We present the first spatially adaptive Eulerian fluid animation method to support challenging viscous liquid effects such as folding, coiling, and variable viscosity. We propose a tetrahedral node-based embedded finite volume method for fluid viscosity, adapted from popular techniques for Lagrangian deformable objects. Applied in an Eulerian fashion with implicit integration, this scheme stably and efficiently supports high viscosity fluids while yielding symmetric positive definite linear systems. To integrate this scheme into standard tetrahedral mesh-based fluid simulators, which store normal velocities on faces rather than velocity vectors at nodes, we offer two methods to reconcile these representations. The first incorporates a mappi...
This paper describes a simple modifi cationto an Eulerian fl uidsimulation that permits the underlyi...
Figure 1: Viscous fluids simulated with our implicit formulation. Left to right: caramel sauce coili...
In this article, we describe a parallel adaptive mesh refinement strategy for two-phase flows using ...
© Christopher Batty & Ben Houston | ACM 2011. This is the author's version of the work. It is posted...
© Christopher Batty & Robert Bridson | ACM 2008. This is the author's version of the work. It is pos...
Viscous fluid behaviors are among the most complex yet familiar physical phenomena we encounter in e...
The behaviour of liquids and gases ranks among the most familiar and yet complex physical phenomena ...
Figure 1: By developing an integration scheme that exhibits zero numerical dissipation, we can achie...
Figure 1: Our adaptive simulation framework allows us to efficiently simulate highly detailed splash...
We introduce a new method for efficiently simulating liquid with extreme amounts of spatial adaptivi...
We present a general method for modeling and animating liquids. The system is specifically designed ...
© ACM, 2017. This is the author's version of the work. It is posted here by permission of ACM for yo...
In this thesis we describe a technique for animating the behavior of viscoelastic fluids such as muc...
We present a novel meshfree technique for animating\ud free surface viscous liquids with jet bucklin...
We present an efficient geometric Multigrid solver for simulating viscous liquids based on the varia...
This paper describes a simple modifi cationto an Eulerian fl uidsimulation that permits the underlyi...
Figure 1: Viscous fluids simulated with our implicit formulation. Left to right: caramel sauce coili...
In this article, we describe a parallel adaptive mesh refinement strategy for two-phase flows using ...
© Christopher Batty & Ben Houston | ACM 2011. This is the author's version of the work. It is posted...
© Christopher Batty & Robert Bridson | ACM 2008. This is the author's version of the work. It is pos...
Viscous fluid behaviors are among the most complex yet familiar physical phenomena we encounter in e...
The behaviour of liquids and gases ranks among the most familiar and yet complex physical phenomena ...
Figure 1: By developing an integration scheme that exhibits zero numerical dissipation, we can achie...
Figure 1: Our adaptive simulation framework allows us to efficiently simulate highly detailed splash...
We introduce a new method for efficiently simulating liquid with extreme amounts of spatial adaptivi...
We present a general method for modeling and animating liquids. The system is specifically designed ...
© ACM, 2017. This is the author's version of the work. It is posted here by permission of ACM for yo...
In this thesis we describe a technique for animating the behavior of viscoelastic fluids such as muc...
We present a novel meshfree technique for animating\ud free surface viscous liquids with jet bucklin...
We present an efficient geometric Multigrid solver for simulating viscous liquids based on the varia...
This paper describes a simple modifi cationto an Eulerian fl uidsimulation that permits the underlyi...
Figure 1: Viscous fluids simulated with our implicit formulation. Left to right: caramel sauce coili...
In this article, we describe a parallel adaptive mesh refinement strategy for two-phase flows using ...