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Goal-seeking compresses neural codes for space in the human hippocampus and orbitofrontal cortex

Paul S. Muhle-Karbe, Hannah Sheahan, Giovanni Pezzulo, Hugo J. Spiers, Samson Chien, Nicolas W. Schuck, Christopher Summerfield

2023Neuron51 citationsDOIOpen Access PDF

Abstract

Humans can navigate flexibly to meet their goals. Here, we asked how the neural representation of allocentric space is distorted by goal-directed behavior. Participants navigated an agent to two successive goal locations in a grid world environment comprising four interlinked rooms, with a contextual cue indicating the conditional dependence of one goal location on another. Examining the neural geometry by which room and context were encoded in fMRI signals, we found that map-like representations of the environment emerged in both hippocampus and neocortex. Cognitive maps in hippocampus and orbitofrontal cortices were compressed so that locations cued as goals were coded together in neural state space, and these distortions predicted successful learning. This effect was captured by a computational model in which current and prospective locations are jointly encoded in a place code, providing a theory of how goals warp the neural representation of space in macroscopic neural signals.

Topics & Concepts

Orbitofrontal cortexCognitive mapPlace cellContext (archaeology)Computer scienceNeocortexRepresentation (politics)HippocampusPsychologyCued speechArtificial intelligenceSpace (punctuation)CognitionNeuroscienceCognitive psychologyPrefrontal cortexBiologyPolitical scienceOperating systemLawPaleontologyPoliticsMemory and Neural MechanismsNeural dynamics and brain functionSleep and Wakefulness Research
Goal-seeking compresses neural codes for space in the human hippocampus and orbitofrontal cortex | Litcius