Slow semantic learning in the cerebral cortex, and its relation to the hippocampal episodic memory system DOI
Edmund T. Rolls, Chenfei Zhang, Jianfeng Feng

et al.

Cerebral Cortex, Journal Year: 2025, Volume and Issue: 35(5)

Published: May 1, 2025

Abstract A key question is how new semantic representations are formed in the human brain and this may benefit from hippocampal episodic memory system. Here, we describe major effective connectivity between system anterior temporal lobe (ATL) humans. Then, present model a theory of be ATL using slow associative learning attractor networks that receive inputs The hypothesis if one category being processed for several seconds, then short-term trace biologically plausible rule will enable all components during time to associated together network. This benefits binding provided by modeled four-layer network view-invariant visual object recognition, followed layer utilizes form categories based on occur close time, or world.

Language: Английский

Slow semantic learning in the cerebral cortex, and its relation to the hippocampal episodic memory system DOI
Edmund T. Rolls, Chenfei Zhang, Jianfeng Feng

et al.

Cerebral Cortex, Journal Year: 2025, Volume and Issue: 35(5)

Published: May 1, 2025

Abstract A key question is how new semantic representations are formed in the human brain and this may benefit from hippocampal episodic memory system. Here, we describe major effective connectivity between system anterior temporal lobe (ATL) humans. Then, present model a theory of be ATL using slow associative learning attractor networks that receive inputs The hypothesis if one category being processed for several seconds, then short-term trace biologically plausible rule will enable all components during time to associated together network. This benefits binding provided by modeled four-layer network view-invariant visual object recognition, followed layer utilizes form categories based on occur close time, or world.

Language: Английский

Citations

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