The Role of the Vertical Dimension in Stereoscopic Vision
- 1 August 1982
- journal article
- research article
- Published by SAGE Publications in Perception
- Vol. 11 (4), 377-386
- https://doi.org/10.1068/p110377
Abstract
It is shown how the full three-dimensional structure of a scene may in principle be computed from a correlated pair of retinal images, when all that is known about the orientations of the two eyes is that the planes of their horizontal meridians accurately coincide. The vertical dimension plays a crucial role in the theory; visible points which lie on the horizontal meridian supply no information about the angle of convergence or the direction of gaze. (i) If the scene contains three or more nonmeridional points, not all lying in a vertical plane, then their positions in space are fully determined by the horizontal and vertical coordinates of their images on the two retinas. (ii) If just two nonmeridional points are visible, or more than two, lying in a vertical plane, then their retinal images admit, in general, just two distinct three-dimensional interpretations. One of these is usually unrealistic; but a choice between them may be perceptually difficult if the vertical plane containing the points is nearly perpendicular to the interocular axis. These results suggest that vertical disparities may play an important role in the binocular perception of absolute depth. Elsewhere (Mayhew, this issue) this suggestion is found to provide a quantitative explanation of Ogle's ‘induced effect’.Keywords
This publication has 3 references indexed in Scilit:
- The Interpretation of Stereo-Disparity Information: The Computation of Surface Orientation and DepthPerception, 1982
- A computer algorithm for reconstructing a scene from two projectionsNature, 1981
- Binocular distance perception.Psychological Review, 1980