, and if so in what way, adult learners are sensitive to the properties ofthe statistical input, such as frequency and skewedness, when learning and generalizing category labels. Participants werepresented with novel objects belonging to four different categories and heard category labels in a cross-situational learningtask. The four categories were matched for the total amount of exposure but varied in category size and shape of distribution.Participants learned object-to-label mappings better for categories with a skewed distribution of fewer objects. Moreover,object-to-label mapping performance was positively related to the ability to extend category knowledge to novel items. Co-occurrence frequency or category size alone were not good predictors of label learning and generalization. The results indicatethe importance of input distribution in word and category learning processes.

Reciprocal altruism in preschool-aged children

Young children are remarkably prosocial, yet the mechanisms driving their prosociality are poorly understood. Intwo studies, we looked at whether a need for reciprocity drives children’s prosocial behavior. In Experiment 1, children weregiven a puzzle task to complete in which they were either missing 2 pieces (experimental group) or not (control group). Allchildren then received 2 puzzle pieces from a confederate, resulting in either necessary instrumental help (experimental group)or unnecessary help (control group). Children were more prosocial (shared a greater proportion of their resources) with theconfederate after receiving instrumental help than after receiving unnecessary help. In Experiment 2, we investigated the typesof principles children use when paying back help. We found that children employed a mix of exact reciprocation and “needs-based” help when paying back individuals. Our results suggest an important role of gratitude and reciprocity in the developmentof early prosociality.

Heuristics in exploration: Distributional information is selectively used for activelearning

Everyday decision-making is filled with choices about what to act on, with outcomes playing a critical role in learn-ing. Information gain is oft cited as a valuable approach to maximize potential learning, but its computation is costly. It entailsevaluating the probability of multiple outcomes given any possible action, and then considering the degree of belief-change overall possibilities. Given the computational complexity of this evaluation, it becomes important to ask whether learners employcues to information gain; are there heuristics that drive choice in active learning? Our experiments ask participants to choosebetween two options (varying in distributional characteristics) in either a “learning-condition” or “collecting-condition”. Ourresults suggest that adults are sensitive to cues (e.g. variance) that tend to correlate with information gain. These cues areonly favored in learning-goal contexts, suggesting that certain distributional qualities are not always appealing, but rather areselectively-employed heuristics towards information gain.

On the psychological reality of linguistic event structures

How language represents meaning remains a central topic of debate in linguistics. On some accounts, the nounphrases in a sentence are identified semantically by a list of independent atomic labels (thematic roles), ordered relative to oneanother depending on the position of the nouns around the verb (e.g., AGENT-THEME-GOAL). Others instead capture suchinterdependencies with complex, non-atomic event structures (e.g., [x CAUSE [y TO-COME-TO-BE-AT z]]). Here, we usestructural priming to investigate the psychological reality of these two theories of semantic representation. On the thematicrole approach, we should expect to see priming between theme-first locatives and prepositional-object datives (both VP-NP-PPsyntactically) precisely because their thematic ordering is consistent across the two constructions. The event structure approachposits no such minimal semantic structural similarity, such that we should not see priming cross-constructionally. We find onlywithin-construction priming (N=52) and not across-construction priming (total N=344), in favor of event structures.

Effects of Analogical Processing: Evidence for Re-representation

Re-representation is a mechanism for aligning non-identical structurally corresponding predicates during compari-son. Re-representation is therefore a shift in the encoding of a stimulus from an initial set of elements to an altered set. Forexample, when comparing two analogous sentences, different verbs could be re-represented to allow a match – thereby alter-ing construal. Re-representation is theoretically and intuitively compelling, but difficult to demonstrate. We had participantscompare pairs of short text passages and judge them as potential analogies. At test, participants read an altered version of aprior passage and were asked to detect changes from the original. The alterations increased the semantic match between thepassage and its analog. Participants who had compared the original passage to the analog were less likely to detect changesthan those who compared to a non-analogous passage. As would be expected due to re-representation, analogical comparisonmade participants less sensitive to the changes.

A computational theory of temporal inference

We describe a novel model-based theory of how individuals reason deductively about temporal relations. It positsthat temporal assertions refer to mental models – iconic representations of possibilities – of events (Khemlani, Harrison, &Trafton, 2015; Schaeken, Johnson-Laird, & d’Ydewalle, 1996). In line with recent accounts of spatial reasoning (Ragni &Knauff, 2013), the theory posits that individuals tend to build a single preferred model of a temporal description. The moremodels necessary to yield a correct answer, the harder that problem is. The theory is implemented in a computer program,mReasoner, which draws temporal deductions by building models. It varies four separate factors in the process: the size of amodel, its contents, the propensity to consider alternative models, and the propensity to revise initial conclusions. Two studiescorroborated the predictions of the theory and its computational implementation. We conclude by discussing temporal andrelational inference more broadly.

An interactive model accounts for both ultra-rapid superordinate classificationand basic-level advantage in object recognition

While people are faster to categorize objects at an intermediate or basic level of specificity (e.g. “bird”), severalrecent studies have shown them to have much earlier access to more general category information (e.g. “animal”). Ultra-rapidsuperordinate classification has been taken as evidence that recognition processes are largely feed-forward. In simulations witha deep neural network model, we show that this conclusion does not follow: even a model that is fully recurrent and interactiveshows ultra-rapid superordinate classification patterns when tested with analogs of behavioral tasks such as rapid serial visualpresentation or deadline classification. Moreover, this recurrent model explains recently-observed similarities and differencesin the time-course of classification as estimated by electro-encephlography (EEG) versus human electro-corticography (ECoG),and also account for the well-known basic-level advantage in non-speeded classification. These results provide evidence thatultra-rapid and unconstrained visual object recognition is supported by interactive processes in the brain.

Handedness and Mathematics: Toward a More Comprehensive Model

The relationship between handedness and mathematical abilities is controversial. Whilst some researchers haveclaimed that left-handers are gifted in mathematics and strong right-handers perform the worst in mathematical tasks, it hasbeen more recently proposed that mixed-handers are actually the most disadvantaged group. To disentangle these discrepancies,we conducted five experiments in several Italian schools (total participants: N = 2,308) involving students of different ages(6 to 17 years) and a range of mathematical tasks. The results showed that (a) the percentage of variance in mathematicsscores explained by handedness was moderate (about 5%) but statistically significant, and (b) the shape of the relationshipbetween handedness and mathematical ability depended on age, task, and gender. We concluded that the different outcomesreported in the literature probably reflected the dissimilarities between the studies about the above variables. Therefore, a morecomprehensive model is needed, which explains how these variables interact.

Shifting meanings: The fluidity of signal-meaning mappings in a minimalcommunicative task

We used a non-linguistic experimental paradigm to explore the instantaneous creation of new communicative con-ventions. Participants played a computer game, in which they sent and interpreted minimal signals to obtain shared rewardswithin a virtual scene. Trials manipulated the space of possible signals that could be sent, and the meanings to be expressed (lo-cations and quantities of rewards); as such, optimal success in the task required participants to jointly construct signal-meaningmappings that functioned as part of a system, rather than in isolation.We observed different signalling strategies among participants, but with some individuals using ‘system-mapping’ conven-tions that globally reorganized in light of changing task constraints. Such behaviour reflects the principle of pre-emption inpragmatics, where the inferred meaning of an utterance depends on its relationship among a set of alternatives. Our initialfindings provide a basis for future research, investigating contexts that are conducive to this phenomenon.

Process of visual input does not decide the accuracy imitation performance

The associative sequence learning (ASL) model states that error patterns in observed actions during physical imi-tation and verbal description are identical, because of the critical role played by the process of visual input compared to theprocess after visual input. Action models were presented that comprised four elements: using right or left hand, using right orleft stick, tapping right or left side of a box, and placing a stick on right or left side. In the condition in which identical elementsof video stimuli and manipulated objects placed in front of participants had the same color, the colored element was correctlyperformed compared to the condition with different colored elements. However, colored element was not correctly performedin the condition in which particular elements of video stimuli were colored, whereas manipulated objects were not colored.These results suggest the important role of the process occurring after the visual input.

Reduced benefit from regularities in language among Dyslexics

The ”Anchoring Deficit” hypothesis (Ahissar et al., Nat Neurosci. 2006) proposed that Dyslexics have a difficultyin automatic extraction of simple stimulus regularities in sound sequences. JaffeDax et al. (J Neurosci. 2015) modelled thesedifficulties as yielding noisy priors.The current study was aimed to assess the impact of long-term regularities in language, which listeners had life long experi-ence with. Our assumption was that this familiarity would enhance Controls’ performance more than Dyslexics’ due to a noisierprior formation among Dyslexics. This question was addressed in a series of experiments - in each there was one condition forwhich information accumulated over the life span could be utilized.In all three experiments Dyslexics did not benefit as much as Controls from the long term statistics associated with the input.These results suggest that Dyslexics could not compensate for the deficit despite multiple exposures to lingual input with thesame statistics.

How the Physicality of Space Affects How We Think about Time

Time is an abstract concept that is better understood when it is mapped onto space. One mechanism to accomplishthis mapping is a reference frame. Previous research has shown the orientation and direction parameters of a spatial referenceframe are involved in understanding time. For example, for English speakers, time is organized horizontally and runs from left(past) to right (future). The current experiments focus on the scale parameter. Experiment 1 changes temporal scale across trials,and illustrates that the scale parameter is set, as evidenced by a cost when the parameter value changes. Experiment 2 examinesthe correspondence between the spatial scale and the temporal scale, requiring participants to map small or large temporaldistances to small or large spatial distances. The results illustrate flexibility in this mapping. Together these experimentssupport the idea that all the parameters of a spatial reference frame are used when understanding time.

Embodiment Effects in Evolutionary Robotics

We evolve simple neural network controllers in swimming robots in order to test the hypothesis that, given distinctdimensions of control for the tail structure, evolution will favor the emergence of modular neural networks as most likely toenhance fitness (successful light harvesting). Evolution does lead to improved fitness, but this does not appear to result fromincreases in modularity. However, an unexpected result highlights the importance of embodiment for the evolution of the agent.The output of the neural network controller is high frequency with many extreme excursions, but the actual movements of thetail are damped by the physics of the body as it interacts with the aquatic environment. Subsequent simulations establish therole of these physical parameters in dampening noisy network controller output. Thus, morphology can increase evolvabilityby acting as a low pass filter of high-frequency controller dynamics.

Perception of math and non-math content in children’s storybooks

Young children acquire informal math ideas through everyday experiences. Research demonstrates that storybookscan link their informal notions to abstract concepts (Murphy, 1999). The integration of visual and written depictions of math-ematics, along with conversations arising from the story, can bolster children’s capacity to communicate and think mathemati-cally. Despite the growing literature supporting use of math storybooks, little is understood about how educators perceive andinterpret the embedded math content. Our study presents storybook pages to educators and asks questions to determine whetherthey are more likely to identify concepts in math (e.g., number) or non-math (e.g., vocabulary) domains. We also analyze theassociation between domain and the degree of abstraction in the language used to describe content in that domain. Preliminarydata suggest that educators ask questions about number concepts at higher levels than expected and character’s actions at lowerlevels than expected.

Your Obstacle on My Mind: Task Co-representation in Coordination is Modulatedby External Timing Cues

When acting in a social context, people have an automatic tendency to represent another person’s task – to theextent that another’s task constraints may influence one’s own movement performance. Task co-representation will also affectco-actors’ performance in joint action coordination; however, how exactly movement parameters are influenced is unclear. Weinvestigated this question in four experiments. Pairs of participants performed arm movements back and forth between twotargets, instructed to synchronize their landing times while external metronome tones provided timing cues. We predicted thatactors would represent their co-actors’ task constraints such that when the co-actor moved over an obstacle the actor withoutobstacle would move higher as well. Results confirmed this prediction, suggesting that joint action partners co-representedeach other’s task constraints. Moreover, this obstacle effect increased significantly when timing cues were removed, indicatinga stronger need for co-representing the partner when demands on interpersonal coordination are amplified.

Prediction of Single-Trial Behavior using a Layered Dynamic Systems Model withEvolutionary Algorithm Updating

In this study we attempted to predict individual participants single trial behavior (response and reaction time) on anon-symbolic number comparison task. Experimental sessions included the completion of the number comparison task alongwith concurrent EEG measures. We then used a dynamic systems model with evolutionary algorithm updating to predict be-havior for each participant independently. The computational model approximated neural coding of number by calculatingtuning curves implemented through multilayered dynamic systems architecture. Typically dynamical systems models of cogni-tion have fixed parameters tailored to the particular task being modeled and selected by the researcher. The models used weredesigned to adapt such that each participant’s model is individually customized to their particular data. Average ERP amplitudeacross occipitoparietal areas were used as model input in addition to participant’s prior responses and reaction time.

The role of viewpoint in event segmentation

The ability to perceive and understand experience is influenced by a process that divides it into meaningful parts.This process, called event segmentation, is frequently studied by asking participants to identify meaningful units of activity infilms that depict it from a third person perspective. However, because segmentation is associated with changes in the perceptualand conceptual features of film, it could differ for films that present the same activity from a first person perspective. This studytherefore examined segmentation for simultaneously recorded films that depicted identical activities from different perspectives.In several experiments participants were asked to segment these movies into natural and meaningful units of activity. Measuresof segmentation frequency and agreement provided little evidence that segmentation reliably differed across first and thirdperson perspectives. These preliminary findings suggest that participants identify similar events when they are viewed fromdifferent perspectives.

Individual differences in verbalization predict change detection performance: Anew perspective on the language-thought debate

The question of whether language affects nonlinguistic processes remains unresolved. Whereas many studies findthat effects of language on such processes are disrupted when verbalization is inhibited, others show that they persist. Weexplored individual differences in the tendency to verbalize as a potential resolution to this discrepancy. We hypothesized thatif language is spontaneously accessed during nonlinguistic tasks, individual differences in verbalization should predict taskperformance. Participants completed a visual change-detection task and the Verbalizer-Visualizer Questionnaire (VVQ), a self-report measure of cognitive styles linked to modality-specific neural systems. We found that higher scores on the “verbalizer”dimension of the VVQ predicted faster but less accurate change detection. These results suggest that some individuals aremore likely than others to use language when performing tasks that do not require it, and hence that effects of language onnonlinguistic processes are more likely to be observed in such individuals.

Do Subliminal Hints Facilitate Sequential Planning When Solving a SpatialInsight Problem?

Subliminal information has been suggested to facilitate insight problem solving. The present study examinedwhether subliminal hints may influence not only retention of the goals but also planning of sequential steps required to solve thenine-dot problem. Using continuous flash suppression, participants were subliminally presented with either an image depictingthe entire solution of the problem, the three steps to solve the problem in a sequential order, or an image of the nine dots thatdoes not involve solution of the problem. Participants presented with the entire solution of the problem tended to show bettersolution performance and greater relaxation of constraints than those in the latter two conditions, whose performance failedto significantly differ from each other. These results indicate that subliminal information may be stored as a global and staticvisuo-spatial representation to influence solution but may not involve planning of each step to achieve insight problem solving.

Electrophysiological markers indicate disturbance of involuntary attention, butnot voluntary attention, in adult ADHD patients

When we cannot concentrate on reading a book, we have problems with voluntary attention. When we stand up andstumble on a chair leg, we have a problem with involuntary attention. A bimanual Stroop task (ST) and the Ericson’s flankertask (EFT) were used for the analysis of voluntary and involuntary attention, respectively. Electrophysiological markers ofattention were applied in adult ADHD patients and yoked control individuals. Behavioral incongruence effects were strongerin patients than in controls in the EFT. P3 latency in the incongruent condition was identical in patients and controls in ST butstrongly delayed in patients compared with controls in EFT. A significant positive lateralized readiness potential indicating theactivation of the false response channel was obtained in the incongruent condition of EFT, being significantly larger in patientsthan controls. The data indicate a disorder of automatic attentional control in ADHD adults despite nearly normal voluntaryattention.

Biased Attention to Spatial Dimensions Predicts Children’s Spatial WordAcquisition

Children’s spatial language abilities relate to their spatial skills. We propose that this relation arises from attentionto spatial dimensions influencing both spatial word and spatial skill acquisition. This study tests whether attending to spatialdimensions in a word learning task predicts spatial vocabulary. Three to 5-year-olds completed a novel word assessment testingcategorization of angles, shapes, and a test of spatial vocabulary. In the novel word assessment, children were presented withan exemplar angle with a novel label and asked to select another angle sharing the label. Foils matched the exemplar in degree,orientation, color, or size. Significant age differences occurred in children’s bias to select foils based on angle degree (butno age differences occurred in exemplar choices based on shape). Children showing an angle bias had significantly higherspatial vocabulary than those who did not. These findings show that attending to relevant spatial dimensions predicts spatialvocabulary.

On Measuring the Difficulty of Scrabble-like Problems

Scrabble-like tasks have increased in popularity as a means of exploring cognitive phenomena, such as embodiedproblem solving, mastery, and creativity. Many of these tasks make assumptions about the key factors driving relative difficultyof word-finding problems; these factors include average frequency of words produced, number of words produced, and numberof readily apparent bi-grams in the initial presentation of the letters. This study measures the effects of each of these factors oncognitive load by systematically and empirically exploring such factors, comparing how these various attributes influence thenumber of words participants produce in different circumstances.

Metaphorical Color Representations of Emotional Concepts in English andChinese Speakers

This project examined whether the cultural and linguistic experiences of English and Chinese speakers can result indifferent metaphorical representations of emotion in those individuals. The Brief Implicit Association Test (BIAT) techniquewas used to measure how strongly various colors are associated with anger, sadness, happiness, fear, envy, shame and shyness.The results showed that some metaphorical associations like red-anger are common in both English and Chinese speakers,whereas other associations are culturally-specific (e.g., red is also associated with happiness in Chinese, while only Englishindividuals associate blue with sadness). Some interesting gender differences were also obtained, such that Chinese femalesassociate shyness with pink, but males with red. Black was associated with fear in both genders in Chinese, but only presentin English males. This study thus demonstrates that the conceptual representations of different emotions are shaped by anindividual’s linguistic and cultural experience.

Feature distinctiveness in verbs: links between verb distinctiveness, child directedspeech and age of acquisition

Feature distinctiveness is a measure representing the uniqueness of objects’ features. Previous research found linksbetween noun feature distinctiveness and age of acquisition (i.e. nouns referring to objects with relatively unique featuresare learned earlier). The present work investigates the links between feature distinctiveness and age of acquisition in verbs.Using high-dimensional vector space modelling, noun and verb feature distinctiveness was represented as Manhattan distancebetween word nodes. Both nouns and verbs showed negative correlations between feature distinctiveness and age of acquisition(words of more distinctive objects learned earlier), suggesting a general distinctiveness bias. This effect was stronger for nouns.An investigation of child directed speech (CDS) from the CHILDES corpus showed a correlation between child directed wordfrequency and feature distinctiveness for nouns (featurally distinctive nouns are more common in CDS), but not for verbs. Thepossible link between distinctiveness in CDS and age of acquisition effects is discussed.

The Effects of Grammatical Aspect and Visual Perspective on ImagingingAccomplishments

We examined how grammatical aspect and visual perspective taking (first- or third-person) influence the abilityto imagine accomplishments. Our main prediction was that it would be easier to imagine completed (I had built the fence.)than ongoing events (I was building the fence.) because accomplishments include natural temporal end points. Slow corticalbrain potentials were examined as an index of the difficulty associated with imagining. Our results showed that participantshad more difficulty imagining ongoing than completed accomplishments, and that it was easier to imagine from the third-versus first-person perspective. The ability of participants to imagine from different visual perspectives was not influencedby grammatical aspect. Participants indicated that the people in their imagined events were more vivid when they imaginedongoing versus completed accomplishments, as well as when they imagined from a third- versus first-person perspective. Asexpected, grammatical aspect influenced which temporal components of events were imagined.

A Cognitive Model of Fraction Arithmetic

Learning about fractions is a critical step on the path to high school mathematics, yet many children never masterbasic knowledge such as fraction arithmetic procedures. To better understand these difficulties, the present study describes acomputational model of fraction arithmetic problem solving. The model demonstrates that the majority of empirically observederrors over all four arithmetic operations can be explained by only two error-generating mechanisms – overgeneralization andrepair. Further, by assuming probabilistic selection of solution procedures using associative strengths learned from experience,the model predicts two other empirical phenomena: (1) variation in error rates and relative frequencies of specific errorsas a function of problem features, and (2) variable strategy selection within and between problems and individuals. Beyondproviding a formal account of errors, the model was used to simulate the effects of variation of instructional parameters, leadingto novel predictions regarding potentially effective instructional designs.

The role of regional topography in route planning

When planning the most efficient route from one location to another, people tend to prefer southern routes overnorthern routes of equal length and complexity. This asymmetry has been attributed to implicit associations between cardinaldirection and relative elevation (i.e., north = higher), and holds even when regional topography conflicts with these associations.No such asymmetry has been observed between eastern and western routes. Here we provide evidence for an eastern-westernasymmetry in participants residing in an environment with east-west topography differences. Residents of Colorado Springs,CO, where topography is mountainous to the west, showed a reliable preference for eastern routes over equal-length westernroutes on a Colorado Springs map, but not an unfamiliar map. This pattern held even though the represented areas contain min-imal elevation differences. Our findings suggest that regional topography can induce a novel, physically unfounded asymmetryin otherwise unbiased representations of the spatial environment.

Sign languages reveal spatial mappings of valence and magnitude

Much research indicates that concepts of magnitude and valence are represented spatially, with more/less and posi-tive/negative relations mapped to vertical and horizontal axes. While these mappings are sometimes manifested linguisticallythrough conventional metaphors (e.g., ”prices fell”), recent evidence suggests that they may be built into the very forms ofwords – traditionally assumed to be arbitrarily related to their meanings. Following previous research, we examined whetherthe directions of hand motions constituting words in two sign languages predicted the meanings of their English translationequivalents. Upward-moving signs were more positively valenced than downward-moving signs, as found previously, but werealso greater in magnitude, or intensity. Additionally, rightward-moving signs (from the signer’s perspective) were more posi-tively valenced than leftward-moving signs, consistent with the bodily experience of right-handers. Our findings demonstratesystematic encoding of multiple spatial-conceptual mappings in words, adding to the growing literature showing non-arbitrarylinks between linguistic form and meaning.

