Explicit mesh surfaces for particle based fluids

Computer Graphics Forum

Volumn 31, Issue 2, 2012, Pages 815-824

  Yu, Jihun ^a   Wojtan, Chris ^b   Turk, Greg ^c   Yap, Chee ^d  

^a Industrial Light and Magic   (United States)

^b INSTITUTE OF SCIENCE AND TECHNOLOGY AUSTRIA   (Austria)

^c GEORGIA INSTITUTE OF TECHNOLOGY   (United States)

^d NEW YORK UNIVERSITY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

HYDRODYNAMICS; MESH GENERATION; NUMERICAL METHODS; SURFACE TENSION; SURFACE WAVES;

NUMERICAL DIFFUSION; PARTICLE RESOLUTIONS; PARTICLE SIMULATIONS; PARTICLE VELOCITIES; PHYSICS SIMULATION; SMOOTHED PARTICLE HYDRODYNAMICS; SURFACE INFORMATION; SURFACE WAVE DYNAMICS;

COMPUTER GRAPHICS;

EID: 84877861260     PISSN: 01677055     EISSN: 14678659     Source Type: Journal    
DOI: 10.1111/j.1467-8659.2012.03062.x     Document Type: Conference Paper

References (49)

1. ANDERSSON B., JAKOBSSON S., MARK A., EDELVIK F., DAVIDSON L.: Modeling surface tension in sph by interface reconstruction using radial basis functions. In Proc. of the 5th International SPHERIC Workshop (2010).
2. ADAMS B., PAULY M., KEISER R., GUIBAS L. J.: Adaptively sampled particle fluids. ACM Trans. Graph. 26, 3 (2007), 48.
3. ANDO R., TSURUNO R.: A particle-based method for preserving fluid sheets. In Proc. of Symp. on Comput. Anim (2011), pp. 7-16.
4. BROCHU T., BRIDSON R.: Robust topological operations for dynamic explicit surfaces. SIAM J. Sci. Comput. 31, 4 (2009), 2472-2493.
5. BROCHU T., BATTY C., BRIDSON R.: Matching fluid simulation elements to surface geometry and topology. ACM Trans. Graph. 29, 4 (2010), 1-9.
6. BHATTACHARYA H., GAO Y., BARGTEIL A. W.: A level-set method for skinning animated particle data. In Proc. of Symp. on Comput. Anim (Aug 2011).
7. BARGTEIL A., GOKTEKIN T., O'BRIEN J., STRAIN J.: A semi-lagrangian contouring method for fluid simulation. ACM Trans. Graph. (TOG) 25, 1 (2006), 19-38.
8. BLINN J.: A generalization of algebraic surface drawing. ACM Trans. Graph. (TOG) 1, 3 (1982), 235-256.
9. BLOOMENTHAL J.: An implicit surface polygonizer. Graphics gems IV 1 (1994), 324-349.
10. BARGTEIL A. W., SIN F., MICHAELS J. E., GOKTEKIN T. G., O'BRIEN J. F.: A texture synthesis method for liquid animations. In Proc. of Symp. on Comput. Anim. (2006).
11. BECKER M., TESCHNER M.: Weakly compressible SPH for free surface flows. In Proc. of Symp. on Comput. Anim. (2007), pp. 209-217.
12. BERGOU M., WARDETZKY M., HARMON D., ZORIN D., GRINSPUN E.: A quadratic bending model for inextensible surfaces. In Proc. of the fourth Eurographics symposium on Geometry processing (2006), pp. 227-230.
13. BARGTEIL A., WOJTAN C., HODGINS J., TURK G.: A finite element method for animating large viscoplastic flow. ACM Trans. Graph. 26, 3 (2007), 16-1.
14. CLAVET S., BEAUDOIN P., POULIN P.: Particle-based viscoelastic fluid simulation. In Proc. of Symp. on Comput. Anim. (2005), pp. 219-228.
15. DESBRUN M., CANI-GASCUEL M.: Active implicit surface for animation. In Graph. Inter. (1998), pp. 143-150.
16. DU J., FIX B., GLIMM J., JIA X., LI X., LI Y., WU L.: A simple package for front tracking. J. Comput. Phys. 213, 2 (2006), 613-628.
17. DESBRUN M., MEYER M., SCHRÖDER P., BARR A. H.: Implicit fairing of irregular meshes using diffusion and curvature flow. In Proc. of SIGGRAPH (1999), pp. 317-324.
18. ENRIGHT D., FEDKIW R., FERZIGER J., MITCHELL I.: A hybrid particle level set method for improved interface capturing. J. Comput. Phys. 183, 1 (2002), 83-116.
19. ERLEBEN K., MISZTAL M., BÆRENTZEN J.: Mathematical foundation of the optimization-based fluid animation method. In Proc. of Symp. on Comput. Anim (2011), ACM, pp. 101-110.
20. GOKTEKIN T. G., BARGTEIL A. W., O'BRIEN J. F.: A method for animating viscoelastic fluids. ACM Trans. Graph. 23, 3 (2004), 463-468.
21. HU X., ADAMS N.: A multi-phase SPH method for macroscopic and mesoscopic flows. J. Comput. Phys. 213, 2 (2006), 844-861.
