Ray tracing deterministic 3-D fractals

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Ray tracing deterministic 3-D fractals

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International Conference on Computer Graphics and Interactive Techniques archive
Proceedings of the 16th annual conference on Computer graphics and interactive techniques table of contents

Pages: 289 - 296

Year of Publication: 1989

ISBN:0-89791-312-4

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Authors

J. C. Hart	Electronic Visualization Laboratory, University of Illinois at Chicago
D. J. Sandin	Dept, of Mathematics, Statistics and Computer Science, University of Illinois at Chicago
L. H. Kauffman	Dept, of Mathematics, Statistics and Computer Science, University of Illinois at Chicago

Sponsor

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

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): 7, Downloads (12 Months): 39, Citation Count: 10

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ABSTRACT

As shown in 1982, Julia sets of quadratic functions as well as many other deterministic fractals exist in spaces of higher dimensionality than the complex plane. Originally a boundary-tracking algorithm was used to view these structures but required a large amount of storage space to operate. By ray tracing these objects, the storage facilities of a graphics workstation frame buffer are sufficient. A short discussion of a specific set of 3-D deterministic fractals precedes a full description of a ray-tracing algorithm applied to these objects. A comparison with the boundary-tracking method and applications to other 3-D deterministic fractals are also included.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

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CITED BY 10

	John C. Hart , Louis H. Kauffman , Daniel J. Sandin, Interactive visualization of quaternion Julia sets, Proceedings of the 1st conference on Visualization '90, October 23-26, 1990, San Francisco, California
	Xing-Yuan Wang , Yuan-Yuan Sun, The general quaternionic M-J sets on the mapping z←z^α+c(α ε N), Computers & Mathematics with Applications, v.53 n.11, p.1718-1732, June, 2007
	Estela A. Gavosto , James R. Miller , John Sheu, Immersive 4D visualization of complex dynamics, Proceedings of the 1998 workshop on New paradigms in information visualization and manipulation, p.62-64, November 02-07, 1998, Washington, D.C., United States
	Barton T. Stander , John C. Hart, A Lipschitz method for accelerated volume rendering, Proceedings of the 1994 symposium on Volume visualization, p.107-114, October 17-18, 1994, Tysons Corner, Virginia, United States
	John C. Hart , Thomas A. DeFanti, Efficient antialiased rendering of 3-D linear fractals, ACM SIGGRAPH Computer Graphics, v.25 n.4, p.91-100, July 1991
	David W. Paglieroni , Sidney M. Petersen, Height distributional distance transform methods for height field ray tracing, ACM Transactions on Graphics (TOG), v.13 n.4, p.376-399, Oct. 1994
	Craig M. Wittenbrink, IFS Fractal Interpolation for 2D and 3D Visualization, Proceedings of the 6th conference on Visualization '95, p.77, October 29-November 03, 1995
	Yan Ke , E. S. Panduranga, A journey into the fourth dimension, Proceedings of the 1st conference on Visualization '90, October 23-26, 1990, San Francisco, California
	James R. Miller , Estela A. Gavosto, The Immersive Visualization Probe for Exploring n-Dimensional Spaces, IEEE Computer Graphics and Applications, v.24 n.1, p.76-85, January 2004
	L. Richard Speer, An updated cross-indexed guide to the ray-tracing literature, ACM SIGGRAPH Computer Graphics, v.26 n.1, p.41-72, Jan. 1992