We review human functional neuroimaging studies that have explicitly investigated the reference frames used in different cortical regions for representing spatial locations of objects. Beyond the general distinction between "egocentric" and "allocentric" reference frames, we provide evidence for the selective involvement of the posterior parietal cortex and associated frontal regions in the specific process of egocentric localization of visual and somatosensory stimuli with respect to relevant body parts ("body referencing"). Similarly, parahippocampal and retrosplenial regions, together with specific parietal subregions such as the precuneus, are selectively involved in a specific form of allocentric representation in which object location...
We review neuropsychological evidence for visual selection operating in different reference frames. ...
In order to preform actions and reason about spatial relationships in the world, a mental representa...
The perception-action model proposes that vision for perception and vision for action are subserved ...
Abstract & Functional magnetic resonance imaging was used to compare the neural correlates of th...
Functional magnetic resonance imaging was used to compare the neural correlates of three different t...
International audienceFunctional magnetic resonance imaging was used to compare the neural correlate...
Spatial locations of objects can be represented in the brain with respect to different classes of re...
International audienceThe spatial location of an object can be represented in the brain with respect...
The use and neural representation of egocentric spatial reference frames is well-documented. In cont...
Spatial relations (SRs: coordinate/metric vs categorical/non metric) and frames of reference (FoRs: ...
A fundamental requirement of everyday life is that of encoding and remembering successfully the loca...
In the primate brain, visual spatial representations express distances of objects with regard to dif...
In this paper, we explore which spatial frames of reference, egocentric or allocentric, are used to ...
In the primate brain, visual spatial representations express distances of objects with regard to dif...
The present study examines the functional and anatomical underpinnings of egocentric and allocentric...
We review neuropsychological evidence for visual selection operating in different reference frames. ...
In order to preform actions and reason about spatial relationships in the world, a mental representa...
The perception-action model proposes that vision for perception and vision for action are subserved ...
Abstract & Functional magnetic resonance imaging was used to compare the neural correlates of th...
Functional magnetic resonance imaging was used to compare the neural correlates of three different t...
International audienceFunctional magnetic resonance imaging was used to compare the neural correlate...
Spatial locations of objects can be represented in the brain with respect to different classes of re...
International audienceThe spatial location of an object can be represented in the brain with respect...
The use and neural representation of egocentric spatial reference frames is well-documented. In cont...
Spatial relations (SRs: coordinate/metric vs categorical/non metric) and frames of reference (FoRs: ...
A fundamental requirement of everyday life is that of encoding and remembering successfully the loca...
In the primate brain, visual spatial representations express distances of objects with regard to dif...
In this paper, we explore which spatial frames of reference, egocentric or allocentric, are used to ...
In the primate brain, visual spatial representations express distances of objects with regard to dif...
The present study examines the functional and anatomical underpinnings of egocentric and allocentric...
We review neuropsychological evidence for visual selection operating in different reference frames. ...
In order to preform actions and reason about spatial relationships in the world, a mental representa...
The perception-action model proposes that vision for perception and vision for action are subserved ...