Informant effort expenditure impacts young children’s learning, eye gaze, andtrust

Abstract: Recent research has suggested informant trust is an important factor in preschoolers’ observational learn-ing. This poster will present data from an ongoing study examining if 3.5- to 6.5-year-old children (current n=24) relateperceptions of effort and trust. Children watched two informants solving problems using different solutions, exerting eitherhigh or low effort. Children’s eye gaze, trust of each informant, and learning from informants were measured. There were nosignificant differences in trust of the two informants, but children were significantly more likely to learn the solution demon-strated by the high effort informant, t(23) = 2.161, p = 0.041. High effort informant trust was also significantly related totime spent looking at the high effort informant, r = 0.675, p < 0.01. These findings indicate children are more likely to watchinformants who exert high effort and are more likely to use those solutions when faced with a novel problem.

Audio-Visual Task Switching in Multisensory Environments

The majority of task-switching research has focused on shifting attention between multiple tasks in the same percep-tual modality (i.e., visual) within a single task domain. However, typical environments are not unisensory, and typical responsedecisions often involve multiple task domains. This study examines multisensory task-switching costs and the interactions ofseveral variables, including perceptual modality of the cue, perceptual modality of the target task, type of task completed (i.e.,spatial or identity decisions), and availability of foreknowledge. The design is marked by no redundant multisensory infor-mation and minimal memory demands. Performance costs varied as a function of whether participants had foreknowledge ofupcoming task and/or modality presentation. Consistent with previous research, the current results also show that performancecosts between tasks were significantly smaller (and essentially, eliminated) when the sensory modality of the task switchedversus when it repeated. However, this result was contingent on manipulations of the experimental design.

Causal Representation in Foresight: Can We Improve Memory and NovelUnderstanding?

Learning facts without first considering what they could be can lead to hindsight bias. How might this impact (a)memory and (b) understanding of novel topics? Foresight participants read about five psychology studies, including meanperformance of one group; then they estimated the mean performance of another group and stated causes for the difference;finally, they received the second group’s actual performance. Hindsight participants learned about both groups’ performance atthe beginning, then imagined what estimates and causes they would have indicated had they not seen actual means. A weeklater, half of each group recalled the means they had learned, and other half estimated means for a novel set of studies. Weconsidered the extent to which: 1. foresight promotes long-term memories as opposed to providing an anchor that biasesmemories; 2. foresight cultivates a habit of considering alternative possible outcomes that might help one understand noveltopics.

From computation to automization: How practice alters initial neural response tofamiliar arithmetic problems

Building and validating models of skill acquisition that explain speedup effects has been limited by difficulty dis-tinguishing quickly executed cognitive processes (e.g. Anderson, 1982; Logan, 1988; Rickard, 1997). In this experiment,magnetoencephalography (MEG) data are collected from participants solving a repeated math problem set. We use MEG signalto test the three-phase model of skill acquisition that describes the transition from problem-solving strategies of computation,to retrieval, to an automatic stimulus-response process (Fitts & Posner, 1967). We hypothesize that the processes of familiarityand recollection are early features that distinguish the three phases of skill acquisition. Analyzing event-related fields, we testtwo predictions. First, early frontal activation (akin to the FN400 old-new effect of ERP studies) should diminish in strengthwith each successive phase transition. Second, parietal activation (corresponding to the ERP P600 old-new effect) should bepresent in the second phase, but not in the first or last phase.

Influence of Need for Cognition and Cognitive Closure on Magic Perceptions

From children’s parties to acts in Las Vegas, magic is one of the world’s most timeless forms of entertainment.Current psychological research on magic has started to focus on how magicians are best able to elicit the observer reactionsassociated with their craft, such as what methods are most successful, as well as what cognitive mechanisms are specificallydriving the observers’ reactions. However, while research examining the practice of magic from a psychological perspectivehas been expanding, few studies have looked at how cognitive individual differences influence an observer’s magic perceptionsand experiences. In a collaboration with award-winning magician, Joshua Jay, we examined the impacts of Need for Cognition(NFC) and Need for Cognitive Closure (NFCC) on magic perceptions. Results showed that NFC and NFCC had opposite effectson engagement (i.e., rewatching and solution generation) and that frustration levels were behavior drivers for participants withhigh NFC or low NFCC.

Asymmetric derivational priming in recognition of Greek nouns and verbs

We examined differences between the processing of inflectional versus derivational morphology, using Greek nounsand verbs with a primed lexical decision task. Previous work suggested that both noun and verb targets were significantlyprimed by the same grammatical class. However, when preceded by different grammatical class, verb but not noun targetsshowed priming. We attributed the asymmetrical priming to the materials used: noun stimuli were derived by their verbcounterparts, suggesting an important inherent asymmetry between nouns and verbs. To further investigate this suggestion,we used materials with the opposite asymmetry (verbs derived by nouns) expecting an asymmetry in the opposite direction toemerge for derivationally related words. A clear explanation of the asymmetry would allow us conclusions about the (debated)existence of differences in representation and processing between inflectional and derivational morphological relations and thusprovide evidence for or against a fully decompositional view of processing morphologically complex words.

Linear separability and human category learning: Revisiting a classic study

The ability to acquire non-linearly separable (NLS) classifications is well documented in the study of human categorylearning. In particular, one experiment (Medin & Schwanenflugel, 1981; E4) is viewed as the canonical demonstration that,when within- and between- category similarities are evenly matched, NLS classifications are not more difficult to acquire thanlinearly separable ones. The results of this study are somewhat at issue due to non-standard methodology and small samplesize. We present a replication and extension of this classic experiment. We did not find any evidence of an advantage forlinearly separable classifications. In fact, the marginal NLS advantage observed in the original study was strengthened: wefound a significant advantage for the NLS classification. These results are discussed with respect to accounts provided byformal models of human classification learning.

Concept of a Deity: Structure and Properties

Individuals attribute more psychological (e.g., forget) than biological (e.g., eat) or physical (e.g., be touched) prop-erties to supernatural beings (Shtulman, 2008). It is unclear how those domains each contribute to an overall conception of asupernatural being (e.g., God). Undergraduate students (N = 341) responded to nine questions representing the three domainsor factors (psychological, biological, and physical), composing an overall measure of God’s anthropomorphic properties.A confirmatory factor analysis was performed to assess the structure of undergraduates’ anthropomorphic concept of God. Fitindices suggest acceptable model fit, χ2(24) = 73.09, p < .001, CFI = 0.952, SRMR = .051. All loadings were significant. Bi-ological (0.99; 0.01) and physical (0.90; 0.19) factors loaded more strongly onto anthropomorphism, and had smaller variances,than the psychological (0.67; 0.56) factor. These findings suggest there are varied ways of conceptualizing the psychological(versus non-psychological) properties of God; thus, non-psychological properties are more predictive in God concepts.

Do peer interactions influence infant communication development?

Studying infants in daycare or school settings enables us to ask whether infants influence each others’ development,and if so, whether peer influences are similar to influences from adult caregivers. Answering these questions will not onlyinform infant educators but can also help us understand the mechanisms underlying infant learning. We have collected audiorecordings from 21 1- to 21-month-old infants in two infant rooms in our campus early childhood education center. Recordingstook place nearly every school day over a continuous 8 month period, for an average of 231 hours of recording per child.Multiple infants within the same room were recorded simultaneously. We will present our approach to synchronizing, coding,and analyzing these recordings toward the goal of understanding peer influences on vocal communication development, presentpreliminary results, and seek input on how to further analyze this large and unique dataset.

How event endstates are conceptualized in adults and infants

Many event descriptions are true only when the event comes to its natural end point: e.g., a “feeding” event culmi-nates when the feed-ee has eaten, not simply when food is provided. Do non-linguistic event conceptualizations reflect attentionto natural culmination points? We tested adults and 14-month-olds to ask: provided two events with the same ACTION butdifferent ENDPOINTs - one a naturally expected result, the other only partially achieved - do adults and infants perceive themas members of the same event category or of different categories? Adults were asked to rate the similarity between the twoevents; infants were habituated to one event and tested for dishabituation when it was switched to the other. Adult data suggestthe difference between a complete and a partially-complete event is registered, and carries more psychological weight than amere perceptual difference. Infant data (ongoing) will show the developmental origin of such conceptualizations.

ADHD modulates link between event processing and recall

How might ADHD symptomatology influence adults’ ability to process and recall the actions of others? Universityundergraduates observed a woman packing a suitcase by advancing through a self-paced slide show of still images extractedfrom a digital video, and were then asked to recall as many actions as possible. Results showed that lower self-reported retro-spective ADHD symptomatology was associated with a) longer overall dwelling on images from the slideshow, r(91) = -.315,p=.002, and b) recall of more actions r(85) = -.237, p=01. Further, exploratory analyses indicated that ADHD symptomatologymodulated the specific linkage between dwell time patterns and stronger recall: Attention to fine-grain details within activityimproved recall for those reporting higher ADHD symptomatology; those reporting lower ADHD symptomatology displayedstronger recall when prioritizing attention at a more coarse-grain level, F(1,83) = 4.19, p=.04. These findings offer suggestivenovel evidence that ADHD has implications for event processing.

The sequence of study changes what is encoded during category learning.

This work investigates how the sequence of study influences encoding and memory for different properties of thecategories studied. We used a transfer task with different types of items and show that following blocked study learners aresensitive to category properties that were presented frequently in the category (but were not diagnostic of category member-ship). However, following interleaved study learners do not seem to be sensitive to changes on these non-diagnostic properties.Moreover, when asked to judge different properties for their relevance for category learning (cue and category validity), partic-ipants rate discriminating properties more highly than similarities following interleaved study, but not following blocked study.These results are consistent with previous evidence and are captured by an exemplar model that takes into account the sequenceof exemplars during learning by changing the likelihood of attending to and encoding different object properties depending onsequential similarities.

Finding Clarity Amidst the Clutter: How Parents Name Objects

A core issue in the study of word learning is understanding how beginning learners cope with referential ambiguityin the clutter of natural learning environments, and how parents may help them find the referent in that clutter. Here we ask howsensitive parents are in taking advantage of optimal visual moments where a single object is visually large in view to providelinguistic labels for their infants. Using a mini-head camera, we recorded parent-child free play interactions and studied theparent naming events for 12 and 30 month old children from the infant-perspective in a context of high clutter (30 objectsdumped on the floor). Despite the cluttered context, parents and infants frequently created infant-perspective scenes in whichone object was visually singled out. At both age levels, parents named objects in these moments of visual clarity and almostnever named objects in sub-optimal moments.

Relational discovery in category learning: interactions of learning strategy andtask structure

Often failures of problem solving on educational assessments are failures of problem categorization. That is, whenreasoners do not properly classify a novel problem they do not know what solution to apply. For example, often physics studentsdo not recognize the underlying commonalities in the relationships among the variables in different problems concerningNewton’s laws of motion (Chi, Feltovich, & Glaser, 1981). Addressing this challenge there have been separate lines of researchexamining 1. how differences in students’ learning strategies or cognitive abilities affects their propensity to discover relationalcommonalities (e.g., Little & MacDaniel, 2015) and 2. how variations in task structure change the likelihood of successfulcategorization (e.g., Roher & Pashler, 2010). However, relatively little research has examined whether the optimal task structuredepends on the learner’s strategy or ability. Across several experiments, we demonstrate multiple dependencies between theeffectiveness of different task structures on differences in learning strategy.

The effect of loss and gain expression in the riddle on insight problem solving

Previous studies suggested that heuristics sometimes obstructed solving particular insight problems (e.g. Knoblich,1999). Abe & Nakagawa (2008) took up the Cheater Detection Model (CDM: Cosmides, 1989) as an adaptive heuristic withinsocial environment, and suggested that it has a negative influence on the ‘missing dollar’ riddle. In this study, we examined thesame type of insight problem from a different point of view, i.e., the balance of loss and gain. We made two isomorphic riddles:in one riddle some amount of money was lost and was never found (the loss condition), and in another riddle the same amountof money was spent for additional service (the benefit condition). The percentage of correct answer was significantly higher forthe latter. The result suggested that the balance of loss and gain influenced the cognitive set of the participants. The occurrenceof loss might draw their attention on outflow of the money.

Beyond the 64 Squares: Does Chess Instruction Enhance Children’s Academicand Cognitive Skills? A Meta-Analysis

In recent years, pupils’ poor achievement in mathematics has been a concern in many Western countries. Chessinstruction has been proposed as one way to remedy this state of affairs, as well as improving other academic topics and generalcognitive abilities. The aim of this paper is to quantitatively evaluate the available empirical evidence that skills acquired duringchess instruction in schools positively transfer to mathematics, reading, and general cognitive skills. The selection criteria weremet by 24 studies (40 effect sizes), with a total of 5,221 participants. The results show (a) a moderate overall effect size (g =0.34), and (b) a significant positive effect of duration of treatment (p < .05). However, almost no study controlled for placeboeffects by using an active control group. For this reason, there are still doubts about the real effectiveness of chess instruction –in spite of some promising results.

Memory biases in matching and recall: Evidence from initial consonant clusters

Perception and memory of linguistic information is biased in favor of stimuli that conform to structural regularities.At the level of word form, there is evidence that initial consonant clusters varying in grammatical status (e.g., br vs. *bn,*bd, *rb) differentially affect response times in same-different matching (e.g., slower responses to rbif - REBIF than to brif- BERIF; Berent & Lennertz, 2010). Previous results are consistent with two hypotheses: non-conforming clusters could bemodified by a specific ’repair’ (e.g., rbif recoded as rebif), or the encoding of such clusters could be more uncertain and theirrecall more variable. A series of matching and full-recall experiments support the second hypothesis: the response time effectfor non-conforming clusters is observed for both *rbif - REBIF and *rbif - RBIFE, but only the former ’repairs’ the cluster;furthermore, errors made in recall exhibit high variability and do not systematically improve structural well-formedness.

Assessing Science Inquiry using MDP Goal Detectors

Complex cognitive tasks, such as science inquiry, often involve a sequence of goals, each of which is pursuedthrough a sequence of actions. Effective assessment of inquiry performance requires identification of these student goals.Markov decision processes (MDPs) have been used to infer goals and beliefs over a single directed sequence of actions (Bakeret al., 2009), but multi-goal complex systems are computationally prohibitive to model. This research investigates the useof targeted MDPs as goal detectors, embedded within a larger hidden Markov model (HMM) that accounts for the transitionbetween goals. This multi-layer approach allows the MDP state spaces to remain small while modeling complex cognition.Because canonical HMM estimation is complicated by the dynamic nature of MDPs, in which action probabilities depend oncontext, we explore several different estimation methods. The approach is applied to log-file data of test-taker interactions witha simulation-based science inquiry assessment.

Metaphor and Memory: How Metaphors Instantiate Schemas in and InfluenceMemory of Narrative

Metaphoric frames are prominently featured in public discourse. They highlight certain aspects of the target issuesthey are used to describe, thereby encouraging specific patterns of inference. Our goal was to test whether they would influencememory as well. Building off prior work, we contrasted two metaphors for crime: virus and beast. In a pilot study, we identifiedspecific causes, examples, and solutions to crime that were congruent with each frame (one but not the other; e.g., people thought“drug use” better exemplified a crime virus, whereas “murder” better exemplified a crime beast). Participants (n = 469) read orlistened to a short metaphorically-framed crime report, completed a filler task, and were prompted for the information they hadseen/heard. Results indicated the virus metaphor facilitated memory, overall, but not the specific frame-congruent information,suggesting a more general influence of the frame than predicted.

Is human learning driven by Prediction Error?

Prediction Error [PE] is a core component of some of the most influential theories of how animals use experiencesto update their knowledge (e.g, Rescorla & Wagner, 1972). The classic demonstration of PE is the single-cell recording doneby Schultz and colleagues (1997). However, there is no evidence that this signal plays any role in learning.Only two studies have related a neural correlate of PE to learning performance so far (Gl ̈ascher, Daw, Dayan, & O’Doherty,2010; McGuire, Nassar, Gold, & Kable, 2014). We provide a formal analysis demonstrating that non-PE learning can alsoexplain the results of these studies if the imaging signal they identify relates to the size of weight updates instead of PE.We conclude that the case for PE driving many forms of animal learning is not yet sufficiently proven, and identify approacheswhich can potentially resolve this question in future.

Modeling the Influence of Knowledge on Recognition: Connecting visualrecognition behavior across development to PDP computational models ofsemantic knowledge

Recent behavioral findings in children’s selection of a “real” versus “silly” animal demonstrated a developmentalchange wherein younger children select chimeric animals with regular forms (e.g., a seal with four legs, a camel with no hump)as real. To reduce verbal demands while maintaining the same stimuli, we developed a touch screen change-detection task inwhich children (4 – 7-years-old) were instructed to locate a single changing feature (e.g., a rhinoceros with and without a horn)as fast as possible. Children were faster to find changes when the feature appeared on animals with more prototypic animalforms (e.g., a donkey with and without a hump) when compared to animals with atypical forms (e.g., a camel with and withouta hump). Alongside exploration via computational models, these findings suggest that children’s real-world object recognitionis supported by the interplay of semantic knowledge, informed by covariation among visual features, and visual recognition.

Explanation-based discourse inferences support early word learning

Children can learn new words from non-instructive contexts (e.g., overheard speech). Recently, it has been proposedthat one way that children do this is by using the surrounding discourse to constrain the interpretation of new words (Sullivan& Barner, 2015). However, little is known about what sort of discourse inferences children might compute when learning. Inthe present study, we adopt a discourse-coherence framework (e.g., Rohde et al., 2006) in order to explain how preschoolers(N = 96, M = 49.2 months, range: 28-65 months) learn new words from discourse. We ask whether young children computeadult-like discourse coherence relations across clauses, and provide some of the earliest evidence that they do. We then relatechildren’s ability to compute these discourse coherence relations to their ability to learn a novel word from that discourse,demonstrating the relation between the computation of discourse coherence and early word learning.

Moral language in the Basel Accords: A quantitative analysis

Technical documents are generally perceived as objective and free of opinion. The Basel Accords, a global financialregulatory standard, fall into this category. Therefore, political texts have to appear as morally neutral.In this paper we argue that some moral arguments and convictions can be found in most texts, including technical ones. Totest this hypothesis, we employ a novel quantitative analysis, based on corpus statistics and uncover elements of moral languagethat are present in the Basel Accords. In particular, we investigate the differences between the language used in different partsof the Accords and how it evolved over time.Our results show an increase in moral language that emphasizes fairness following the financial crisis of 2007-2009. Incontrast, moral language relating to authority greatly decreased in the most recent version of the Accords.

Measuring Cognitive Skills through Conversation-Based Assessment

Conversation-Based Assessment (CBA) represents a relatively new method of measuring student cognitive skills(e.g., science reasoning) through adaptive dialogues with automated characters. This approach leverages the openness ofnatural language with the interactivity of spoken dialogue to engage students in verbal reasoning and constructive processes(i.e., cognition). These two dimensions differentiate CBA from other assessment items (e.g., multiple choice and essays) byallowing for more freedom in responses along with the ability to adapt and follow-up on particular threads of information.The conversational exchange affords a rich data stream that can provide additional explanatory evidence of students’ cognitionexhibited through conversational content and dialogue paths. The current work, built on the AutoTutor dialogue engine, willdiscuss the affordances and constraints of CBA along with how this approach may complement and enhance other methods ofmeasuring of cognitive skills.

Single-kernel models of single-voxel visual selectivities in convolution neuralnetworks

The translation of retinal images into recognizable objects and scenes is not yet well understood. Beyond edge-detection in primary visual cortex, higher stages of cortical representation are still uncertain. We use a multi-layer convolutionalneural network (Krizhevsky, 2012) to provide models for visual selectivities in the ventral visual pathway. We examine individ-ual neural units, or ”kernels”, in CNN layer 2, correlating kernel activity to single fMRI voxel activity for 1750 natural images(Kay, 2008). Building on G ̈uc ̧l ̈u (2015), we find most significant voxel-kernel correlations in V2, with additional matchesthroughout the ventral pathway. Notably, only 25% of kernels correlate with voxel responses — many voxels correlate with aconsistent small set of kernels. Inhibition of voxel response for kernel selectivities also was observed. Our results indicate alimited number of CNN kernels may be used to gain a finer understanding of voxel level representations in the mid-level ventralvisual pathway.

Attentional Resource Allocation in Multisensory Processing is Task-dependent

Human information processing is constrained by limited attentional resources. A matter of ongoing debate inmultisensory research is whether attentional resources are shared or distinct across sensory modalities. Previous researchsuggested that the type of tasks that humans perform in separate sensory modalities determines whether attentional resourcesare shared or distinct across sensory modalities. Here, we investigated the relation between attentional resources and theperformed type of tasks in four experiments using a dual task paradigm. We found shared attentional resources for vision,haptics and audition when two purely spatial tasks were performed in separate sensory modalities (Experiment 1 & 2) whilewe found distinct attentional resources for the same sensory modalities when a spatial task was performed together with adiscrimination task (Experiment 3 & 4). Overall, our findings suggest that the distribution of attentional resources is operatingat a task-level independent of the involved sensory modalities.

