Spatial navigation can serve as a model system in cognitive neuroscience, in which specific neural representations, learning rules, and control strategies can be inferred from the vast experimental literature that exists across many species, including humans. Here, we review this literature, focusing on the contributions of hippocampal and striatal systems, and attempt to outline a minimal cognitive architecture that is consistent with the experimental literature and that synthesizes previous related computational modeling. The resulting architecture includes striatal reinforcement learning based on egocentric representations of sensory states and actions, incidental Hebbian association of sensory information with allocentric state represen...
The mammalian hippocampal formation contains several distinct populations of neurons involved in rep...
Spatial memory has fascinated psychologists ever since the discipline began, but a series of finding...
Much is known about how neural systems determine current spatial position and orientation in the env...
Spatial navigation can serve as a model system in cognitive neuroscience, in which specific neural r...
Decades of research have established the importance of the hippocampus for episodic and spatial memo...
The ability of an organism to develop, maintain, and act upon an abstracted internal representation ...
The project concerns both the psychological and neural mechanisms involved in flexible and habitual ...
According to experimental evidence, spatial navigation planning is likely to rely upon a distributed...
A computational neural model that describes the competing roles of Basal Ganglia and Hippocampus in ...
A computational neural model that describes the competing roles of Basal Ganglia and Hippocampus in ...
Behaviour in spatial navigation is often organised into map-based (place-driven) versus map-free (cu...
How the memory systems centered on the hippocampus and dorsal striatum interact to support behavior ...
The hippocampal formation has long been suggested to underlie both memory formation and spatial navi...
Spatial navigation is a fascinating behavior that is essential for our everyday lives. It involves n...
Humans and non-human animals show great flexibility in spatial navigation, including the ability to ...
The mammalian hippocampal formation contains several distinct populations of neurons involved in rep...
Spatial memory has fascinated psychologists ever since the discipline began, but a series of finding...
Much is known about how neural systems determine current spatial position and orientation in the env...
Spatial navigation can serve as a model system in cognitive neuroscience, in which specific neural r...
Decades of research have established the importance of the hippocampus for episodic and spatial memo...
The ability of an organism to develop, maintain, and act upon an abstracted internal representation ...
The project concerns both the psychological and neural mechanisms involved in flexible and habitual ...
According to experimental evidence, spatial navigation planning is likely to rely upon a distributed...
A computational neural model that describes the competing roles of Basal Ganglia and Hippocampus in ...
A computational neural model that describes the competing roles of Basal Ganglia and Hippocampus in ...
Behaviour in spatial navigation is often organised into map-based (place-driven) versus map-free (cu...
How the memory systems centered on the hippocampus and dorsal striatum interact to support behavior ...
The hippocampal formation has long been suggested to underlie both memory formation and spatial navi...
Spatial navigation is a fascinating behavior that is essential for our everyday lives. It involves n...
Humans and non-human animals show great flexibility in spatial navigation, including the ability to ...
The mammalian hippocampal formation contains several distinct populations of neurons involved in rep...
Spatial memory has fascinated psychologists ever since the discipline began, but a series of finding...
Much is known about how neural systems determine current spatial position and orientation in the env...