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Simulation of wrinkled surfaces

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James F. BlinnAuthors Info & Claims

SIGGRAPH '78: Proceedings of the 5th annual conference on Computer graphics and interactive techniques

Pages 286 - 292

https://doi.org/10.1145/800248.507101

Published: 23 August 1978 Publication History

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Abstract

Computer generated shaded images have reached an impressive degree of realism with the current state of the art. They are not so realistic, however, that they would fool many people into believing they are real. One problem is that the surfaces tend to look artificial due to their extreme smoothness. What is needed is a means of simulating the surface irregularities that are on real surfaces. In 1973 Ed Catmull introduced the idea of using the parameter values of parametrically defined surfaces to index into a texture definition function which scales the intensity of the reflected light. By tying the texture pattern to the parameter values, the texture is guaranteed to rotate and move with the object. This is good for showing patterns painted on the surface, but attempts to simulate rough surfaces in this way are unconvincing. This paper presents a method of using a texturing function to perform a small perturbation on the direction of the surface normal before using it in the intensity calculations. This process yields images with realistic looking surface wrinkles without the need to model each wrinkle as a separate surface element. Several samples of images made with this technique are included.

References

[1]

Batson, R. M., Edwards, E. and Eliason, E. M. "Computer Generated Shaded Relief Images", Jour, Research U.S. Geol. Survey, Vol. 3, No. 4, July-Aug 1975, p. 401-408.

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[2]

James F. Blinn, Martin E. Newell, Texture and reflection in computer generated images, Communications of the ACM, v.19 n.10, p.542-547, Oct. 1976

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[3]

Blinn, J. F., "Models of Light Reflection for Computer Synthesized Pictures", Proc. 4th Conference on Computer Graphics and Interactive Techniques, 1977.

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[4]

Blinn, J. F., "A Scan Line Algorithm for Displaying Parametrically Defined Surfaces", Proc. 5th Conference on Computer Graphics and Interactive Techniques, 1978.

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Catmull, E. E., "Computer Display of Curved Surfaces", Proc. IEEE Conf. on Computer Graphics, Pattern Recognition and Data Structures, Los Angeles (May 1975)11.

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Whitted, J. T., "A Scan Line Algorithm for Computer Display of Curved Surfaces", Proc. 5th Conference on Computer Graphics ond Interactive Techniques, 1978.

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Published In

SIGGRAPH '78: Proceedings of the 5th annual conference on Computer graphics and interactive techniques

August 1978

363 pages

ISBN:9781450379083

DOI:10.1145/800248

Seminal graphics: pioneering efforts that shaped the field, Volume 1
July 1998
460 pages
ISBN:158113052X
DOI:10.1145/280811
Editor:
Rosalee Wolfe
DePaul University
ACM SIGGRAPH Computer Graphics Volume 12, Issue 3
August 1978
337 pages
ISSN:0097-8930
DOI:10.1145/965139
Issue’s Table of Contents

Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than ACM must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected]

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Association for Computing Machinery

New York, NY, United States

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Published: 23 August 1978

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SIGGRAPH '78: Computer graphics and interactive techniques

August 23 - 25, 1978

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SIGGRAPH '78 Paper Acceptance Rate 64 of 120 submissions, 53%;

Overall Acceptance Rate 1,822 of 8,601 submissions, 21%

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Rizou FKougkolos RKapetas DGeorgiadis CPatseas GTsakiris APechlivani EIoannidis DTzovaras D(2024)Advancing Cultural Heritage Preservation through monument 3D reconstruction and multi-platform interaction-based applications2024 28th International Conference on Information Technology (IT)10.1109/IT61232.2024.10475758(1-5)Online publication date: 21-Feb-2024
https://doi.org/10.1109/IT61232.2024.10475758
Fletcher JMiskovic D(2024)Computer-Generated modelling in surgerySeminars in Colon and Rectal Surgery10.1016/j.scrs.2024.10100335:1(101003)Online publication date: Mar-2024
https://doi.org/10.1016/j.scrs.2024.101003
Yang XLyu AXian CCai H(2024)Microfacet rendering with diffraction compensationComputer Animation and Virtual Worlds10.1002/cav.225335:3Online publication date: 17-May-2024
https://doi.org/10.1002/cav.2253
Prater M(2023)Layering Displaced Materials with Thickness, Accumulation, and Size✱Proceedings of the 2023 Digital Production Symposium10.1145/3603521.3604289(1-10)Online publication date: 5-Aug-2023
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