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A transient high-dimensional geometry affords stable conjunctive subspaces for efficient action selection

Atsushi Kikumoto (), Apoorva Bhandari, Kazuhisa Shibata and David Badre
Additional contact information
Atsushi Kikumoto: Brown University
Apoorva Bhandari: Brown University
Kazuhisa Shibata: RIKEN Center for Brain Science
David Badre: Brown University

Nature Communications, 2024, vol. 15, issue 1, 1-16

Abstract: Abstract Flexible action selection requires cognitive control mechanisms capable of mapping the same inputs to different output actions depending on the context. From a neural state-space perspective, this requires a control representation that separates similar input neural states by context. Additionally, for action selection to be robust and time-invariant, information must be stable in time, enabling efficient readout. Here, using EEG decoding methods, we investigate how the geometry and dynamics of control representations constrain flexible action selection in the human brain. Participants performed a context-dependent action selection task. A forced response procedure probed action selection different states in neural trajectories. The result shows that before successful responses, there is a transient expansion of representational dimensionality that separated conjunctive subspaces. Further, the dynamics stabilizes in the same time window, with entry into this stable, high-dimensional state predictive of individual trial performance. These results establish the neural geometry and dynamics the human brain needs for flexible control over behavior.

Date: 2024
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DOI: 10.1038/s41467-024-52777-6

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