Non-Photorealistic Computer Graphics Library

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Found 10 item(s) authored by "David Ebert" .

Proceedings Example-based Volume Illustrations
Aidong Lu, David Ebert.
IEEE Visualization 2005, 2005. [BibTeX]

Article Illustration Motifs for Effective Medical Volume Illustration
Nikolai A. Svakhine, David Ebert, Don Stredney.
IEEE Computer Graphics and Applications, Vol. 25, No. 3, pp. 31--39, May/June, 2005. [BibTeX]

Article Illustrative Interactive Stipple Rendering
Aidong Lu, Christopher Morris, Joe Taylor, David Ebert, Charles Hansen, Penny Rheingans, Mark Hartner.
IEEE Transactions on Visualization and Computer Graphics, pp. 127--138, 2003. [BibTeX]

In Collection Illustrative Visualization
Ivan Viola, M. Eduard Gröller, Markus Hadwiger, Katja Bühler, Bernhard Preim, David Ebert.
Eurographics 2005 - Tutorials, The Eurographics Association and The Image Synthesis Group, Ming Lin and Celine Loscos, pp. 187--329, 2005. [BibTeX]

Article Interactive Illustrative Rendering on Mobile Devices
Jingshu Huang, Brian Bue, Avin Pattath, David Ebert, Krystal M. Thomas.
IEEE Computer Graphics and Applications, Vol. 27, No. 3, pp. 48--56, 2007. [BibTeX]

Proceedings Interactive Volume Illustration and Feature Halos
Nikolai A. Svakhine, David Ebert.
11th Pacific Conference on Computer Graphics and Applications (PG'03), 2003. [BibTeX]

Proceedings Non-photorealistic Volume Rendering Using Stippling Techniques

Author(s): Aidong Lu, Christopher Morris, David Ebert, Penny Rheingans, Charles Hansen.
Proceedings: Proceedings of IEEE Visualizaton 2002, pp. 211--218, 2002.
[BibTeX] Find this paper on Google

Abstract:
Simulating hand-drawn illustration techniques can succinctly express information in a manner that is communicative and informative. We present a framework for an interactive direct volume illustration system that simulates traditional stipple drawing. By combining the principles of artistic and scientific illustration, we explore several feature enhancement techniques to create effective, interactive visualizations of scientific and medical datasets. We also introduce a rendering mechanism that generates appropriate point lists at all resolutions during an automatic preprocess, and modifies rendering styles through different combinations of these feature enhancements. The new system is an effective way to interactively preview large, complex volume datasets in a concise, meaningful, and illustrative manner. Volume stippling is effective for many applications and provides a quick and efficient method to investigate volume models.

In Collection Theory and Practice of Non-Photorealistic Graphics: Algorithms, Methods, and Production Systems
Brett Achorn, Daniel Teece, M. Sheelagh T. Carpendale, Mario Costa Sousa, David Ebert, Bruce Gooch, Victoria Interrante, Lisa M. Streit, Oleg Veryovka.
Siggraph 2003, ACM Press, 2003. [BibTeX]

Proceedings Volume Illustration: Non-Photorealistic Rendering of Volume Models
David Ebert, Penny Rheingans.
Proceedings of IEEE Visualization ’00, Salt Lake City, UT, October, 2000. [BibTeX]

Article Volume Illustration: Non-Photorealistic Rendering of Volume Models
Penny Rheingans, David Ebert.
IEEE Transactions on Visualization and Computer Graphics, Vol. 7, No. 3, pp. 253--264, July-Sept, 2001. [BibTeX]

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