We present a model for the self-organized formation of place cells, head-direction cells, and spatial-view cells in the hippocampal formation based on unsupervised learning on quasi-natural visual stimuli. The model comprises a hierarchy of Slow Feature Analysis (SFA) nodes, which were recently shown to reproduce many properties of complex cells in the early visual system. The system extracts a distributed grid-like representation of position and orientation, which is transcoded into a localized place-field, head-direction, or view representation, by sparse coding. The type of cells that develops depends solely on the relevant input statistics, i.e., the movement pattern of the simulated animal. The numerical simulations are complemented by...
How do we know where we are? Orientation in space is key to our daily existence as we follow familia...
Hippocampal lesions are known to impair success in navigation tasks. While such tasks could be solve...
neural systems are known to encode self-location in the brain: place cells in the hippocampus encode...
We present a model for the self-organized formation of place cells, head-direction cells, and spatia...
A century of behavioral studies has generated an abundance of proposals for how animals represent an...
The ability to self-localise and to navigate to remembered goals in complex and changeable environme...
Single neuron recording studies have demonstrated the existence of spatial view neurons which encode...
Single neuron recording studies have demonstrated the existence of hippocampal spatial view neurons ...
Spatial cognition in naturalistic environments, for freely moving animals, may pose quite different ...
First, neurophysiological evidence for the learning of invariant representations in the inferior tem...
An important task of the brain is to represent the outside world. It is unclear how the brain may do...
First, neurophysiological evidence for the learning of invariant representations in the inferior tem...
Rats learn to navigate to a specific location faster in a familiar environment (Keith and Mcvety 19...
Neurons in the hippocampus and adjacent brain areas show a large diversity in their tuning to locati...
A computational model of the hippocampal function in spatial learning is presented. A spatial repres...
How do we know where we are? Orientation in space is key to our daily existence as we follow familia...
Hippocampal lesions are known to impair success in navigation tasks. While such tasks could be solve...
neural systems are known to encode self-location in the brain: place cells in the hippocampus encode...
We present a model for the self-organized formation of place cells, head-direction cells, and spatia...
A century of behavioral studies has generated an abundance of proposals for how animals represent an...
The ability to self-localise and to navigate to remembered goals in complex and changeable environme...
Single neuron recording studies have demonstrated the existence of spatial view neurons which encode...
Single neuron recording studies have demonstrated the existence of hippocampal spatial view neurons ...
Spatial cognition in naturalistic environments, for freely moving animals, may pose quite different ...
First, neurophysiological evidence for the learning of invariant representations in the inferior tem...
An important task of the brain is to represent the outside world. It is unclear how the brain may do...
First, neurophysiological evidence for the learning of invariant representations in the inferior tem...
Rats learn to navigate to a specific location faster in a familiar environment (Keith and Mcvety 19...
Neurons in the hippocampus and adjacent brain areas show a large diversity in their tuning to locati...
A computational model of the hippocampal function in spatial learning is presented. A spatial repres...
How do we know where we are? Orientation in space is key to our daily existence as we follow familia...
Hippocampal lesions are known to impair success in navigation tasks. While such tasks could be solve...
neural systems are known to encode self-location in the brain: place cells in the hippocampus encode...