Cognitive Predictors of Timed and Untimed Early Arithmetic Performance

Do established predictors of children’s arithmetic performance differentially predict performance on timed versus un-timed calculation tests? We investigated phonological awareness (i.e., CTOPP), phonological working memory (i.e., digit span),and visuo-spatial short-term memory (i.e., Corsi blocks) as predictors of timed and untimed calculation, both concurrently inGrade 1 (N= 116) and longitudinally in Grade 2 (N = 79). Timed calculation was operationalized as single-digit addition fluencyand untimed calculation was operationalized as performance on the Woodcock Calculation subtest and KeyMath Numerationsubtest. Examined concurrently, separate multiple regressions revealed that phonological awareness predicted timed calcula-tion and all three cognitive measures predicted untimed calculation performance. Examined longitudinally, separate multipleregressions revealed that phonological awareness again predicted timed calculation and that phonological awareness and visuo-spatial short-term memory predicted untimed calculation performance. These results suggest a difference in the predictive setbetween timed and untimed calculation tests; furthermore, a difference between concurrent and longitudinal predictors.

On the Evaluability of Effort: Influences of Single and Joint Evaluation onJudgments of Subjective Effort in Memorial, Motor, and Perceptual Domains

Theories attempting to explain the evaluation of subjective values often stress the importance of the context in whicha judgment is made. One such theory, the General Evaluability Theory (GET; Hsee & Zhang, 2010), suggests judgments areparticularly sensitive to evaluation mode (i.e., a single or joint evaluation). Importantly, deviations in the patterns of judgmentsof a value across single and joint modes are argued to reflect the degree to which individuals can consistently evaluate thatvalue (i.e., the extent of evaluability). We applied this framework to a novel context, specifically the evaluation of effort.Individuals made judgments of effort across memorial, motor, and perceptual domains in single and joint evaluation modes.Results demonstrated that memorial and motor effort judgments remained largely consistent across modes, whereas perceptualeffort judgments did not. These results provide initial evidence that at least some types of effort may not be evaluable.

Towards a Pre-Newtonian Intuitive Physics of Object Collisions

Some researchers have argued that mass perception, causal ascriptions, and predictions in simple billiard ball in-teractions can be modeled as inductive Bayesian inference over a (noisy) Newtonian representation of the world. However,there are phenomena, such as the asymmetrical ascription of forces to colliding objects, that are conceptually incompatible withthe symmetry of Newtonian physics. We propose that human inference in physical scenarios operates over a pre-Newtonianphysical representation that is based on impetus intuitions. Impetus theories assume that object movements are caused by aninternal force, impetus, that is transferred and reflected when objects collide with each other. Moreover, impetus interactionsare inherently asymmetric. We present a mathematical model that implements impetus theory and show that the theory is wellsuited to model perceived causal asymmetry. Moreover, the theory can also explain phenomena that so far have been presentedas unique evidence for (noisy) Newtonian representations.

Parsing Selective Attention and Executive Function in Children

Selective attention is related to a range of cognitive abilities, including executive function (Lawson et al., 2014).Orienting attention to visual and auditory targets are component skills inherent in many cognitive assessments, making it oftendifficult to parse cognitive capacities from selective attention abilities.The fundamental, early-developing nature of somatosen-sory processing (Saby et al., 2015) make it a compelling sensory domain within which to study top-down attentional processes.This presentation describes the initial results of a study examining how the electrophysiological indicators of selective atten-tion, specifically the ability to focus attention on tactile stimuli, relate to children’s executive function. Results will parse therelations between a composite of executive function tasks and the EEG mu rhythm response of participants when anticipatingtactile stimulation of the hand. The implications of individual differences in somatosensory selective attention are discussed inlight of cognitive assessment design, SES-related discrepancies in attention, and bodily awareness.

The effect of disfluency on mind wandering during text comprehension

Perceptual disfluency of a text can operate as a desirable difficulty, presumably because it leads to better comprehen-sion. However, little is known about what cognitive mechanisms support this benefit. Here, we investigate whether sustainedattention, as measured by reports of mind wandering (i.e., lapses in attention) during reading, mediates the relationship be-tween disfluency and text comprehension. We manipulated the typeface (fluent: Arial; disfluent: Comic Sans) of two textson research methods. A total of 208 participants recruited online read either one of these texts, either in a fluent or disfluenttypeface, followed by a series of text level and inference level comprehension questions. We found that mind wandering wasless frequent when participants read disfluent text. Importantly, our results show that the relationship between disfluency andtext level comprehension was indirectly mediated by mind wandering, suggesting that sustained attention is one of the cognitivemechanisms by which disfluency influences comprehension.

Choosing Poorly: Reward-Induced Strategy Shifts in Estimating the Probabilitiesof Conjunctions and Disjunctions

Human estimates of the probabilities of combinations of events show well-established violations of probabilitytheory, most notably the conjunction and disjunction fallacies. These violations have led researchers to conclude that therules of probability are too complex for most people to use, and that cognitively-easier approximations such as averagingare used instead. Unlike previous work that has assumed that individuals use only a single combination rule, we collectedrepeated estimates of conjunctions and disjunctions and investigated whether individuals consistently used a single rule orused a repertoire of rules in a trial-by-trial Bayesian analysis. When not incentivized, most participants were best describedas randomly selecting a combination rule on each trial, and the correct rule was the most often used. Despite this, whenincentivized to use their single-best strategy participants were more likely to use the incorrect averaging rule. People do notseem to understand their own strategies well.

The presence of meaning constrains productive language processes: A test of thelanguage game hypothesis in type writing.

How does meaning influence cognitive processes involved in the production and reception of language? Thelanguage-game hypothesis (LGH) states that meaning acts to constrain the cognitive processes involved in language comprehen-sion. The degree of constraint can be gauged by measures of structuredness of a process, e.g. using Recurrence QuantificationAnalysis (RQA). LGH was originally formulated in the area of reading. The present study investigate its generalization toproductive language processes, i.e. writing. In this study participants copy-typed a comprehensible text, written in their nativelanguage, and an incomprehensible text, written in an unfamiliar language. The writing process was recorded via key-loggingand the time-series of inter-stroke-intervals was subjected to RQA. Results showed that comprehensible texts significantly in-creased the degree of structuredness of the writing process compared to incomprehensible texts. This suggests that meaningdoes indeed constrain language processes, and that this is the case for receptive and productive language tasks.

Modular versus Integrated Causal Learning

Many pieces of information are potentially important to causal inference. Determining whether vitamin C preventscolds may entail knowing the frequency with which colds occur without vitamin C, other cold inhibitors, and the frequencyof vitamin C use. Do reasoners integrate all this information to create coherent beliefs? In contrast to models emphasizingmodular causal learning (e.g., Cheng, 1997), McDonnell, Tsividis, & Rehder (2013) proposed an integrated model, positingthat individuals simultaneously update their beliefs about all components of a causal network. We tested modular versusintegrated learning in two experiments using a retrospective inhibition design. In both, participants learned about two causesof headaches sequentially across two phases. We manipulated the base rate of headaches in phase II to be either consistentor inconsistent with phase I learning. Across experiments, participants failed to use base rate information as predicted by theintegrated model, supporting modular causal modular learning.

A normative theory of visual working memory limitations

There are many benefits to having a highly accurate representation of the environment. Why, then, has evolutionequipped us with a visual working memory (VWM) system that can represent only a handful of items with high accuracy?Here, we offer a normative explanation for this limitation by conceptualizing VWM as a system that balances between twoconflicting goals: keeping memory errors small and spiking activity low. We formalize this trade-off in a loss function andshow that minimization of loss dictates a strategy in which memory precision declines with the number of remembered items.Using psychophysical data from 67 human subjects in 5 delayed-estimation experiments, we show that this normative modelprovides an excellent account of human VWM limitations. These results suggest that human VWM implements an optimalcompromise between two conflicting ecological goals

Verbs of Explanandum seem Crucial in Evaluating Explanations

Many previous studies have assumed that the domain of the explanandum determines which type of explanation,mechanistic or teleological, people prefer (domain theory). In this study, I proposed that the explanandum’s thematic relation,which is mostly determined by the predicate, i.e., action verb or state verb, is crucial for the explanation type preference(thematic relation theory). To compare the two theories, participants were asked to read a sentence describing the explanandum,and then judge the appropriateness of two explanations for the explanandum, mechanistic and teleological, one after the other.Order of the two explanations were counterbalanced over participants. The domain and thematic relations were manipulated byvarying the subject and the predicate of the explanandum. Mechanistic explanations were preferred when the predicate was astate verb, whereas teleological explanations were preferred for an action verb. Results of the experiment gave support for thethematic relation theory.

Network Analysis of Characters’ Relationship in ”Chronicle of Death foretold”using Graph Theory

Over the past decade, there has been an explosion of interest in network analysis research across the social sciencesand computer science. As it is an idea that can be applied in many fields, this study, in particular, its influence in the literature.We present a method for extracting social networks from literature. This study focuses on the relation between novel itself,narration in fiction and was carried out experiments with 89 undergraduate students. They were instructed to write down theirremembered memory of the novel after reading the novel ‘Chronicle of a death foretold.’ We extract features from the socialnetworks of characters in students’ recall story and examine their differentiation with one another, as well as novel’s setting.This study compares graph theory–based cohesion measures characters’ relationship in novel and students’ story. Our resultssuggest an alternative explanation for difference in social networks.

The construction of function representations

Whether learning how pressing on the gas pedal of rental car will affect its acceleration or learning how changingthe volume of speakers affects the perceived loudness of the sound they produce, humans can quickly learn functions from afew examples. Recent hybrid models (Lucas et al., 2015) combine the structure of rule-based models with the flexibility ofsimilarity-based models by exploiting the equivalence of Bayesian linear regression and Gaussian processes. We expand onthese models by taking advantage of the compositional nature of Gaussian processes and imposing a generative grammar overa set of base components in order to build the structured but diverse hypothesis spaces that appear to be represented by people.Subsequent testing will compare this model’s ability to reproduce people’s learning difficulty rankings of different functions,extrapolation results, and representations of multiple overlapping functions to that of other hybrid models.

Infants’ Developing Coordinated Visual-Manual Object Exploration and Linkswith Vocabulary Development

Research has demonstrated links between visual and manual object exploration and infants’ object perception (e.g.,Soska, Adolph, & Johnson, 2010). However, systematic investigation of the development of visual and manual object explo-ration and potential cascading effects on early word learning is lacking. In a longitudinal study of infants aged 9 to 24 months,we captured dynamic visual and manual information using head-mounted eye tracking and motion tracking of infants’ handsas infants and their parents played with objects. Parents completed the MCDI vocabulary assessment at every visit. We willpresent preliminary data investigating individual and developmental differences in visual and manual object exploration, theresulting object views that are generated, and their relation to word learning. The results will inform our understanding of therelations between motor development, visual attention, and word learning in infancy.

Measuring individual and developmental differences in children’s sense ofconfidence

From something as simple as judging the time to more complicated behaviours like answering trivia questions, ourcognitive systems always provide us with a representation of confidence: the probability of being correct. The developmentof confidence has been a long-standing issue in cognitive and developmental science. However, most studies assess children’sconfidence through either extensively trained numerical or verbal scales (“I am sure”), or by asking children to gamble on theiranswer. These measures stand to confuse metacognition with the development of language and inhibitory control. Here, wevalidate a novel model and task that measures individual and developmental differences in confidence relatively (“Are you moreconfident in X or Y”). Subsequently, we apply this task to demonstrate that metacognitive abilities of children aged 5–8 showsignificant development in the domain of intuitive number representations. These results are discussed in a broader context oftheory and measurement of metacognition.

Assessing children’s reading comprehension by the component processes tasks

The purposes of this study were to develop a theoretical-based, comprehension process assessment and to measurechildren’s reading comprehension processes. This assessment was based on Hannon & Daneman’s (2001) paradigm and Han-non & Frias’ (2012) component processes tasks, including the memory measure, the inference measure, knowledge access andintegration measure, and modified to two parts in order to assess 4th to 6th graders’ reading comprehension processes. Wereduced the difficulties and complexity of this comprehension measure for younger children. Four-hundred-and-fifty partic-ipants (at 4th to 6th grade level) were recruited from four elementary schools in Chia-Yi, Taiwan. The results show that theCronbach’s alpha coefficients were .75 to .87 and the citerion-reference validity was around .70 to .75 with the Chinese ReadingComprehension Test. There were good item discriminations and difficulties, analysed by the Rash model.

Linguistic alignment with artificial entities in the context of second languageacquisition

Native-speakers often adapt to non-natives in order to foster mutual understanding and successful communication,sometimes with the negative outcome of interfering with successful second language acquisition (SLA) on a native-speakerlevel. In two experimental studies we explored the potential of artificial tutors to avoid inhibition effects and exploit linguisticalignment processes in HCI for SLA. Study 1 (n=130 non-native speakers) investigated the influence of system voice (text-to-speech vs. pre-recorded speech) and embodiment (virtual agent vs. robot vs. speech based interaction) on participants’perception of the system, their motivation, their lexical and syntactical alignment during interaction and their learning effectafter the interaction, while in Study 2 (n=85) embodiment and the presence of expressive nonverbal behavior were varied. Thevariation of system characteristics had barely influence on the evaluation of the system or participants’ alignment behavior.Moreover, although participants linguistically aligned this did not result in significant short-term learning effects.

Temporal event clustering in speech versus music

Both speech and music can be organized as hierarchical, nested groupings of units. In speech, for instance, phonemescan group to form syllables, which group to form words, which group to form sentences, and so on. In music, notes can groupto form phrases, which group to form chord progressions, which group to form verses, and so on. We present a new methodfor extracting events (amplitude peaks in Hilbert envelopes of filter banks) from speech and music recordings, and quantifyingthe degree of nesting in temporal clusters of events across timescales (using Allan Factor analysis). We apply this method tomonologue recordings of speech (TED talks) and also to solo musical performances of similar lengths. We found that bothtypes of recordings exhibit nested clustering, revealing similar organizational principles, but that clustering is more pronouncedon shorter timescales (milliseconds) for speech, but longer timescales (seconds+) for music.

Developmental deficit in autobiographical episodic memory: Evidence fromWilliams syndrome

Williams syndrome (WS) is a genetic developmental disorder characterized by severe spatial impairments andstructural and functional abnormalities in the hippocampus (Meyer-Lindenburg et al., 2006). Although the spatial deficit iswell-documented, we know little about other deficits that would be predicted by the hippocampal abnormalities. Here, weexamine episodic memory (i.e. memory for personally experienced events in a spatio-temporal context, Tulving, 1983), askingpeople with WS to recount past personal events. We use an interview method developed for patients (Levine et al., 2002) andtypically developing children (Willoughby et al., 2012). People with WS recounted significantly fewer episodic details thanage-matched controls. Importantly however, they offered just as many semantic details (reflecting general world knowledge),indicating that global factors (e.g., verbal skill or IQ) cannot account for these results. Our work identifies a specific cognitivedeficit in WS and further highlights the critical involvement of the hippocampus in episodic memory.

Building bilingual semantic representations based on a corpus-based statisticallearning algorithm

In the current study, we applied a corpus-based statistical learning algorithm to derive semantic representations ofwords under bilingual situations (English and Chinese). The algorithm relies on the analyses of contextual information extractedfrom a text corpus, specifically, analyses of word co-occurrences in a large-scale electronic database of text. Particularly, weexamined how the semantic structure of L2 words can be built based on and influenced by the semantic representations of L1words in a sequential L2 learning situation. We got the semantic representations under various conditions and the results wereprocessed and illustrated on self-organizing maps, an unsupervised neural network model that projects the statistical structureof the context onto a 2-D space. We further discussed a couple of factors that affected the validity of the representations.

Deconstructing the multi-dimensional Aha! experience

The Aha! experience is not a unitary construct, and several different dimensions have been proposed as its con-stituents. However, a systematic analysis of how much each purported dimension predicts the overall Aha! experience isneeded. Presented with a large set of difficult problems (magic tricks), participants were asked to rate their solving experiencewith regard to suddenness in the emergence of the solution, certainty about the solution, surprise, pleasantness, relief, and drive.The strongest correlations with an overall Aha! rating on correct solutions were found for the dimensions of pleasantness, re-lief and certainty. Suddenness and drive were correlated to a lesser extent. No significant correlation was found for surprise.These results question the wisdom of the established approach of using a multi-component operational definition for the Aha!experience that encompasses suddenness, certainty and surprise. The positive affect that comes with discovery seems betterexpressed as pleasantness or relief than surprise.

On Constancy in Spatial Perception

The perceptual constancies are at the heart of the scientific and philosophical study of perceptual experience, forthey are responsible for our enjoying stable percepts despite fluctuating proximal stimulation. For some time, it has thereforeseemed natural to appeal to the constancies as a way of explaining the factivity of perception - how (in veridical cases) wepresent or represent our environments as they are. Notably, a number of theorists now reject the suggestion that color constancystraightforwardly allows us to track mind-independent physical properties, such as surface spectral reflectances. In the spatialliteratures, however, the constancies remain tasked with accounting for the perceptual presentation or representation of objectivevalues as they are independent of perceivers. In this presentation, I outline the unacceptable normative consequences of theselatter views, and sketch an alternative, more ecologically plausible understanding of veridicality in spatial perception.

Analogies and Graphics can lead to Illusions of Understanding

Many people experience illusions of understanding for explanations of scientific phenomena (Rozenbleit & Keil,2002) and readers tend to be poor at gauging how well they have understood what they have read in expository science texts(Dunlosky & Lipko, 2007; Maki, 1998; Thiede, Griffin, Wiley, & Redford, 2009). The present line of research includesstudies demonstrating that metacomprehension accuracy may be especially poor when students are presented with texts thatinclude features such as diagrams, graphs, animations, and analogical examples. Although these adjuncts are meant to improvecomprehension, they can often lead to illusions of understanding. An important theme of this research is articulating the kinds ofinstruction and skills that students may need before they can learn effectively from expository science texts including graphicsor analogies.

Auditory N1 Amplitude Varies Across Multiple Acoustic and PhonologicalDimensions in Speech

Listeners are sensitive to numerous fine-grained acoustic cues in speech. However, there has been little workexamining how listeners encode these cues at early stages of perception. The event-related potential (ERP) technique providesa tool to help us address this. Previous work shows that the amplitude of the auditory N1 ERP component varies with differencesalong VOT continua, but it is not clear which other cues show similar effects. We present data examining a large set of minimalpair stimuli spanning 18 consonants. Results reveal widespread differences in N1 amplitude for stops, fricatives, and nasals,including distinctions primarily caused by temporal cues (stop voicing; /b,d,g/ vs. /p,t,k/) and spectral cues (place of articulation;/b,p/ vs. /d,t/ vs. /g,k/). Our results suggest that early speech processing is based on fine-grained acoustic cues, rather thanarticulatory differences, and that the ERP technique provides a useful tool for measuring speech sound encoding.

Does Contrast or Comparison Help More? The Role of Learning Mode andCategory Type

Recent work suggests that classification training and observational learning may differ with regard to the benefitsof different types of item presentation. In particular, there is evidence that between-category contrast is most helpful fortraditional classification learning of feature-based categories, while a supervised observational mode promotes learning ofrelational categories via within-category comparison. The purpose of this study is to begin to tease apart the role of the learningmode versus the type of category in producing this pattern of results by replicating an earlier study that used classificationtraining and feature-based categories, and adding in observational learning conditions. If under these conditions, contrast isbeneficial for both learning modes, it will suggest that the type of category being learned is the key to the previously observeddifference. If, on the other hand, that same difference is observed, it will suggest that the cause is the learning mode itself.

Speech Perception Across the Lifespan: Using a Gaussian Mixture Model toUnderstand Changes in Cue Weighting Between Younger and Older Adults

In order to understand speech, listeners must weight and combine multiple acoustic cues. For example, voiceonset time (VOT) is a reliable cue to stop consonant voicing, while onset F0 provides information, but is much less reliable.Consequently, we would expect listeners to weight VOT higher than F0. This is the pattern observed for most listeners.However, these cue weights also change over time, and older adults tend to rely less on VOT than young adults, even inlisteners without hearing loss. One hypothesized mechanism for this change is a decreased ability to detect temporal differencesin sounds, which renders temporal cues (e.g., VOT) less reliable and leads to a greater reliance on spectral information (F0). Wesimulate this using a weighted Gaussian mixture model and find evidence in support of this mechanism: decreased temporalcue reliability leads to the same pattern of differences observed between younger and older listeners.

Individual Differences in the Acquisition of Strategies in a Complex Task

A multi-session experiment explored the relationship between individual differences and the development of strate-gies in a complex task environment. In the first session, participants completed measures of working memory and adaptivity.Participants then performed 4.5 hours of a multitasking activity that involved prioritizing, selecting, and sorting objects intobins under time pressure. The analyses reported here focus on how participants prioritized objects in a queue of objects andselected objects from that queue for sorting. Priority selection strategies were automatically extracted using machine learningmethods. Differences in strategy use were related to measures of working memory and adaptivity. Strategy use and strategychange mediated the relationship between task performance and individual differences. A hierarchical clustering analysis re-vealed patterns of strategy shifts that distinguished between participants who improved and those who did not. These resultsprovide a basis for examining strategy training geared toward individuals’ cognitive abilities.

Multimodal Dynamics of Explaining the Mechanisms of Global Warming

Human communication is a complex multimodal behavior that is deeply embedded within our environment. Fromnarrative monologues (Dale, 2014) to dyadic task performance (Paxton, Abney, Kello, & Dale, 2014), recent efforts havesought to identify multimodal signatures of different types of communication. We extend these efforts in the current project byinvestigating the multimodal signatures of learning about a pressing but publicly controversial issue: global warming. Here,we explore how personal political stances and previous scientific understanding affect patterns of multimodal behavior (i.e.,language use and gaze patterns) when participants are asked to learn about and then describe the mechanisms behind globalwarming (Ranney et al., 2013). Quantifying understanding – and exploring how personal traits affect that understanding – isnot only vital to better describing communication dynamics overall but may also shed light on emerging efforts to educate thepublic on important scientific concerns.

