Nicolas Meirhaeghe scite author profile

Statistical regularities in the environment create prior beliefs that we rely on to optimize our behavior when sensory information is uncertain. Bayesian theory formalizes how prior beliefs can be leveraged and has had a major impact on models of perception, sensorimotor function, and cognition. However, it is not known how recurrent interactions among neurons mediate Bayesian integration. By using a timeinterval reproduction task in monkeys, we found that prior statistics warp neural representations in the frontal cortex, allowing the mapping of sensory inputs to motor outputs to incorporate prior statistics in accordance with Bayesian inference. Analysis of recurrent neural network models performing the task revealed that this warping was enabled by a low-dimensional curved manifold and allowed us to further probe the potential causal underpinnings of this computational strategy. These results uncover a simple and general principle whereby prior beliefs exert their influence on behavior by sculpting cortical latent dynamics.

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A precise and adaptive neural mechanism for predictive temporal processing in the frontal cortex

Meirhaeghe

Sohn

Jazayeri

2021

Neuron

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Parametric control of flexible timing through low-dimensional neural manifolds

Beirán

Meirhaeghe

Sohn

et al. 2023

Neuron

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