Hippocampal place cells and entorhinal grid cells have been hypothesized to be able to form map-like spatial representation of the environment, namely cognitive map. In most prior approaches, either neural network methods or only hippocampal models are used for building cognitive maps, lacking biological fidelity to the entorhinal-hippocampal system. This paper presents a novel computational model to build cognitive maps of real environments using both place cells and grid cells. The proposed model includes two major components: (1) A competitive Hebbian learning algorithm is used to select velocity-coupled grid cell population activities, which path-integrate self-motion signals to determine computation of place cell population activities;...
Spatial navigation requires many parallel cognitive processes, from low-level perception to high-lev...
neural systems are known to encode self-location in the brain: place cells in the hippocampus encode...
Ever since grid cells were discovered in the mammalian entorhinal cortex over a decade ago, the stri...
Hippocampal place cells and entorhinal grid cells have been hypothesized to be able to form map-like...
Abstract This paper presents a computational model of cognitive maps for navigation, which is implem...
Animals are capable of navigating through an environment. This requires them to recognise, remember ...
How to transform a mixed flow of sensory and motor information into memory state of self-location an...
It is a challenge to build robust simultaneous localization and mapping (SLAM) system in dynamical l...
A computational model of the hippocampal function in spatial learning is presented. A spatial repres...
Abstract A computer model of learning and representing spatial locations is studied. The model build...
In this paper we describe a model that applies Marr's theory of hippocampal function to the pro...
Grid cells in the dorsal segment of the medial entorhinal cortex (dMEC) show remarkable hexagonal ac...
This thesis describes work aimed at discovering computational processes that could underlie the perf...
We model hippocampal place cells and head-direction cells by combin-ing allothetic (visual) and idio...
Brain-inspired model Place-dependent response Spatial cognition Embodied cognition a b s t r a c t T...
Spatial navigation requires many parallel cognitive processes, from low-level perception to high-lev...
neural systems are known to encode self-location in the brain: place cells in the hippocampus encode...
Ever since grid cells were discovered in the mammalian entorhinal cortex over a decade ago, the stri...
Hippocampal place cells and entorhinal grid cells have been hypothesized to be able to form map-like...
Abstract This paper presents a computational model of cognitive maps for navigation, which is implem...
Animals are capable of navigating through an environment. This requires them to recognise, remember ...
How to transform a mixed flow of sensory and motor information into memory state of self-location an...
It is a challenge to build robust simultaneous localization and mapping (SLAM) system in dynamical l...
A computational model of the hippocampal function in spatial learning is presented. A spatial repres...
Abstract A computer model of learning and representing spatial locations is studied. The model build...
In this paper we describe a model that applies Marr's theory of hippocampal function to the pro...
Grid cells in the dorsal segment of the medial entorhinal cortex (dMEC) show remarkable hexagonal ac...
This thesis describes work aimed at discovering computational processes that could underlie the perf...
We model hippocampal place cells and head-direction cells by combin-ing allothetic (visual) and idio...
Brain-inspired model Place-dependent response Spatial cognition Embodied cognition a b s t r a c t T...
Spatial navigation requires many parallel cognitive processes, from low-level perception to high-lev...
neural systems are known to encode self-location in the brain: place cells in the hippocampus encode...
Ever since grid cells were discovered in the mammalian entorhinal cortex over a decade ago, the stri...