Imagining activities: The role of perspective and grammatical aspect

The ability to imagine events is important to regular thought processes such as remembering and understanding theworld in general. Two EEG experiments were conducted to investigate the difficulty associated with imagining activities fromdifferent visual perspectives. Experiment 1 involved participants imagining ongoing activities (e.g., I was skating) from a firstand third person perspective. Experiment 2 involved completed activities (I skated) and also included a condition in whichparticipants imagined other people from a third person perspective (Karen skated). Slow cortical brain potentials revealed thatthe third-person perspective was generally the most difficult to imagine and that the third-person-self perspective was moredifficult than the third-person-other perspective. Imagining activities as ongoing or completed did not influence the pattern ofresults. This research provides novel neurocognitive and behavioural insight into how event representation is influenced bytemporal information associated with verbs and the perspective from which an event is represented.

The role of higher order relational structure in relational category label extension

The perceived soundness of an analogy is influenced by shared relational structure between the analogs with higher-order relational (HOR) structure being the primary determinant (Gentner, Rattermann, & Forbus, 1993). We conducted areplication and extension to investigate whether the same pattern holds when deciding whether to extend a relational categorylabel from a base example to a target. Participants were assigned to judge either category extension or analogical soundness(using a more direct version of the original measure) across four targets that shared HOR structure, surface similarity, neither, orboth (literal similarity) with the base passage. We found that shared HOR structure led to a higher likelihood of both extendingthe category label and judging the analogy to be good. No effect of surface similarity was found. These results suggest thatthe generalization of relational categories follows the same principles of structure-mapping theory that are seen in analogicalprocessing.

Memory for the Meaningless: Experts’ Advantage at Recalling UnstructuredMaterial

The ability to recall domain-specific unstructured material (e.g., random chess positions) is a litmus test for theoriesof expert memory. Theories emphasising high-level memory structures or holistic processing of stimuli predict no differencebetween experts and novices at recalling unstructured material, because no large structure or whole are present in such material.Conversely, theories assuming small memory structures (e.g., chunks) predict a skill effect, because even in scrambled materialsome small meaningful structures occur by chance. This meta-analysis assessed the correlation between expertise and recall ofunstructured material in several domains, including board games, programming, sports, and music. We found a moderate butsignificant overall correlation (r = .42, p < .001), and the presence of an effect in nearly every domain. This outcome suggeststhat experts base their superiority on a vaster knowledge of small memory structures, in addition to high-level structures orholistic processing.

“He will try to learn it because he doesn’t know it.” Young children’sunderstanding of learning based on their knowledge states

If we already know how to tie our shoelaces, it should not be necessary to learn again. When somebody shows youhow to tie them, if you already know how, you may not regard the person as a source of knowledge. Do preschoolers understandthe role of learner’s knowledge states in learning the same way? The current study, with seventy-two 3- to 5-year-olds, testedpreschoolers’ understanding of learning. Children listened to three teaching stories that a peer tries to teach a knowledgeable,neutral, or ignorant child something, and three not-teaching stories that a knowledgeable, neutral or ignorant child accidentlysees the peer do that same thing. We asked if the child would try to learn from the peer, and whether s/he really learned theknowledge from the peer. Results showed an age change in understanding of learning intention and source of knowledge.Relevance to children’s theory of mind is discussed.

The Relationship Between Mental-state Language and False-belief Understandingin Adulthood

Research has revealed a robust relationship between preschooler’s use of mental-state language (e.g. think, know)and performance on false-belief tasks (e.g. Ruffman, Slade & Crow, 2002). However, investigations of this relationship withschool-aged children have shown mixed results, making it unclear whether mental-state talk continues to play a role in false-belief understanding following the preschool years (e.g. Charman & Shmueli-Goetz, 1998; Grazzini & Ornaghi, 2012). Thisdiscrepancy may result from the fact that preschooler’s talk has consistently been assessed during interpersonal interactions withpeers, siblings, and parents, while school-aged children’s talk has been assessed via descriptions of wordless picture books orabsent friends. The present study bridges this gap by exploring whether adults’ use of mental-state language during interactioncorrelates with their false-belief performance. In doing so, we help to shed light on an important issue in theoretical accountsof the development of false-belief understanding.

The use of dispositional cues to causality in judgements of mechanical and living

White (2013) stated that dispositional causal thinking derives from experiences of acting on objects aquired early inlife. He made evident that, under uncertainty, particular cues in an interaction between an agent and a patient (e.g., two entities,agent focuses on patient, contact, effect in patient) guide people’s perception of causality. This study systematically examinesthe predictive strength of eight causal cues worked out by White (2013) and aims at comparing people’s reliance on these cuesin the physical and the biological domain.Children (7-year-old) and adults judged a prototype (mechanical collision event or stinging event) and another nine prototyperelated events, with systematically omitted cues.A general linear mixed models analysis revealed a significant effect for the number of cues in an event. Both age groupsrely on singular causal cues when interpreting physical and biological events. Moreover, the disposition of causality appears toharden with increasing age.

Learning Hierarchical Labels through Cross-situational Learning

An increasing body of research has demonstrated that human learners are able to use co-occurrences among wordsand objects to form word-object associations (e.g., Yu & Smith, 2007). In this study, we further investigated learners’ ability touse statistical information to learn labels at different hierarchical levels. Participants were presented with objects and words inambiguous learning trials. In some learning trials, participants saw multiple objects and heard their individual labels presentedin a random order, while in other trials, category labels were presented instead. Results from three experiments providedconverging evidence that adults were able to use word-object co-occurrences across different situations to learn hierarchicallabels. Moreover, participants generalized category labels to novel members at the same level but not to superordinate-levelinstances. There was also an interaction between the level of ambiguity in learning contexts and performance in label learningand generalization.

Intensional Probability Judgments and Inclusion Fallacies With GenericsMomme von Sydow

The discussion of conjunction fallacies or, more generally, inclusion fallacies (IFs) is usually limited to dyadic rela-tionships. Bayesian logic formalizes a rational intensional probability, predicting IFs and supplementing standard extensionalprobabilities (von Sydow, 2011, 2016). They treat logical patterns as explanatory patterns (explanans) given some data (theexplanandum). We here address the even more basic issue of nested hypotheses in a single polytomous dimension (von Sydow,2015) and present a corresponding variant of Bayesian logic (BL). The experiments use materials from the Linda tasks (oneconcerned with jobs, the other with political attitude) and they explore the polysemous character of ‘AND’ (Hertwig, Benz &Krauss, 2008; von Sydow, 2014). BL stresses that pattern probabilities should depend on the representation of subclasses. Aspredicted, the results show substantial deviations from standard probability and here corroborate a pattern approach. They arealso at odds with a confirmation account.

Motor cortex excitability during processing of handwritten and typednon-action-related text

Motor cortex has been found to play a crucial role in processing the semantics of spoken and written action-relatedlanguage as well as in early speech perception. One possibility is that the motor system is always involved in perception andcognition, picking up any available motor information in the environment. If this is true we should see increased corticospinalexcitability when subjects are looking at anything that affords motor behaviors or possible simulation of motor behaviors. Weused Transcranial Magnetic Stimulation and electromyography to investigate corticospinal excitability while participants readhandwritten or typed words and non-words from a computer screen. Results show that for typed words, there is an increase inexcitability for words compared to non-words, while the reverse is true for handwritten words. We discuss implications for thepossible role of the motor system in early language perception in different contexts.

In the nick of time: Using temporal cues to examine ongoing event representations

Time cues are ubiquitous in language and the ability to interpret them is essential for understanding events duringdiscourse comprehension. Temporal markers that signal ongoing versus completed events, like the progressive and simplepast tense, prompt distinct mental event representations. However, the detailed properties of ongoing event representationsremain unexplored. Drawing from both the simulation and semantic association approaches to knowledge representation, thisstudy examines the novel prediction that ongoing events engender incremental discourse representation updating processes.Experimental sentences cued either early or late phases of an ongoing event (e.g. Alice had recently started/almost finishedbaking a cake). Targets in a post-sentential lexical decision task were strongly associated with either early or late event phases(e.g. EGGS/AROMA). Facilitation priming was predicted for congruent sentence-target pairs. Implications of the results formodels of knowledge representation, theories of semantic priming, and discourse model updating will be discussed.

Toward a Simulation Platform for Comparing Computational CognitiveNeuroscience Models

While computational cognitive models serve many purposes, perhaps their primary utility is in formalizing specifichypotheses in order to facilitate evaluation in light of empirical results. Such evaluations are inherently relative, comparing theexplanatory power of proposed models to alternatives. Direct comparisons are hindered, however, when competing hypothesesare framed within different cognitive architectures, as the contributions of non-focal aspects of those architectures cannot nec-essarily be yoked. In order to help address this problem, a novel computational framework for model comparison is proposed,grounded in gross neuroanatomy. This framework supports the hierarchical specification of connections between brain systems,producing computational architectures based on neuroscientific data. This approach shifts from modeling particular cognitiveprocesses, which might differ across cognitive architectures, to modeling established brain systems, for which there may begreater consensus. The framework supports the direct comparison of models of a given system by fixing the function of othersystems.

Consequences of bilingualism for perceptions of categories and similarity

Speakers of two languages have access to two semantic systems that, while largely similar, may differ in subtleways. The existence of multiple similar systems offers the potential for comparison of their structures and discovery of thedifferences between them. We hypothesized that if bilinguals engage in such a comparison process, they may be (a) less likelythan monolinguals to view the categories of any single language as natural kinds, and (b) more likely than monolinguals todiscern differences among high-similarity items more generally. Monolingual and bilingual participants indicated their level ofagreement with statements equating social categories with natural kinds and judged the similarity of pairs of perceptual rela-tions. Compared to monolinguals, bilinguals were less willing to endorse naturalness statements and showed more variability intheir similarity judgments. These results suggest that bilingualism may promote sensitivity to differences among highly similarstimuli, linguistic and otherwise.

Mandarin-English Bilinguals Match Lexical-Tone Processing to the Language Context

Proficient bilingual listening requires differential processing of sound variation in each language context. We consid-ered context-based processing of pitch information by Mandarin-English bilinguals, for whom pitch indicates word distinctionsin one language but not the other. In an eye-tracked word-learning experiment, 58 bilinguals and 28 English monolinguals eachlearned English-like and Mandarin-like wordsets, words referring to images. Wordsets differed primarily in that English-likewords contained final consonants. We explained that some words might differ only in their pitch patterns, and included train-ing on minimal tone pairs. In test, two pictures appeared on the screen with referents differing in either tone or vowel. Onepicture was labeled. Bilinguals processed tones more efficiently (t(78) = 3.54, p = .001) and more accurately (t(84) = 3.78, p <.001) than monolinguals only in the Mandarin context. Mandarin-English bilinguals thus appear to tailor tone processing to thewithin-word language context.

Modifying Cognitive Load Component Survey for K-12 STEM Testing

Test-taker’s capability to answer questions is influenced by available cognitive resources for problem solving. Due tothe limited working memory capacity, excessive cognitive load for interpreting instruction would impact test-taker’s construct-relevant process and test validity. Especially in STEM assessment where multimedia and interactive design are widely used,test-takers can easily get overwhelmed by a large amount of visual or audio information. Testing materials should be designed tominimize the unnecessary cognitive load in order to increase cognitive resources for problem solving in the task. The CognitiveLoad Component Survey is one of the first self-report measurements distinguishing different types of cognitive load: intrinsiccognitive load, extraneous cognitive load, and germane cognitive load. We report modifications of this survey to fit into K-12educational assessment, results of measuring cognitive loads in a simulation-rich science assessment, and implications to usethis survey for future assessment development.

The Development of Intuitions about the Controllability of Thoughts, Emotions,and Behavior

From early in development children show impressive knowledge about mental states such as beliefs and desires.However, less is known about the development of knowledge about more sophisticated aspects of mental activity, including theadult intuition that the mind is an independent agent over which we have some but not total control. This project explored 8- to11-year-olds’ (n = 46) and adults’ (n = 48) beliefs about the extent to which thoughts, emotions, and behaviors are controllable.Results indicated that both children and adults viewed thoughts and emotions (in contrast to behavior) as relatively involuntary.Children and adults also generally rejected the notion that mental activities and behaviors are chronic. However, while adultswere skeptical about whether people can stop their own thoughts, emotions, and behavior, children fully endorsed this typeof control. Overall, data suggest that intuitions about the controllability of mental activities continue to mature throughoutchildhood.

A shape-heavy vocabulary does not a shape bias make: A comparison of thecontent of English-learning children’s and Spanish-learning children’s typicalvocabularies

We asked why Spanish-monolingual children exhibit a weaker, slower-to-develop shape bias in word-learning con-texts compared to English-monolingual children (Hahn & Cantrell, 2012). Ten English-monolingual adults and nine English-Spanish bilingual adults rated the perceptual similarity of items indicated by subsets of words from the English MCDI andSpanish MCDI, respectively. Consistent with previous research with similar methodology (Samuelson & Smith, 1999), wordsfor shape-similar items predominated in the content of the English MCDI (47.72%; agreement: 70%, p < .05). Interestingly,words for shape-similar items also predominated in the content of the Spanish MCDI (56.67%; agreement: 70%, p < .05).Results suggest that the types of words that children learn play a less important role in the development of the shape biasthan other proposed factors (e.g., syntactical regularities; Smith, 2000). Additional findings and implications for children withvarious language backgrounds will be discussed.

Motion Capture of Phase Change Transitions During Insight Problem Solving

Insight problem solving refers to the phenomenon of experiencing a sudden flash of insight when discovering novelproblem solving strategies. This sudden transition in thinking suggests a phase change in human cognition as an emergentproperty of the self-organizing complex system of coupled neural activations. In our study, we developed a method of measuringthis phase change within an embodied cognition paradigm. We used 3D motion capture to measure the precise body movementsof 21 participants at 120 Hz resolution while they solved 3 different types of insight problems. We analyzed a sliding time seriesof postural sway and head displacement using recurrence quantification and spectral analyses to determine changes in entropyin the participants’ movements. These measures allow us to make inferences about changes in level of self-organization as theparticipant’s neural activation transitions from one state to another.

Exploring the Cognitive and Social Profile of Science Rejection

We examined the degree to which cognitive style, cultural worldview, conspiracy ideation, and religious and politi-cal demographic variables correspond to agreement with scientific claims across four domains. Participants rated their level ofagreement with scientific statements in four domains (evolution, GMOs, vaccinations, climate change) along with open-endedquestions to investigate participants’ reasons for their support or rejection, filled out individual difference measures, and com-pleted a demographics questionnaire asking about frequency of attendance at religious services as a proxy for religiosity, andpolitical ideology along the liberal-conservative spectrum. Lower agreement with scientific statements was found to be relatedto a lower analytic thinking style and a stronger conservative political ideology. Our results contribute to a better understandingof the cognitive and social profiles of individuals who reject scientific conclusions and can be useful in designing future researchefforts aimed at investigating science acceptance and science denial.

Technological Shaping of Verbal Working Memory: A Difference between ChinesePhonology-Based and Orthography-Based Typing

Typing Chinese words on a computer can be carried out with a phonology-based or an orthography-based method.Phonological typing constantly engages typists’ verbal working memory (VWM), while orthographic typing engages theirvisual-spatial working memory (VSWM). Accordingly, habitual phonological typists would develop a better VWM capacity,while habitual orthographic typists would have a better VSWM capacity. Five VWM tests and five VSWM tests were adminis-tered to 24 phonological typists and 23 orthographic typists. The results showed that the phonological typists scored higher thanthe orthographic typists on the VWM tests, but no significant differences on the VSWM scores were observed. The latter resultis attributed to the notoriously abundance of homophones in Chinese, which forces the phonological typists to keep attending tothe orthographic forms of the characters being typed. Our findings suggest that individual cognitive systems develop and adaptflexibly, subject to shaping by technology within a life’s time.

Adults’ drawing and recognition of familiar objects and substances: Nonsolids are hard to identify

In English, categories of solid objects (e.g., couch) are similar in shape, but vary in color and material; categories ofnonsolid substances (e.g., yogurt) are similar in material, but vary in color and shape (Samuelson & Smith, 1999). Althougheven infants can discriminate between how solids and nonsolids should behave (Hespos et al., 2009), increasing evidencesuggests recognizing specific substances is difficult for children (Perry et al., 2014). This begs the question, what do adults evenknow about nonsolids? Twenty adults drew 23 familiar solids and nonsolids. 116 participants from Amazon Mechanical Turkattempted to identify each drawing. Participants more accurately identified drawings of solids (M=.70) than nonsolids (M=.25),X2(1)=13.87, p=.0002. Drawings of nonsolids leading to accurate identification often depicted prototypical containers (e.g.,milk carton). These results suggest visual recognition—even of nonsolids—is aided by shape and that adults may conceptualizenonsolids as more object-like than was previously thought.

How Spatial Ability and Stress Impact Escape Path

Individual differences and situational factors can both affect how and how well one navigates. This study examinedthe effects of stress and spatial ability, measured as mental rotation ability, on navigation during an emergency situation.Participants learned a virtual mall environment and were subsequently either told to meet a friend at the far exit (control) orto use the far exit to escape a fire. In an emergency, participants made an initial movement faster, made more errors duringnavigation, and overestimated the amount of time they took to exit relative to controls. Relative to controls, emergency lowspatial participants more often reversed a learned path to exit the mall, whereas high spatial participants more often directlyused a previously learned path. The results illustrate that stress from an emergency situation negatively impacts navigation, andthat the behavioral consequences of this are in part dependent upon one’s spatial abilities.

Rapid emotion discrimination in the infant brain

The ability to recognize facial expressions of emotion in social partners is important for successful social interactions.It is unknown how accurately and rapidly the infant brain discriminates between emotions with different valences (e.g., happyvs. fearful) and between emotions with similar valences (e.g., fearful vs. angry). The current study uses a novel approach—FastPeriodic Visual Stimulation (FPVS)—to evaluate emotion discrimination in infancy. FPVS is an electrophysiological techniquethat relies on rapid presentation of stimuli to create corresponding oscillations in the brain that can be measured at the scalpsurface. Preliminary results (n = 6) indicate that infants are indeed sensitive to the visual stimulation: EEG power, averagedover occipital and occipitotemporal areas, was 11.55 times larger at 6Hz compared to surrounding frequencies. This study aimsto shed light on a longstanding theoretical debate of whether emotion recognition is innate or learned through experience.

Mental representations and processing of radical expressions

Mathematical cognition researchers have studied the mental representations of natural numbers, integers, and frac-tions extensively. We investigated the representations of irrational and perfect square numbers in a laboratory setting. Eightyparticipants performed (1) a magnitude comparison task (MC) by indicating which of two numbers is greater or lesser, (2) anumber line estimation task (NLE) that required subjects to estimate the positions of natural and radical numbers on a numberline, and (3) a numeracy test. On the MC task, participants were slower for radical expressions than for natural numbers andshowed distance and size effects for both. When comparing radical expressions, they were faster when both numbers wereperfect squares. This suggests a privileged mental representation for perfect squares. On the NLE task, participants wereless accurate when locating radical expressions. Performance on the numeracy test revealed broad deficits in conceptual andprocedural knowledge of irrational numbers.

Data Shows Human Behavior is Not Random, period.

Simulations of many people’s decisions are used in public health and safety as well as to support policymaking.These simulations rely on creditable models of individual decision-making. An obvious approach is to develop a list of plausibleactions and to then evaluate the benefits of each in the current situation to make the decision. However, such evaluations canbe implausible, e.g., zero-intelligence traders in economics, or impracticable because the approach is computationally intensivefor large-scale simulations. As a result, a commonly used approach is to select randomly from the plausible actions. Withoutdata on how people would actually chose, a random number from a uniform distribution over the plausible options is often usedto represent the unknown cognition. However, we claim that substituting a uniform random distribution for how people makedecisions is making very strong claims about the process and we will present data demonstrating it is simply wrong.

Feedback Markers in Mandarin: Tracking Cognitive Status in Conversation

A key aspect of conversation is the interactive exchange of information and the cooperative discourse process thatfunctions to bring about a mutually satisfactory sharing of information. The encountering of new information gives rise toemotional responses as well as on the certainty and degree of cognitive reorientation to the pre-existing knowledge state. In thisstudy we present our results on prosody and contextual meaning of two feedback markers: “dui” and “oh”, showing that themarker “dui” ‘right’, functions to mark the perceived status of lexical truth and degree of understanding, approval, or agreement,thus acting as an indicator of cognitive understanding to organize topic development through signals of a shared knowledgestate, whereas the marker “oh” acts as an indicator of temporary cognitive difficulty or reorientation of cognitive states, thusproviding the complementary function to “dui” with respect to certainty and uncertainty of information and knowledge statesin discourse.

The Semantic Stroop Effect: An Ex-Gaussian Analysis

The standard Stroop effect (which typically uses color words that form part of the response set) is robust and welldocumented in mean RT. Ex-Gaussian analyses reveal that this effect is seen in the mean of the normal distribution (mu),in the standard deviation of the normal distribution (sigma), and (c) in the tail (tau) of the ex-Gaussian distribution. Thepresent experiments investigate whether the semantically based Stroop effect (which contrasts incongruent color-associatedwords with neutral controls) is seen in the three ex-Gaussian parameters. This analysis yielded a semantic Stroop effect in thearithmetic mean and mu, but no semantic Stroop effect was observed in tau. These data are consistent with the conclusion thatinterference associated with response competition on incongruent trials is absent in the semantic Stroop effect (at least in thetail of the distribution).

Investigating the Effect of Experience on Concrete and Abstract Word Processing

As shown in previous studies, semantic processing of words is mainly affected by frequency, context and con-creteness. Recently sensory, motor and emotional components are also examined to explain the concreteness effect within theembodiment framework. Concreteness effect, which adopts the processing advantages of concrete words over abstract ones,is supported by studies, which show better remembering, faster processing and faster recognizing performances for concretewords. In this study, concreteness effect was examined via two experiments on experts and controls in which verbal fluencyand lexical decision tasks were employed. Lawyers were considered as an expert group with their intense deal with abstractconcepts. A novice lawyer group and age-matched participants other than lawyers were used as control groups. Results showedthat concreteness effect disappeared in the expert group as a matter of expert’s verbal experience.

