The mainstream of binocular vision research has long been focused on understanding how binocular disparity is used for depth perception. In recent years, researchers have begun to explore how monocular regions in binocularly viewed scenes contribute to our perception of the three-dimensional world. Here we review the field as it currently stands, with a focus on understanding the extent to which the role of monocular regions in depth perception can be understood using extant theories of binocular vision
AbstractWe examined the phenomenon in which two physically aligned monocular stimuli appear to be no...
\u3cp\u3eA study is reported of the depth relief in a simple three-dimensional scene consisting of a...
Natural scenes contain hidden regions, or occlusions, that differ in the two eyes, resulting in mono...
AbstractThe mainstream of binocular vision research has long been focused on understanding how binoc...
The mainstream of binocular vision research has long been focused on understanding how binocular dis...
Our two forward facing eyes supply the visual system with slightly different versions of the world ...
Our visual systems combine the two, slightly different, retinal images to arrive at a stable and con...
Perceived depth was measured for three-types of stereograms with the colour/texture of half-occluded...
In his study of depth from monocular elements, Kaye (1978) [Kaye, M. (1978). Stereopsis without bino...
AbstractIn his study of depth from monocular elements, Kaye (1978) [Kaye, M. (1978). Stereopsis with...
The visual perception of monocular stimuli perceived as 3-D objects has received considerable attent...
Determining the three-dimensional (3D) layout of the natural environment is an important but difficu...
Recent experiments have established that monocular areas arising due to occlusion of one object by a...
In binocular viewing of natural three-dimensional scenes, occlusion relationships between objects at...
The role of monocular occlusion zones challenge traditional models of stereopsis as they do not comp...
AbstractWe examined the phenomenon in which two physically aligned monocular stimuli appear to be no...
\u3cp\u3eA study is reported of the depth relief in a simple three-dimensional scene consisting of a...
Natural scenes contain hidden regions, or occlusions, that differ in the two eyes, resulting in mono...
AbstractThe mainstream of binocular vision research has long been focused on understanding how binoc...
The mainstream of binocular vision research has long been focused on understanding how binocular dis...
Our two forward facing eyes supply the visual system with slightly different versions of the world ...
Our visual systems combine the two, slightly different, retinal images to arrive at a stable and con...
Perceived depth was measured for three-types of stereograms with the colour/texture of half-occluded...
In his study of depth from monocular elements, Kaye (1978) [Kaye, M. (1978). Stereopsis without bino...
AbstractIn his study of depth from monocular elements, Kaye (1978) [Kaye, M. (1978). Stereopsis with...
The visual perception of monocular stimuli perceived as 3-D objects has received considerable attent...
Determining the three-dimensional (3D) layout of the natural environment is an important but difficu...
Recent experiments have established that monocular areas arising due to occlusion of one object by a...
In binocular viewing of natural three-dimensional scenes, occlusion relationships between objects at...
The role of monocular occlusion zones challenge traditional models of stereopsis as they do not comp...
AbstractWe examined the phenomenon in which two physically aligned monocular stimuli appear to be no...
\u3cp\u3eA study is reported of the depth relief in a simple three-dimensional scene consisting of a...
Natural scenes contain hidden regions, or occlusions, that differ in the two eyes, resulting in mono...