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Space is a latent sequence: A theory of the hippocampus

Rajkumar Vasudeva Raju, J. Swaroop Guntupalli, Guangyao Zhou, Carter Wendelken, Miguel Lázaro-Gredilla, Dileep George

2024Science Advances27 citationsDOIOpen Access PDF

Abstract

Fascinating phenomena such as landmark vector cells and splitter cells are frequently discovered in the hippocampus. Without a unifying principle, each experiment seemingly uncovers new anomalies or coding types. Here, we provide a unifying principle that the mental representation of space is an emergent property of latent higher-order sequence learning. Treating space as a sequence resolves numerous phenomena and suggests that the place field mapping methodology that interprets sequential neuronal responses in Euclidean terms might itself be a source of anomalies. Our model, clone-structured causal graph (CSCG), employs higher-order graph scaffolding to learn latent representations by mapping aliased egocentric sensory inputs to unique contexts. Learning to compress sequential and episodic experiences using CSCGs yields allocentric cognitive maps that are suitable for planning, introspection, consolidation, and abstraction. By explicating the role of Euclidean place field mapping and demonstrating how latent sequential representations unify myriad observed phenomena, our work positions the hippocampus in a sequence-centric paradigm, challenging the prevailing space-centric view.

Topics & Concepts

Sequence learningCognitive mapSequence (biology)Computer scienceCognitive scienceGestalt psychologyAbstractionArtificial intelligenceCognitionPerceptionPsychologyNeuroscienceBiologyPhilosophyGeneticsEpistemologyMemory and Neural MechanismsZebrafish Biomedical Research ApplicationsChild and Animal Learning Development
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