“Physics-based animation of large-scale splashing liquids”
Conference:
Type(s):
Title:
- Physics-based animation of large-scale splashing liquids
Session/Category Title: Splashy, Sketchy Fluids
Presenter(s)/Author(s):
Abstract:
Fluid simulation has been one of the greatest successes of physics-based animation, generating hundreds of research papers and a great many special effects over the last fifteen years. However, the animation of large-scale, splashing liquids remains challenging. In this paper, we show that a novel combination of unilateral incompressibility, mass-full FLIP, and blurred boundaries is extremely well-suited to the animation of large-scale, violent, splashing liquids.
References:
1. Alduán, I., and Otaduy, M. A. 2011. SPH granular flow with friction and cohesion. In Proc. ACM SIGGRAPH/Eurographics Symposium on Computer Animation, 25–32.
2. Batty, C., Bertails, F., and Bridson, R. 2007. A fast variational framework for accurate solid-fluid coupling. ACM Trans. Graph. 26, 3 (July).
3. Becker, M., and Teschner, M. 2007. Weakly compressible sph for free surface flows. In Proc. of the ACM SIGGRAPH/Eurographics symposium on Computer animation, 209–217.
4. Bodin, K., Lacoursiere, C., and Servin, M. 2012. Constraint fluids. IEEE Transactions on Visualization and Computer Graphics 18, 3 (Mar.), 516–526.
5. Brackbill, J. U., and Ruppel, H. M. 1986. Flip: A method for adaptively zoned, particle-in-cell calculations of fluid flows in two dimensions. J. Comput. Phys. 65 (August), 314–343.
6. Bridson, R. 2008. Fluid Simulation for Comuter Graphics. A K Peters.
7. Chentanez, N., and Müller, M. 2011. A multigrid fluid pressure solver handling separating solid boundary conditions. In Proc. of the ACM SIGGRAPH/Eurographics Symposium on Computer Animation, 83–90.
8. Chentanez, N., and Müller, M. 2011. Real-time eulerian water simulation using a restricted tall cell grid. ACM Trans. Graph. 30, 4 (July), 82:1–82:10.
9. Chorin, A., and Marsden, J. 2000. A Mathematical Introduction to Fluid Mechanics. Springer.
10. Dostál, Z., and Schöberl, J. 2005. Minimizing quadratic functions subject to bound constraints with the rate of convergence and finite termination. Comput. Optim. Appl. 30, 1 (Jan.), 23–43.
11. Dostál, Z. 2009. Optimal Quadratic Programming Algorithms: With Applications to Variational Inequalities, 1st ed. Springer Publishing Company, Incorporated.
12. Lentine, M., Zheng, W., and Fedkiw, R. 2010. A novel algorithm for incompressible flow using only a coarse grid projection. ACM Trans. Graph. 29, 4 (July), 114:1–114:9.
13. Losasso, F., Talton, J., Kwatra, N., and Fedkiw, R. 2008. Two-way coupled sph and particle level set fluid simulation. IEEE Transactions on Visualization and Computer Graphics 14, 4 (July), 797–804.
14. Macklin, M., and Müller, M. 2013. Position based fluids. ACM Trans. Graph. 32, 4 (July), 104:1–104:12.
15. McAdams, A., Selle, A., Ward, K., Sifakis, E., and Teran, J. 2009. Detail preserving continuum simulation of straight hair. ACM Trans. Graph. 28, 3 (July), 62:1–62:6.
16. Narain, R., Golas, A., Curtis, S., and Lin, M. C. 2009. Aggregate dynamics for dense crowd simulation. ACM Trans. Graph. 28, 5 (Dec.), 122:1–122:8.
17. Narain, R., Golas, A., and Lin, M. C. 2010. Free-flowing granular materials with two-way solid coupling. ACM Trans. Graph. 29, 6 (Dec.), 173:1–173:10.
18. Pfaff, T., Thuerey, N., Selle, A., and Gross, M. 2009. Synthetic turbulence using artificial boundary layers. ACM Trans. Graph. 28, 5 (Dec.), 121:1–121:10.
19. Raveendran, K., Wojtan, C., and Turk, G. 2011. Hybrid smoothed particle hydrodynamics. In Proc. of the ACM SIGGRAPH/Eurographics Symposium on Computer Animation, 33–42.
20. Schechter, H., and Bridson, R. 2012. Ghost sph for animating water. ACM Trans. Graph. 31, 4 (July), 61:1–61:8.
21. Solenthaler, B., and Pajarola, R. 2009. Predictive-corrective incompressible sph. ACM Trans. Graph. 28, 3 (July), 40:1–40:6.
22. Yu, J., Wojtan, C., Turk, G., and Yap, C. 2012. Explicit mesh surfaces for particle based fluids. Comp. Graph. Forum 31, 2pt4 (May), 815–824.
23. Zhu, Y., and Bridson, R. 2005. Animating sand as a fluid. ACM Trans. Graph. 24, 3 (July), 965–972.
