Add to ORKGThe human brain can fuse two slightly different views from left and right eyes and perceive depth. This process of stereopsis entails identifying matching locations in the two images and recovering the depth from their disparity. This can be done only approximately: ambiguity arising from such factors as noise, periodicity, and large regions of constan
Humans and many animals have forward-facing eyes providing different views of the environment. Preci...
The perception of a three-dimensional world is a challenge for the visual system because the retina...
Stereoscopic vision relies mainly on relative depth differences between objects rather than on their...
AbstractOur ability to see the world in depth is a major accomplishment of the brain. Previous model...
Many theories of human stereovision are based on feature matching and the related correspondence pro...
A great challenge of systems neuroscience is to understand the computations that underlie perceptual...
How does the brain transform the 2-D light arrays in our eyes into a meaningful 3-D description of s...
Humans and some animals can use their two eyes in cooperation to detect and discriminate parts of th...
Our ability to see the world in depth is a major accomplishment of the brain. Previous models of how...
Abstract. Many theories of human stereovision are based on feature matching and the related correspo...
Typescript (photocopy).In computer vision, the idea of using stereo cameras for depth perception has...
Stereo vision or stereopsis is the ability to perceive the relative depth of objects based on binocu...
AbstractRecent studies show how single neurons detect binocular disparities. But how these signals a...
To encode binocular disparity, the visual system determines the image patches in one eye that yield ...
The visual cortex is able to extract disparity information through the use of binocular cells. This ...
Humans and many animals have forward-facing eyes providing different views of the environment. Preci...
The perception of a three-dimensional world is a challenge for the visual system because the retina...
Stereoscopic vision relies mainly on relative depth differences between objects rather than on their...
AbstractOur ability to see the world in depth is a major accomplishment of the brain. Previous model...
Many theories of human stereovision are based on feature matching and the related correspondence pro...
A great challenge of systems neuroscience is to understand the computations that underlie perceptual...
How does the brain transform the 2-D light arrays in our eyes into a meaningful 3-D description of s...
Humans and some animals can use their two eyes in cooperation to detect and discriminate parts of th...
Our ability to see the world in depth is a major accomplishment of the brain. Previous models of how...
Abstract. Many theories of human stereovision are based on feature matching and the related correspo...
Typescript (photocopy).In computer vision, the idea of using stereo cameras for depth perception has...
Stereo vision or stereopsis is the ability to perceive the relative depth of objects based on binocu...
AbstractRecent studies show how single neurons detect binocular disparities. But how these signals a...
To encode binocular disparity, the visual system determines the image patches in one eye that yield ...
The visual cortex is able to extract disparity information through the use of binocular cells. This ...
Humans and many animals have forward-facing eyes providing different views of the environment. Preci...
The perception of a three-dimensional world is a challenge for the visual system because the retina...
Stereoscopic vision relies mainly on relative depth differences between objects rather than on their...