Understanding dual process cognition via the minimum description length principle

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Abstract

Dual-process theories play a central role in both psychology and neuroscience, figuring prominently in domains ranging from executive control to reward-based learning to judgment and decision making. In each of these domains, two mechanisms appear to operate concurrently, one relatively high in computational complexity, the other relatively simple. Why is neural information processing organized in this way? We propose an answer to this question based on the notion of compression. The key insight is that dual-process structure can enhance adaptive behavior by allowing an agent to minimize the description length of its own behavior. We apply a single model based on this observation to findings from research on executive control, reward-based learning, and judgment and decision making, showing that seemingly diverse dual-process phenomena can be understood as domain-specific consequences of a single underlying set of computational principles.

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Moskovitz, T., Miller, K. J., Sahani, M., & Botvinick, M. M. (2024). Understanding dual process cognition via the minimum description length principle. PLoS Computational Biology, 20(10). https://doi.org/10.1371/journal.pcbi.1012383

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