AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereoscopic depth perception. Although these neurons are probably essential to depth perception, a recent study has shown that they are unable to compute depth itself
The fundamental geometry underlying binocular stereoscopic depth perception was first appreciated in...
Stereoscopic depth perception relies on binocular disparities, or small geometric differences betwee...
Disparity-selective cells appear to occur in all parts of the visual cortex, but a recent fMRI study...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...
Stereoscopic depth perception is a fascinating ability in its own right and also a useful model of p...
AbstractRecent studies show how single neurons detect binocular disparities. But how these signals a...
AbstractNeurons of the visual system that exhibit depth specificity are prevalent in the medial temp...
Abstract: The early neurophysiology of binocular vision is largely dominated by measurements of disp...
Our ability to coordinate the use of our left and right eyes and to make use of subtle differences b...
AbstractNeurons of the visual system that exhibit depth specificity are prevalent in the medial temp...
AbstractNeurons in early visual areas respond to horizontal disparity in images that do not give ris...
Humans and some animals can use their two eyes in cooperation to detect and discriminate parts of th...
To perceive the visual world as three-dimensional, the brain has to reconstruct spatial structure fr...
AbstractOur ability to see the world in depth is a major accomplishment of the brain. Previous model...
Binocular neurons that are closely related to depth perception should respond selectively for stimul...
The fundamental geometry underlying binocular stereoscopic depth perception was first appreciated in...
Stereoscopic depth perception relies on binocular disparities, or small geometric differences betwee...
Disparity-selective cells appear to occur in all parts of the visual cortex, but a recent fMRI study...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...
Stereoscopic depth perception is a fascinating ability in its own right and also a useful model of p...
AbstractRecent studies show how single neurons detect binocular disparities. But how these signals a...
AbstractNeurons of the visual system that exhibit depth specificity are prevalent in the medial temp...
Abstract: The early neurophysiology of binocular vision is largely dominated by measurements of disp...
Our ability to coordinate the use of our left and right eyes and to make use of subtle differences b...
AbstractNeurons of the visual system that exhibit depth specificity are prevalent in the medial temp...
AbstractNeurons in early visual areas respond to horizontal disparity in images that do not give ris...
Humans and some animals can use their two eyes in cooperation to detect and discriminate parts of th...
To perceive the visual world as three-dimensional, the brain has to reconstruct spatial structure fr...
AbstractOur ability to see the world in depth is a major accomplishment of the brain. Previous model...
Binocular neurons that are closely related to depth perception should respond selectively for stimul...
The fundamental geometry underlying binocular stereoscopic depth perception was first appreciated in...
Stereoscopic depth perception relies on binocular disparities, or small geometric differences betwee...
Disparity-selective cells appear to occur in all parts of the visual cortex, but a recent fMRI study...
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