In binocular viewing of natural three-dimensional scenes, occlusion relationships between objects at different depths create regions of the background that are visible to only one eye. These monocular regions can support depth perception. There are two viewing conditions in which a monocular region can be on the nasal side of a binocular surface-(a) when a background surface is viewed through an aperture and (b) when a region is camouflaged against the background in one eye's view. We created stimuli with a monocular region using complex textures in which camouflage was not possible, and for which there was no physical aperture. For these stimuli, observers perceived a strong phantom contour in near depth at the edge of the monocular region...
Conventional models of binocular depth perception (stereopsis) hypothesise that depth perception res...
AbstractLiu, L., Stevenson, S.B., and Schor, C.M. (1994, Nature, 367, 66–669) reported quantitative ...
AbstractWe propose a new model for da Vinci stereopsis based on a coarse-to-fine disparity energy co...
AbstractThe majority of natural scenes contains zones that are visible to one eye only. Past studies...
AbstractA phantom surface is a stereoscopic illusory area that can be seen in depth although there i...
The present study investigated how depth localization of unpaired monocular dots positioned close to...
Quantitative depth based on binocular resolution of visibility constraints is demonstrated in a nove...
Abstract“da Vinci stereopsis” is defined as depth seen in a monocular object occluded by a binocular...
AbstractDichoptic stimuli containing unmatched features can produce depth perception despite the abs...
Recent experiments have established that monocular areas arising due to occlusion of one object by a...
Perceived depth was measured for three-types of stereograms with the colour/texture of half-occluded...
Previous models of stereopsis have concentrated on the task of binocularly matching left and right e...
The visual perception of monocular stimuli perceived as 3-D objects has received considerable attent...
AbstractWe investigated processes that determine the depth localization of monocular points which ha...
The role of monocular occlusion zones challenge traditional models of stereopsis as they do not comp...
Conventional models of binocular depth perception (stereopsis) hypothesise that depth perception res...
AbstractLiu, L., Stevenson, S.B., and Schor, C.M. (1994, Nature, 367, 66–669) reported quantitative ...
AbstractWe propose a new model for da Vinci stereopsis based on a coarse-to-fine disparity energy co...
AbstractThe majority of natural scenes contains zones that are visible to one eye only. Past studies...
AbstractA phantom surface is a stereoscopic illusory area that can be seen in depth although there i...
The present study investigated how depth localization of unpaired monocular dots positioned close to...
Quantitative depth based on binocular resolution of visibility constraints is demonstrated in a nove...
Abstract“da Vinci stereopsis” is defined as depth seen in a monocular object occluded by a binocular...
AbstractDichoptic stimuli containing unmatched features can produce depth perception despite the abs...
Recent experiments have established that monocular areas arising due to occlusion of one object by a...
Perceived depth was measured for three-types of stereograms with the colour/texture of half-occluded...
Previous models of stereopsis have concentrated on the task of binocularly matching left and right e...
The visual perception of monocular stimuli perceived as 3-D objects has received considerable attent...
AbstractWe investigated processes that determine the depth localization of monocular points which ha...
The role of monocular occlusion zones challenge traditional models of stereopsis as they do not comp...
Conventional models of binocular depth perception (stereopsis) hypothesise that depth perception res...
AbstractLiu, L., Stevenson, S.B., and Schor, C.M. (1994, Nature, 367, 66–669) reported quantitative ...
AbstractWe propose a new model for da Vinci stereopsis based on a coarse-to-fine disparity energy co...