AbstractOur ability to see the world in depth is a major accomplishment of the brain. Previous models of how positionally disparate cues to the two eyes are binocularly matched limit possible matches by invoking uniqueness and continuity constraints. These approaches cannot explain data wherein uniqueness fails and changes in contrast alter depth percepts, or where surface discontinuities cause surfaces to be seen in depth, although they are registered by only one eye (da Vinci stereopsis). A new stereopsis model explains these depth percepts by proposing how cortical complex cells binocularly filter their inputs and how monucular and binocular complex cells compete to determine the winning depth signals
AbstractWe propose a new model for da Vinci stereopsis based on a coarse-to-fine disparity energy co...
Disparity-selective cells appear to occur in all parts of the visual cortex, but a recent fMRI study...
AbstractDichoptic stimuli containing unmatched features can produce depth perception despite the abs...
Our ability to see the world in depth is a major accomplishment of the brain. Previous models of how...
AbstractOur ability to see the world in depth is a major accomplishment of the brain. Previous model...
3D vision is a key process in the spatial understanding of the world. For decades, numerous research...
Stereoscopic depth perception is a fascinating ability in its own right and also a useful model of p...
Previous models of stereopsis have concentrated on the task of binocularly matching left and right e...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...
How does the brain transform the 2-D light arrays in our eyes into a meaningful 3-D description of s...
AbstractRecent studies show how single neurons detect binocular disparities. But how these signals a...
Abstract: The early neurophysiology of binocular vision is largely dominated by measurements of disp...
AbstractPreviously we have demonstrated that quantitative depth perception can be elicited from a st...
Stereoscopic depth perception relies on binocular disparities, or small geometric differences betwee...
To encode binocular disparity, the visual system determines the image patches in one eye that yield ...
AbstractWe propose a new model for da Vinci stereopsis based on a coarse-to-fine disparity energy co...
Disparity-selective cells appear to occur in all parts of the visual cortex, but a recent fMRI study...
AbstractDichoptic stimuli containing unmatched features can produce depth perception despite the abs...
Our ability to see the world in depth is a major accomplishment of the brain. Previous models of how...
AbstractOur ability to see the world in depth is a major accomplishment of the brain. Previous model...
3D vision is a key process in the spatial understanding of the world. For decades, numerous research...
Stereoscopic depth perception is a fascinating ability in its own right and also a useful model of p...
Previous models of stereopsis have concentrated on the task of binocularly matching left and right e...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...
How does the brain transform the 2-D light arrays in our eyes into a meaningful 3-D description of s...
AbstractRecent studies show how single neurons detect binocular disparities. But how these signals a...
Abstract: The early neurophysiology of binocular vision is largely dominated by measurements of disp...
AbstractPreviously we have demonstrated that quantitative depth perception can be elicited from a st...
Stereoscopic depth perception relies on binocular disparities, or small geometric differences betwee...
To encode binocular disparity, the visual system determines the image patches in one eye that yield ...
AbstractWe propose a new model for da Vinci stereopsis based on a coarse-to-fine disparity energy co...
Disparity-selective cells appear to occur in all parts of the visual cortex, but a recent fMRI study...
AbstractDichoptic stimuli containing unmatched features can produce depth perception despite the abs...