ISSN:
1432-0770
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Computer Science
,
Physics
Notes:
Abstract A scheme suggested by neurophysiological evidence is proposed to account for the perceptual phenomena related to binocular stereopsis, especially those observed with Julesz' random stereograms. In the scheme, monocular local features are extracted first. Then the correspondence between the left and right local features is searched for. The correspondence is not one-to-one in general. Thus a sort of direction column due to Blakemore is formed. Each unit in the column is binocular and the receptive field belonging to one eye is located in the same part of the visual field as long as the unit belongs to the same column. However, the receptive fields belonging to the other eye are horizontally displaced to one another. That is, each unit is characterized by binocular disparity. If the correspondence is not one-to-one, then several units belonging to the same column respond simultaneously. Binocular stereopsis can be established if one-to-one correspondence is determined to yield global three dimensional regions. The determination of one-to-one correspondence is carried out through a sort of laterally interacting circuitry in the disparity domain. After the determination of local correspondence, three dimensional global regions are formed by detecting the boundary and by filling-in occluded regions. The results of computer simulation are presented regarding Julesz' stereograms with various types of perturbation. Furthermore, the case of random-dot stereogram in which there is a size difference between the left and right images is simulated. Finally, the computer simulation related to the hysteresis in binocular depth perception is carried out.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00363986
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