Billmeyer and Saltzman's principles of color technology / Roy S. Berns (R.S. Hunter Professor in Color Science, Appearance, and Technology, Munsell Color Science Laboratory, Rochester Institute of Technology).

Includes bibliographical references and index.

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Cover; Title Page; Copyright; Contents; Preface; Chapter 1 Physical Properties of Colors; A. WHAT THIS BOOK IS ABOUT?; B. THE SPECTRUM AND WAVE THEORY; C. LIGHT SOURCES; D. CONVENTIONAL MATERIALS; Transmission; Absorption; Surface Scattering; Internal Scattering; Terminology - Dyes Versus Pigments; Spectral Characteristics of Conventional Materials; E. FLUORESCENT MATERIALS; F. GONIOAPPARENT MATERIALS; Metallic Materials; Pearlescent Materials; Interference Materials; Diffraction Materials; G. PHOTOCHROMIC AND THERMOCHROMIC COLORANTS; H. SUMMARY; Chapter 2 Color and Spatial Vision

A. TRICHROMACYB. LIGHT AND CHROMATIC ADAPTATION; C. COMPRESSION; D. OPPONENCY; E. SPATIAL VISION; F. OBSERVER VARIABILITY; G. SUMMARY; Chapter 3 Visual Color Specification; A. ONE-DIMENSIONAL SCALES; Hue; Lightness; Chromatic Intensity; B. THREE-DIMENSIONAL SYSTEMS; Geometries; Natural Color System; Munsell Color System; Other Color-Order Systems; C. COLOR APPEARANCE: MULTIDIMENSIONAL SYSTEMS; D. COLOR-MIXING SYSTEMS; RGB and HSB; The Pantone Matching System; Limitations of Color-Mixing Systems for Color Specification; E. SUMMARY; Chapter 4 Numerical Color Specification: Colorimetry

A. COLOR MATCHINGB. DERIVATION OF THE STANDARD OBSERVERS; Theoretical Considerations; The Color-Matching Experiment; The 1924 CIE Standard Photopic Observer; The 1931 CIE Standard Colorimetric Observer; The 1964 CIE Standard Colorimetric Observer; Cone-Fundamental-Based Colorimetric Observers; C. CALCULATING TRISTIMULUS VALUES FOR MATERIALS; D. CHROMATICITY COORDINATES AND THE CHROMATICITY DIAGRAM; E. CALCULATING TRISTIMULUS VALUES AND CHROMATICITY COORDINATES FOR SOURCES; F. TRANSFORMATION OF PRIMARIES; Displays; Cone Fundamentals; G. APPROXIMATELY UNIFORMLY SPACED SYSTEMS; L* Lightness

U2v2 Uniform-Chromaticity Scale DiagramCIELUV; CIELAB; Rotation of CIELAB Coordinates; H. COLOR-APPEARANCE MODELS; I. WHITENESS AND YELLOWNESS; Whiteness; Yellowness; J. SUMMARY; Chapter 5 Color-Quality Specification; A. PERCEPTIBILITY AND ACCEPTABILITY VISUAL JUDGMENTS; B. COLOR-DIFFERENCE GEOMETRY; C. ELLIPSES AND ELLIPSOIDS; D. THE COLOR-DIFFERENCE PROBLEM; E. WEIGHTED COLOR-DIFFERENCE FORMULAS; F. CMC(L:C) COLOR-DIFFERENCE FORMULA; G. CIEDE2000 COLOR-DIFFERENCE FORMULA; H. UNIFORM COLOR-DIFFERENCE SPACES; I. DETERMINING COLOR-TOLERANCE MAGNITUDE; J. SUMMARY

Chapter 6 Color and Material-Appearance MeasurementA. BASIC PRINCIPLES OF MEASURING COLOR AND MATERIAL APPEARANCE; B. THE SAMPLE; C. VISUAL COLOR MEASUREMENT; D. MEASUREMENT GEOMETRIES; Bidirectional Reflectance Distribution Function; CIE Recommended Geometries for Measuring Spectral Reflectance Factor; CIE Recommended Geometries for Measuring Spectral Transmittance Factor; Multiangle Geometries; E. SPECTROPHOTOMETRY; F. SPECTRORADIOMETRY; G. FLUORESCENCE MEASUREMENTS; H. PRECISION AND ACCURACY MEASUREMENTS; Repeatability; Intramodel Reproducibility; Accuracy; I. SPECTRAL IMAGING