Color Imaging: Fundamentals and ApplicationsCRC Press, 22.07.2008 - 1074 Seiten This book provides the reader with an understanding of what color is, where color comes from, and how color can be used correctly in many different applications. The authors first treat the physics of light and its interaction with matter at the atomic level, so that the origins of color can be appreciated. The intimate relationship between energy |
Inhalt
II Color Models | 317 |
III Digital Color Imaging | 631 |
IV Appendices | 929 |
Bibliography | 961 |
Back Cover | 1027 |
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algorithms angle applied atoms blue BRDF brightness calculate camera capture cells channel chromatic adaptation chromatic-adaptation CIE XYZ CIECAM02 CIELAB color appearance model color constancy color difference color management color matches color space color-rendering index colorimetry components computed cone contrast curve display device dynamic range images edge electrons emitted encoding energy environment equation example exposure field filter flux gamut given green high dynamic range human visual system illumination input irradiance layer lens light source linear liquid crystal luminance mapping measured molecules noise normal optical output patches perception photographic photon pixel plane polarization primaries radiation reflectance refraction reproduction response result retina RGB color space scattering scene sensitivity sensor shown in Figure signal spatial spectral spectral power distribution spectrum sRGB stimulus surface techniques temperature tone-reproduction operators transform tristimulus values types typically vector viewing conditions vision visual system wave wavelength