Bibliography - Fluid Simulation for Computer Graphics

Graphics Reference

In-Depth Information

[Harlow 04] F. H. Harlow. “Fluid Dynamics in Group T-3 Los Alamos National

Laboratory.” J. Comput. Phys. 195:2 (2004), 414-433.

[Hong and Kim 05] J.-M. Hong and C.-H. Kim. “Discontinuous Fluids.” ACM

Trans. Graph. (Proc. SIGGRAPH) 24 (2005), 915-920.

[Hong et al. 07] J.-M. Hong, T. Shinar, and R. Fedkiw. “Wrinkled Flames and

Cellular Patterns.” ACM Trans. Graph. (Proc. SIGGRAPH) 26:3 (2007),

Article 47.

[Houston et al. 03] B. Houston, C. Bond, and M. Wiebe. “A Unified Approach

for Modeling Complex Occlusions in Fluid Simulations.” In ACM SIG-

GRAPH Technical Sketches , pp. 1-1. New York: ACM, 2003.

[Houston et al. 06] B. Houston, M. B. Nielsen, C. Batty, O. Nilsson, and

K. Museth. “Hierarchical RLE Level Set: A Compact and Versatile De-

formable Surface Representation.” ACM Trans. Graph. 25:3 (2006), 151-

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[Irving 07] G. Irving. “Methods for the Physically Based Simulation of Solids

and Fluids.”

Ph.D. thesis, Stanford University Dept. Computer Science,

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[Jones et al. 06] M. Jones, A. Bærentzen, and M. Sramek. “3D Distance Fields:

A Survey of Techniques and Applications.” IEEE Transactions on Visual-

ization and Computer Graphics 12:4 (2006), 581-599.

[Kang et al. 00] M. Kang, R. Fedkiw, and X.-D. Liu. “A Boundary Condition

Capturing Method for Multiphase Incompressible Flow.” J. Sci. Comput.

15 (2000), 323-360.

[Kass and Miller 90] Michael Kass and Gavin Miller. “Rapid, Stable Fluid Dy-

namics for Computer Graphics.” In SIGGRAPH '90: Proceedings of the

17th Annual Conference on Computer Graphics and Interactive Techniques ,

pp. 49-57. New York: ACM, 1990.

[Kim et al. 07] B. Kim, Y. Liu, I. Llamas, X. Jiao, and J. Rossignac. “Simulation

of Bubbles in Foam with the Volume Control Method.” ACM Trans. Graph.

(Proc. SIGGRAPH) 28:3 (2007), Article 98.

[Kniss and Hart 04] J. Kniss and D. Hart. Volume Effects: Modeling Smoke,

Fire, and Clouds . New York: ACM, 2004. Available online ( http://www.cs.

unm.edu/ ∼ jmk/sig04 modeling.ppt ) ”.

[Layton and van de Panne 02] A. T. Layton and M. van de Panne. “A Numer-

ically Ecient and Stable Algorithm for Animating Water Waves.” The

Visual Computer 18:1 (2002), 41-53.

[Losasso et al. 04] F. Losasso, F. Gibou, and R. Fedkiw. “Simulating Water

and Smoke with an Octree Data Structure.” ACM Trans. Graph. (Proc.

SIGGRAPH) 23 (2004), 457-462.

[Losasso et al. 06] F. Losasso, G. Irving, E. Guendelman, and R. Fedkiw. “Melt-

ing and Burning Solids into Liquids and Gases.” IEEE Trans. Vis. Graph.

12 (2006), 343-352.

Fluid Simulation for Computer Graphics

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