Computer rendering of fractal curves and surfaces

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Computer rendering of fractal curves and surfaces

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International Conference on Computer Graphics and Interactive Techniques archive
Proceedings of the 7th annual conference on Computer graphics and interactive techniques table of contents

Seattle, Washington, United States

Page: 109

Year of Publication: 1980

ISBN:0-89791-021-4

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Author

Loren C. Carpenter

Boeing Computer Services, Seattle, Washington

Sponsor

SIGGRAPH: ACM Special Interest Group on Computer Graphics and Interactive Techniques

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 18, Downloads (12 Months): 52, Citation Count: 5

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abstract cited by index terms collaborative colleagues

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ABSTRACT

Fractals are a class of highly irregular shapes that have myriad counterparts in the real world, such as islands, river networks, turbulence, and snowflakes. Classic fractals include Brownian paths, Cantor sets, and plane-filling curves. Nearly all fractal sets are of fractional dimension and all are nowhere differentiable. Previously published procedures for calculating fractal curves employ shear displacement processes, modified Markov processes, and inverse Fourier transforms. They are either very expensive or very complex and do not easily generalize to surfaces. This paper presents a family of simple methods for generating and displaying a wide class of fractal curves and surfaces. In so doing, it introduces the concept of statistical subdivision in which a geometric entity is split into smaller entities while preserving certain statistical properties.

CITED BY 5

	Robert L. Cook , Loren Carpenter , Edwin Catmull, The Reyes image rendering architecture, ACM SIGGRAPH Computer Graphics, v.21 n.4, p.95-102, July 1987
	James T. Kajiya, New techniques for ray tracing procedurally defined objects, ACM SIGGRAPH Computer Graphics, v.17 n.3, p.91-102, July 1983
	James T. Kajiya, New Techniques for Ray Tracing Procedurally Defined Objects, ACM Transactions on Graphics (TOG), v.2 n.3, p.161-181, July 1983
	J. P. Lewis, Generalized stochastic subdivision, ACM Transactions on Graphics (TOG), v.6 n.3, p.167-190, July 1987
	J. P. Lewis, Algorithms for solid noise synthesis, ACM SIGGRAPH Computer Graphics, v.23 n.3, p.263-270, July 1989