22. HIEBER S., KOUMOUTSAKOS P.: A lagrangian particle level set method. J. Comput. Phys. 210, 1 (2005), 342-367.
23. HONG J.-M., KIM C.-H.: Discontinuous fluids. ACM Trans. Graph. 24 (July 2005), 915-920.
24. KWATRA V., ADALSTEINSSON D., KIM T., KWATRA N., CARLSON M., LIN M.: Texturing fluids. IEEE TVCG (2007), 939-952.
25. KANG M., FEDKIW R., LIU X.: A boundary condition capturing method for multiphase incompressible flow. Journal of Scientific Computing 15, 3 (2000), 323-360.
26. KIM D., SONG O.-Y., KO H.-S.: Stretching and wiggling liquids. ACM Trans. Graph. 28, 5 (2009), 120.
27. LOSASSO F., GIBOU F., FEDKIW R.: Simulating water and smoke with an octree data structure. ACM Trans. Graph. 23, 3 (2004), 457-462.
28. MÜLLER M.: Fast and robust tracking of fluid surfaces. In Proc. of Symp. on Comput. Anim (2009), ACM, pp. 237-245.
29. MISZTAL M., BRIDSON R., ERLEBEN K., BÆRENTZEN J., ANTON F.: Optimization-based fluid simulation on unstructured meshes. In Proc. of Virtual Reality Interactions and Physical Simulations (2010), pp. 11-20.
30. MÜLLER M., CHARYPAR D., GROSS M.: Particle-based fluid simulation for interactive applications. In Proc. of Symp. on Comput. Anim. (2003), pp. 154-159.
31. MUSETH K., CLIVE M., ZAFAR N. B.: Blobtacular: surfacing particle system in "pirates of the caribbean 3". In SIGGRAPH sketches (2007).
32. MEYER M., DESBRUN M., SCHRÖDER P., BARR A.: Discrete differential-geometry operators for triangulated 2-manifolds. Visualization and mathematics 3, 7 (2002), 34-57.
33. MIHALEF V., METAXAS D., SUSSMAN M.: Textured liquids based on the marker level set. In Computer Graphics Forum (2007), vol. 26, Wiley Online Library, pp. 457-466.
34. OSHER S., SETHIAN J.: Fronts propagating with curvature-dependent speed: algorithms based on Hamilton-Jacobi formulations. J. Comput. Phys. 79, 1 (1988), 12-49.
35. RASMUSSEN N., ENRIGHT D., NGUYEN D., MARINO S., SUMNER N., GEIGER W., HOON S., FEDKIW R.: Directable photorealistic liquids. In Proc. of Symp. on Comput. Anim. (2004), pp. 193-202.
36. STAM J., SCHMIDT R.: On the velocity of an implicit surface. ACM Trans. Graph. 30 (May 2011), 21:1-21:7.
37. SIFAKIS E., SHINAR T., IRVING G., FEDKIW R.: Hybrid simulation of deformable solids. In Proc. of Symp. on Comput. Anim. (2007), pp. 81-90.
38. TESSENDORF J.: Simulating ocean water. In Simulating Nature: Realistic and Interactive Techniques (2002), SIGGRAPH Course Notes.
39. THÜREY N., WOJTAN C., GROSS M., TURK G.: A multiscale approach to mesh-based surface tension flows. ACM Trans. Graph. (TOG) 29, 4 (2010), 48.
40. WITKIN A., HECKBERT P.: Using particles to sample and control implicit surfaces. In Proc. of the 21st annual conference on Computer graphics and interactive techniques (1994), ACM, pp. 269-277.
41. WILLIAMS B. W.: Fluid Surface Reconstruction from Particles. Master's thesis, The University of British Columbia, Canada, February 2008.
42. WANG H., MILLER G., TURK G.: Solving general shallow wave equations on surfaces. In Proc. of Symp. on Comput. Anim (2007), pp. 229-238.
43. WOJTAN C., TURK G.: Fast viscoelastic behavior with thin features. ACM Trans. Graph. 27, 3 (2008), 1-8.
44. WOJTAN C., THÜREY N., GROSS M., TURK G.: Deforming meshes that split and merge. ACM Trans. Graph. 28 (July 2009), 76:1-76:10.
45. WOJTAN C., THÜREY N., GROSS M., TURK G.: Physics-inspired topology changes for thin fluid features. ACM Trans. Graph. 29, 4 (2010), 1-8.
46. XU G., PAN Q., BAJAJ C.: Discrete surface modelling using partial differential equations. Computer Aided Geometric Design 23, 2 (2006), 125-145.
47. YU J., TURK G.: Reconstructing surfaces of particle-based fluids using anisotropic kernels. In Proc. of Symp. on Comput. Anim (2010), pp. 217-225.
48. ZHU Y., BRIDSON R.: Animating sand as a fluid. In SIGGRAPH (2005), ACM, p. 972.
49. ZHANG M.: Simulation of surface tension in 2D and 3D with smoothed particle hydrodynamics method. J. Comput. Phys. 229 (2010), 7238-7259.