We model hippocampal place cells and head-direction cells by combin-ing allothetic (visual) and idiothetic (proprioceptive) stimuli. Visual in-put, provided by a video camera on a miniature robot, is preprocessed by a set of Gabor filters on 31 nodes of a log-polar retinotopic graph. Unsu-pervised Hebbian learning is employed to incrementally build a popula-tion of localized overlapping place fields. Place cells serve as basis func-tions for reinforcement learning. Experimental results for goal-oriented navigation of a mobile robot are presented.
A century of behavioral studies has generated an abundance of proposals for how animals represent an...
Although evolutionary algorithms have been employed to automatically synthesize control and behavior...
Abstract: In this paper, a model of visual place cells (PCs) based on precise neurobiological data i...
We model hippocampal place cells and head-direction cells by combin-ing allothetic (visual) and idio...
A computational model of the hippocampal function in spatial learning is presented. A spatial repres...
Animals are capable of navigating through an environment. This requires them to recognise, remember ...
Abstract This paper presents a computational model of cognitive maps for navigation, which is implem...
Recently, there has been a significant effort to apply behavioural and anatomical studies ofhippocam...
International audienceVisually guided landmark navigation is based on space coding by hippocampal pl...
A biologically inspired computational model of rodent repre-sentation?based (locale) navigation is p...
Hippocampal place cells and entorhinal grid cells have been hypothesized to be able to form map-like...
Abstract A computer model of learning and representing spatial locations is studied. The model build...
Abstract. For a robot to be autonomous it must be able to navigate independently within an environme...
We propose a computational model which is con-sistent with several neurophysiological findings con-c...
We investigate a method to navigate a mo-bile robot by using self-organizing map and reinforcement l...
A century of behavioral studies has generated an abundance of proposals for how animals represent an...
Although evolutionary algorithms have been employed to automatically synthesize control and behavior...
Abstract: In this paper, a model of visual place cells (PCs) based on precise neurobiological data i...
We model hippocampal place cells and head-direction cells by combin-ing allothetic (visual) and idio...
A computational model of the hippocampal function in spatial learning is presented. A spatial repres...
Animals are capable of navigating through an environment. This requires them to recognise, remember ...
Abstract This paper presents a computational model of cognitive maps for navigation, which is implem...
Recently, there has been a significant effort to apply behavioural and anatomical studies ofhippocam...
International audienceVisually guided landmark navigation is based on space coding by hippocampal pl...
A biologically inspired computational model of rodent repre-sentation?based (locale) navigation is p...
Hippocampal place cells and entorhinal grid cells have been hypothesized to be able to form map-like...
Abstract A computer model of learning and representing spatial locations is studied. The model build...
Abstract. For a robot to be autonomous it must be able to navigate independently within an environme...
We propose a computational model which is con-sistent with several neurophysiological findings con-c...
We investigate a method to navigate a mo-bile robot by using self-organizing map and reinforcement l...
A century of behavioral studies has generated an abundance of proposals for how animals represent an...
Although evolutionary algorithms have been employed to automatically synthesize control and behavior...
Abstract: In this paper, a model of visual place cells (PCs) based on precise neurobiological data i...