BibTeX
@INPROCEEDINGS{Stam99stablefluids,
author = {Jos Stam},
title = {Stable Fluids},
booktitle = {},
year = {1999},
pages = {121--128}
}
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Abstract
Building animation tools for fluid-like motions is an important and challenging problem with many applications in computer graphics. The use of physics-based models for fluid flow can greatly assist in creating such tools. Physical models, unlike key frame or procedural based techniques, permit an animator to almost effortlessly create interesting, swirling fluid-like behaviors. Also, the interaction of flows with objects and virtual forces is handled elegantly. Until recently, it was believed that physical fluid models were too expensive to allow real-time interaction. This was largely due to the fact that previous models used unstable schemes to solve the physical equations governing a fluid. In this paper, for the first time, we propose an unconditionally stable model which still produces complex fluid-like flows. As well, our method is very easy to implement. The stability of our model allows us to take larger time steps and therefore achieve faster simulations. We have used our model in conjuction with advecting solid textures to create many fluid-like animations interactively in two- and three-dimensions.
Keyphrases
stable fluid many fluid-like animation physics-based model many application fluid flow solid texture physical model virtual force unstable scheme animation tool complex fluid-like flow computer graphic previous model time step key frame stable model physical fluid model fluid-like behavior first time physical equation real-time interaction fluid-like motion
