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The motor side of depth vision

Author

Listed:
  • Kai Schreiber

    (University of Toronto
    Canadian Institutes of Health Research, Group for Action and Perception)

  • J. Douglas Crawford

    (Canadian Institutes of Health Research, Group for Action and Perception
    Centre for Vision Research, York University)

  • Michael Fetter

    (University Hospital Tübingen)

  • Douglas Tweed

    (University of Toronto
    Canadian Institutes of Health Research, Group for Action and Perception
    Centre for Vision Research, York University)

Abstract

To achieve stereoscopic vision, the brain must search for corresponding image features on the two retinas1. As long as the eyes stay still, corresponding features are confined to narrow bands called epipolar lines2,3. But when the eyes change position, the epipolar lines migrate on the retinas4,5,6. To find the matching features, the brain must either search different retinal bands depending on current eye position, or search retina-fixed zones that are large enough to cover all usual locations of the epipolar lines. Here we show, using a new type of stereogram in which the depth image vanishes at certain gaze elevations, that the search zones are retina-fixed. This being the case, motor control acquires a crucial function in depth vision: we show that the eyes twist about their lines of sight in a way that reduces the motion of the epipolar lines, allowing stereopsis to get by with smaller search zones and thereby lightening its computational load.

Suggested Citation

  • Kai Schreiber & J. Douglas Crawford & Michael Fetter & Douglas Tweed, 2001. "The motor side of depth vision," Nature, Nature, vol. 410(6830), pages 819-822, April.
  • Handle: RePEc:nat:nature:v:410:y:2001:i:6830:d:10.1038_35071081
    DOI: 10.1038/35071081
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    Cited by:

    1. James R H Cooke & Arjan C ter Horst & Robert J van Beers & W Pieter Medendorp, 2017. "Effect of depth information on multiple-object tracking in three dimensions: A probabilistic perspective," PLOS Computational Biology, Public Library of Science, vol. 13(7), pages 1-18, July.

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