Many studies have demonstrated that the human visual system is sensitive to very small differences in relative binocular disparity. It is not known over what monocular regions information is spatially integrated to mediate performance in such tasks. In this study we present psychophysical observations that define the smallest spatial scale involved in disparity processing, and we indicate the nature of the computations performed by the units mediating that disparity discrimination. We show that human observers can identify the sign of disparity of a single target dot when it is embedded in a row of identical dots, with these noise dots presented either in the fixation plane or with a proportion binocularly uncorrelated. In conjunction with ...
We investigated the contribution of binocular disparity to the rapid recognition of scenes and simpl...
Although our eyes are separated horizontally and binocular disparities are therefore mainly horizont...
To compute depth from binocular disparity, the visual system must correctly link corresponding point...
Many studies have demonstrated that the human visual system is sensitive to very small differences i...
A model of stereopsis is proposed in which information from each eye's image is organised as a scale...
To encode binocular disparity, the visual system determines the image patches in one eye that yield ...
Human stereo vision can resolve remarkably small depth differences between two stimuli, but the smal...
With isolated binocular targets, the best depth discrimination is found in the fixation plane (Blake...
AbstractWith isolated binocular targets, the best depth discrimination is found in the fixation plan...
AbstractSpatial frequency selectivity has been incorporated into various theories of stereo matching...
AbstractWe investigated temporal properties of stereopsis at different spatial scales in dynamic ran...
We investigated temporal properties of stereopsis at different spatial scales in dynamic random-dot ...
Perception of stereoscopic depth requires that visual systems solve a correspondence problem: find p...
AbstractThere is a long history of research into depth percepts from very large disparities, beyond ...
The fine task of stereoscopic depth discrimination in human subjects requires a functional binocular...
We investigated the contribution of binocular disparity to the rapid recognition of scenes and simpl...
Although our eyes are separated horizontally and binocular disparities are therefore mainly horizont...
To compute depth from binocular disparity, the visual system must correctly link corresponding point...
Many studies have demonstrated that the human visual system is sensitive to very small differences i...
A model of stereopsis is proposed in which information from each eye's image is organised as a scale...
To encode binocular disparity, the visual system determines the image patches in one eye that yield ...
Human stereo vision can resolve remarkably small depth differences between two stimuli, but the smal...
With isolated binocular targets, the best depth discrimination is found in the fixation plane (Blake...
AbstractWith isolated binocular targets, the best depth discrimination is found in the fixation plan...
AbstractSpatial frequency selectivity has been incorporated into various theories of stereo matching...
AbstractWe investigated temporal properties of stereopsis at different spatial scales in dynamic ran...
We investigated temporal properties of stereopsis at different spatial scales in dynamic random-dot ...
Perception of stereoscopic depth requires that visual systems solve a correspondence problem: find p...
AbstractThere is a long history of research into depth percepts from very large disparities, beyond ...
The fine task of stereoscopic depth discrimination in human subjects requires a functional binocular...
We investigated the contribution of binocular disparity to the rapid recognition of scenes and simpl...
Although our eyes are separated horizontally and binocular disparities are therefore mainly horizont...
To compute depth from binocular disparity, the visual system must correctly link corresponding point...