路径集成
顶点(图论)
等边三角形
网格
内嗅皮质
背
网格单元
放置单元格
计算机科学
空间认知
职位(财务)
方向(向量空间)
神经科学
拓扑(电路)
生物
解剖
人工智能
数学
几何学
海马结构
组合数学
理论计算机科学
认知
财务
经济
图形
作者
Torkel Hafting,Marianne Fyhn,Sturla Molden,May‐Britt Moser,Edvard I Moser
出处
期刊:Nature
[Nature Portfolio]
日期:2005-06-19
卷期号:436 (7052): 801-806
被引量:4181
摘要
The ability to find one's way depends on neural algorithms that integrate information about place, distance and direction, but the implementation of these operations in cortical microcircuits is poorly understood. Here we show that the dorsocaudal medial entorhinal cortex (dMEC) contains a directionally oriented, topographically organized neural map of the spatial environment. Its key unit is the 'grid cell', which is activated whenever the animal's position coincides with any vertex of a regular grid of equilateral triangles spanning the surface of the environment. Grids of neighbouring cells share a common orientation and spacing, but their vertex locations (their phases) differ. The spacing and size of individual fields increase from dorsal to ventral dMEC. The map is anchored to external landmarks, but persists in their absence, suggesting that grid cells may be part of a generalized, path-integration-based map of the spatial environment.
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