Deciphering the hippocampal polyglot: The hippocampus as a path integration system

B. L. Mcnaughton; C. A. Barnes; J. L. Gerrard; K. Gothard; M. W. Jung; J. J. Knierim; H. Kudrimoti; Y. Qin; W. E. Skaggs; M. Suster; K. L. Weaver

Deciphering the hippocampal polyglot: The hippocampus as a path integration system

B. L. Mcnaughton, C. A. Barnes, J. L. Gerrard, K. Gothard, M. W. Jung, J. J. Knierim, H. Kudrimoti, Y. Qin, W. E. Skaggs, M. Suster, K. L. Weaver

Research output: Contribution to journal › Article › peer-review

613 Scopus citations

Abstract

Hippocampal 'place' cells and the head-direction cells of the dorsal presubiculum and related neocortical and thalamic areas appear to be part of a preconfigured network that generates an abstract internal representation of two-dimensional space whose metric is self-motion. It appears that viewpoint-specific visual information (e.g. landmarks) becomes secondarily bound to this structure by associative learning. These associations between landmarks and the preconfigured path integrator serve to set the origin for path integration and to correct for cumulative error. In the absence of familiar landmarks, or in darkness without a prior spatial reference, the system appears to adopt an initial reference for path integration independently of external cues. A hypothesis of how the path integration system may operate at the neuronal level is proposed.

Original language	English (US)
Pages (from-to)	173-185
Number of pages	13
Journal	Journal of Experimental Biology
Volume	199
Issue number	1
State	Published - Jan 1996
Externally published	Yes

Keywords

Cognitive maps
Dead reckoning
Head-direction cells
Navigation
Place cells

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Physiology
Aquatic Science
Animal Science and Zoology
Molecular Biology
Insect Science

Cite this

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title = "Deciphering the hippocampal polyglot: The hippocampus as a path integration system",

abstract = "Hippocampal 'place' cells and the head-direction cells of the dorsal presubiculum and related neocortical and thalamic areas appear to be part of a preconfigured network that generates an abstract internal representation of two-dimensional space whose metric is self-motion. It appears that viewpoint-specific visual information (e.g. landmarks) becomes secondarily bound to this structure by associative learning. These associations between landmarks and the preconfigured path integrator serve to set the origin for path integration and to correct for cumulative error. In the absence of familiar landmarks, or in darkness without a prior spatial reference, the system appears to adopt an initial reference for path integration independently of external cues. A hypothesis of how the path integration system may operate at the neuronal level is proposed.",

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AU - Mcnaughton, B. L.

AU - Barnes, C. A.

AU - Gerrard, J. L.

AU - Gothard, K.

AU - Jung, M. W.

AU - Knierim, J. J.

AU - Kudrimoti, H.

AU - Qin, Y.

AU - Skaggs, W. E.

AU - Suster, M.

AU - Weaver, K. L.

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AB - Hippocampal 'place' cells and the head-direction cells of the dorsal presubiculum and related neocortical and thalamic areas appear to be part of a preconfigured network that generates an abstract internal representation of two-dimensional space whose metric is self-motion. It appears that viewpoint-specific visual information (e.g. landmarks) becomes secondarily bound to this structure by associative learning. These associations between landmarks and the preconfigured path integrator serve to set the origin for path integration and to correct for cumulative error. In the absence of familiar landmarks, or in darkness without a prior spatial reference, the system appears to adopt an initial reference for path integration independently of external cues. A hypothesis of how the path integration system may operate at the neuronal level is proposed.

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Deciphering the hippocampal polyglot: The hippocampus as a path integration system

Abstract

Keywords

ASJC Scopus subject areas

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