Color Theory and Its Application in Art and Design
“Look deep into nature and you will understand everything better.” advised Albert Einstein. In recent years, the research communities in Computer Science, Engineering, and other disciplines have taken this message to heart, and a relatively new field of “biologically-inspired computing” has been born. Inspiration is being drawn from nature, from the behaviors of colonies of ants, of swarms of bees and even the human body. This new paradigm in computing takes many simple autonomous objects or agents and lets them jointly perform a complex task, without having the need for centralized control. In this paradigm, these simple objects interact locally with their environment using simple rules. Applications include optimization algorithms, communications networks, scheduling and decision making, supply-chain management, and robotics, to name just a few. There are many disciplines involved in making such systems work: from artificial intelligence to energy aware systems. Often these disciplines have their own field of focus, have their own conferences, or only deal with specialized s- problems (e.g. swarm intelligence, biologically inspired computation, sensor networks). The Second IFIP Conference on Biologically-Inspired Collaborative Computing aims to bridge this separation of the scientific community and bring together researchers in the fields of Organic Computing, Autonomic Computing, Self-Organizing Systems, Pervasive Computing and related areas. We are very pleased to have two very important keynote presentations: Swarm Robotics: The Coordination of Robots via Swarm Intelligence Principles by Marco Dorigo (Université Libre de Bruxelles, Belgium), of which an abstract is included in this volume.
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0stwald additive color mixture art and design beams blue bluish brilliant centroid number chromaticity point CIE chromaticity diagram CIE ILL CIE tristimulus values color chips color circle color differences color samples color science color specification color system color-name colorimetry complementary colors dashed line daylight deep different colors dominant wavelength Dye Lasers dyes equal equal-energy example fluorescent fluorescent lamp glossy greenish yellow Hue range illumination incandescent ISCC-NBS color names lake pigment lamp lasers located luminance factor MacAdam limits madder lake match mixture by averaging mixture line monochromatic light Munsell color space Munsell color system Munsell notation Munsell Value neutral gray nonfluorescent objects paint film perceived color pigments pink planes points that represent psychophysical purple radiant energy red film red light relative amounts saturation shown spectral reflectance curve spectrum locus stimulus subtractive color sunlight surface Table tion triangle typified by CIE visual vivid wavelength composition white light yellowish green
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Color Theory and Modeling for Computer Graphics, Visualization, and ...
No preview available - 1997