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Unconscious reinforcement learning of hidden brain states supported by confidence

Aurelio Cortese, Hakwan Lau, Mitsuo Kawato

2020Nature Communications56 citationsDOIOpen Access PDF

Abstract

Can humans be trained to make strategic use of latent representations in their own brains? We investigate how human subjects can derive reward-maximizing choices from intrinsic high-dimensional information represented stochastically in neural activity. Reward contingencies are defined in real-time by fMRI multivoxel patterns; optimal action policies thereby depend on multidimensional brain activity taking place below the threshold of consciousness, by design. We find that subjects can solve the task within two hundred trials and errors, as their reinforcement learning processes interact with metacognitive functions (quantified as the meaningfulness of their decision confidence). Computational modelling and multivariate analyses identify a frontostriatal neural mechanism by which the brain may untangle the 'curse of dimensionality': synchronization of confidence representations in prefrontal cortex with reward prediction errors in basal ganglia support exploration of latent task representations. These results may provide an alternative starting point for future investigations into unconscious learning and functions of metacognition.

Topics & Concepts

Reinforcement learningPrefrontal cortexMetacognitionTask (project management)Functional magnetic resonance imagingAction selectionUnconscious mindCognitive psychologyConsciousnessComputer scienceAction (physics)Curse of dimensionalityArtificial intelligencePsychologyNeural correlates of consciousnessMachine learningCognitionNeurosciencePerceptionQuantum mechanicsPsychoanalysisPhysicsEconomicsManagementNeural dynamics and brain functionFunctional Brain Connectivity StudiesNeural and Behavioral Psychology Studies