A cognitive model of online event segmentation

People automatically segment online perceptual and conceptual experiences into events (Newston, 1973). A newmodel-based theory explains how people construct temporal markers and prioritize those changes to build representations ofevents (Khemlani et al., 2015). The theory is implemented within an embodied extension of the ACT-R cognitive architecture(Anderson, 2007) called ACT-R/E (Trafton et al., 2013). Its principal parameter is the prioritization scheme by which certaindetectable changes (e.g., in a perceived location) are preferred over others (e.g., in perceived states of an object). We tested thepredictions of the theory and its computational model against an experiment on narrative event segmentation. Participants in thestudy read an excerpt of text and were asked to assess whether certain lines marked the start of a new event. The computationalmodel readily accounted for their segmentation behavior. We conclude by discussing event segmentation and its relation toembodied cognition and cognitive robotics.

Human-object interaction understanding without objects

During object manipulation the actor’s eye movements are directed to the target of the interaction and to the relevantsites where this takes place. Eye movements during grasping observation are influenced by low-level motor information, help-ing inferring the target from hand shape. In an eye-tracking experiment, we investigated which factors influence understandingwhen observing bimanual object interactions, if no objects are visible but only the movements reproduced by an avatar. Par-ticipants watched ten different actions (e.g., pour water from a bottle into a cup) and guessed among ten possibilities. Alsoperspective was varied (frontal, side, head-centered). Preliminary results show higher response accuracy in the frontal perspec-tive. During the interaction phase participants spent more time fixating closer to the interaction point between the hands, wherethe objects would be, than on the single hands, suggesting this is the best vantage point to make sense of the observed actionwithout other cues.

The Effect of Book Design on Beginning Readers’ Attention Allocation

Books for beginning readers typically intermix text and pictures in close proximity. The proximity of difficult-to-decode text to pictures may induce competition between these sources of information. As a result, children may frequently shiftgaze between text and pictures, which may degrade memory representations of the text and reduce comprehension. A mobileeye tracker was used to measure children’s attention allocation while reading commercially available books for beginningreaders. Preliminary evidence suggests that pictures capture young children’s (N=12, Mage=7.14 years) attention while theyare engaged in guided reading. Even when the text was short (on average 6.94 words per page), children frequently shifted theirattention between text and pictures. Per page, children made on average 2.80 alterations from text to pictures (Range: 0.93 to6.57 alterations). These findings are consistent with the hypothesis that the close proximity of text and pictures may result incompetition between these sources of information

Generating Predictions Non-consciously: Evidence from Invisible Motion with andwithout Obstacles

Previous research has established that conscious stimuli can lead to non-conscious predictions. Yet, it also suggeststhat conscious awareness of stimuli is a necessary condition for using them in predictions. We use subliminal movement – withand without obstacles – to examine predictions from subliminal stimuli. In four experiments, a moving object was masked withcontinuous flash suppression. After the object had stopped moving, a conscious probe appeared in a location that was eitherconsistent with the movement or not. In the first three experiments the movement was linear, and non-conscious predictionswere based on both direction and speed of movement. In Experiment 4, the moving object collided with an obstacle. Responsetimes revealed predictions on the deflection route. We thus conclude that humans can use dynamic subliminal information togenerate active predictions about the future

Using analogical comparison to help children learn the day-night cycle

Children have difficulty reconciling their observations of the sky (an Earth-based perspective) with scientific modelsof the solar system (space-based perspectives) (e.g., Vosniadou & Brewer, 1994). Analogical comparison could be an effectiveway to address this cognitive challenge. By comparing and aligning different perspectives on events, such as sunrise, childrenmay develop a more coherent understanding of the solar system. The present experiment tested this theory by varying the pres-ence of explicit comparisons between Earth-based and space-based perspectives during a multi-day lesson about the day-nightcycle. Children (N=63, Mean age=8.57) were randomly assigned to one of four learning conditions: one that involved guidedcomparison of perspectives, two that involved similar tasks but without comparison, or a control (no instruction) condition. Wefound that children in the guided comparison condition had the greatest learning gains on a task that involved demonstratingthe day-night cycle using a model Earth and Sun.

A Preliminary Model of Situation Awareness in a Cognitive Architecture.

Although maintaining situation awareness (SA) is a critical skill for many complex tasks, there have thus far beenfew rigorous computational approaches to modeling SA behavior and performance. We developed a preliminary computationalmodel of SA focused on remembering the locations of static objects in the visual field. We built this model on the foundationof the ACT-R cognitive architecture, using its declarative memory and vision modules to specify the process of scanning thefield and remembering object locations. In the current work, we demonstrate how this model accounts for human behavior andperformance in two recent experiments: one, a study of object location memory with identities similar to air-traffic control callsigns; and another, a study of remembering the location of shapes of varying size, color, and pattern.

Verifying who ”jumped more” or ”higher” in simple events

Sentences with “more” can be used to compare along many different dimensions (e.g., number, height, etc.). Barner,Wagner, and Snedeker (2008) found that participants strongly preferred number as the relevant dimension for comparatives withdeverbal nominals like “more jumping,” even when height was an available choice. Would this preference manifest as a choiceof number over height pitting the two dimensions against one another with verbal “jumped more”? We animated two objects, Aand B, and varied each’s height, duration, and number of jumps, counterbalancing how often A “won” along each dimension.In separate blocks, participants judged whether “A jumped higher/longer/more times/more than B,” and unambiguously choseheight with “higher,” duration with “longer,” and number with “more times.” With bare “more,” however, participants said“yes” both by height and number. This study challenges Barner et al’s (2008) idea that the lexical root “jump” determines acomparison by number with “more”.

Language influences attention to Japanese event components in nativeEnglish-speaking 21- to 24-month-olds

Japanese and American 13-15-month-old infants distinguish between crossing a bounded ground (e.g., a street)versus an unbounded ground (e.g., a field). In English, the same verb – crossing – expresses both types. While language hasbeen hypothesized to guide infants’ progression from language-general to language-specific event perception (G ̈oksun et al.,2011), no prior studies examined this hypothesis. We presented toddlers who no longer perceive this Japanese distinction inevents with novel spatial prepositions (N = 24) or nonlinguistic tones (N = 12) to label bounded versus unbounded grounds.Children presented with labels, but not tones, attended to the differences in ground categories by looking significantly longer tothe novel ground type at test. This suggests that above and beyond the attention-getting function associated with non-linguisticauditory stimuli, language uniquely facilitates categorization of event components.

Comparing predictions of lexical norm data obtained using word associations andword collocation

We compared the quality of prediction of word variables based on a Dutch word association and text corpus. Wederived estimates for: valence, arousal, dominance, concreteness and age of acquisition (AoA) for 2831 words. Based on thesimilarity between words we: (1) used projections on a dimension identified as the variable in question in a multidimensionalrepresentation, (2) used the k-nearest neighbors values, weighted according to their proximity. Estimates prevailed when basedon word associations. Differences between the predictions of the two methods were small. Based on the word association corpusit yielded correlations of .92, .85, and .85, for valence, arousal, and dominance, respectively. Its corresponding correlationsbased on the text corpus were .80, .74, and .67. For concreteness and AoA, both the association and the text corpus yieldedcorrelations of .88 and .73, respectively. This suggests word associations are better at capturing human ratings of affective wordvariables.

Does GIScience Training Enhance Spatial Navigation Ability?

Research on the reciprocal influence of spatial thinking and GIScience training is limited (Wakabayashi & Ishikawa,2011). In the current project, we examine improvement in spatial navigation in undergraduates enrolled in GIS classes over thecourse of a semester. Students enrolled in strategic communications (SC), a low-spatial content class, were used as a controlgroup. Fifty students were trained and tested at 2 time points – beginning and end of a semester – in a virtual navigationtask (Silcton; Weisberg, et. al., 2014). We hypothesize that a significantly higher number of GIS students as compared toSC students will be Integrators i.e. they will find the most targets within-route and between-route in the virtual environment.Furthermore, we hypothesize that GIS students will show a significantly greater improvement at time point 2 as compared toSC students. This research has important implications for spatial training and educational pedagogy in STEM disciplines.

Plasticity of Categorization: Developmental Differences in Category Learning andTransfer between Children and Adults

How do people learn categories and transfer learning? This study addressed this question by examining the roleof attention in the development of category learning and transfer. Participants (adults and 4-year-olds) were trained with twocategories including deterministic and probabilistic features and their attention was directed to either type of features. Aftertraining, participants learned two new categories and their categorization and memory for exemplars were tested. Resultsindicated that adults and 4-year-olds were able to be trained to use either a similarity-based or rule-based strategy. However,adults failed to transfer and went back to their default rule-based strategy in novel situations, whereas 4-year-olds transferredthe learned strategy. Furthermore, in contrast to adults exhibiting better memory for features used in categorization, 4-year-oldsremembered multiple features well regardless of categorization. These results have important implications for understandingthe development of categorization and the role of attention in cognitive development.

Unsupervised learning of VerbNet argument structure

The relationship between a verb and the syntactic frames in which it can appear has been closely studied by psychol-ogists and linguists. Research suggests that the semantics of a verb and its arguments determine the verb’s syntactic frames,but various theories (Levin & Hovav, 2005) disagree on the nature and complexity of these relationships, in part because mostinvestigations have focused on a small subset of verbs that may not generalize. Investigating the semantic and syntactic rela-tionships present in larger sets of verbs would provide more substantial evidence for evaluating and selecting theories of verbargument structure. We report on initial analyses of the 6000+ verbs and 280+ syntactic frames of VerbNet (Kipper et al., 2008),the largest English verb syntax resource available, using nonparametric Bayesian methods (e.g. Shafto et al., 2006) for clusteranalysis and dimensionality reduction.

Moral Social Media: Heavy Facebook Users Accept Harsher Moral Criticism forMicroaggressions

Microaggressions are unintentional or thoughtless behaviors that convey negative messages to members of minoritygroups. Due to the attributional ambiguity of microaggressions, people often differ in their judgments about how morally badacts of microaggression are. To account for this individual variation, we explored the potential influence of heavy social mediause on individuals’ moral judgments of microaggressive behaviors. We hypothesized that, because of the relative acceptance ofstrong blame expressions on social media, heavy Facebook users would endorse intense moral criticism of microaggressions.Participants read about several agents who committed microaggressions and judged the appropriateness of moral criticism(pretested to vary in degrees from “disapprove of,” “chastise,” “chew out,” to “lash out at”) that a friend directed towards theoffender. Consistent with our hypothesis, we found a strong correlation (r = .47) between increasing degrees of Facebook useand increasing acceptance of harsher moral criticism for microaggressions.

Memory-based decision making: Examining the relative influence experimentaland pre-experimental exposure.

We examine the role of memory accessibility across two different memory-related judgments: episodic recognition(e.g., ”Was this person’s name presented earlier in the experiment?”) and probabilistic inference (e.g., “How famous do youconsider this person to be?”). For both judgments (episodic recognition and probabilistic inference), we observe the influenceof both pre-experimental exposure, which is approximated by web-frequencies (e.g., Google search results), and experimentalexposure, which is manipulated through an incidental study phase (e.g., a vowel counting task). The results of these experimentsallow for an integrative understanding of how different sources of memory accessibility (experimental vs. pre-experiential) arecombined, and possibly interfere with one another, depending on the type of memory-related judgment.

The role of emotional mediation in musical and vocal sound-color correspondence

This study investigates the role of emotional mediation in sound-color cross-modal correspondence, using twocomplementary sets of validated stimuli: the Montreal Affective Voices (MAV; Belin et al., 2008), and Musical EmotionalBursts (MEB; Paquette et al., 2013). These stimuli were presented to participants for color associations, emotional associations,and rated for arousal and valence. The results demonstrated that the same pattern of color association applied across both vocaland musical sounds, which strongly correlated with the perceived emotional connotation of the sound. Sounds across bothdomains that were rated as high arousal/negative valence were associated with red (anger), sounds rated as high arousal/positivevalence were associated with yellow (happiness), and sounds rated as low arousal/negative valence were associated with blue(sadness). The results thus replicate previous research indicating that arousal and valence govern sound-color correspondence,suggesting that cross-modal associations may reflect reciprocal interactions between the connotative meanings of differentstimuli.

Collaborative Story Construction and Telling for Second Language Learning

Though utilizing information from the internet is common in language learning, it is often a spontaneous behaviorand is not supported by computer programs that are specialized for language learners. In this project, we create a collaborativelearning environment for Mandarin Chinese that implements the idea of learning by teaching. The students will learn andpractice their language skills by collaboratively designing interactive presentations, such as introducing a place or a type offood with a computer agent, and the scenarios can be used later on by their peers for practicing. During the design process,storytelling techniques such as making an analogy, foreshadowing and flashback will be automatically suggested by the agentfor making the presentation more interesting and clear.

Gender Differences in the Effect of Impatience on Men and Women’sTiming Decisions

Decisions over the timing of actions are critical in severalsafety, security and healthcare scenarios. These decisions, sim-ilar to discrete decisions, can be influenced by biases and in-dividual traits. In this paper, a bias of impatience is studiedin an experiment with 626 participants, with a focus on gen-der differences. Impatience was moderated with a manipula-tion of a variable-speed countdown. Men and women differedin how they expressed impatience. While men systematicallyand irrationally act earlier when become impatient followingthe slower countdowns, women react by irrationally request-ing earlier information about the outcome of each trial, andimpulsively pressing an inactive key.

Mind Wandering during Film Comprehension: The Role of Prior Knowledge andSituational Interest

We assessed mind wandering (MW) during film comprehension. We predicted that prior-knowledge would aid in theconstruction of a situation model of the film, which would suppress MW by directing attention towards task-related thoughts,and that interest would moderate this effect. In our experiment, 108 participants either read a short story that depicted the plot(i.e., prior-knowledge condition) or read an unrelated story of equal length (control condition) prior to viewing the 32.5 minutefilm The Red Balloon. Participants self-reported their interest in viewing the film immediately before the film presentationand reported self-caught instances of MW while viewing the film. The prior-knowledge condition reported less MW comparedto the control condition. MW also decreased over the course of the film, but only for the prior-knowledge condition, therebysuggesting a suppression effect. Finally, prior-knowledge effects on MW were only observed when interest was average orhigh.

A concurrent task facilitates, not impedes, the heel-to-toe standing balance inchildren: The case of a dual-task benefit

Performance in a dual task is typically worse than performance in a single task due to the sharing of limited cognitivecapacity. The present study found the opposite results when the task involved postural control in non-typical standing. Thirty-six children aged 4-9 years stood on a force plate for 10 seconds with a normal or heel-to-toe stance. In the dual-task condition,they also performed an auditory or a visuospatial task. They were instructed to achieve high accuracy on the concurrent taskwhile maintaining balance. Standing balance, expressed in terms of the velocity and the trajectory of the center of pressureon the force plate, was significantly better in the dual-task than in the single-task condition. Performances on the concurrenttasks were also better in the dual-task condition. The overall dual-task benefits are attributed to the increased deployment ofcognitive capacity specially called for by the balance challenge in non-typical standing.

The effect of language impairment on non-symbolic exact quantity representation

Both English-speakers whose access to number language is artificially compromised by verbal interference and thePirah ̃a (an Amazonian tribe without exact number words) appear to rely on analog magnitude estimation for representing non-symbolic exact quantities greater than 3. Here, 10 participants with aphasia from stroke performed the same 5 counting tasksfrom these previous studies. Performance was poorest when targets were not visible during response (70% correct) and bestwhen targets were presented as subitizable groups of 2 and 3 (98% correct). Western Aphasia Battery-Revised subtest scoreswere reliably correlated with performance across counting tasks suggesting ways that both speech and naming may contributeto errors. Coefficients of variation for particular tasks, and significant correlations between target magnitude with both errorrate and size across tasks suggests use of analog magnitude estimation for verbally impaired participants. Diverse forms oflanguage impairment may contribute to errors on nonverbal counting tasks.

Do Open Specifier Positions at Clause Edges Alleviate Working Memory Load?

In this study I examine the relationship between syntactic working memory and intermediate gap positions in long-distance filler-gap dependencies. An “intermediate” gap position is a structural position, distinct from verbal argument posi-tions, which is available to the filler at a clause edge between its surface dislocated position and its original canonical position.I will use anterior negativity (AN) as an index of working memory resources as the filler is held by the parser before itsintegration in the final gap position. Under the hypothesis that such an available intermediate gap position offers a temporaryintegration of the filler, an attenuation of the anterior negativity is expected at the intermediate gap site. However, this atten-uation is not observed, suggesting either that this intermediate gap position is in fact not available to the parser as a site oftemporary integration, or that such integration has no mitigating effect on working memory resources.

Attentional Enhancement at Event Boundaries

A fundamental aspect of everyday processing involves identifying discrete events within continuously unfoldingsensory experience. However, the processes enabling determination of event boundaries remain poorly understood. Recently,inconsistent conclusions have emerged regarding attentional processes associated with detection of event boundaries. Use ofthe Dwell-Time Paradigm has indicated enhanced attention at event boundaries (e.g., Hard, Recchia, & Tversky, 2011), whereasevidence from the Rapid Serial Visual Presentation paradigm (e.g., Huff, Papenmeier, & Zacks, 2012) indicates impairment.We employed a change-detection procedure similar to the RSVP, except that the change to be detected was uniform across theentire visual field, rather than varying with respect to the viewer’s spatial locus of attention. Changes occurred either at eventboundaries or mid-stream within event segments. With spatial locus of attention rendered irrelevant, participants displayedsignificantly faster reaction time to changes coinciding with event boundaries, implying that viewers selectively target eventboundaries with heightened attention.

Historical Semantics of Risk

The key insight in this work is that the events people associate with risk is under systematic change over the past200 years. Leveraging Latent Dirichlet Allocation (Topics Modeling) and the Google Ngram Corpus, we identified historicaland newly-emerging events associated with risk and tracked their relevance over time. We also computed the probability ofrisk co-occurring with words associated with those identified events to capture a more accurate trend. Several highlights ofthe findings include: attention on risk has been spreading from one general domain (about losing life and war/battle) to a setof wider, more specific events and activities such as cancer, sex, HIV, smoke, and finance; in addition, the concept of risk hasrecently become more differentiated, incorporating both cost and benefits, long and short-term consequences. This approachcould be extended to study semantic history of a number of other concepts of interest.

An explicit theory of sortal representation and some evidence for it.

Does the acquisition of words like “dog”, “table”, and “sand” require the support of sortal concepts? In arguing forand against sortals, theorists typically contrast representations of unsorted individuals (bare particulars) and sortal representa-tions. As such, bare particular and sortal representations are presented as alternative means of representing concepts like “dog”,“table” and “tree”. Arguments for and against sortals typically proceed in the absence of an explicit characterization of the formof sortal representations. I present an explicit theory of the form of sortal representations. It turns out that, for sortals to dothe work they need to do, they must incorporate bare particular representations into the sortal representation. Two experimentsprovide evidence for the predicted by the proposed theory of sortal representations. I also show how the proposed theory ofsortal representation is consistent with recent findings by Rips and colleagues that seem to provide empirical evidence againstsortals.

The influence of temporal order on the recognition of causal relations

Fenker, Waldmann, & Holyoak (2005) found that participants are faster to recognize a causal relation between wordspresented in predictive (cause first) than in diagnostic order (effect first). We extended these findings to a comparison of abstractand concrete word pairs. Causality may play a more prominent role in abstract concept relations. Given that causally relatedabstract concepts are not always observable, they may often involve diagnostic reasoning (e.g. inferring motives). Across twoexperiments, participants made timed judgments of whether abstract and concrete word pairs of equal bidirectional associativestrength were causally related. Items were presented in blocks comprising pairs in either predictive or diagnostic order. Reactiontimes were significantly lower for predictive order compared to diagnostic. This was not moderated by abstractness, but therewas a slightly greater effect for concrete pairs. These data indicate that causal relations are likely stored in memory for bothabstract and concrete concepts.

Can Distributional Fitting of Short Semantic Fluency Results Predict ADHD?

Remembering information can be likened to a search through a network composed of semantically related infor-mation. An appropriate search through this network requires an adaptive balance between exploratory and exploitative searchbehaviors. Without exploration, a searcher will perseverate too long on a semantic area devoid of resources. Without exploita-tion, a searcher may jump around aimlessly, failing to find the semantic areas with plentiful resources (see Hills, Jones, & Todd,2012). The semantic fluency task, in which subjects are asked to recall items from a given semantic category, can be used tomeasure these behaviors. Classically, this task has been used to predict Alzheimer’s susceptibility, but other clinically relevantpredictions have required involved semantic analyses. Here, we show that distribution fitting applied to the gross time seriesof recall events, can be used to easily predict measures of clinical relevance such as Wender Utah ADHD and Zuckerman’sSensation Seeking scores.

Representations of Entropy and of the Relations Same and Different Early inHuman Development

Animals typically fail 2-item Relational Match to Sample (RMTS), whereas animals from pigeons through primatessucceed at 16-item RMTS. Furthermore, training on the 16-item arrays does not transfer to 2-item arrays in these non-humanspecies. Animal researchers conclude that success on 16-item RMTS reflects a perceptual property of the set, variabilityor entropy, rather than conceptual representations of the relations ‘same’ and ‘different’. Four experiments explore youngchildren’s ability to pass 2-item and 16-item RMTS. Like non-human animals, three- and four-year-olds fail 2-item RMTSwhile passing the16-item task. As with animals, training with 16-item cards does not facilitate success on 2-item RMTS infour- and five-year-olds. These data, as well as data from within the 16-item task, suggests that young children, like non-humananimals, rely on entropy in RMTS tasks. Data from 5 and 6-year-olds suggest a representational change late in the preschoolyears.

