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Color Appearance Models by Mark D. Fairchild (1997, Hardcover)
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About this product
Product Identifiers
PublisherPrentice Hall PTR
ISBN-100201634643
ISBN-139780201634648
eBay Product ID (ePID)834355
Product Key Features
Number of Pages448 Pages
Publication NameColor Appearance Models
LanguageEnglish
SubjectComputer Graphics, Life Sciences / Anatomy & Physiology (See Also Life Sciences / Human Anatomy & Physiology)
Publication Year1997
TypeTextbook
AuthorMark D. Fairchild
Subject AreaComputers, Science
FormatHardcover
Dimensions
Item Height1.2 in
Item Weight32.3 Oz
Item Length9.5 in
Item Width6.6 in
Height1.2in
Additional Product Features
LCCN97-026404
Dewey Edition22
Target AudienceScholarly & Professional
IllustratedYes
Dewey Decimal612.8/4
Lc Classification NumberQp483.F35 1998
Table of ContentPreface. Acknowledgments. Introduction. 1. Human Color Vision. Optics of the Eye. The Retina Revisited. Visual Signal Processing. Mechanisms of Color Vision. Spatial and Temporal Properties of Color Vision. Color-vision Deficiencies. Key Features for Color Appearance Modeling. 2. Psychophysics. Psychophysics Defined. Historical Context. Hierarchy of Scales. Threshold Techniques. Matching Techniques. One-dimensional Scaling. Multidimensional Scaling. Design of Psychophysical Experiments. Importance of Psychophysics in Color Appearance Modeling. 3. Colorimetry. Basic and Advanced Colorimetry. Why Is Color? Light Sources and Illuminants. Colored Materials. The Human Visual Response. Tristimulus Values and Color-matching Functions. Chromaticity Diagrams. CIE Color Spaces. Color-difference Specification. The Next Step. 4. Color-appearance Terminology. Importance of Definitions. Color. Hue. Brightness and Lightness. Colorfulness and Chroma. Saturation. Unrelated and Related Colors. Definitions in Equations. Brightness-Colorfulness Versus Lightness-Chroma. 5. Color-order Systems. Overview and Requirements. The Munsell Book of Color. The Swedish Natural Color System. The Colorcurve System. Other Color-order Systems. Uses of Color-order Systems. Color-naming Systems. 6. Color-appearance Phenomena. What Are Color-appearance Phenomena? Simultaneous Contrast, Crispening, and Spreading. Bezold-Brucke Hue Shift (Hue Changes with Luminance). Abney Effect (Hue Changes with Colorimetric Purity). Helmholtz-Kohlrausch Effect (Brightness Depends on Luminance and Chromaticity). Hunt Effect (Colorfulness Increases with Luminance). Stevens Effect (Contrast Increases with Luminance). Helson-Judd Effect (Hue of Nonselective Samples). Bartleson-Breneman Equations (Image Contrast Changes with Surround). Discounting-the-Illuminant. Other Context and Structural Effects. Color Constancy? 7. Viewing Conditions. Configuration of the Viewing Field. Colorimetric Specification of the Viewing Field. Modes of Viewing. Unrelated and Related Colors Revisited. 8. Chromatic Adaptation. Light, Dark, and Chromatic Adaptation. Physiology. Sensory and Cognitive Mechanisms. Corresponding-colors Data. Models. Computational Color Constancy. 9. Chromatic-adaptation Models. von Kries Model. Retinex Theory. Nayatani et al. Model. Guths Model. Fairchilds Model. 10. Color Appearance Models. Definition of Color Appearance Model. Construction of Color Appearance Models. CIELAB. Why Not Use Just CIELAB? What About CIELUV? 11. The Nayatani et al. Model. Objectives and Approach. Input Data. Adaptation Model. Opponent-color Dimensions. Brightness. Lightness. Hue. Saturation. Chroma. Colorfulness. Inverse Model. Phenomena Predicted. Why Not Use Just the Nayatani Model? 12. The Hunt Model. Objectives and Approach. Input Data. Adaptation Model. Opponent-color Dimensions. Hue. Saturation. Brightness. Lightness. Chroma. Colorfulness. Inverse Model. Phenomena Predicted. Why Not Use Just the Hunt Model? 13. The RLAB Model. Objectives and Approach. Input Data. Adaptation Model. Opponent-color Dimensions. Lightness. Hue. Chroma. Saturation. Inverse Model. Phenomena Predicted. Why Not Use Just the RLAB Model? 14. Other Models. Overview. ATD Model. LLAB Model. 15. Testing Color Appearance Models. Overview. Qualitative Tests. Corresponding-colors Data. Magnitude-estimation Experiments. Direct Model Tests. CIE Activities. A Pictorial Review of Color Appearance Models. <B
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