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Mathematical biophysics of color vision II: Theory of color changes induced by the alternation of colors at various frequencies.

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Abstract

A model previously introduced to account for a number of phenomena of color vision is studied for the conditions in which the alternation of colors is periodic. The case of three primary receptors having no differences in their time constants is considered for the situations such as the temporal alternation of two primaries, a primary and a neighboring binary, a primary and white, a binary and white, etc. Using the same mathematical model which was used to account for the enhancement effect of interrupted illumination, it is found possible to account for observed changes in hue in a qualitative manner. A method is suggested for measuring the color changes quantitatively. This method is readily adapted for demonstration purposes. The model shows that there should be differences between “primaries” and “binaries” with respect to change in hue. In principle, therefore, comparison between theory and experiment should yield information regarding the physiological primaries.

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This research was supported by the United States Air Force through the Air Force Office of Scientific Research of the Air Research and Development Command under contract No. AF 18 (600) 1454.

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Landahl, H.D. Mathematical biophysics of color vision II: Theory of color changes induced by the alternation of colors at various frequencies.. Bulletin of Mathematical Biophysics 18, 137–149 (1956). https://doi.org/10.1007/BF02477837

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  • DOI: https://doi.org/10.1007/BF02477837

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