Julie C. Xia
- 1.J. M. Airey, J. H. Rohlf, and F. P. Brooks, Jr. Towards image realism with interactive update rates in complex vi~tual building environments. In Rich Riesenfeld and Carlo Sequin, editors, Computer Graphics (1990 Symposium on Interactive 3D Graphics), volume 24, No. 2, pages 41-50, March 1990. Google Scholar
Digital Library
- 2.D. R. Baum, Mann S., Smith K. P., and Winget J. M. Making radiosity usable: Automatic preprocessing and meshing techniques for the generation of accurate radiosity solutions. Computer Graphics: Proceedings of SIGGRAPH'91, 25, No. 4:51-60, 1991. Google ScholarDigital Library
- 3.J. Clark. Hierarchical geometric models for visible surface algorithms. Communications of the A CM, 19(10):547-554, 1976. Google ScholarDigital Library
- 4.J. Cohen, A. Varshney, D. Manocha, G. T~k, H. Weber, P. Agarwal, F. P. Brooks, Jr., and W. V. Wright. Simplification envelopes. Computer Graphics Proceedings, Annual Conference Series, A CM SIGGRAPH, 1996. (to appear). Google ScholarDigital Library
- 5.M. Cosman and R. Schumacker. System strategies to optimize CIG image content. In Proceedings of the Image II Conference, Scottsdale, Arizona, June 10-12 1981.Google Scholar
- 6.F. C. Crow. A more flexible image generation environment. In Computer Graphics: Proceedings of SIG- GRAPH'8$, volume 16, No. 3, pages 9-18. ACM SIC- GRAPH, 1982. Google ScholarDigital Library
- 7.T. D. DeRose, M. Lounsbery, and J. Warren. Mttltiresolution analysis for surface of arbitrary topological type. Report 93-10-05, Department of Computer Science, University of Washington, Seattle, WA, 1993.Google Scholar
- 8.M. Eck, T. DeRose, T. Duchamp, H. ttoppe, M. Lounbery, and W. Stuetzle. Multlresolution analysis of arbitrary meshes. In Proceedings of SIGGRAPH 95 (Los Angeles, California, August 6-11, 1995), Computer Graphics Proceedings, Annual Conference Series, pages 173-182. ACM SIGGRAPH, August 1995. Google ScholarDigital Library
- 9.T. A. Funkhouser and C. H. S~quin. Adaptive display algorithm for interactive frame rates during visualization of complex virtual environments. In Proceedings of SIGGRA PH 93 (.4naheim, California, August 1-6, 1993), Computer Graphics Proceedings, Annual Conference Series, pages 247-254. ACM SIGGRAPH, August 1993. Google ScholarDigital Library
- 10.M. H. Gross, R. Gatti, and O. Staadt. Fast mttltiresolution surface meshing. In G. M. Nielson and D. Silver, editors, IEEE Visualization '95 Proceedings, pages 135- 142, 1995. Google ScholarDigital Library
- 11.A. Gudziec. Surface simplification with variable tolerance. In Proceedings of the Second International Symposium on Medical Robotics and Computer Assisted Surgery, MRCAS '95, 1995.Google Scholar
- 12.B. Hamann. A data reduction scheme for triangulated suxfaces. Computer Aided Geometric Design, 11:197- 214, 1994. Google ScholarDigital Library
- 13.T. He, L. Hong, A. Varshney, and S. Wang. Controlled topology simplification. IEEE Transactions on Visualization and Computer Graphics, 1996. (to appear). Google ScholarDigital Library
- 14.James Helman. Graphics techniques for walkthrough applications. In Interactive Walkthrough of Large Geometric Databases, Course Notes 3~, SIGGRAPH '95, pages B1-B25, 1995.Google Scholar
- 15.P. Hinker and C. Hansen. Geometric optimization. In Gregory M. Nielson and Dan Bergeron, editors, Proceedings Visualization '93, pages 189-195, October 1993. Google ScholarDigital Library
- 16.H. Hoppe. Progressive meshes. Computer Graphics Proceedings, Annual Conference Series, A CM SIG- GRAPH, 1996. (to appear). Google ScholarDigital Library
- 17.H. Hoppe, T. DeRose, T. Duchamp, J. McDonald, and W. Stuetzle. Mesh optimization. In Proceedings of SIC- GRAPH 93 (Anaheim, California, August 1-6, i993), Computer Graphics Proceedings, Annual Conference Series, pages 19-26. ACM SIGGRAPH, August 1993. Google ScholarDigital Library
- 18.P. W. C. Maciel and P. Shirley. Visual navigation of large environments using textured clusters. In Proceedings of the 1995 Symposium on Interactive 3D Computer Graphics, pages 95-102, 1995. Google ScholarDigital Library
- 19.J. Rohlf and J. Helman. IRIS performer: A high performance multiprocessing toolkit for real-Time 3D graphics. In Andrew Glassner, editor, Proceedings of SIGGRAPH '9~ (Orlando, Florida, July ~.~-~9, 199~), Computer Graphics Proceedings, Annual Conference Series, pages 381-395. ACM SIGGRAPH, July 1994. Google ScholarDigital Library
- 20.J. Rossignac and P. Borrel. Multi-resolution 3D approximations for rendering. In Modeling in Computer Graphics, pages 455-465. Springer-Verlag, June-July 1993.Google ScholarCross Ref
- 21.W. J. Schroeder, 3. A. Zarge, and W. E. Lorensen. Decimation of triangle meshes. In Computer Graphics: Proceedings SIGGRAPH '9~, volume 26, No. 2, pages 65-70. ACM SIGGRAPH, 1992. Google ScholarDigital Library
- 22.G. Turk. Re-tiling polygonal surfaces. In Computer Graphics: Proceedings SIGGRAPH '92, volume 26, No. 2, pages 55-64. ACM SIGGRAPH, 1992. Google ScholarDigital Library
- 23.A. Varshney. Hierarchical geometric approximations. Ph.D. Thesis TR-050-1994, Department of Computer Science, University of North Carolina, Chapel Hill, NC 27599-3175, 1994. Google ScholarDigital Library
Index Terms
- Dynamic view-dependent simplification for polygonal models
Recommendations
Carving for topology simplification of polygonal meshes
The topological complexity of polygonal meshes has a large impact on the performance of various geometric processing algorithms, such as rendering and collision detection algorithms. Several approaches for simplifying topology have been discussed in the ...
Simplification of Polygonal Models for Distributed Visualization
VIZ '09: Proceedings of the 2009 Second International Conference in VisualisationCurrently, polygonal models are widely used for the representation and visualization of 3D information. The sheer sizes of polygonal models and the limited internet bandwidth put a threat to their visualization in a distributed environment. Streaming ...
Comments