The neocortex is capable of anticipating the sensory results of movement but the neural mechanisms are poorly understood. In the entorhinal cortex, grid cells represent the location of an animal in its environment, and this location is updated through movement and path integration. In this paper, we propose that sensory neocortex incorporates movement using grid cell-like neurons that represent the location of sensors on an object. We describe a two-layer neural network model that uses cortical grid cells and path integration to robustly learn and recognize objects through movement and predict sensory stimuli after movement. A layer of cells consisting of several grid cell-like modules represents a location in the reference frame of a speci...
Summary: Spatial learning requires estimates of location that may be obtained by path integration or...
Abstract Navigation is one of the most fundamental skills of animals. During spatial navigation, gri...
Vision provides the primary means by which many animals distinguish foreground objects from their ba...
The neocortex is capable of anticipating the sensory results of movement but the neural mechanisms a...
How the neocortex works is a mystery. In this paper we propose a novel framework for understanding i...
How the neocortex works is a mystery. In this paper we propose a novel framework for understanding i...
Neocortical regions are organized into columns and layers. Connections between layers run mostly per...
Ever since grid cells were discovered in the mammalian entorhinal cortex over a decade ago, the stri...
How to transform a mixed flow of sensory and motor information into memory state of self-location an...
Animals are capable of navigating through an environment. This requires them to recognise, remember ...
Grid cells in the brain respond when an animal occupies a periodic lattice of “grid fields ” during ...
How the topography of neural circuits relates to their function remains unclear. Although topographi...
In this paper, we present a model for the generation of grid cells and the emergence of place cells ...
How the topography of neural circuits relates to their function remains unclear. Although topographi...
When we find our way in the environ-ment, we need to integrate information about location, direction...
Summary: Spatial learning requires estimates of location that may be obtained by path integration or...
Abstract Navigation is one of the most fundamental skills of animals. During spatial navigation, gri...
Vision provides the primary means by which many animals distinguish foreground objects from their ba...
The neocortex is capable of anticipating the sensory results of movement but the neural mechanisms a...
How the neocortex works is a mystery. In this paper we propose a novel framework for understanding i...
How the neocortex works is a mystery. In this paper we propose a novel framework for understanding i...
Neocortical regions are organized into columns and layers. Connections between layers run mostly per...
Ever since grid cells were discovered in the mammalian entorhinal cortex over a decade ago, the stri...
How to transform a mixed flow of sensory and motor information into memory state of self-location an...
Animals are capable of navigating through an environment. This requires them to recognise, remember ...
Grid cells in the brain respond when an animal occupies a periodic lattice of “grid fields ” during ...
How the topography of neural circuits relates to their function remains unclear. Although topographi...
In this paper, we present a model for the generation of grid cells and the emergence of place cells ...
How the topography of neural circuits relates to their function remains unclear. Although topographi...
When we find our way in the environ-ment, we need to integrate information about location, direction...
Summary: Spatial learning requires estimates of location that may be obtained by path integration or...
Abstract Navigation is one of the most fundamental skills of animals. During spatial navigation, gri...
Vision provides the primary means by which many animals distinguish foreground objects from their ba...