Stereoscopic depth perception at high velocities
- 1 November 1995
- journal article
- Published by Springer Nature in Nature
- Vol. 378 (6555) , 380-383
- https://doi.org/10.1038/378380a0
Abstract
The view of the world from different perspectives provided by the two eyes is used by the human visual system to compute the relative distances and solid shapes of objects. However, the traditional theory of binocular disparity takes little account of the fact that a moving target will stimulate many different sets of disparate points in the two eyes with a range of temporal delays. Here we show that stereoacuity for periodic grating is not degraded by velocities of up to 640 degrees s-1 provided that they do not move at a greater rate than 30 cycles s-1. The minimum detectable spatial phase difference between the eyes was equivalent to a spatial phase difference of about 5 degrees and an interocular temporal delay as small as 450 microseconds. We suggest that stereopsis for moving targets is accomplished by neurons having a spatial-temporal phase shift in their receptive fields between the eyes.Keywords
This publication has 17 references indexed in Scilit:
- Interaural delay sensitivity to tones and broad band signals in the guinea-pig inferior colliculusHearing Research, 1990
- Segregation of Form, Color, Movement, and Depth: Anatomy, Physiology, and PerceptionScience, 1988
- Spatial and temporal selectivity of the human motion detection systemVision Research, 1985
- Spatial tuning of static and dynamic local stereopsisVision Research, 1984
- Exposure duration affects the sensitivity of vernier acuity to target motionVision Research, 1982
- Hyperacuity for luminance phase angle in the human visual systemVision Research, 1982
- Stereoscopic acuity for moving retinal images*Journal of the Optical Society of America, 1978
- Apparent Motion and the Pulfrich EffectPerception, 1975
- Stereopsis by binocular delayNature, 1974
- Some dynamic features of depth perceptionVision Research, 1973