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Toward a Simulation Platform for Comparing Computational CognitiveNeuroscience Models

Abstract

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.

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