Capturing Strategic Shifts in An Uncertain World: A Distributional Dual-Process Model for Decision-Making

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Abstract

In an uncertain world, human decision-making often involves adaptively leveraging different strategies to maximize gains. These strategic shifts, however, are overlooked by many traditional reinforcement learning models. Here, we incorporate parallel evaluation systems into distribution-based modeling and propose an entropy-weighted dual-process model that leverages Dirichlet and multivariate Gaussian distributions to represent frequency and value-based decision-making strategies, respectively. Model simulations and empirical tests demonstrated that our model outperformed traditional RL models by uniquely capturing participants’ strategic change from value-based to frequency-based learning in response to heightened uncertainty. As reward variance increased, participants switched from focusing on actual rewards to using reward frequency as a proxy for value, thereby showing greater preference for more frequently rewarded but less rewarding options. These findings suggest that increased uncertainty encourages the compensatory use of diverse evaluation methods, and our dual-process model provides a promising framework for studying multi-system decision-making in complex, multivariable contexts.

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