Hippocampal formation contains several classes of neurons thought to be involved in navigational processes, in particular place cells and grid cells. Place cells have been associated with a topological strategy for navigation, while grid cells have been suggested to support metric vector navigation. Grid cell-based vector navigation can support novel shortcuts across unexplored territory by providing the direction toward the goal. However, this strategy is insufficient in natural environments cluttered with obstacles. Here, we show how navigation in complex environments can be supported by integrating a grid cell-based vector navigation mechanism with local obstacle avoidance mediated by border cells and place cells whose interconnections f...
SummaryMedial entorhinal grid cells fire in periodic, hexagonally patterned locations and are propos...
Grid cells are space-modulated neurons with periodic firing fields. In moving animals, the multiple ...
SummaryGrid cells in the entorhinal cortex (EC) of rodents [1] and humans [2] fire in a hexagonally ...
Hippocampal formation contains several classes of neurons thought to be involved in navigational pro...
Mammals are able to navigate to hidden goal locations by direct routes that may traverse previously ...
SummaryMammals are able to navigate to hidden goal locations by direct routes that may traverse prev...
Ever since grid cells were discovered in the mammalian entorhinal cortex over a decade ago, the stri...
Hippocampal lesions are known to impair success in navigation tasks. While such tasks could be solve...
Navigation is one of the most fundamental skills of animals. During spatial navigation, grid cells i...
Mammals have evolved specialized brain systems that support efficient navigation within diverse habi...
Animals are capable of navigating through an environment. This requires them to recognise, remember ...
Spatial cognition in naturalistic environments, for freely moving animals, may pose quite different ...
Entorhinal grid cells, characterized by spatially periodic activity patterns, are thought to provide...
Mammals have evolved specialized brain systems to support efficient navigation within diverse habita...
Hippocampal place cells support spatial cognition and are thought to form the neural substrate of a ...
SummaryMedial entorhinal grid cells fire in periodic, hexagonally patterned locations and are propos...
Grid cells are space-modulated neurons with periodic firing fields. In moving animals, the multiple ...
SummaryGrid cells in the entorhinal cortex (EC) of rodents [1] and humans [2] fire in a hexagonally ...
Hippocampal formation contains several classes of neurons thought to be involved in navigational pro...
Mammals are able to navigate to hidden goal locations by direct routes that may traverse previously ...
SummaryMammals are able to navigate to hidden goal locations by direct routes that may traverse prev...
Ever since grid cells were discovered in the mammalian entorhinal cortex over a decade ago, the stri...
Hippocampal lesions are known to impair success in navigation tasks. While such tasks could be solve...
Navigation is one of the most fundamental skills of animals. During spatial navigation, grid cells i...
Mammals have evolved specialized brain systems that support efficient navigation within diverse habi...
Animals are capable of navigating through an environment. This requires them to recognise, remember ...
Spatial cognition in naturalistic environments, for freely moving animals, may pose quite different ...
Entorhinal grid cells, characterized by spatially periodic activity patterns, are thought to provide...
Mammals have evolved specialized brain systems to support efficient navigation within diverse habita...
Hippocampal place cells support spatial cognition and are thought to form the neural substrate of a ...
SummaryMedial entorhinal grid cells fire in periodic, hexagonally patterned locations and are propos...
Grid cells are space-modulated neurons with periodic firing fields. In moving animals, the multiple ...
SummaryGrid cells in the entorhinal cortex (EC) of rodents [1] and humans [2] fire in a hexagonally ...