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Vision Research
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April 6, 2002
Fast long-distance interactions in the early processing of motion-defined form and of combinations of motion-defined, luminance-defined, and cyclopean form
Radha P Kohly, D Regan
Vision Research
|
May 26, 1999
Evidence for a mechanism sensitive to the speed of cyclopean form
R P Kohly, D Regan
Life Sciences in Space Research
|
February 25, 2018
Synthetic torpor: A method for safely and practically transporting experimental animals aboard spaceflight missions to deep space
Yuri Griko, Matthew D Regan
Journal of the Optical Society of America
|
November 1, 1980
Visual responses to changing size and to sideways motion for different directions of motion in depth: linearization of visual responses
D Regan, K I Beverley
Vision Research
|
February 1, 1971
A method of evoking contour-specific scalp potentials by chromatic checkerboard patterns
D Regan, H G Sperling
The Journal of Experimental Biology
|
November 2, 2018
Can variation among hypoxic environments explain why different fish species use different hypoxic survival strategies?
Milica Mandic, Matthew D Regan
Investigative Ophthalmology & Visual Science
|
June 1, 1983
Visual fields described by contrast sensitivity, by acuity, and by relative sensitivity to different orientations
D Regan, K I Beverley
Vision Research
|
February 1, 1995
Orientation discrimination in cyclopean vision
S J Hamstra, D Regan
Vision Research
|
January 1, 1979
Binocular and monocular stimuli for motion in depth: changing-disparity and changing-size feed the same motion-in-depth stage
D Regan, K I Beverley
Science (New York, N.Y.)
|
August 31, 1973
Disparity detectors in human depth perception: evidence for directional selectivity
D Regan, K I Beverley
Page
of 48
Search research articles
Search
Showing results (151-160 of 479) with videos related to
Sort By:
Page
of 48
Vision Research
|
April 6, 2002
Fast long-distance interactions in the early processing of motion-defined form and of combinations of motion-defined, luminance-defined, and cyclopean form
Radha P Kohly, D Regan
Vision Research
|
May 26, 1999
Evidence for a mechanism sensitive to the speed of cyclopean form
R P Kohly, D Regan
Life Sciences in Space Research
|
February 25, 2018
Synthetic torpor: A method for safely and practically transporting experimental animals aboard spaceflight missions to deep space
Yuri Griko, Matthew D Regan
Journal of the Optical Society of America
|
November 1, 1980
Visual responses to changing size and to sideways motion for different directions of motion in depth: linearization of visual responses
D Regan, K I Beverley
Vision Research
|
February 1, 1971
A method of evoking contour-specific scalp potentials by chromatic checkerboard patterns
D Regan, H G Sperling
The Journal of Experimental Biology
|
November 2, 2018
Can variation among hypoxic environments explain why different fish species use different hypoxic survival strategies?
Milica Mandic, Matthew D Regan
Investigative Ophthalmology & Visual Science
|
June 1, 1983
Visual fields described by contrast sensitivity, by acuity, and by relative sensitivity to different orientations
D Regan, K I Beverley
Vision Research
|
February 1, 1995
Orientation discrimination in cyclopean vision
S J Hamstra, D Regan
Vision Research
|
January 1, 1979
Binocular and monocular stimuli for motion in depth: changing-disparity and changing-size feed the same motion-in-depth stage
D Regan, K I Beverley
Science (New York, N.Y.)
|
August 31, 1973
Disparity detectors in human depth perception: evidence for directional selectivity
D Regan, K I Beverley
Page
of 48