Stereoscopic vision delivers a sense of depth based on binocular information but additionally acts as a mechanism for achieving correspondence between patterns arriving at the left and right eyes. We analyse quantitatively the cortical architecture for stereo scopic vision in two areas of macaque visual cortex. For primary visual cortex V1, the result is consistent with a module that is isotropic in cortical space with a diameter of at least 3mm in surface extent. This implies that the module for stereo is larger than repeat distance between ocular dominance columns in V1. By contrast, in the extrastriate cortical area V5/MT, which has a specialized architecture for stereo depth, the module for representation of stereo is about 1mm in ...
International audienceLeft and right retinal images of an object seen by the 2 eyes can occupy sligh...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...
Neurons in the macaque Anterior Intraparietal area (AIP) encode depth structure in random-dot stimul...
Stereopsis, the perception of depth from small differences between the images in the two eyes, provi...
AbstractStereopsis, the perception of depth from small differences between the images in the two eye...
Humans and some animals can use their two eyes in cooperation to detect and discriminate parts of th...
The neural mechanisms of stereoscopic 3D shape perception have only recently been investigated. Here...
Neurons in the macaque Anterior Intraparietal area (AIP) encode depth structure in random-dot stimul...
Stereoscopic depth perception relies on binocular disparities, or small geometric differences betwee...
AbstractNeurons of the visual system that exhibit depth specificity are prevalent in the medial temp...
In the central part of the visual field, horizontal retinal disparity is directly involved in stereo...
Binocular disparity, the difference between the two eyes' images, is a powerful cue to generate the ...
Disparity-selective cells appear to occur in all parts of the visual cortex, but a recent fMRI study...
Abstract: The early neurophysiology of binocular vision is largely dominated by measurements of disp...
Our ability to see the world in depth is a major accomplishment of the brain. Previous models of how...
International audienceLeft and right retinal images of an object seen by the 2 eyes can occupy sligh...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...
Neurons in the macaque Anterior Intraparietal area (AIP) encode depth structure in random-dot stimul...
Stereopsis, the perception of depth from small differences between the images in the two eyes, provi...
AbstractStereopsis, the perception of depth from small differences between the images in the two eye...
Humans and some animals can use their two eyes in cooperation to detect and discriminate parts of th...
The neural mechanisms of stereoscopic 3D shape perception have only recently been investigated. Here...
Neurons in the macaque Anterior Intraparietal area (AIP) encode depth structure in random-dot stimul...
Stereoscopic depth perception relies on binocular disparities, or small geometric differences betwee...
AbstractNeurons of the visual system that exhibit depth specificity are prevalent in the medial temp...
In the central part of the visual field, horizontal retinal disparity is directly involved in stereo...
Binocular disparity, the difference between the two eyes' images, is a powerful cue to generate the ...
Disparity-selective cells appear to occur in all parts of the visual cortex, but a recent fMRI study...
Abstract: The early neurophysiology of binocular vision is largely dominated by measurements of disp...
Our ability to see the world in depth is a major accomplishment of the brain. Previous models of how...
International audienceLeft and right retinal images of an object seen by the 2 eyes can occupy sligh...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...
Neurons in the macaque Anterior Intraparietal area (AIP) encode depth structure in random-dot stimul...