Neuroscientists postulate 3D representations in the brain in a variety of different coordinate frames (e.g. 'head-centred', 'hand-centred' and 'world-based'). Recent advances in reinforcement learning demonstrate a quite different approach that may provide a more promising model for biological representations underlying spatial perception and navigation. In this paper, we focus on reinforcement learning methods that reward an agent for arriving at a target image without any attempt to build up a 3D 'map'. We test the ability of this type of representation to support geometrically consistent spatial tasks such as interpolating between learned locations using decoding of feature vectors. We introduce a hand-crafted representation that has, b...
Recently, there has been a significant effort to apply behavioural and anatomical studies ofhippocam...
Humans and non-human animals show great flexibility in spatial navigation, including the ability to ...
The ability to navigate to important locations is fundamental to both human and non-human animals. T...
Neuroscientists postulate 3D representations in the brain in a variety of different coordinate frame...
It is often assumed that the brain builds 3D coordinate frames, in retinal coordinates (with binocul...
International audienceIn contrast to predictions derived from the associative learning theory, a num...
The ability to successfully navigate the physical environment is a vital skill for numer- ous specie...
A biologically inspired computational model of rodent repre-sentation?based (locale) navigation is p...
International audienceWe present a computational model of spatial navigation comprising different le...
Model-Based Reinforcement Learning for Spatial navigation matlab code for the following open-access...
Spatial understanding is crucial in many real-world problems, yet little progress has been made towa...
The hippocampus has long been observed to encode a representation of an animal's position in space. ...
A computational neural model that describes the competing roles of Basal Ganglia and Hippocampus in ...
In this work visual navigation task in realistic simulated environment is formulated and solved usin...
According to the geometric module hypothesis, organisms encode a global representation of the space ...
Recently, there has been a significant effort to apply behavioural and anatomical studies ofhippocam...
Humans and non-human animals show great flexibility in spatial navigation, including the ability to ...
The ability to navigate to important locations is fundamental to both human and non-human animals. T...
Neuroscientists postulate 3D representations in the brain in a variety of different coordinate frame...
It is often assumed that the brain builds 3D coordinate frames, in retinal coordinates (with binocul...
International audienceIn contrast to predictions derived from the associative learning theory, a num...
The ability to successfully navigate the physical environment is a vital skill for numer- ous specie...
A biologically inspired computational model of rodent repre-sentation?based (locale) navigation is p...
International audienceWe present a computational model of spatial navigation comprising different le...
Model-Based Reinforcement Learning for Spatial navigation matlab code for the following open-access...
Spatial understanding is crucial in many real-world problems, yet little progress has been made towa...
The hippocampus has long been observed to encode a representation of an animal's position in space. ...
A computational neural model that describes the competing roles of Basal Ganglia and Hippocampus in ...
In this work visual navigation task in realistic simulated environment is formulated and solved usin...
According to the geometric module hypothesis, organisms encode a global representation of the space ...
Recently, there has been a significant effort to apply behavioural and anatomical studies ofhippocam...
Humans and non-human animals show great flexibility in spatial navigation, including the ability to ...
The ability to navigate to important locations is fundamental to both human and non-human animals. T...