Color Vision and the Four-Color-Map Problem | Zendy

Dale Purves | Zendy; Beau Lotto | Zendy; Thomas W. Polger | Zendy

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Color Vision and the Four-Color-Map Problem

Author(s) -

Dale Purves,

Beau Lotto,

Thomas W. Polger

Publication year - 2000

Publication title -

journal of cognitive neuroscience

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.597

H-Index - 214

eISSN - 1530-8898

pISSN - 0898-929X

DOI - 10.1162/089892900562011

Subject(s) - chromatic scale , color vision , computer vision , artificial intelligence , psychology , blues , color model , image (mathematics) , topology (electrical circuits) , computer science , color space , mathematics , combinatorics , art , art history

Four different colors are needed to make maps that avoid adjacent countries of the same color. Because the retinal image is two dimensional, like a map, four dimensions of chromatic experience would also be needed to optimally distinguish regions returning spectrally different light to the eye. We therefore suggest that the organization of human color vision according to four-color classes (reds, greens, blues, and yellows) has arisen as a solution to this logical requirement in topology.

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