- 1.Chandrajit L. Bajaj, Yalerio Pascucci, and Daniel R. Schlkore, Fast Isocontouring For Improved Interactivity. In Roger Crawfis and Charles Hansen,.editors, Proceedings of 1996 Symposium on Volume Visualization, page, s 39-M6, N~w York, NY, October 1996. ACM 8IGGRAPH. Google ScholarDigital Library
- 2.WiUiam E. Lorensen and H. E. Cline. Marching Cubes: A High Resolution 3D Surface Construction Algorithm. Computer Graphics, 21(3):163--169, July 1987. Google ScholarDigital Library
- 3.Stephane G. Mallat. A theory for multiresolution signal de. composition: Tho wavelet representation. IEEE Transactions on Pattern Analysis and Machine Intelligence, 11(7):674-- 693, July 1989. Google ScholarDigital Library
- 4.Shigem Muraki. Application and rendering of volumo data using wavelet transforms. In Arie E. Kaufman and Gregory M. Nielson, editors, Proceedings 1EEE Visualization '92, pages 21-28, Los Alamitos, California, October 1992. IEEE Computer Society Press. Google ScholarDigital Library
- 5.Shigeru Muraki. Volume data and wavelet transforms. IF.BE Computer Graphics and Applications, 13(4):50--56, July 1993. Google ScholarDigital Library
- 6.Hanspeter Pfister and Arie Kaufman. Cube-4- A Sealable At. ehiteeture for Real-Time Volume Rendering. In Roger Crawfis and Charles Hansen, editors, Proceedings of 1996 Sympo. shun on Volume Irtsualization, pages 47-54, New York, NY, October 1996. ACM SIGGRAPH. Google ScholarDigital Library
- 7.Will Sehroeder, Ken Martin, and Bill Lorensen. The Visual. ization Toolkit. Prentice Hall P'I~, New Jersey, 1996.Google Scholar
- 8.Claudio Silva, Joseph S. B. Mitchell, and Aa'iv Kaufman. Fast Rendering of Irregular Grids. In Roger Crawfis and Charles Hansen, editors, Proceedings of 1996 Symposium on Valume Visualization, pages 15-22, Now York, lqY, October 1996. ACM SIGGRAPH. Google ScholarDigital Library
- 9.Pak Chung Wong. Adaptive Multiresolun'on Representation of Large Multidimensional Multivariate Scientific Datasets, Phi) thesis, Department of Computer Science, University of New Hampshire, Durham, New Hampshire, May 1997.Google Scholar
- 10.Pak Chung Wong and R. Daniel Bergeron. Authenticity analysis of wavelet approximations in visualization. In Gregory M. Nielson and Deborah Silver, editors, Proceedings of IEEE ~sualization "95, pages 184-191, Los Alamitos, California, October 1995. IEEE Computer Society Press. Google ScholarDigital Library
- 11.Pak Chung Wong and R. Daniel Bergeron. Multiresolutton Multidimensional Wavelet Brushing. In Roni Yagel and Gregory M. Nielson, editors, Proceedings oflEEE l,isuallzatlon 'IM, pages 141-148, New York, NY, October 1996. ACM Press. Google ScholarDigital Library
- 12.Roni Yagel, David M. Reed, Asish Law, Po-Wen Shih, and Naeem Shareef. Hardware Assisted Volumo Rendering of Unstructured Grids by Incremental Slicing. In Roger Crawfls and Charles Hansen, editors, Proceedings of 1996 Symposhun on Volume lrtsualization, pages 55--62, New York, NY, October 1996. ACId SIGGRAPH. Google ScholarDigital Library
Index Terms
- Brushing techniques for exploring volume datasets
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