skip to main content
10.1145/299246.299262acmconferencesArticle/Chapter ViewAbstractPublication Pagesweb3dConference Proceedingsconference-collections
Article
Free Access

MetaStream

Published:23 February 1999Publication History
First page image

References

  1. 1.A. Certain, J. Popovic, T. DeRose, T. Duchamp, D. Salesin, W. Stuetzle. Interactive Multiresolution Surface Viewing. In Computer Graphics (SIGGRAPH 96 Proceedings), pp. 91- 98, 1996. Google ScholarGoogle ScholarDigital LibraryDigital Library
  2. 2.J. Cohen, A. Varshney, D. Manocha, G. Turk, H. Weber, P. Agarwal, E Brooks, and W. Wright. Simplification Envelopes. In Computer Graphics (SIGGRAPH 96 Proceedings), pp. 119-128, 1996. Google ScholarGoogle ScholarDigital LibraryDigital Library
  3. 3.T. Cover and J. Thomas. Elements of Information Theory. John Wiley & Sons, inc., pp 101-103, 1991. Google ScholarGoogle ScholarDigital LibraryDigital Library
  4. 4.B. Curless and M. Levoy. A Volumetric Method for Building Complex Models from Range Images. In Computer Graphics (SIGGRAPH 96 Proceedings), pp. 303-312, 1996. Google ScholarGoogle ScholarDigital LibraryDigital Library
  5. 5.M. DeHaemer, and M. Zyda. Simplification of Objects Rendered by Polygonal Approximations. In Computers and Graphics, 15(2):175-184, 1991.Google ScholarGoogle Scholar
  6. 6.M. Eck, T. DeRose, T. Duchamp, H. Hoppe, M. Lounsbery and W. Steutzle. Multiresolution Analysis of Arbitrary Meshes. In Computer Graphics (SIGGRAPH 95 Proceedings), pp 173-182, 1995. Google ScholarGoogle ScholarDigital LibraryDigital Library
  7. 7.M. Garland and P. Heckbert. Fast Polygonal Approximations of Terrains and Height Fields. Technical Report CMU-CS- 95-181, School of Computer Science, Carnegie Mellon University, Sept. 1995.Google ScholarGoogle Scholar
  8. 8.M. Garland and P. Heckbert. Surface Simplification Using Quadric Metrics. In Computer Graphics (SIGGRAPH 97 Proceedings), (1997). Google ScholarGoogle ScholarDigital LibraryDigital Library
  9. 9.P. Heckbert and M. Garland. Multiresolution Modeling for Fast Rendering. In Proceedings of Graphics Interface '94, Canadian Information Processing Society, pp. 43-50, Banff, Canada, May 1994.Google ScholarGoogle Scholar
  10. 10.H. Hoppe, T. DeRose, T. Duchamp, J. McDonald and W. Stuetzle. Mesh Optimization. In Computer Graphics (SIG- GRAPH 93 Proceedings), pp. 19-26, 1993. Google ScholarGoogle ScholarDigital LibraryDigital Library
  11. 11.H. Hoppe. Progressive Meshes. In Computer Graphics (SIG- GRAPH 96 Proceedings), pp. 99-108, 1996. Google ScholarGoogle ScholarDigital LibraryDigital Library
  12. 12.J. Lounsbery. Multiresolution Analysis for Surfaces of Arbitrary Topological Type. Ph.D. Thesis, Department of Computer Science and Engineering, University of Washington, Sept. 1994. Google ScholarGoogle ScholarDigital LibraryDigital Library
  13. 13.J. Lounsbery, T. DeRose and J. Warren. Multiresolution Analysis for Surfaces of Arbitrary Topological Type. Technical Report TR931005B, Department of Computer Science and Engineering, University of Washington, Jan. 1994.Google ScholarGoogle Scholar
  14. 14.S. Mallat. A Theory for Multiresolution Signal Decomposition: The Wavelet Representation. IEEE Transactions on Pattern Analysis and Machine Intelligence, 11(7):674-693, July 1989. Google ScholarGoogle ScholarDigital LibraryDigital Library
  15. 15.Y. Meyer. Ondelettes et Fonctions Splines. Technical Report, Sdminaire EDP, Ecole Polytechnique, Paris, 1986.Google ScholarGoogle Scholar
  16. 16.M. Nelson and J-L. Gailly. The Data Compression Book. 2nd Ed., IDG Books Worldwide, chap. 5-6, Nov. 1995. Google ScholarGoogle ScholarDigital LibraryDigital Library
  17. 17.M. Petrov, A. Talapov, T. Robertson, A. Lebedev, A. Zhilyaev, L. Polonskiy. Optical 3D Digitizers: Bringing Life to Virtual World. In IEEE Computer Graphics and Applications, 18(3):28-37, May 1998. Google ScholarGoogle ScholarDigital LibraryDigital Library
  18. 18.J. Rossignac and P. Borrel. Multi-resolution 3D Approximations for Rendering Complex Scenes. In Modeling in Computer Graphics, B. Falcidieno and T.L. Kunii, Eds. Springer- Verlag, 1003, pp. 455-465.Google ScholarGoogle Scholar
  19. 19.W. Schroeder, J. Zarge, W. Lorensen. Decimation of Triangle Meshes. In Computer Graphics (SIGGRAPH 92 Proceedings), 26(2):65-70, July 1992. Google ScholarGoogle ScholarDigital LibraryDigital Library
  20. 20.G. Turk. Re-tiling Polygonal Surfaces. In Computer Graphics (SIGGRAPH 92 Proceedings), 26(2):55-64, July 1992. Google ScholarGoogle ScholarDigital LibraryDigital Library

Index Terms

  1. MetaStream

            Recommendations

            Comments

            Login options

            Check if you have access through your login credentials or your institution to get full access on this article.

            Sign in
            • Published in

              cover image ACM Conferences
              VRML '99: Proceedings of the fourth symposium on Virtual reality modeling language
              February 1999
              181 pages
              ISBN:1581130791
              DOI:10.1145/299246

              Copyright © 1999 ACM

              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]

              Publisher

              Association for Computing Machinery

              New York, NY, United States

              Publication History

              • Published: 23 February 1999

              Permissions

              Request permissions about this article.

              Request Permissions

              Check for updates

              Qualifiers

              • Article

              Acceptance Rates

              VRML '99 Paper Acceptance Rate21of65submissions,32%Overall Acceptance Rate21of65submissions,32%

            PDF Format

            View or Download as a PDF file.

            PDF

            eReader

            View online with eReader.

            eReader