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Vision Research
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March 1, 1972
The distinctness of borders formed between equally saturated, psychologically unique fields
R M Boynton, T S Greenspon
Science (New York, N.Y.)
|
March 5, 1976
A line, not a space, represents visual distinctness of borders formed by different colors
B W Tansley, R M Boynton
Journal of the Optical Society of America
|
October 1, 1975
Sinusoidal flicker characteristcis of primate cones in response to heterochromatic stimuli
R M Boynton, W S Baron
Vision Research
|
January 1, 1987
Effects of field area and configuration on chromatic and border discriminations
R T Eskew, R M Boynton
Vision Research
|
January 1, 1982
Field sensitivity of the "red" mechanism derived from primate local electroretinogram
R M Boynton, W S Baron
Journal of the Optical Society of America
|
December 1, 1980
Equations for chromatic discrimination models
R M Boynton, J J Wisowaty
Perception & Psychophysics
|
April 1, 1984
Dichoptic metacontrast masking reveals a central basis for monoptic chromatic induction
C X Olson, R M Boynton
Vision Research
|
January 1, 1978
Chromatic border perception: the role of red- and green-sensitive cones
B W Tansley, R M Boynton
Vision Research
|
July 1, 1974
The primate foveal local electroretinogram: an indicator of photoreceptor activity
W S Baron, R M Boynton
Journal of the Optical Society of America. A, Optics and Image Science
|
October 1, 1990
Segregation of basic colors in an information display
H S Smallman, R M Boynton
Page
of 5
Search research articles
Search
Showing results (11-20 of 45) with videos related to
Sort By:
Page
of 5
Vision Research
|
March 1, 1972
The distinctness of borders formed between equally saturated, psychologically unique fields
R M Boynton, T S Greenspon
Science (New York, N.Y.)
|
March 5, 1976
A line, not a space, represents visual distinctness of borders formed by different colors
B W Tansley, R M Boynton
Journal of the Optical Society of America
|
October 1, 1975
Sinusoidal flicker characteristcis of primate cones in response to heterochromatic stimuli
R M Boynton, W S Baron
Vision Research
|
January 1, 1987
Effects of field area and configuration on chromatic and border discriminations
R T Eskew, R M Boynton
Vision Research
|
January 1, 1982
Field sensitivity of the "red" mechanism derived from primate local electroretinogram
R M Boynton, W S Baron
Journal of the Optical Society of America
|
December 1, 1980
Equations for chromatic discrimination models
R M Boynton, J J Wisowaty
Perception & Psychophysics
|
April 1, 1984
Dichoptic metacontrast masking reveals a central basis for monoptic chromatic induction
C X Olson, R M Boynton
Vision Research
|
January 1, 1978
Chromatic border perception: the role of red- and green-sensitive cones
B W Tansley, R M Boynton
Vision Research
|
July 1, 1974
The primate foveal local electroretinogram: an indicator of photoreceptor activity
W S Baron, R M Boynton
Journal of the Optical Society of America. A, Optics and Image Science
|
October 1, 1990
Segregation of basic colors in an information display
H S Smallman, R M Boynton
Page
of 5