Distance Perception within near Visual Space

We investigated the perception of distance of visual targets with constant size and luminance presented between 20 and 120 cm from subjects' eyes. When retinal disparity cues were present, the subjects could reproduce very accurately the distance of a seen reference in this area. When only extraretinal information was available, distance perception was still correct for distances of 40 cm or less. However, distances beyond 60 cm were underestimated. When forced to evaluate the distance between a reference and themselves, eg when evaluating the absolute distance or half the distance or twice the distance of a reference, subjects used an egocentric plane of reference located on average 10.4 cm in front of their eyes. Measurements of binocular eye movements indicated a clear relationship between vergence angle and target distance. The egocentric plane of reference at 10.4 cm also corresponds to the maximum achievable vergence. These results suggest that ocular convergence can be used as a reliable cue for distance within the arm's reaching space.

[1]  Walter C. Gogel,et al.  Absolute motion parallax and the specific distance tendency , 1973 .

[2]  C von Hofsten,et al.  The role of convergence in visual space perception. , 1976, Vision research.

[3]  Harold Alfred Swenson,et al.  The Relative Influence of Accommodation and Convergence in the Judgment of Distance , 1932 .

[4]  Millard F. Reschke,et al.  A Model-Based Approach for the Measurement of Eye Movements Using Image Processing , 1997 .

[5]  Zijiang J. He,et al.  Terrain influences the accurate judgement of distance , 1998, Nature.

[6]  E. Brenner,et al.  Judging distance from ocular convergence , 1998, Vision Research.

[7]  J. Winstanley The Eye. Volume 4. Visual Optics and the Optical Space Sense , 1964 .

[8]  James R. Tresilian,et al.  Increasing confidence in vergence as a cue to distance , 1999, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[9]  W C GOGEL,et al.  Convergence as a cue to the perceived distance of objects in a binocular configuration. , 1961, Report. Army Medical Research Laboratory.

[10]  S Thorpe,et al.  Modulation of neural stereoscopic processing in primate area V1 by the viewing distance. , 1992, Science.

[11]  M. Mon-Williams,et al.  Some Recent Studies on the Extraretinal Contribution to Distance Perception , 1999, Perception.

[12]  S Thorpe,et al.  Neural processing of stereopsis as a function of viewing distance in primate visual cortical area V1. , 1993, Journal of neurophysiology.

[13]  T. Whiteside,et al.  Binocular Cues in the Perception of Distance of a Point Source of Light , 1984, Perception.

[14]  L. Stark,et al.  Binocular eye movements during accommodative vergence , 1978, Vision Research.

[15]  K J Ciuffreda,et al.  Accommodation and Apparent Distance , 1988, Perception.

[16]  John M. Foley,et al.  Primary Distance Perception , 1978 .

[17]  Whitman Richards,et al.  Convergence as a cue to depth , 1969 .

[18]  A B Fajardo,et al.  A technique for determining convergence in human subjects undergoing rotational acceleration using a binocular eye-tracking system. , 1998, Aviation, space, and environmental medicine.

[19]  K. N. Leibovic,et al.  BINOCULAR SPACE PERCEPTION , 1972 .

[20]  Hans Wallach,et al.  The use of size matching to demonstrate the effectiveness of accommodation and convergence as cues for distance , 1971 .

[21]  Hiroshi Ono,et al.  Oculomotor adjustments and size-distance perception , 1974 .

[22]  V. W. Grant,et al.  Accommodation and convergence in visual space perception. , 1942 .

[23]  H Collewijn,et al.  Binocular eye movements and the perception of depth. , 1990, Reviews of oculomotor research.

[24]  P O Bishop,et al.  Vertical disparity, egocentric distance and stereoscopic depth constancy: a new interpretation , 1989, Proceedings of the Royal Society of London. B. Biological Sciences.

[25]  J. M. Foley Binocular distance perception. , 1980, Psychological review.

[26]  John M. Foley,et al.  Visually directed pointing as a function of target distance, direction, and available cues , 1972 .

[27]  John M Foley,et al.  Effect of Distance Information and Range on Two Indices of Visually Perceived Distance , 1977, Perception.

[28]  J. M. Foley Successive stereo and vernier position discrimination as a function of dark interval duration , 1976, Vision Research.

[29]  C. Von Hofsten Binocular Convergence as a Determinant of Reaching Behavior in Infancy , 1977, Perception.