Inferring depth from binocular disparities is a difficult problem for the visual system because local features in the left- and right-eye images must be matched correctly to solve this “stereo correspondence problem. ” Cortical architecture and computational studies suggest that lateral interactions among neurons could help resolve local uncertainty about disparity encoded in individual neurons by incorporating contextual constraints. We found that correlated activity among pairs of neurons in primary visual cortex depended both on disparity-tuning relationships and the stimuli displayed within the receptive fields of the neurons. Nearby pairs of neurons with distinct disparity tuning exhibited a decrease in spike correlation at competing d...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
Stereoscopic depth perception relies on binocular disparities, or small geometric differences betwee...
Humans and many animals have forward-facing eyes providing different views of the environment. Preci...
Inferring depth from binocular disparities is a difficult problem for the visual system because loca...
nferring depth from binocular disparities is a difficult problem for the visual system because local...
Although there has been substantial progress in understanding the neurophysiological mechanisms of s...
Neurons encode the depth in stereoscopic images by combining the signals from the receptive fields i...
A plane lying in depth is vividly perceived by viewing a random-dot stereogram (RDS) with a slight b...
This article develops a neural model of how sharp disparity tuning can arise through experience-depe...
Stereo vision relies on cortical signals that encode binocular disparity. In V1, the disparity energ...
Stereo images are highly redundant; the left and right frames of typical scenes are very similar. Li...
To identify neuronal mechanisms underlying stereopsis, we characterized interactions between inputs ...
This article develops a neural model of how sharp disparity tuning can arise through experience-depe...
Binocular disparity, the difference between the two eyes' images, is a powerful cue to generate the ...
The cooperative algorithm first proposed by Marr and Poggio (1976) solves correspondence problem in ...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
Stereoscopic depth perception relies on binocular disparities, or small geometric differences betwee...
Humans and many animals have forward-facing eyes providing different views of the environment. Preci...
Inferring depth from binocular disparities is a difficult problem for the visual system because loca...
nferring depth from binocular disparities is a difficult problem for the visual system because local...
Although there has been substantial progress in understanding the neurophysiological mechanisms of s...
Neurons encode the depth in stereoscopic images by combining the signals from the receptive fields i...
A plane lying in depth is vividly perceived by viewing a random-dot stereogram (RDS) with a slight b...
This article develops a neural model of how sharp disparity tuning can arise through experience-depe...
Stereo vision relies on cortical signals that encode binocular disparity. In V1, the disparity energ...
Stereo images are highly redundant; the left and right frames of typical scenes are very similar. Li...
To identify neuronal mechanisms underlying stereopsis, we characterized interactions between inputs ...
This article develops a neural model of how sharp disparity tuning can arise through experience-depe...
Binocular disparity, the difference between the two eyes' images, is a powerful cue to generate the ...
The cooperative algorithm first proposed by Marr and Poggio (1976) solves correspondence problem in ...
The past decades of research in visual neuroscience have generated a large and disparate body of lit...
Stereoscopic depth perception relies on binocular disparities, or small geometric differences betwee...
Humans and many animals have forward-facing eyes providing different views of the environment. Preci...