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− | Craig S. Kaplan: Computer Graphics and Geometric Ornamental Design. Ph.D. Thesis, University of Washington, 2002. | + | [[Craig S. Kaplan]]: Computer Graphics and Geometric Ornamental Design. Ph.D. Thesis, University of Washington, 2002. |
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Reference
Craig S. Kaplan: Computer Graphics and Geometric Ornamental Design. Ph.D. Thesis, University of Washington, 2002.
DOI
Abstract
Throughout history, geometric patterns have formed an important part of art and ornamental design. Today we have unprecedented ability to understand ornamental styles of the past, to recreate tradi- tional designs, and to innovate with new interpretations of old styles and with new styles altogether. The power to further the study and practice of ornament stems from three sources. We have new mathematical tools: a modern conception of geometry that enables us to describe with precision what designers of the past could only hint at. We have new algorithmic tools: computers and the abstract mathematical processing they enable allow us to perform calculations that were intractable in previous generations. Finally, we have technological tools: manufacturing devices that can turn a synthetic description provided by a computer into a real-world artifact. Taken together, these three sets of tools provide new opportunities for the application of computers to the analysis and creation of ornament. In this dissertation, I present my research in the area of computer-generated geometric art and ornament. I focus on two projects in particular. First I develop a collection of tools and methods for producing traditional Islamic star patterns. Then I examine the tesselations of M. C. Escher, developing an “Escherization” algorithm that can derive novel Escher-like tesselations of the plane from arbitrary user-supplied shapes. Throughout, I show how modern mathematics, algorithms, and technology can be applied to the study of these ornamental styles.
Extended Abstract
Bibtex
Used References
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