Shiaofen Fang
- 1.D. E. Breen. Constructive cubes: CSG evaluation for display using discrete 3D scalar data sets. In Eurographics'91, pages 127-142, 1991.Google Scholar
- 2.David E. Breen, Sean Mauch, and Ross T. Whitaker. 3d scan conversion of CSG models into distance volumes. In Proc. IEEE/ACM symposium on Volume Visualization, pages 7-14, 1998. Google ScholarDigital Library
- 3.Brian Cabral, Nancy Cam, and Jim Foran. Accelerated volume rendering and tomographic reconstruction using texture mapping hardware. In Proc. 1994 Symposium on Volume Visualization, pages 91-98, October 1994. Google ScholarDigital Library
- 4.Hongsheng Chen and Shiaofen Fang. Fast voxelization of 3D synthetic objects. ACM Journal of Graphics Tools, 3(4):33- 45, 1999. Google ScholarDigital Library
- 5.D. Cohen and A. Kaufman. Scan-conversion algorithms for linear and quadratic objects. In A. Kaufman, editor, Volume Visualization, pages 280-301, 1991.Google Scholar
- 6.Shiaofen Fang and Hongsheng Chen. Hardware accelerated voxelization. In Volume Graphics, Chapter 20, pages 301- 315. Springer-Verlag, March 2000.Google Scholar
- 7.Shiaofen Fang and R. Srinivasan. Volumetric CSG - a modelbased volume visualization approach. In Proc. 6th International Conference in Central Europe on Computer Graphics and Visualization, pages 88-95, 1998.Google Scholar
- 8.J. Goldfeather, J. Molnar, S. Turk, and H. Fuchs. Near realtime CSG rendering using tree normalization and geometric pruning. IEEE Computer Graphics and Application, 9:20- 28, 1989. Google ScholarDigital Library
- 9.Christoph M. Hoffmann. Geometric and Solid Modeling: An Introduction. Morgan Kaufmann Publishers, 1989. Google ScholarDigital Library
- 10.Arie Kaufman. Efficient algorithms for 3D scan-conversion of parametric curves, surfaces, and volumes. In SIGGRAPH '87, volume 21, pages 171-179, July 1987. Google ScholarDigital Library
- 11.Arie Kaufman and Eyal Shimony. 3D scan-conversion algorithms for voxel-based graphics. In Proceedings of 1986 Workshop on Interactive 3D Graphics, pages 45-75, October 1986. Google ScholarDigital Library
- 12.Y.T. Lee and A. A. G. Requicha. Algorithms for computing the volume and other integral properties of solids. Communications of the ACM, 25(9):635-650, 1982. Google ScholarDigital Library
- 13.Ari Rappoport and S. Spitz. Interactive Boolean operations for conceptual design of 3D solids. Computer Graphics, SIG- GRAPH'97, pages 269-278, August 1997. Google ScholarDigital Library
- 14.A. A. G. Requicha. Representation for rigid solids: Theory, methods and systems. Computing Surveys, 12(4):437-464, December 1980. Google ScholarDigital Library
- 15.Naeem Shareef and Roni Yagel. Rapid previewing via volume-based solid modeling. In Solid Modeling '95, pages 281-292, May 1995. Google ScholarDigital Library
- 16.Milos Sramek and Arie Kaufman. Object voxelization by filtering. In Proc. IEEE/ACM symposium on Volume Visualization, pages 111-118, 1998. Google ScholarDigital Library
- 17.W. C. Thibault and B. F. Naylor. Set operations on polyhedra using binary space partitioning trees. SIGGRAPH'87, pages 153-162, 1987. Google ScholarDigital Library
- 18.Sidney Wang and Arie. Kaufman. Volume-sampled 3D modeling. IEEE Computer Graphics and Application, 14:26-32, September 1994. Google ScholarDigital Library
- 19.R. Westermann and E. Thomas. Efficiently using graphics hardware in volume rendering applications. In SIGGRAPH '98, pages 169-177, 1998. Google ScholarDigital Library
- 20.T. F. Wiegand. Interactive rendering of CSG models. Computer Graphics Forum, 15(4):249-261, 1996.Google ScholarCross Ref
Index Terms
- Fast CSG voxelization by frame buffer pixel mapping
Recommendations
Fast scene voxelization and applications
I3D '06: Proceedings of the 2006 symposium on Interactive 3D graphics and gamesThis paper presents a novel approach that uses graphics hardware to dynamically calculate a voxel-based representation of a scene. The voxelization is obtained on run-time in the order of milliseconds, even for complex and dynamic scenes containing more ...
Geometry-shader-based real-time voxelization and applications
This work proposes a new voxelization algorithm based on newly available GPU functionalities and designs several real-time applications to render complex lighting effects with the voxelization result. The voxelization algorithm can efficiently transform ...
Enabling classification and shading for 3D texture mapping based volume rendering using OpenGL and extensions
VIS '99: Proceedings of the conference on Visualization '99: celebrating ten yearsWe present a new technique which enables direct volume rendering based on 3D texture mapping hardware, enabling shading as well as classification of the interpolated data. Our technique supports accurate lighting for a one directional light source, semi-...
Comments