Color Ontology and Color ScienceJonathan Cohen, Mohan Matthen Leading philosophers and scientists consider what conclusions about color can be drawn when the latest analytic tools are applied to the most sophisticated color science.Philosophers and scientists have long speculated about the nature of color. Atomists such as Democritus thought color to be "conventional," not real; Galileo and other key figures of the Scientific Revolution thought that it was an erroneous projection of our own sensations onto external objects. More recently, philosophers have enriched the debate about color by aligning the most advanced color science with the most sophisticated methods of analytical philosophy. In this volume, leading scientists and philosophers examine new problems with new analytic tools, considering such topics as the psychophysical measurement of color and its implications, the nature of color experience in both normal color-perceivers and the color blind, and questions that arise from what we now know about the neural processing of color information, color consciousness, and color language. Taken together, these papers point toward a complete restructuring of current orthodoxy concerning color experience and how it relates to objective reality. Kuehni, Jameson, Mausfeld, and Niederee discuss how the traditional framework of a three-dimensional color space and basic color terms is far too simple to capture the complexities of color experience. Clark and MacLeod discuss the difficulties of a materialist account of color experience. Churchland, Cohen, Matthen, and Westphal offer competing accounts of color ontology. Finally, Broackes and Byrne and Hilbert discuss the phenomenology of color blindness.Contributors Justin Broackes, Alex Byrne, Paul M. Churchland, Austen Clark, Jonathan Cohen, David R. Hilbert, Kimberly A. Jameson, Rolf Kuehni, Don I.A. MacLeod, Mohan Matthen, Rainer Mausfeld, Richard Niederée, Jonathan Westphal |
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appearance attention attributes aware blue brightness called central chromaticity color space color vision concepts cones confusion considered corresponding diagram dichromats dimension direct distinct effects empirical evidence example experience fact field figure focal functions given green Hardin human idea illumination important individual kind less light look luminance match means naming nature neural normal object observer orange particular perceived perception phenomenal Philosophical physical pigments position possible presented primary processing profiles properties protanope question range reason red-green reflectance relations relative reported representation represented result saturation seems selective sensation sense similarity simply space spectral standard stimuli structure suggests suppose surface theory things tion trichromats types unique unique hue University values variation vision visual wavelength yellow