Predictors of lexical stability in an artificially learnt language

Lexical items in the vocabulary of a language undergo dramatic changes over time, explaining the mechanismsthat cause this change has been an important topic for the cognitive sciences. One particular focus for researchers has beenunderstanding the dynamics of change in word forms. The rate (or half-life) at which word forms change over time variesgreatly, and corpus-based cladistic studies have shown that certain properties, such as word frequency, length and age ofacquisition, can be used to predict this variation. We test through the use of an artificial language learning paradigm the extentto which these psycholinguistic factors affect accurate learning of word forms, linking processes of acquisition with processesof evolutionary change. Our findings provide an insight into the underlying mechanisms that drive diachronic change within alanguage’s vocabulary, highlighting the important role that the learning process has on lexical change.

Predictable stimulus onsets improve memory

Exploring and remembering are fundamental to many human activities. Characterizing influences on recognitionmemory can help clarify the workings of memory systems and facilitate design of effective learning environments. Studies ofself-directed learning show that a key determinant of self-directed benefits is in choosing when to see the next stimulus, butthese results do not establish whether it is the act of choosing or the knowledge of stimulus arrival times that primarily matters.We disentangle these factors by asking whether predictable stimulus timing that is not under participant control still leads to amemory benefit. Participants saw pictures of objects one at a time with either a constant or unpredictable inter-stimulus interval(ISI) and showed better memory with constant timing across a range of ISIs. These results speak to interactions betweenattention and memory, the efficiency of study protocols, and the factors influencing effective self-directed learning.

Can a Bayes’ Net approach capture intuitive use of sequential testimonies in alegal reasoning paradigm?

The studies apply a Bayesian source credibility model to a legal setting to test epistemic influence of witnesstestimonies. The model amalgamates perceived witness trustworthiness and access to accurate information as independentelements that describe and predict the impact of the testimony of that particular witness.Across two studies, the model enjoys a good fit with observed posterior ratings of the likelihood of guilt (study 1: R2 = .867,study 2: R2 = .701). Study 1 (n = 101) employs different witness types and reports whilst study 2 (n = 102) employs differentwitness types, access to accurate information, and reports.The studies suggest the applicability of a Bayesian source credibility model in a legal setting to account for the impactof different witness types. We show that participants are sensitive to the type of witness and that different witnesses have apredictable impact on the perception of the testimony.

Exploring Individual Differences in Preschooler’s Causal Reasoning Skills in thePhysical and Digital Domains

Do children reason about causal events differently in physically ‘live’ and digital domains? To answer this question,we introduced 35 3-year-olds to the traditional live version and a newly developed digital version of the “blicket detector” task.In both formats, the “blicket detector” first produced an interesting event (e.g., lit up) when a distinctive object (e.g., cylindricalblock) touched its surface, but then failed to do so when a different object (e.g., triangular block) did so. After both blocks thensimultaneously touched (and activated) the “blicket detector,” children were asked to identify the ‘causal’ block. Children’sperformance correlated significantly across the physical and digital trials (r = .4, p = .02). Not only does this study further ourunderstanding of children’s causal reasoning skills in the digital domain, it introduces a major methodological advance with thedevelopment of a highly efficient and reliable digital version of the “blicket” task.

A subject-object asymmetry in the online processing of ’only’: evidence fromeye-tracking

While most formal semantic accounts of focus-sensitive particles such as ‘only’ acknowledge that their interpretationrequires the integration of contextual information with the linguistic representation, it is less clear how this interaction playsout in real-time. Recent psycholinguistic work in this domain favors an incremental processing story, but divergent resultselsewhere complicate this picture. Our findings from two Visual World eye-tracking studies (n = 33, 32) help resolve thisconflict, and confirm the existence of an adult processing asymmetry: sentences in which ‘only’ associates with the subject(’Only John bought an apple’) take longer to process than object-only sentences (’John only bought an apple’). We find thatcurrent accounts of the representation and exhaustification of propositional alternatives invoked by ’only’ do not explain thiseffect. We suggest that differences at the event-structural level — which propositional alternatives arguably map onto — mightexplain the asymmetry.

Taking the Easy Way Out: Effects of Feedback on Children’s MetacognitiveControl

It is a well-known finding that adults are “cognitive misers,” in that they optimize performance by reducing effortwhenever possible. We examined how this tendency emerges in the course of development. We incentivized participantsto acquire as many points for correct responses as possible, and allowed them to choose between two games of differentialdifficulty on every trial. Whereas adults systematically chose the easier of the two games, 5-year-olds did not. However, whenwe gave children feedback on the basis of their choice rather than accuracy, they exhibited evidence of optimization by selectingthe easier game. Further, they showed the same pattern when the two games were modified to be identical in difficulty, withonly feedback supporting the choice of one game over the other. These findings suggest that children may be cognitive misers,but they rely on external feedback rather than internal signals of effort to optimize their behavior.

Instance-based Learning in Multi-cue Diagnosis

Decision heuristics are often described as fast and frugal, taking little time and few computations to make a gooddecision (Gigerenzer & Todd, 1999). Fast & Frugal Trees (F&FTs) are a type of decision heuristic that are a special case ofdecision trees in which there is a possible exit out of the decision process at every node in the tree (Luan, Schooler, & Gigerenzer,2011). We present predictions from a computational process model of learning in a multi-cue diagnosis task with and withoutinformation acquisition costs and across different penalty values for errors. The model uses Instance-Based Learning Theory(IBLT) to acquire new knowledge and makes precise performance predictions across a range of dependent variables. We willcompare the a priori model predictions to F&FT-constrained machine learning results on the same stimuli and also to empiricalresults collected from human participants making decisions in the same environment.

Rapid acquisition of novel information: Is disjunctive syllogism necessary for fastmapping?

We investigated two possible mechanisms that may mediate the rapid acquisition of novel words and their corre-sponding referents (i.e., fast mapping, FM). In the standard paradigm that examines FM, a novel label is presented alongside anovel object and a familiar object, and subjects are asked to identify the item that corresponds to the novel label. Acquisitionof name-object pairing is subsequently assessed. One possible mechanism underlying FM is disjunctive syllogism: the activerejection of the familiar item, which allows for the novel object-to-label mapping (e.g., “I know this is a cricket, so “torato”can’t be referring to that; it must refer to the unfamiliar item.”). Another possible mechanism involves activation of a relevantsemantic network (e.g., insect) into which the novel concept can be incorporated. We found that semantic network activationalone is sufficient, and that active rejection is not necessary, for the rapid acquisition of novel object-name associations.

Information Processing during Intertemporal Choice: An Investigation using EyeMovement Data

Intertemporal choices consist of trade-offs between reward magnitude and the delay until those rewards are received.Distaste for delay (i.e., impatience) is related to various undesirable variables including drug use, credit card debt, and lowgrade point average. These findings have underscored the critical need to better understand intertemporal preferences. Previouswork has shown that forcing participants to wait 9 seconds before making an intertemporal choice yields greater patience thanwhen they are forced to wait 3 seconds. Unfortunately, the mechanisms that produced this effect are currently unknown. Thecurrent study uses a similar choice paradigm but collects eye movement data in order to non-invasively investigate decisionmakers’ information processing strategies under short and long deliberation times. Eye movements over the various piecesof choice-relevant information (i.e., delays and magnitudes of rewards) were related to the deliberation time manipulation,individual choices, and individual differences in patience. Theoretical implications are discussed.

Neural Resonance Theory: Entrainment to Missing Pulse Rhythms

Many rhythm perception experiments employ simple isochronous rhythms, in which synchronous neural or behav-ioral responses are observed. However, responses at the stimulus frequency do not allow one to distinguish whether synchronyoccurs as a response to common input, or as the result of an emergent population oscillation that entrains at a particular fre-quency. This study aimed to investigate whether the sensorimotor system, as measured by 32- channel cortical EEG, wouldentrain to a complex rhythm at the pulse frequency even when the complex rhythm contained no spectral power at that fre-quency. Dynamical analysis predicts neural oscillation will emerge at such a “missing” pulse frequency. We report evidence ofresponse in the EEG to missing 2 Hz pulse rhythms. These data support the theory that rhythmic synchrony occurs as the resultof an emergent population oscillation that entrains at this particular frequency. We also discuss generators of the missing pulseresponse.

Young children’s estimation of difficulty and time

Even infants have a remarkably sophisticated understanding of objects, agents, and how they interact. We investi-gated young children’s ability to reason about the relationship between complexity of physical structures created by agents, theirperceived difficulty, and the time required for creating these structures. Seventy 4-5 year-olds were shown trials consisting ofpairs of agents who had the same numbers of blocks but made different structures (e.g., horizontal line vs. vertical tower, castlestructure vs. two piles of blocks). Children were asked which structure was easier to make (Difficulty condition) or who wasdone first (Time condition). Even the youngest participants were successful in determining which structure is more difficult,but their estimates of time showed improvement with age. These results offer novel insights into how an early understanding ofdifficulty and time shape young children’s beliefs about how agents intervene on the physical world to induce changes in theirstates.

Exploring the Use of Conversations with Virtual Agents in Assessment Contexts

Conversations with computer agents can be used to measure skills that may be difficult to accomplish using tra-ditional multiple-choice assessments. In order to achieve natural conversations in this form of assessment, we are exploringissues related to how test-takers interact with computer agents, such as what dialogue moves lead to interpretable responses,the influence of “cognitive characteristics” of computer agents, how should the system adapt to test-taker responses, and howthese interactions impact test-taker emotions and affect. In this presentation we will discuss our current research addressingthese questions, illustrating important dimensions that are involved with designing a conversation space and how each designdecision can impact multiple factors within assessment contexts.

Mothers’ use of emotion words to their 15- to 18- month old children.

Young children can apply certain emotion words in a manner that is too wide for facial expressions or situations anduse other emotion words too narrowly. To explore the extent to which children’s overextension or underextension of emotionwords is influenced by mothers’ use of those words, the present study analyzed how mothers talk to their 15- to 18-month-oldchildren. Mothers were asked to explain to their children the emotions of a model using particular facial expressions or thoseof characters in stories. The results indicated that mothers used some emotion words in a manner that was too wide and otheremotion words too narrowly. Mothers’ use of emotion words is partly related to children’s application patterns of those words,especially regarding facial expressions. Regarding the use of emotion words for characters in stories, other factors aside frommothers’ use can contribute to children’s semantic domain of emotion.

Effects of categorization on item memory and forgetting

Memory and categorization have different goals. The goal of memory is to keep a distinct record of each individualitem. In contrast, categorization aims to treat items as equivalent in some way despite differences. When memory for itemsis the priority, research suggests that adults are able to bind many elements of an experience to form a complex memorystructure, and that such binding may help guard against forgetting due to interference from learning in similar situations. Whencategorization is the priority, however, complex binding structures in memory may impede generalization. In this experimentadults demonstrated robust memory for items after learning one set of categories, but much worse memory for items thatwere categorized differently in a second set. Results suggest that this interference was due to failure to form complex bindingstructures in memory, as a result of selective attention during categorization.

Optimal Predictions in Illness Cognition

People make accurate predictions for many real world events e.g. human life spans (Griffiths & Tenenbaum, 2006).Accurate predictions are particularly important in the domain of health, where illness knowledge directly influences patientoutcomes. To understand how well peoples’ illness expectations were aligned, we asked participants to estimate durationsfor 9 illnesses, and compared their responses to the real-world distributions. We found that for common acute illnesses (e.g.,the cold) people make accurate predictions, whereas for rare chronic illnesses (e.g., COPD) people make comparatively poorpredictions. Further, we found that participants overestimate the prevalence of every illness, especially for those that are morecommon (e.g., the cold). Taken together, these results suggest that people more accurately estimate the duration of commonacute illnesses, but this may cause them to overestimate the prevalence of these illnesses. Results will be discussed in terms ofimplications for both cognition and behavioral health theory.

Language acquisition as sparse foraging: mapping path-dependence in word

How does the acquisition of a new word affect the successive acquired ones? We model language acquisition interms of foraging in an unprecedentedly fine-grained 1-child corpus (0-3y, RoyEtAl2015). We assess whether successive wordsare learned in close semantic clusters or not (exploitation vs. exploration) and the structure of these clusters. Words are definedin terms of topic distribution in the parental input (Latent Dirichlet Allocation). Distance between successively learned wordsis measured as cosine distance between their topic distribution.Word acquisition can be accurately described as foraging in a sparse resource environment with very local path dependence(power law distribution: alpha=3.9±0.2; detrended fluctuation analysis: alpha=0.6). Words are acquired in semantically closeclusters of 2-4 successive words (Recurrence Quantification Analysis: L=2, LMAX=4, V=2, VMAX=4). The effects remainwhen controlling for shuffled baselines and temporal distance between word acquisition.

Multiple Systems for Modal Cognition

The capacity for representing and reasoning over sets of possibilities, or modal cognition, has long been understoodas central to many high level judgments. To date, however, little empirical research has sought to directly investigate theconnection between these high-level judgments and the underlying cognition that allows humans to represent and reason oversets of possibilities. The present studies build on previous developmental research which suggests that the early emergingsystem for modal cognition treats norm-violations (e.g., immoral actions) as impossible. Across two studies, we provideevidence that a similar system for representing possibilities persists in human adults, despite the development of an additionalcapacity for reasoning about possibilities in a way that is independent of considerations of normality. Study 1 distinguishesbetween these two ways of representing possibilities. Study 2 demonstrates that the early-emerging system is often recruitedwhen adults make high-level cognitive judgments.

The Effect of Varying Problem Contexts on Learning Probability Rules

While previous research shows that varying problem contexts generally facilitates learning (Ranzijin, 1991), it isstill unknown how much variability is ideal. Since it is often more economical for teachers to use consistent problem contexts,it is valuable to know how much variability is needed. We examined this in teaching probability. Students randomly assignedto one of three groups learned four rules with four worked examples each, differing in context variability: One group learnedfour rules with the same cover story (all examples for all rules used cards), the second group with different cover stories perrule (multiplication taught with cards, permutation, with spinners), and the third group with varying cover stories within eachrule (addition taught with cards, spinners, marbles, and dice). Learning with context varying within rules led to the greatestlearning gains from pretest to posttest. We discuss implications of these findings and underway follow-up research.

Analyzing experimental paradigms under modification on web-based experimentplatforms

Experimental paradigms are particular experiments that can be modified along a variety of dimensions to answerquestions different than the original inquiry but which have similar content or structure. For example, the original looking-timestudy is an experimental paradigm that has shaped developmental psychology. Thomas Kuhn proposed that, under normalconditions, experimentation by modification of previous paradigms is how science progresses.Web-based experiment platforms (e.g., psiturk and Wallace) are installed with collections of working experimental paradigmsthat are pre-populated with structures necessary to use the platform, but which can be modified to allow users to generate novelexperiments. Because these experiments are implemented in code, we can identify exactly how the code is modified in practice,and begin to directly measure and even test Kuhn’s hypothesis regarding the progress of normal science. I will describe possiblemethods for achieving this, ideally providing others a paradigm to modify.

Sex Differences in Mental Rotation Performance: The Self-fulfilling Prophecy ofGender Stereotypes

Male advantage on spatial tasks may be explained in part by gender stereotypes (Nash 1975). The current studyinvestigated the effect of awareness of sex differences in mental rotation on mental rotation (MR) performance. We hypothe-sized that students with negative stereotypes would score significantly lower than students who were unaware or held positivestereotypes. Participants – 285 undergraduates — completed the Shepard & Metzler (1971) MR task followed by a short onlinesurvey. Preliminary analysis revealed a significant sex difference in mental rotation performance F (1, 256) = 9.68, p=. 002.There was no main effect of awareness on MR performance. Interestingly, there was a significant interaction between sex andawareness on MR performance, F (1,256) =6.77, p=. 010. Results on the role of awareness in cognitive strategy selectionwill be presented. By understanding gender stereotypes associated with spatial ability, we can reduce the gender gap found inSTEM disciplines.

Relative influence of anchoring and centering biases in reconstructive memory

We report the results of an experiment probing the relative influence of centering and anchoring biases in recon-structive memory for line lengths. On each of 90 trials participants (N=120) viewed a target line, which they reproduced aftera delay by adjusting a response line. We manipulated the starting size of this response line in three conditions: one providedan anchoring bias opposite the centering bias (expand condition), one in the same direction (contract condition) and one thatprovided no anchoring bias (control). We eliminated the centering bias in the expand condition, increased it in the contract con-dition, and showed an attenuated centering bias in the control condition. We discuss the implications for these results in relationto cognitive models of stimulus reproduction that employ the method of serial reproduction. We suggest that experiments ofthis type should carefully control for the possible influence of anchoring biases in reconstructive memory.

Making invisible ”trouble” visible: Self-repair increases abstraction of referringexpressions

A central finding in dialogue research is that interlocutors rapidly converge on referring expressions which becomeprogressively contracted and abstract. However, there is currently no consensus on which mechanisms underpin convergence:The interactive alignment model (Pickering and Garrod) favours priming, the grounding model (Clark, 1996) prioritizes positivefeedback, while Healey (2002) demonstrates the importance of miscommunication. To investigate convergence in closer detailwe report a variant of the “maze-task”. Participants communicate via a text-based chat tool which selectively transformsparticipants’ private turn-revisions into public self-repairs that are made visible to the other participant. Dyads who receivedthese artificially transformed turns used more abstract referring expressions, but performed worse at the task. We argue this isdue to self-repairs having a beneficial effect of amplifying naturally occurring miscommunication (Healey et al., 2013), whilealso having a deleterious effect of decreasing participants’ confidence in the conventions established during the task.

Inferring actions, intentions, and causal relations in a neural network

From a young age, we can select actions to achieve desired goals, infer the goals of other agents, and learn causalrelations in our environment through social interactions. Crucially, these abilities are productive or generative: for instance,we can impute desires to others that we have never held ourselves. This capacity has been captured by the powerful BayesianTheory of Mind formalism, but it remains to forge connections to the rich neural data around action selection, goal inference,and social causal learning. How can productive inference about actions and intentions arise within the neural circuitry of thebrain? Using the recently-developed linearly solvable Markov decision process, we present a neural network model whichpermits a distributed representation of tasks. Such a representation allows the expression of infinite possibilities by combininga finite set of bases, enabling truly generative inference of actions, goals, and causal relations in a neural network framework.

Forming spatial habits in the wild: Examining stabilization in classroom seatingarrangements

Previous research suggests that individuals tend to form spatial habits (i.e., placing objects in consistent locations inspace) when interacting with objects in the environment (Zhu & Risko, in press). However, it remains unclear how such spatialhabits develop over time. One hypothesis suggests that spatial habit formation may involve a process of stabilization wherebyindividuals’ spatial behaviour becomes progressively fixed over time. We examined this hypothesis by tracking students’ seatingbehaviour in a classroom over the course of 12 weeks. Although individuals’ overall seating choice tended to cluster near wherethey initially sat, we did not find evidence that seating behaviour stabilized over time. However, a significant curvilinear relationwas found between seating choice and time such that seating choice near the beginning and end of the 12-week period weremore varied than those in the middle. Implications of this study for understanding spatial habit formation will be discussed.

An action dynamics study of the onset of prediction

A recent approach in cognitive science argues that prediction is a core concept underlying cognition, to the extent thatbrains could be referred to as ”prediction machines” (Clark, 2013). Extending experimental paradigms to explore predictionfacilitate tests of this claim. In a previous study we introduced a statistical learning paradigm to detect when participants arepredicting during implicit/explicit learning. The results revealed that participants tend to rapidly switch into a predictive modealmost as a discrete strategy. While this intriguing possibility was not directly explored in the original study, in this project werepurposed the task to explicitly explore the onset of predictive behaviors. Through a mouse-tracking task, participants get tolearn the statistical structure in a sequence of flashing dots while their mouse movements are being recorded. Findings revealthe level of statistical structure in the environment that triggers the rapid onset of predictive behavior in participants.

The ON/IN scale of semantic extensions of adpositions: testing through artificiallanguage learning

Cross-linguistically, the semantic extensions of certain adpositions obey an implicational scale, ranging from thesituation class of prototypical ON (support from below) to prototypical IN (full containment) (Bowerman & Pederson 1992,Levinson & Meira 2003, Feist 2008). However, the nature of this phenomenon remains unresolved. Two general accounts arepossible: 1) the patterned output is the simply the result of diachronic factors and speakers learn which extensions go with eachadposition without any particular analysis, or 2) there may be some online psychological reality to the scale.Language learning may be a fruitful domain to test this second account. Using an artificial language learning paradigm,subjects are trained on alternative forms paired with scenes representing some situation classes on the scale. In testing, theygeneralize the use of these forms to novel classes. Preliminary findings suggest a generalization of forms to uses in waysconsistent with a psychological representation.

Time Course of Fidelity and Contributing Factors to Long-Term Memory

Various models have been implemented to explain long-term memory (Brady, et al., 2013; Lew, et al., 2015), withsome being derived from studies of visual working memory (Bays, et al. 2009; Zhang & Luck, 2008). The implicit assumptionis that processes and mechanisms of working memory also exist in long-term memory. However, the findings of fidelity andcontributing factors are highly varied (e.g., Persaud & Hemmer, 2014; Schurgin & Flombaum, 2015) To address what happensto memory traces as they transition from visual working into long-term memory and what factors, such as prior knowledgeand guessing, contribute to the “lifespan” of long-term memory, we implemented three models: the standard remember-guessmodel, a three-component remember-guess model, and a Bayesian mixture model and evaluated these models against data froma continuous recall task. The results clarify the time course of fidelity in long-term memory and pinpoints specific factors thatcontribute to memory.

The Neurorobotics Platform of the Human Brain Project

The aim of the neurorobotics platform of the Human Brain Project (HBP) is to offer scientists from various fieldsa software and hardware infrastructure that allows them to connect brain models to detailed simulations of robot bodies andenvironments. In the ramp-up phase of the HBP a first version of this platform has been developed, which allows researchersto design and run simple experiments in cognitive neuroscience using simulated robots and simulated environments linkedto simplified versions of HBP brain models. The developed tools, i.e., various designers, simulation engines and simulationviewers, allow researchers to operate robots remotely, to repeat in-silico experiments and to visualize the behavior of the robotsin real-time. Together with five other ICT platforms developed in the HBP, these technologies will also enable the developmentof brain-inspired computing systems. The first version of this platform has been released March 2016 and is described in thiscontribution.

