International audienceA computational model of the hippocampal function in spatial learning is presented. A spatial representation is incrementally acquired during exploration. Visual and self-motion information is fed into a network of rate-coded neurons. A consistent and stable place code emerges by unsupervised Hebbian learning between place- and head direction cells. Based on this representation, goal-oriented navigation is learnt by applying a reward-based learning mechanism between the hippocampus and nucleus accumbens. The model, validated on a real and simulated robot, successfully localises itself by recalibrating its path integrator using visual input. A navigation map is learnt after about 20 trials, comparable to rats in the wat...
A century of behavioral studies has generated an abundance of proposals for how animals represent an...
International audienceSYNOPSIS Place cells are hippocampal neurons whose discharge is strongly relat...
When animals explore an environment, they store useful spatial information in their brains. In subse...
International audienceA computational model of the hippocampal function in spatial learning is prese...
Abstract A computer model of learning and representing spatial locations is studied. The model build...
A computational neural model that describes the competing roles of Basal Ganglia and Hippocampus in ...
In this paper we describe a model that applies Marr's theory of hippocampal function to the pro...
A computational neural model that describes the competing roles of Basal Ganglia and Hippocampus in ...
Humans and non-human animals show great flexibility in spatial navigation, including the ability to ...
The ability to acquire a representation of the spatial environment and the ability to localize withi...
International audienceVisually guided landmark navigation is based on space coding by hippocampal pl...
Since the hippocampus plays an important role in memory and spatial cognition, the study of spatial ...
Abstract This paper presents a computational model of cognitive maps for navigation, which is implem...
Hippocampal place cells and entorhinal grid cells have been hypothesized to be able to form map-like...
We model hippocampal place cells and head-direction cells by combin-ing allothetic (visual) and idio...
A century of behavioral studies has generated an abundance of proposals for how animals represent an...
International audienceSYNOPSIS Place cells are hippocampal neurons whose discharge is strongly relat...
When animals explore an environment, they store useful spatial information in their brains. In subse...
International audienceA computational model of the hippocampal function in spatial learning is prese...
Abstract A computer model of learning and representing spatial locations is studied. The model build...
A computational neural model that describes the competing roles of Basal Ganglia and Hippocampus in ...
In this paper we describe a model that applies Marr's theory of hippocampal function to the pro...
A computational neural model that describes the competing roles of Basal Ganglia and Hippocampus in ...
Humans and non-human animals show great flexibility in spatial navigation, including the ability to ...
The ability to acquire a representation of the spatial environment and the ability to localize withi...
International audienceVisually guided landmark navigation is based on space coding by hippocampal pl...
Since the hippocampus plays an important role in memory and spatial cognition, the study of spatial ...
Abstract This paper presents a computational model of cognitive maps for navigation, which is implem...
Hippocampal place cells and entorhinal grid cells have been hypothesized to be able to form map-like...
We model hippocampal place cells and head-direction cells by combin-ing allothetic (visual) and idio...
A century of behavioral studies has generated an abundance of proposals for how animals represent an...
International audienceSYNOPSIS Place cells are hippocampal neurons whose discharge is strongly relat...
When animals explore an environment, they store useful spatial information in their brains. In subse...