Surface discontinuity is critical in a moving observer's perception of objects' depth order and relative motion from retinal image motion. |
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Authors: | M Kitazaki S Shimojo |
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Affiliation: | Department of Psychology, Graduate School of Humanities and Sociology, University of Tokyo, Japan. mich@L.u-tokyo.ac.jp |
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Abstract: | The visual system perceptually decomposes retinal image motion into three basic components that are ecologically significant for the human observer: object depth, object motion, and self motion. Using this conceptual framework, we explored the relationship between them by examining perception of objects' depth order and relative motion during self motion. We found that the visual system obeyed what we call the parallax-sign constraint, but in different ways depending on whether the retinal image motion contained velocity discontinuity or not. When velocity discontinuity existed (e.g. in dynamic occlusion, transparent motion), the subject perceptually interpreted image motion as relative motion between surfaces with stable depth order. When velocity discontinuity did not exist, he/she perceived depth-order reversal but no relative motion. The results suggest that the existence of surface discontinuity or of multiple surfaces indexed by velocity discontinuity inhibits the reversal of global depth order. |
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