AbstractThe way in which human and non-human animals represent the shape of their environments remains a contentious issue. According to local theories of shape learning, organisms encode the local geometric features of the environment that signal a goal location. In contrast, global theories of shape learning suggest that organisms encode the overall shape of the environment. There is, however, a surprising lack of evidence to support this latter claim, despite the fact that common behaviours seem to require encoding of the global-shape of an environment. We tested one such behaviour in 5 experiments, in which human participants were trained to navigate to a hidden goal on one side of a virtual arena (e.g. the inside) before being required...
According to the geometric module hypothesis, organisms encode a global representation of the space ...
According to the geometric module hypothesis, organisms encode a global representation of the space ...
An influential theory of spatial navigation states that the boundary shape of an environment is pref...
The way in which human and non-human animals represent the shape of their environments remains a con...
The way in which human and non-human animals represent the shape of their environments remains a con...
AbstractThe way in which human and non-human animals represent the shape of their environments remai...
The way in which human and non-human animals represent the shape of their environments remains a con...
No embargo requiredIn two spatial navigation experiments, human participants were asked to find a hi...
In two spatial navigation experiments, human participants were asked to find a hidden goal (a Wi-Fi ...
A number of influential spatial learning theories posit that organisms encode a viewpoint independen...
In 2 spatial navigation experiments, human participants were asked to find a hidden goal (a WiFi sig...
The way in which organisms represent the shape of their environments during navigation has been deba...
The way in which organisms represent the shape of their environments during navigation has been deba...
The way in which organisms represent the shape of their environments during navigation has been deba...
According to the geometric module hypothesis, organisms encode a global representation of the space ...
According to the geometric module hypothesis, organisms encode a global representation of the space ...
An influential theory of spatial navigation states that the boundary shape of an environment is pref...
The way in which human and non-human animals represent the shape of their environments remains a con...
The way in which human and non-human animals represent the shape of their environments remains a con...
AbstractThe way in which human and non-human animals represent the shape of their environments remai...
The way in which human and non-human animals represent the shape of their environments remains a con...
No embargo requiredIn two spatial navigation experiments, human participants were asked to find a hi...
In two spatial navigation experiments, human participants were asked to find a hidden goal (a Wi-Fi ...
A number of influential spatial learning theories posit that organisms encode a viewpoint independen...
In 2 spatial navigation experiments, human participants were asked to find a hidden goal (a WiFi sig...
The way in which organisms represent the shape of their environments during navigation has been deba...
The way in which organisms represent the shape of their environments during navigation has been deba...
The way in which organisms represent the shape of their environments during navigation has been deba...
According to the geometric module hypothesis, organisms encode a global representation of the space ...
According to the geometric module hypothesis, organisms encode a global representation of the space ...
An influential theory of spatial navigation states that the boundary shape of an environment is pref...