Understanding human facial attractiveness from multiple views

Facial attractiveness has long been a topic of interest for cognitive scientists. Early psychological research has foundthat averageness, distinctiveness and familiarity of a face can influence facial attractiveness. However, faces also convey richsocial information. How various social features are related to facial attractiveness hasn’t been systematically studied before.We investigate facial attractiveness in the context of social feature evaluation and find that social attributes like appearinginteresting and sociable contribute to facial attractiveness whereas appearing boring, and humble are negatively correlated withattractiveness. We further compare social features of faces with the physical configuration of faces and we are able to usegeometric features to predict facial attractiveness. We further study the individual differences on attractiveness perception andfind out that. Our study illustrates that social attributes and pixel information can go hand in hand to facilitate attractivenessprediction.

Causal perception is constrained by principles of Newtonian mechanics

Humans irresistibly perceive certain events as causal. We show, for the first time, that there is not one monolithicrepresentation of causality in perception. Rather, there are multiple categories of causal events in perception, one of which isconstrained by an approximation of a Newtonian mechanical principle: in an elastic collision, a struck object cannot move atmore than double the speed of the object striking it. We show that adults are sensitive to causal (but not non-causal) eventsthat violate this principle in a visual search task (Experiment 1), that this sensitivity is due to a categorical boundary and notthe salience of this event (Experiment 2), and that the threshold for detecting these events approximates this Newtonian limit(Experiment 3). Finally, we argue that categorical boundaries are a core feature of causal perception, as they are present aroundthe age at which causal perception first emerges (Experiment 4).

Finger Gnosis Predicts Children’s Numeracy, Despite Controlling forVisuo-Spatial Memory

Finger gnosis, the ability to mentally represent one’s fingers, predicts numeracy in children (Penner-Wilger et al.,2007, 2009) and adults (Penner-Wilger et al., 2014, 2015). It has been argued that the relation may reflect visuo-spatial memory,rather than finger gnosis ability per se. This rival hypothesis was not supported in adults (Penner-Wilger et al., 2015), but herewe examined it in children, using both a novel set of Grade 1 participants (N = 119) and a separate set previously reportedon (Penner-Wilger et al., 2007, 2009; N=146). In multiple regressions, for each set of participants, finger gnosis significantlypredicted numeracy skills, measured using the KeyMath Numeration subtest. Moreover, the relation between finger gnosis andnumeracy held for both sets of participants, despite controlling for visuo-spatial memory, measured using a Corsi-block test.These findings suggest that the relation between finger gnosis and numeracy is robust and does not reflect visuo-spatial memory.

Does Experience with Physics Concepts Improve Mental Rotation Performance?

STEM disciplines have been shown to positively impact an individual’s visuospatial skills (Kozhevnikov, 1999).The current study examines improvement in spatial thinking in physics undergraduate students over the course of a semester.Students completed the Shepard and Metzler (1971) task at two time points– beginning and end of a semester – where they wereasked to determine if two 3D figures were a match or mirror-images of each other. A Tobii X60 eye-tracker was used to recordeye movement as an indirect measure of cognitive strategy selection. Preliminary analysis show a significant improvement inmental rotation performance from time point 1 (M=31.867, SD=5.027) to time point 2 (M=35.333, SD=3.885) t(14)=-3.014,p=.009. A latent profile analysis will be used to model cognitive strategies selected at time points 1 and 2 and analyzed for sexdifferences. The findings of this study are important for understanding the underrepresentation of women in STEM.

Pragmatic inference in definite and indefinite contexts

Previous studies have shown that children have difficulty inferring intended referents of definite/indefinite determin-ers: e.g., that ”Give me the ball” implies a specific ball, while ”Give me a ball” requests any ball from a larger set. Here, weshow that these findings need not indicate a fragile capacity for pragmatic reasoning because adults only make such inferenceswithin specific contexts. Across four studies, we found that when presented with novel labels in definite contexts (the dax),adults consistently selected unique objects as the referent (though they were not at ceiling), suggesting they interpreted thedefinite as conveying specificity. Strikingly, however, when presented in indefinite contexts (a dax), subjects did not reliablylink novel labels to objects of a larger set of kind-members, unless the context explicitly encouraged them to reason aboutthe intended addressee. Together, these findings suggest that failures to make inferences about definiteness need not reflectpragmatic incompetence.

Using eye tracking data to compare models of numerical estimation

People accurately compare and estimate means without using formal calculations, however, little is known aboutthe cognitive processes underlying these behaviors. We used objective, behavioral data (e.g., eye fixation patterns), which arecompatible with multiple representations, to compare cognitive models. Specifically, we compared seven cognitive modelsincluding working memory activation (weighting values as a function of the number of and duration of fixations), workingmemory constraint (e.g., recency + primacy, last four), or Bayesian models (e.g., first fixation set as prior).Our task presented sets of 5 to 10 3-digit numbers (framed as the result of a home run derby) and asked participants to predicthow far the next ball would be hit. The same fixation data were loaded into each model to create a unique estimate, which wasthen compared to the participant’s actual prediction. The difference between the model and actual was calculated to create anaccuracy index.

Neural bases of semantic-memory deficits for events

This study investigated the neural bases of event-related semantic-memory deficits among people with aphasia due to left-hemisphere (LH) stroke. A novel task using naturalistic photographic stimuli and patient-friendly procedures was used to test event-related semantic knowledge. In the task, participants decided whether depicted events were normal (represented in semantic memory) or were abnormal (not represented in semantic memory). Performance on this Event task was correlated with deficits in action- and object-concept processing and on standardized language measures, especially action- and verb-processing deficits. Logistic regression analyses examined lesion correlates of patient performance on the Event task. Surprisingly, increasing LH lesion size in action ROIs was associated with improved performance on the event-knowledge task. These findings suggest that action processing may play a special role in event-related semantic memory representations. Furthermore, they are consistent with recent claims that the right hemisphere may be especially important for activation of event-related knowledge.

Seeing the Bees Buzz and Hearing the Diamonds Glisten: The Effect of the Modeof Presentation of Stimuli on the Modality-Switch Effect

Previous studies showed that the sequential verification of different sensory modality properties for concepts (e.g.,BLENDER-loud; BANANA-yellow) incurs a processing cost, known as the modality-switch effect (Pecher et al. 2003; 2004).We assessed the influence of the mode of presentation of stimuli on the modality-switch effect in a property verification primingparadigm. Participants were required to perform a property verification task on a target sentence (e.g., “butter is yellowish”,“leaves rustle”) presented either visually or aurally after having been presented with a prime sentence (e.g., “the light is flick-ering”, “the sound is echoing”) that could either share both, one or none of the target’s mode of presentation and contentmodality. Results showed that the presentation and the content-driven effects were not cumulative. We conclude that the MSEis a two-fold effect which can occur at two different levels of information processing (i.e., perceptual and semantic).

Bilingual Proficiency Affects Inhibitory Control: A study of Stroop Performancein 8-year-old English-Chinese Singaporean Children

Inconsistent results in the field of bilingualism and cognition may be largely influenced by variation in the natureof bilingual language proficiency. Here we explore the relationship between inhibitory control and bilingual proficiency in 438-year-old English-Chinese children in Singapore where bilingualism is prolific. Proficiency estimates are based on Oral andWritten exam scores and caretaker estimates (including use and exposure). Children completed English and Chinese Stroop,where each task comprised 75% incongruent trials. Stroop effects were calculated for both languages. Higher English scores(written and oral) and English use predicted smaller English Stroop interference. Conversely, higher Chinese exposure anduse predicted smaller Chinese Stroop interference. Thus, language proficiency, use and exposure influence inhibitory control,reiterating the need to consider bilingual proficiency when studying the relationship between bilingualism and attention. SinceStroop effects differ depending on language, bilinguals should be tested in both languages for verbal EF tasks.

Linguistic recursion and Autism Spectrum Disorder

Both first-order and second-order false-belief mastery are important in acquisition of Theory of Mind. Our logicalanalysis of second-order false-belief tasks shows that this sort of reasoning involves recursion. Language involves recursion aswell; recursive possessive and complements clauses are examples.Second-order social reasoning depends on both individual cognitive resources and immersion in a wide range of interactivecontexts. But since the ‘usual’ interactive contexts do not make the same sense to children with Autism Spectrum Disorder(ASD), it has been proposed that they use language as scaffolding in false-belief understanding.We hypothesize that competency in linguistic recursion predicts second-order false-belief mastery for children with ASD.We investigate this by training children with ASD to better comprehend and produce recursive possessive and complementclauses. We have developed and validated a tool to measure the recursion competency in the Danish language, and we applythis in a randomized controlled training study.

Computational explanation of “fiction text effectivity” for vocabularyimprovement: Corpus analyses using latent semantic analysis

Previous studies have suggested that fiction book reading has a stronger positive effect on vocabulary developmentthan nonfiction. In this study, we examined this phenomenon in terms of word appearance information in fiction (story texts),nonfiction (explanation texts), and web text using latent semantic analysis (LSA). In a human experiment with Japanese under-graduates, we replicated fiction (story) text effectivity. Participants who often read story texts achieved the highest vocabularytest scores. Then, in a corpus experiment, we constructed a story text corpus, explanation text corpus, and web text corpus ofidentical size. Based on these corpora, we calculated the LSA similarities between words, and simulated answering the samevocabulary test as used in the human experiment. The corpus experiment demonstrated the nonfiction (explanation) text effec-tively, that is, the explanation corpus was the highest. The cause of discrepancy in the results and the educational implicationsof this study were also discussed.

Interaction, abstraction and complexity

In an experimental study, we test the hypothesis that constitutive properties of social interaction - such as diversityin cognitive styles, knowledge and experience - enhance cognitive processes of abstraction. Through three sessions, individualsand dyads categorized aliens based on combinations of features such as the shape and color of their body parts. We manipulatedrelations among the features to elicit increasingly complex categories. Furthermore, to assess the character of participants’evolving categories, after each training session they were presented to a new test set of aliens that differed in appearance, butshared relations among features with aliens from the training set. We found that dyads outcompete individuals in categorizationaccuracy across levels of complexity. We also found that this effect is due to the more abstract and rule-based character ofdyads emerging representations as evidenced by their performance on test items.

Using Nature Language Processing to Improve Optical Character Recognition

OCR (Optical Character Recognition) has developed over 100 years. However, if the document or picture is stained,it could not work well. Considering that words in text can be connected by logical relationship, with the help of the idea thatreducing the size of word stock which references from license plate recognition, this paper established N-GRAM model, usedthe results of Google search engine to improve its text sparsity. The use of residual features of the original stained characterscan improve the recognition rate and accuracy with the help of a smaller size of the word stock successfully.

Artificial Language Learning: The Context of Negation

Words are learned in various contexts and over various timescales throughout our lives. The current study exploredthe role of context in the form of negation in artificial language learning. It was predicted that words trained in an entirelynegated context would show lower average correctness in the testing phase than those trained entirely in the affirmative or inthe combined contexts. Eighteen artificial nouns were trained using the prefixes “an-” meaning “not the” or “o-” meaning “the”to mark negation. In the testing phase, participants were tested without the prefix on word stems only. Findings indicatedwords learned solely in the affirmative context led to a higher average correctness while those learned solely in the presence ofnegation showed the least average correctness in the testing phase.

Source Expertise and Question Type Effects in Conversation-Based Assessment

Conversational discourse is a cognitive and social process influenced by both discourse content and pragmaticfactors, such as the participants’ prior knowledge; these factors may also affect how simulated conversations with virtual agentsunfold, with implications for design. This study explored effects of question content and perceived expertise of a virtual agenton students’ interactions with a conversation-based assessment (CBA) measuring science inquiry skills. Twenty-four middleschool students were randomly assigned to work with a High- or Low-Knowledge virtual peer to collect data and generateweather predictions. Students evaluated their own data relative to the peer’s; they could either ”Choose” which note to keep, orto ”Agree/Disagree” with the peer’s suggested choice of note. Students rated the peer as more expert in the High-Knowledgecondition, but peer expertise did not affect performance. However, the Agree/Disagree condition improved students’ accuracyin their note choice, and yielded marginally higher pre-post learning gains.

Implicit updating of object representation via predictive associations

An adaptive function of the visual system is that it flexibly updates existing representations of objects upon changes.Such updating can also alter the representations of associated objects that are not directly observable. What mechanism supportsthis process? We propose that statistical learning provides a channel through which changes in one object are automaticallytransferred to related objects. Observers viewed a temporal sequence of paired circles. One circle in each pair then changed insize, and observers recalled the size of the other circle. When the first circle enlarged (or shrank), the second circle was judgedto be larger (or smaller), suggesting that the change was automatically transferred to the predicted object (Experiment 1). Thesame, however, was not true if the second circle changed in size (Experiment 2). No observer was explicitly aware of the circlepairs. Thus, statistical learning enables the implicit updating of representations through predictive associations.

Roles of Metacognitive Suggestions in Hypothesis Revision

We investigated whether metacognitive suggestions alone can function as a means of encouraging recipients’ reflec-tion and facilitate hypothesis revision. We also examined whether it is necessary to ground the suggestions on the recipients’thinking processes for the facilitative effects. 108 participants were assigned to one of the four conditions: metacognitivesuggestion collaboration with/without grounding support; free collaboration; and sole. They were asked to engage in a rulediscovery task. The task was designed so that hypothesis revision was necessary for the participants to find the correct rule.The results showed that performance both in the free collaboration and in the metacognitive suggestion collaboration withgrounding support conditions was higher than that in the solo condition. We concluded that metacognitive suggestions alonecan facilitate hypothesis revision as well as free collaboration and that grounding support is necessary for the facilitative effectto be obtained.

Tactile protocol analysis: Observations of novices reading data tables by touch

The “Cognitive Science of Tactile Graphics Project” at the University of Sussex is studying how experienced andnovice users of tactile graphics read diagrams by touch. One goal of the project is to design novel tactile formats that specificallysupport ready access to, and rich interpretations of, information in tactile materials by people with visual impairment. Thispresentation focuses upon the development of a Tactile Protocol Analysis (TPA) method for the transcription, segmentation,coding and interpretation of tactile graphic reading behaviours. TPA is challenging because both hands may be performingseparate actions over different timescales and fingers of one hand may themselves be performing different actions. To initiallydemonstrate the utility of the method, 24 novice tactile readers’ performance on a data table search task was analyzed, fromwhich hypotheses were formulated about the impact of object recognition skill on overall patterns of search.

In the event of a turn exchange: Visual information the perception of turn-takingbehavior in natural conversation

Everyday conversation is composed of a rapid exchange of turns between talkers as they communicate. The speedof these exchanges implies simultaneous perception and production of conversational cues relevant to turn-taking behavior.Natural face-to-face conversation involves a rich set of these social cues including visual information whose contribution toperception of turns has yet to be examined. Our studies investigated the influence of visual information in perceiving a turnexchange. We examined the time-course of the use of these visual cues during turn judgments. Results show that visualinformation is sufficient but not necessary for perceiving turn exchanges. Further, the temporal precision with which auditorycues influence turn perception is greater than that of visual information. We suggest that although auditory cues dominatethe perception of turn exchanges, reliance on the various sources of information is flexible and may follow highly sensitivetimelines.

An Eye For Figurative Meaning: The Effects of Familiarity on MetaphorComprehension

The career of metaphor hypothesis suggests that processing preference is a result of conventionality whereby con-ventional metaphors are processed through categorization, and novel ones processed through comparison. Alternatively, the cat-egorization model predicts that apt metaphors are processed as categorizations whether or not they are conventional. However,research has largely ignored another known factor to influence metaphor processing, namely familiarity. The categorizationmodel predicts familiarity to play no role in deciding on processing strategy. On the other hand, the career of metaphor hypoth-esis predicts that familiarity to play a facilitating role in metaphor comprehension. In this experiment, we used the eye trackingparadigm and controlled for aptness and conventionality, and manipulated familiarity in order to test these predictions. Ourinitial results support the career of metaphor hypothesis suggesting that familiarity facilitates metaphor processing. We discussthe implications these results have on the psycholinguistic models and briefly speculate on their philosophical consequences.

The Concept of Transcendent God and the Emergence of Cognitive Level D in theFour-Level-Cognitive-Development Theory

The author addresses the emergence of cognitive level D in the Four-Level-Cognitive-Development Theory(FLCDT). He argues that the concept of transcendent God, ‘Maker of Heaven and Earth and of all things visible and invis-ible’ was an important factor for that. The problem of God’s qualities and the view of numbers in medieval Christian andArabic philosophy are examined as some arguments for the key point of this paper.

Implicit versus explicit language learning: Differential effects of working memoryand learning styles

Understanding the process of adult language learning has recently undergone advances due to the consideration ofhow individual differences (IDs) in cognitive processing, such as working memory (WM), affect acquisition. We know thatimplicit versus explicit learning conditions also influence learning, however, the potential interactions between IDs, the efficacyof implicit versus explicit learning, and different types of linguistic information are largely unknown. In this study, we testedlearning of syntax and grammatical case under two conditions: incidental and explicit rule-provision (“instructed”). We alsoassessed individuals’ WM, phonological working memory (PWM), and learning styles. Significant learning effects were foundfor word order and case in both learning conditions. For case, but not for word order, the instructed group outperformed theincidental group. Regarding IDs, incidental learning of case was marginally related to individuals’ WM; instructed learning ofcase was related to PWM. For learning styles, there was a negative relationship between learning of word order in the instructedcondition and a deductive learning style. These results reveal the complex relationships among cognitive processes in explicitand implicit language learning across different aspects of language structure, and in relation to cognitive IDs.

Enhancing Creativity in Children by Imparting Chess Training

Creativity is the ability to find hidden patterns, to make connections between seemingly unrelated phenomena, andto generate solutions. The present study, funded by Indian Government, analysed the effect of one year chess training programon the creativity of school-going children of both genders. A pre-test post-test with control group design was used. Thesample comprised 64 children: 32 children each in experimental (Mean age=11.86, SD=1.44) and control (Mean age=12.03,SD=1.14) groups. Children in the experimental group underwent weekly chess training with Winning Moves Chess Curriculum.Creativity was assessed by Indian adaption of Wallach-Kogan Creativity Test. Pre–intervention equivalence of the two groupswas established. Independent t test analysis revealed that the experimental group had statistically significant gains in totalcreativity and Instances and Alternate Uses subtests compared to the control group. The authors conclude that systematic chessintervention increases creativity in children. The educational implications are significant.

The role of grammatical form in generalizing principled and statistical properties

Asymmetric generalization patterns for definite and indefinite singular genericsIn two experiments, we investigated the role of grammatical form in inferring the conceptual status of properties in genericsentences. We trained participants on novel properties in pseudoword sentences with bare plural (BP), indefinite (IS) and definitesingular (DS) subjects. In the test phase, participants rated the relationship between trained properties and novel subjects: Wefound that, compared to BP, properties trained in the IS condition increase expectations of principled connections whereasDS-trained properties diminish expectations of statistical connections. BP subjects acted as a control since they were equallyjudged to be statistically or principally connected. These results support the theoretical claim that IS have quantificational forceand DS directly refer to kinds. They leave open the puzzle of the nature of BP subjects which seem to be ambiguous betweenthe two and also the only one to convey statistical connections.

Priming Spatial Reference Frames for Memory

We examined the role of spatial frames of reference in memory. Participants first verified verbal descriptions of visualscenes and spatial relations among objects. The intrinsic and relative frames of reference (FoR) were used in the descriptionswith varying degrees of frequency (availability) and veridicality (reliability). Descriptions in the two reference frames couldeither be equally distributed in terms of validity or were biased towards one of the two spatial frames. Participants’ performanceon the memory task was sensitive to priming from the spatial FoRs and their information distribution characteristics. Thesefindings provide evidence that spatial frames of reference can influence spatial memory and that this influence depends onthe frequency of use of a given frame of reference and on the frequency with which it is associated with valid and reliableinformation.

Deep Learning and Attentional Bias in Human Category Learning

Human category learning is known to be a function of both the complexity of the category rule and attentionalbias. A classic and critically diagnostic human category problem involves learning integral stimuli (correlated features) using acondensation rule, or separable stimuli (independent features) using a filtration rule. Human category learning shows differentiallearning based on category rules that either require attentional binding or ignoring features. It has been shown that neuralnetworks learning with backpropagation cannot differentially learn or distribute attention without built in perceptual bias. Ineffect neural networks fail to integrate the complexity of learning with the representational bias of the stimuli. In this paper weshow that Deep Learning networks, through successive re-encoding and the development of more sensitive feature detectors,learn both the category rules while modeling the attentional bias consistent with the human performance in a task of categorizingrealistic 3D-modeled faces.

Re-presenting a Story by Emotional Factors using Sentiment Analysis Method

Remembering events is affected by personal emotional status. We examined the psychological status, personalfactors, and social factor of undergraduate students (N=64) and got summaries of a story, Chronicle of a Death Foretold fromthem. As transfer learning, we collected 38,265 movie review data to train a sentimental analysis model based on convolutionalneural network, using the model to score each summary. The results of CES-D and PANAS show the relationship betweenemotion and memory retrieval; depressed people have shown a tendency of representing a story more negatively, and seemedless expressive. People with full of emotion have retrieved their memory more expressively, using more negative words. Thecontributions of this study can be summarized as follows: First, we lighten the relationship between emotion and its effects onstoring or retrieving memories. Second, we suggest objective methods to evaluate the intensity of emotion in words, using asentimental analysis model.

Reexamining the Unaccusative Hypothesis: a Visual World Paradigm study

The Unaccusative Hypothesis (UH) predicts that the subject of an unaccusative is mentally reactivated in the objectposition. Previous psycholinguistic studies have reported evidence of reactivation (Friedmann et al 2008, Koring et al 2012).However, these studies did not equate the unaccusative and unergative stimuli, resulting in confounds which jeopardize theirconclusions. We reexamined UH with two Visual World Paradigm experiments carefully controlled for the potential confoundsin the previous studies. On each trial, participants (n=40; n=52) saw 4 black-and-white drawings and heard a sentence. In thetest condition, but not the control condition, one image was semantically related to subject of the sentence. We measured theproportion of looks to the target image at three time regions after the verb onset and found a robust match-effect (p’s<.05)but no differences between the unaccusative and unergative conditions. We will discuss the consequences of our findings forsyntactic theory.

