We used binocular stimuli to define how the visual location of stereoscopic depth structure maps topographically onto the human visual cortex. The main stimulus consisted of a circular disk of dots, most at zero-disparity, against which a single quadrant was defined with changing disparity ('correlated' disparity), and moved around the visual field. The second stimulus had exactly the same structure, except that the disparity in the quadrant was 'anticorrelated,' that is black dots in one eye were paired with white dots in the other. Unlike the correlated stimulus, this 'anticorrelated' stimulus did not lead to a perception of depth. The activation maps to these disparity stimuli are very similar to those produced using stimuli defined by l...
Recent physiological observations in which stimuli with opposite contrast signs in the two eyes have...
Our perception of the world‘s three-dimensional (3D) structure is critical for object recognition, n...
Binocular disparity is a powerful depth cue for object perception. The computations for object visio...
The visual perception of 3D depth is underpinned by the brain’s ability to combine signals from the ...
The human visual system has an impressive ability to extract tiny differences from the left and righ...
© 2015 the authors. The binocular disparity between the views of the world registered by the left an...
The binocular disparity between the views of the world registered by the left and right eyes provide...
Stereoscopic vision relies mainly on relative depth differences between objects rather than on their...
Using event-related functional magnetic resonance imaging, we studied the activation correlating wit...
In a random-dot stereogram (RDS), the percept of object surfaces in a three-dimensional scene is gen...
Processing of binocular disparity is thought to be widespread throughout cortex, highlighting its im...
Binocular disparity is of vital importance in stereoscopic vision. It determines the depth magnitude...
In a random-dot stereogram (RDS), depth percepts of object surfaces are generated using left-eye and...
PURPOSE: Perceiving binocular depth relies on the ability of our visual system to precisely match co...
Abstract Background Binocular disparity provides a powerful cue for depth perception in a stereoscop...
Recent physiological observations in which stimuli with opposite contrast signs in the two eyes have...
Our perception of the world‘s three-dimensional (3D) structure is critical for object recognition, n...
Binocular disparity is a powerful depth cue for object perception. The computations for object visio...
The visual perception of 3D depth is underpinned by the brain’s ability to combine signals from the ...
The human visual system has an impressive ability to extract tiny differences from the left and righ...
© 2015 the authors. The binocular disparity between the views of the world registered by the left an...
The binocular disparity between the views of the world registered by the left and right eyes provide...
Stereoscopic vision relies mainly on relative depth differences between objects rather than on their...
Using event-related functional magnetic resonance imaging, we studied the activation correlating wit...
In a random-dot stereogram (RDS), the percept of object surfaces in a three-dimensional scene is gen...
Processing of binocular disparity is thought to be widespread throughout cortex, highlighting its im...
Binocular disparity is of vital importance in stereoscopic vision. It determines the depth magnitude...
In a random-dot stereogram (RDS), depth percepts of object surfaces are generated using left-eye and...
PURPOSE: Perceiving binocular depth relies on the ability of our visual system to precisely match co...
Abstract Background Binocular disparity provides a powerful cue for depth perception in a stereoscop...
Recent physiological observations in which stimuli with opposite contrast signs in the two eyes have...
Our perception of the world‘s three-dimensional (3D) structure is critical for object recognition, n...
Binocular disparity is a powerful depth cue for object perception. The computations for object visio...