We studied a novel phenomenon indicating that the integration of extra-retinal information and the optic flow is a necessary but not sufficient condition for slant constancy during active head motion; congruency between monocular and binocular cues to depth is also required. In two experiments, we measured observers' performance in a rotation-detection task during active vision. Two viewing conditions were compared: binocular vision with null disparity (same image projected to the two eyes) and monocular vision. Static or rotating slanted planar surfaces were simulated with 90/270-deg tilt (Experiment 1) and 0/180-deg tilt (Experiment 2). Observers produced oscillatory lateral head movements which were recorded by an Optotrack Certus syste...
It has been shown that vertical binocular disparity has no or little effect on the perception of vis...
Purpose: Two binocular sources of information serve motion-in-depth (MID) perception: changes in dis...
AbstractThe direction of an object can theoretically be determined from the binocular disparity info...
A stationary surface slanted around the vertical axis and observed during a head translation appears...
Recent studies suggest that the active observer combines optic flow information with extra-retinal s...
It has been suggested that the perceptual impression of slant can result from the operation of mecha...
In previous experiments we measured observers' performance in a rotation-detection task during activ...
Humans make systematic errors in the 3D interpretation of the optic flow in both passive and active ...
Humans make systematic errors in the 3D interpretation of the optic flow in both passive and active ...
We systematically analyse the binocular disparity field under various eye, head and stimulus positi...
Motivation. Recent evidence suggests that extra-retinal signals play an important role in the percep...
AbstractWe systematically analyse the binocular disparity field under various eye, head and stimulus...
AbstractWith a horizontal magnifier before one eye, a frontoparallel surface appears rotated about a...
Purpose: Two binocular sources of information serve motion-in-depth (MID) perception: changes in dis...
The fine task of stereoscopic depth discrimination in human subjects requires a functional binocular...
It has been shown that vertical binocular disparity has no or little effect on the perception of vis...
Purpose: Two binocular sources of information serve motion-in-depth (MID) perception: changes in dis...
AbstractThe direction of an object can theoretically be determined from the binocular disparity info...
A stationary surface slanted around the vertical axis and observed during a head translation appears...
Recent studies suggest that the active observer combines optic flow information with extra-retinal s...
It has been suggested that the perceptual impression of slant can result from the operation of mecha...
In previous experiments we measured observers' performance in a rotation-detection task during activ...
Humans make systematic errors in the 3D interpretation of the optic flow in both passive and active ...
Humans make systematic errors in the 3D interpretation of the optic flow in both passive and active ...
We systematically analyse the binocular disparity field under various eye, head and stimulus positi...
Motivation. Recent evidence suggests that extra-retinal signals play an important role in the percep...
AbstractWe systematically analyse the binocular disparity field under various eye, head and stimulus...
AbstractWith a horizontal magnifier before one eye, a frontoparallel surface appears rotated about a...
Purpose: Two binocular sources of information serve motion-in-depth (MID) perception: changes in dis...
The fine task of stereoscopic depth discrimination in human subjects requires a functional binocular...
It has been shown that vertical binocular disparity has no or little effect on the perception of vis...
Purpose: Two binocular sources of information serve motion-in-depth (MID) perception: changes in dis...
AbstractThe direction of an object can theoretically be determined from the binocular disparity info...