Negation affects processing of correct and incorrect information: A visual-worldparadigm for misinformation

The current study investigated how lexical priming and negation affects encoding and retrieval of information.Studies have shown people encode and retrieve misinformation from memory, but the mechanisms of encoding and retrieval arenot well understood. To address this, an eye-tracking paradigm was designed to examine probabilistic activation during retrievalof accurate or inaccurate information. Participants read four different kinds of texts that varied by if they were affirmative ornegated and whether they contained accurate or inaccurate information. After participants read all texts, eye fixations weretracked in a visual world paradigm with four plausible answers on screen in each corner to choose from. Suppression wasobserved in groups that did not produce misinformation. When participants answered correctly, despite reading misinformation,we observed misinformation being inhibited instead of primed. Mechanisms of processing true and false information and theinterplay between language and conceptual formation are discussed.

Lexicalization Typology of Realization Events in Mandarin Chinese

There has been a hot debate on the typological status of Mandarin Chinese in Talmyan framework of Verb-framedlanguages (V-languages) and Satellite-framed Languages(S-languages). However, most previous studies focus on motionevents, while other macro-events (Talmy, 2000) receive little attention. The present study aims to investigate event of real-ization in Mandarin Chinese with experimental method. The analysis of elicited data shows that: (1) predicates of Mandarinrealization events are mostly bipolar resultative verb compounds, which have the semantic feature of [+agent], [+instrument],and [+state change]. This proves that “result” is a semantic prime in Chinese verb semantics. (2) Lexicalization patterns ofrealization events in Mandarin represent more of S-language, but Mandarin also shows the characteristics of V-language. Thedifference between S-language patterns and V-language patterns is significant, and the general tendency is: S-language>V-language. Overall, the results indicate that the lexicalization typology of Mandarin realization events falls into a complementarytypological framework.

An Analogical Model of Pretense

Pretense has been implicated as playing a role in the development of many cognitive and social skills. Despite theimportance and ubiquity of this phenomena, few computational models of pretense exist. We propose a model of pretense viaanalogical abduction. We suggest that pretense occurs via structural alignment. Where a mismatch occurs (i.e. something inthe pretend scenario is not the same as its aligned match in an equivalent real-world scenario), a re-representation must takeplace in order for pretense to continue. For example, a seashell may be re-represented as a cup (as in Fein, 1975) or an emptycup may be re-represented as full (as in Onishi et al., 2007). We show that this model can explain results from two empiricalstudies, including failures in pretense.

A Model of Language-Guided Concept Formation using a Common Frameworkfor Unsupervised and Supervised Learning

A general learning rule, “BCM-δ ”, is proposed that subsumes both unsupervised learning as a form of the BCMrule (Bienenstock, Cooper, Munro, 1982; Munro, 1984) and the delta rule (Rosenblatt, 1958; Rumelhart, Hinton, and Williams,1986). The “BCM-δ ” unit is composed of two subunits, T and L, each integrating distinct input streams across distinct setsof synapses. The two subunits follow a common Hebb-like learning procedure that reduces to an unsupervised rule for the Tsubunit and a supervised rule for the L subunit in which the T response is the training signal. This model suggests a neurallyplausible mechanism for the shaping of concepts by labels. More generally, stimuli from one modality can shape the responseproperties of a unit to another modality using a framework that is biologically plausible and gives clues to the source of ateaching signal for supervised learning.

Learning Spiking Neural Controllers for In-Silico Navigation Experiments

Artificial neural networks have been employed in many areas of cognitive systems research, ranging from low-levelcontrol tasks to high-level cognition. However, there is only little work on the use of spiking neural networks in these fields.In this project, we developed a virtual environment to explore solving navigation tasks using spiking neural networks. We firstused an existing experimental setup and compared the results to validate the developed environment. An evolutionary approachis used to set the parameters of a spiking neural network controlling a robot to navigate without collisions. In a second set ofexperiments, we trained the network via reinforcement learning which was implemented as a reward-based STDP protocol. Ourresults validate the correctness of the developed virtual environment and demonstrate the usefulness of using such a platform.The virtual environment guarantees the reproducibility of our experiments and can be easily adapted for future research.

Why are we (un)systematic? the (empirical) costs and benefits of learninguniversal constructions

A theoretical challenge for cognitive science is to explain both the presence and absence of systematicity. Oneexplanation (Phillips & Wilson, 2010) says systematicity derives from universal constructions. We tested this theory with anexperiment that required learning cue-target pair maps whose underlying structures were either products (universal construc-tion), or non-products (control). Each series was learned in either ascending or descending order of size: number of uniquecue/target elements constituting pairs, which varied from three to six. Only performance on the product series was affectedby order: systematicity was obtained universally in the descend group, but only on large sets in the ascend group. The resultssuggest that learning small maps directly, without reference to the underlying product, may be perceived as more cost-effective,i.e., acquisition of a universal construction, hence systematicity, depends on an empirical cost-benefit tradeoff.

Reasoners are influenced by conversational pragmatics in abstract conditionalreasoning tasks

People demonstrate systematic logical failures when reasoning about conditional statements. In the Wason selectiontask, a test typically interpreted as a measure of abstract deductive reasoning, only about 10% of participants choose the cardsprescribed by deductive logic. One possibility is that people are simply bad at hypothesis testing – biased toward confirmingrather than falsifying abstract conditional rules. A second possibility, however, is that performance on the task is stronglyinfluenced by pragmatic effects of linguistic interpretation. In three experiments, we find that manipulating the instructions toemphasize falsification and that changing the formulation of the rule to increase the pragmatic salience of the correct choicesimproves performance. These results arise because people do not merely decode the logical content of linguistic expressions.Rather they attempt to understand the communicative intentions of the individual who produced the expression even in abstractreasoning tasks.

A Brain-Based Feature Model of Adjective-Noun Composition

Brain-based features of meaning (sensory-motor features: sound, color, manipulation, motion, and shape) are usedto compare two popular models of adjective-noun semantic composition: element-wise vector addition and multiplication. Alarge literature (e.g. Fernandino et al., 2015) suggests that perceptual systems contain information that can be extracted usingneural decoding (e.g. Anderson, Murphy & Poesio, 2014). Using Amazon’s Mechanical Turk, participants rated how mucheach of the words and phrases (made of all combinations of the selected adjectives and nouns) evoked the features. Bothmultiplication and addition surpass chance at matching the correct phrase, but addition outperformed multiplication (addition =7.6/60, multiplication = 13.4/60). Addition allows the adjective to weight the important sensory-motor attributes for the noun.Based on these behavioral results, we predict, and will test in upcoming work, that addition will also be successful when usingbrain activity (from fMRI) as the representations of the adjectives, nouns, and phrases.

Experience Representation of Artificial Cognitive System in Interaction with Real

In this paper, we propose a novel experience representation approach for artificial cognitive system (such as a robot).The artificial cognitive system with the ability to store experiences and to adapt plans and behavior according to experienceswill be beneficial for understanding the human representation of experience and be useful for developing practical servicerobot. Here an artificial cognitive system experience is defined as a record about the events occurred in the past. Three kindsof experiences (ontology, robot activities and environment activities) are introduced. In this work, we demonstrate the mobilecognitive system with a PR2 platform in a restaurant environment and a corresponding simulation environment. Four differentscenarios (Serve-A-Coffee, Deal-with-Obstacles, Clear-Table and Well-set-Table) have been set to demonstrate the performanceand collect the corresponding experiences.

Is it Living? Insights from Modeling Event-Oriented, Self-Motivated, Acting,Learning and Conversing Game Agents

A cognitive architecture is presented, which combines insights from artificial intelligence with cognitive psychology,biology, and linguistics. Using a Super Mario clone, we equipped the simulated agents with (i) motivational behavioral systems,(ii) reasoning and planning capabilities, (iii) event-based schema learning and sensorimotor exploration, and (iv) speech com-prehension and generation mechanisms. The motivational system activates goal events to maintain internal homeostasis. Toinvoke selected events, hierarchical action planning and control unfolds both on an event-schematic and a sensorimotor level.Schema learning is based on the detection of event changes, which are not predicted by the basic sensorimotor forward model.Language is comprehended and generated using context-free grammars linked to the schema-based knowledge structure. Thework offers an approach to develop and thus to ground conceptual, semantic world knowledge in sensorimotor interactions andto couple this knowledge with a language to generate and comprehend language about the agent’s virtual world meaningfully.

Cognitive Sciences Strategies for Futures Studies (Foresight)

It seems before understanding the mind structure and laws governing the process of perception, we’ve gone into theapplication of science to build better futures. This is because the science begins with attitude not the reality.The major goal ofthis study is to identify qualitative relationships among key variables across of Cognitive Sciences (CS) with Futures Studies(FS).Ideas and subjects that explained here are just introduction to this research main goal. As a conclusion, by some strategiesof CS for FS theFuture Oriented Artificial Intelligence Machine as a science fiction ideahas been introduced.

Extending the Talmyan Typology: A Macro-event as Event Integration and Grammaticalization

This article addresses the macro-event, a fundamental concept for the Talmyan two-way typology. It proposes adiachronic aspect of macro-event, an aspect that seems to be under-appreciated or even neglected. It argues that a macro-eventintegrates two simple events through grammaticalization. This hypothesis is supported by the behaviors of directional verbsin Mandarin Chinese in that these forms alone can express almost all five types of macro-events that Talmy analyzed, and thatthese macro-events themselves represent an integration of two simple events, and exhibit various degrees of grammaticalization.This study relates two seemingly unrelated areas of research, i.e. event structure and grammaticalization and provides a newperspective to the Talmyan typological paradigm.

Perceptual Decision Making of Humans and Deep Learning Machines: aBehavioral Study

Human visual perception system is a key issue of the cognitive researches. It is also an inspiring prototype of thecutting-edge artificial intelligence researches - deep learning. It is interesting to investigate the behaviors of humans and deeplearning machines on vision tasks. In this paper, we focus on the perceptual decision making and object recognition on distortedimages. We found that in a wide range of distortion levels, the recognition rates of human subjects are smoothly increased alongwith the decreases of distortions. Although the deep learning machines perform obviously worse than human subjects, theirrecognition rates vary with the similar trends. It indicates that the deep learning machines make a good simulation to the humanbeing on the perceptual decision making tasks.

Age Related Differences in Episodic Memory Recollections: Applying LatentDirichlet Allocation to Free-Writings on Driving Incidents by Older and YoungDrivers

Reporting driving incidents depends on episodic memories formed at a certain time point in the past, and its retrievalwith subjective feelings. This study examined aging effects on episodic memory recollections by analyzing free writing reportsby older and young drivers. Unstructured hand-writing samples from 199 older (Mage = 69.2) long-experienced (Mdriving =43.0 years), and 299 young (Mage = 21.5) novice (Mdriving = 2.2 years) drivers were avalyzed by Latent Dirichlet Allocation.This identified a 6-topic model labeled: (1) operational failures, (2) control aspects, (3) other vehicles, (4) jump-outs, (5) trafficlights, and (6) attention. Posterior distribution analysis revealed that older drivers reported less in topics concerning own drivingoperations. In addition, older drivers less attributed these topics to self than environment relative to young drivers. The agedifferences of episodic memory retrieval for free reports and applicability of natural language processing to psychology arediscussed.

The Temporal Cheerleader Effect: Attractiveness Judgments Depend onSurrounding Faces Through Time

Previous research has found that people are seen as more attractive when they appear in a group rather than inisolation. Do faces that surround us in time also affect how attractive we seem? Participants rated the attractiveness of famousfemale faces presented in a sequence of three and in isolation. We found that people do integrate information about attractivenessover time, but that temporal context has the opposite effect of static context. People perceived faces as less attractive in a seriesthan when those same faces were presented in isolation. We also varied the attractiveness of surrounding faces in order toexamine how the serial position of contextual information figures into people’s judgments of a face. Faces presented early inthe sequence figured more heavily into people’s judgments than did faces presented at the end. These findings highlight therole that temporal context plays in the perception of attractiveness.

Information Acquisition: Stopping Rules For Varying Levels of Probabilities andConsequences

We performed an exploratory experiment aiming to assess the use of stopping rules in information acquisition.Participants were requested to make a decision or procrastinate on 24 economic/financial scenarios after buying informationpieces. Behavioral and EEG data were recorded for analysis. Results showed that participants decided according to Bayesiancalculations to stop information acquisition and decide. Moreover, information acquisition strategies seemed consistent withprospect theory, with participants weighing information pieces differently and seeking more or less information given differentmanipulations in scenario probability, consequence valence and intensity. EEG data suggests a lateralization at frontal electrodesites. With probabilities stated, low negative consequence scenarios showed a positive peak at F3 around 200 ms before adecision was made. When probabilities were not stated, high positive consequences scenarios evoked a negative deflection atF4 around 400 ms before a decision.

Categorization of Probability Word Problem: Effects of Prior Statistical Trainingand Semantic Schema

A problem sorting task was used to examine how the semantic content of probability word problems affects problemunderstanding and categorization, for students with various levels of statistical training. In the task, undergraduate and graduatestudents were asked to sort probability problems into groups by similarity of solution. The problems varied by relevant proba-bility principle, by type of semantic schema, and by cover-story surface content. Results showed that both less-trained studentsand more-trained students tended to sort problems by relevant probability principle, but students with more statistics trainingdid this more consistently. Both groups of students tended to be affected in the sorting task by semantic schema, defined hereas intermediate-level abstractions of the problem structure. For example, when a permutation problem described assignmentof people to people, students showed a strong tendency to group it with independent-events problems with a people-to-peoplematching schema.

Differential Processing for Actively Ignored Pictures and Words

Previous work suggests pictures may be processed more readily than words, likely because pictures appear tomaintain more direct access to semantic and conceptual representations (Amit, Algom, & Trope, 2009). However, it is unclearhow words and pictures may be processed differently when they are actively ignored. Our earlier work demonstrated a facilitatedrecognition for actively ignored words, provided they appeared frequently with an attended target in a previously presentedrepetition detection task (Dewald, Sinnett, & Doumas, 2012). The current study adapted this paradigm to examine the extentto which unattended pictures may be processed under analogous conditions. Overall, ignored pictures were recognized moreoften than ignored words. Moreover, recognition for ignored pictures did not benefit from target-alignment whereas ignoredwords did. These findings suggest that unattended pictures may continue to be processed more readily than words even underconditions in which attention is not directed toward them.

Kindergarteners and adults learn fraction-rules in a categorization task

Both children and adults can learn new categories when presented with a rule about a perceptual feature. Likecategorization, numerical abstraction requires the ability to ignore irrelevant (non-numeric) perceptual features when makingdecisions about relevant (numeric) features. The present study fuses these two lines of research by training 5-7 year oldsand adults in a categorization task, in which they must form a rule about a fraction-based category. Can children form thismathematical category readily? Will they be able to do so without any formal instruction? How does this ability developor change across the lifespan? We find that young children and adults readily form fraction-based categories, indicating thatchildren can think about proportional information prior to formal schooling. Additionally, an ability to map between visual andsymbolic representations aided both children and adults in this numeric categorization task, with children showing additionalgains in traditional fraction knowledge.

Promoting prosocial behavior and emotional awareness in preschoolers

Human-animal interaction (HAI) supports a theory that animals may enhance social support both directly, as a sourceof comfort, and indirectly, as a facilitator of human interaction. Existing research found that dogs are suitable in helping childrendevelop healthy self-esteem and empathy for others and the classroom interaction between assistance dogs and children is alsoeffective in developing children’s sense of responsibility and empathy. The current study implemented dog-assisted interaction(DAI) and video interaction (VI) as two different experimental conditions to test their efficacies in promoting preschoolers’prosocial behaviors and emotional awareness. A total of 146 Chinese children (aged from 3 to 5.5 years old) participated in thestudy. The results indicated that both DAI and VI are more effective in promoting collaborative behaviors than regular teachingmethod on their collaborative ability and emotional awareness while only DAI significantly enhanced children’s emotionalawareness.

A Cognitive Approach to Modeling Sentence Level Prominence Based on StimulusUnpredictability

The human sensory system is capable to rapidly respond to novel input, allowing for quick allocation of attentionalresources to the stimulus. In a similar manner, prominent words in speech seem to attract the listeners’ attention and facilitate oralter interpretation. Sentence prominence has been typically studied across languages by examining configurations of acousticprosodic features during prominent words. Recent studies have provided evidence that, in addition to the predictability of thelexical units in speech, manipulating the predictability of the acoustic prosodic features can also signal prominence. In thiswork, we provide a high-level description of a cognitive framework that attempts to characterize sentence prominence as aphenomenon that is connected with the unpredictability of suprasegmental acoustic features, thereby capturing the attention ofthe listener and causing differential processing of prominent speech.

Simulating the cost of cooperation: A recipe for collaborative problem solving

Crowdsourcing consists in engaging a community of people in solving complex problems. Collaborative problemsolving is affected by many variables (e.g., group size, difficulty of the task, tendency to cooperate) in a complex way. In thisstudy, we extend the results of Guazzini et al. (2015) by means of a numerical simulation exploring the impact of the cost ofcooperation in collaborative problem solving. We observed that the cooperation costs have damaging effect with smaller groupsthat face hard problems. When groups fail to solve the problem there is a long-term reduction in fitness (since the group is notable to learn) as well as a short-term loss of a payoff. So, when facing small group and hard task in concrete application, it isbetter to control the cooperation costs with ad hoc interventions.

Choice magnitude and decision time: investigating magnitude sensitivity invalue-based decision making

From an evolutionary perspective, it has been proposed that decision making should be sensitive to the overallmagnitude of the alternatives under consideration in order to resolve costly deadlocks and thus improve long-term rewardintake. We provide initial evidence that the overall magnitude of the alternatives affects decision making, by speeding updecision time in order to maximise a speed-value trade off. Implications for current computational models of decision making,in particular for the Drift Diffusion Model, are discussed.

Multimodal Object Recognition and Categorisation by Interactive Behaviours

Human beings have an excellent ability which can form and recognise object categories. In this paper, a novel systemof multimodal object recognition and categorisation by perform- ing interactive behaviours is introduced. Video clips are filmedas the raw input of the system. A dataset of 100 objects with 18 categories and 5 different interactions is used to evaluated theperformance. Convolutional neural network is used to train the classifier and learn the categories. The result shows the high-est, lowest and average recognition accuracies of every specific object in every category and the receiver operating character-istic for every category. The connection between the presented system and human cognitive system is discussed in the conclu-sion and future works.

Preschoolers evaluate risk and reward in exploration-exploitation tasks

Children are drivers of their own discovery. To develop a complete characterization of the factors that drive explo-ration in early childhood, we must first understand how competing factors influence children’s decision making. We investigatedpreschool-aged children’s decision-making on explore-exploit tasks where the available information about the distribution ofrewards was controlled. When probability information is unknown, children preferred to exploit known rewards over exploringunknown ones. However, performance in Experiment 2 shows that children can use probabilistic information to form accurateexpectations about possible outcomes to effectively choose between exploiting and exploring. The degree to which individ-ual children are “exploratory” is also shown to be consistent over weeks, suggesting that individual children have “trait-like”exploratory drives. On aggregate, children incorporate these individual tendencies towards exploration or exploitation withprobability information; thus children readily form estimations of expected reward and use this information to guide efficientexploratory behavior.

Transfer at the Level of Human-Computer System: Problem Solving usingProcedure-Automation Software

Issues of transfer and of human-computer systems are central, but largely separate questions in cognitive science.We take the human-computer system as the unit of analysis and explore how well a human-computer system transfers to tasksoutside the scope of the humans’ training and the software’s design. In two experiments, participants used the procedure au-tomation software (PRIDE) to control simulations of International Space Station habitat systems. Both the software design andthe user training addressed routine procedure execution. In the transfer problems the conditions assumed for routine procedureexecution were not met, requiring novel problem solving. We report on our methods for complex behavior analysis and ourresults showing high though imperfect transfer, noteworthy given the widespread difficulty of transfer. Further investigationof transfer at the level of human-computer system is important for understanding what combinations of technology design anduser experience enable effectively dealing with the unexpected.

What Makes Campaign Messages Popular On Twitter ?

The rapid adoption of social media by billions of people from all over the world has unleashed unprecedentedopportunities for marketers and cognitive scientists to better understand why some message become popular while other diequickly. We designed a novel technique for automatically learning to differentiate popular tweets from unpopular ones and topredict how popular a given tweet will become in a given target audience. To demonstrate the effectiveness of our approach,we applied it to real world data collected from six social media messaging campaigns run by a variety of marketing as wellas non-profit organizations including Proctor and Gamble’s Always Campaign. The studies showed that our approach can behighly effective (achieving accuracy scores from 92% to 99%) for automatically learning what makes a message popular in anygiven group as well as for automatically predicting how popular a message will be in a given target audience.

Investigating the Explore/Exploit Trade-off in Adult Causal Inferences

We explore how adults learn counterintuitive causal relationships, and whether they interpret evidence and discoverhypotheses by incrementally revising beliefs. We examined how adults learned a novel, unusual causal rule when given datathat initially appeared to follow a simpler, more salient rule. Adults watched a video of blocks placed sequentially on a detectorthat activated when a block was a ”blicket”, then were asked to determine the underlying causal structure. We contrasted twocausal learning problems. In both cases, one rule could be used to determine which objects were blickets; in the first problemthis rule was complex, but could be found by making incremental improvements to a simple and salient initial hypothesis. Thesecond problem’s rule was simpler, but to adopt it, participants had to ignore initial beliefs. Our results provide some of thefirst evidence for an inference trade-off analogous to the ”explore-exploit” trade-off in active learning.