AbstractWe propose a new model for da Vinci stereopsis based on a coarse-to-fine disparity energy computation in V1 and disparity-boundary-selective units in V2. Unlike previous work, our model contains only binocular cells, relies on distributed representations of disparity, and has a simple V1-to-V2 feedforward structure. We demonstrate with random-dot stereograms that the V2 stage of our model is able to determine the location and the eye-of-origin of monocularly occluded regions, and improve disparity map computation. We also examine a few related issues. First, we argue that since monocular regions are binocularly defined, they cannot generally be detected by monocular cells. Second, we show that our coarse-to-fine V1 model for convent...
AbstractDichoptic stimuli containing unmatched features can produce depth perception despite the abs...
AbstractIn his study of depth from monocular elements, Kaye (1978) [Kaye, M. (1978). Stereopsis with...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...
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...
AbstractOur ability to see the world in depth is a major accomplishment of the brain. Previous model...
Abstract“da Vinci stereopsis” is defined as depth seen in a monocular object occluded by a binocular...
AbstractWe investigated processes that determine the depth localization of monocular points which ha...
AbstractPreviously we have demonstrated that quantitative depth perception can be elicited from a st...
In binocular viewing of natural three-dimensional scenes, occlusion relationships between objects at...
Our ability to see the world in depth is a major accomplishment of the brain. Previous models of how...
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...
Disparity-selective cells appear to occur in all parts of the visual cortex, but a recent fMRI study...
AbstractHalf-occluded points (visible only in one eye) are perceived at a certain depth behind the o...
AbstractDichoptic stimuli containing unmatched features can produce depth perception despite the abs...
AbstractIn his study of depth from monocular elements, Kaye (1978) [Kaye, M. (1978). Stereopsis with...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...
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...
AbstractOur ability to see the world in depth is a major accomplishment of the brain. Previous model...
Abstract“da Vinci stereopsis” is defined as depth seen in a monocular object occluded by a binocular...
AbstractWe investigated processes that determine the depth localization of monocular points which ha...
AbstractPreviously we have demonstrated that quantitative depth perception can be elicited from a st...
In binocular viewing of natural three-dimensional scenes, occlusion relationships between objects at...
Our ability to see the world in depth is a major accomplishment of the brain. Previous models of how...
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...
Disparity-selective cells appear to occur in all parts of the visual cortex, but a recent fMRI study...
AbstractHalf-occluded points (visible only in one eye) are perceived at a certain depth behind the o...
AbstractDichoptic stimuli containing unmatched features can produce depth perception despite the abs...
AbstractIn his study of depth from monocular elements, Kaye (1978) [Kaye, M. (1978). Stereopsis with...
AbstractNeurons in primary visual cortex respond to binocular disparity, the raw material of stereos...