© ACM, 2017. This is the author's version of the work. It is posted here by permission of ACM for your personal use. Not for redistribution. The definitive version was published in Larionov, E., Batty, C., & Bridson, R. (2017). Variational Stokes: A Unified Pressure-viscosity Solver for Accurate Viscous Liquids. ACM Trans. Graph., 36(4), 101:1–101:11. https://doi.org/10.1145/3072959.3073628We propose a novel unsteady Stokes solver for coupled viscous and pressure forces in grid-based liquid animation which yields greater accuracy and visual realism than previously achieved. Modern fluid simulators treat viscosity and pressure in separate solver stages, which reduces accuracy and yields incorrect free surface behavior. Our proposed implicit ...
Based on a Clebsch-like velocity representation and a combination of classical variational principle...
© Christopher Batty, Andres Uribe, Basile Audoly, Eitan Grinspun | ACM 2012. This is the author's ve...
Several methods are available for calculating shear viscosities of liquids from molecular dynamics s...
Standard fluid simulators often apply operator splitting to independently solve for pressure and vis...
© Christopher Batty & Robert Bridson | ACM 2008. This is the author's version of the work. It is pos...
We present an efficient geometric Multigrid solver for simulating viscous liquids based on the varia...
Viscous fluid behaviors are among the most complex yet familiar physical phenomena we encounter in e...
© Christopher Batty & Ben Houston | ACM 2011. This is the author's version of the work. It is posted...
The behaviour of liquids and gases ranks among the most familiar and yet complex physical phenomena ...
We present the first spatially adaptive Eulerian fluid animation method to support challenging visco...
We present an overview of the most common numerical solution strategies for the incompressible Navie...
In this paper, we present a novel physically consistent implicit solver for the simulation of highly...
Viscous fluids, such as honey and molten chocolate, are common materials frequently seen in our dail...
Figure 1: Viscous fluids simulated with our implicit formulation. Left to right: caramel sauce coili...
This thesis describes a new approach for the solution of two-dimensional, time-dependent, surface-te...
Based on a Clebsch-like velocity representation and a combination of classical variational principle...
© Christopher Batty, Andres Uribe, Basile Audoly, Eitan Grinspun | ACM 2012. This is the author's ve...
Several methods are available for calculating shear viscosities of liquids from molecular dynamics s...
Standard fluid simulators often apply operator splitting to independently solve for pressure and vis...
© Christopher Batty & Robert Bridson | ACM 2008. This is the author's version of the work. It is pos...
We present an efficient geometric Multigrid solver for simulating viscous liquids based on the varia...
Viscous fluid behaviors are among the most complex yet familiar physical phenomena we encounter in e...
© Christopher Batty & Ben Houston | ACM 2011. This is the author's version of the work. It is posted...
The behaviour of liquids and gases ranks among the most familiar and yet complex physical phenomena ...
We present the first spatially adaptive Eulerian fluid animation method to support challenging visco...
We present an overview of the most common numerical solution strategies for the incompressible Navie...
In this paper, we present a novel physically consistent implicit solver for the simulation of highly...
Viscous fluids, such as honey and molten chocolate, are common materials frequently seen in our dail...
Figure 1: Viscous fluids simulated with our implicit formulation. Left to right: caramel sauce coili...
This thesis describes a new approach for the solution of two-dimensional, time-dependent, surface-te...
Based on a Clebsch-like velocity representation and a combination of classical variational principle...
© Christopher Batty, Andres Uribe, Basile Audoly, Eitan Grinspun | ACM 2012. This is the author's ve...
Several methods are available for calculating shear viscosities of liquids from molecular dynamics s...