AbstractIt has been known since the time of Helmholtz that vertical differences between the two retinal images can generate depth perception. Although many ecologically and geometrically inspired theories have been proposed, the neural mechanisms underlying the phenomenon remain elusive. Here we propose a new theory for depth perception from vertical disparity based on the oriented binocular receptive fields of visual cortical cells and on the radial bias of the preferred-orientation distribution in the cortex. The theory suggests that oriented cells may treat a vertical disparity as a weaker, equivalent horizontal disparity. It explains the induced effect, and the quadrant and size dependence of vertical disparity. It predicts that horizon...
AbstractIn order to understand the role of oblique retinal image disparities in the perception of st...
The small differences between the images formed in our left and right eyes are an important cue to t...
AbstractTo study the spatial extent and shape of the binocular disparity mechanisms subserving depth...
Because our eyes are set apart horizontally in our head, most disparities between the retinal images...
AbstractThe additivity assumption relates to the various stereo-disparity components in the vertical...
Vertical disparities influence the perception of 3D depth, but little is known about the neuronal me...
AbstractTo understand the role that orientation-tuned disparity-sensitive mechanisms play in the per...
AbstractIt is now well established that depth is coded by local horizontal disparity and global vert...
AbstractA new study has shown that neurons in the visual cortex are specialized to encode the larger...
AbstractGårding et al. (Vis Res 1995;35:703–722) proposed a two-stage theory of stereopsis. The firs...
AbstractBinocular disparities have a straightforward geometric relation to object depth, but the com...
AbstractThe goal of the present study is to compare the strengths of depth effects induced by differ...
AbstractOur visual system matches images from both eyes to establish a single view and stereo depth ...
AbstractDepth aftereffects produced by prolonged inspection of an object in depth can be mediated by...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...
AbstractIn order to understand the role of oblique retinal image disparities in the perception of st...
The small differences between the images formed in our left and right eyes are an important cue to t...
AbstractTo study the spatial extent and shape of the binocular disparity mechanisms subserving depth...
Because our eyes are set apart horizontally in our head, most disparities between the retinal images...
AbstractThe additivity assumption relates to the various stereo-disparity components in the vertical...
Vertical disparities influence the perception of 3D depth, but little is known about the neuronal me...
AbstractTo understand the role that orientation-tuned disparity-sensitive mechanisms play in the per...
AbstractIt is now well established that depth is coded by local horizontal disparity and global vert...
AbstractA new study has shown that neurons in the visual cortex are specialized to encode the larger...
AbstractGårding et al. (Vis Res 1995;35:703–722) proposed a two-stage theory of stereopsis. The firs...
AbstractBinocular disparities have a straightforward geometric relation to object depth, but the com...
AbstractThe goal of the present study is to compare the strengths of depth effects induced by differ...
AbstractOur visual system matches images from both eyes to establish a single view and stereo depth ...
AbstractDepth aftereffects produced by prolonged inspection of an object in depth can be mediated by...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...
AbstractIn order to understand the role of oblique retinal image disparities in the perception of st...
The small differences between the images formed in our left and right eyes are an important cue to t...
AbstractTo study the spatial extent and shape of the binocular disparity mechanisms subserving depth...