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Distinct value computations support rapid sequential decisions

Andrew Mah, Shannon S. Schiereck, Veronica Bossio and Christine M. Constantinople ()
Additional contact information
Andrew Mah: New York University
Shannon S. Schiereck: New York University
Veronica Bossio: New York University
Christine M. Constantinople: New York University

Nature Communications, 2023, vol. 14, issue 1, 1-14

Abstract: Abstract The value of the environment determines animals’ motivational states and sets expectations for error-based learning1–3. How are values computed? Reinforcement learning systems can store or cache values of states or actions that are learned from experience, or they can compute values using a model of the environment to simulate possible futures3. These value computations have distinct trade-offs, and a central question is how neural systems decide which computations to use or whether/how to combine them4–8. Here we show that rats use distinct value computations for sequential decisions within single trials. We used high-throughput training to collect statistically powerful datasets from 291 rats performing a temporal wagering task with hidden reward states. Rats adjusted how quickly they initiated trials and how long they waited for rewards across states, balancing effort and time costs against expected rewards. Statistical modeling revealed that animals computed the value of the environment differently when initiating trials versus when deciding how long to wait for rewards, even though these decisions were only seconds apart. Moreover, value estimates interacted via a dynamic learning rate. Our results reveal how distinct value computations interact on rapid timescales, and demonstrate the power of using high-throughput training to understand rich, cognitive behaviors.

Date: 2023
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DOI: 10.1038/s41467-023-43250-x

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