Reinforcement Learning Models of Human Behavior: Reward Processing in Mental Disorders

Baihan Lin; Guillermo Cecchi; Djallel Bouneffouf; Jenna Reinen; Irina Rish

Reinforcement Learning Models of Human Behavior: Reward Processing in Mental Disorders

Baihan Lin, Guillermo Cecchi, Djallel Bouneffouf, Jenna Reinen, Irina Rish

Published: 02 Oct 2019, Last Modified: 21 Apr 2024Real Neurons & Hidden Units @ NeurIPS 2019 PosterReaders: Everyone

Keywords: neuroscience, reward processing, reinforcement learning, psychiatric disorders

Abstract: Drawing an inspiration from behavioral studies of human decision making, we propose here a general parametric framework for a reinforcement learning problem, which extends the standard Q-learning approach to incorporate a two-stream framework of reward processing with biases biologically associated with several neurological and psychiatric conditions, including Parkinson's and Alzheimer's diseases, attention-deficit/hyperactivity disorder (ADHD), addiction, and chronic pain. For the AI community, the development of agents that react differently to different types of rewards can enable us to understand a wide spectrum of multi-agent interactions in complex real-world socioeconomic systems. Empirically, the proposed model outperforms Q-Learning and Double Q-Learning in artificial scenarios with certain reward distributions and real-world human decision making gambling tasks. Moreover, from the behavioral modeling perspective, our parametric framework can be viewed as a first step towards a unifying computational model capturing reward processing abnormalities across multiple mental conditions and user preferences in long-term recommendation systems.

Community Implementations: [![CatalyzeX](/images/catalyzex_icon.svg) 1 code implementation](https://www.catalyzex.com/paper/arxiv:1906.11286/code)

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