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Velocity-Based Monte Carlo Fluids

Ryusuke Sugimoto, Christopher Batty, Toshiya Hachisuka

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Abstract

We present a velocity-based Monte Carlo fluid solver that overcomes the limitations of its existing vorticity-based counterpart. Because the velocity-based formulation is more commonly used in graphics, our Monte Carlo solver can be readily extended with various techniques from the fluid simulation literature. We derive our method by solving the Navier-Stokes equations via operator splitting and designing a pointwise Monte Carlo estimator for each substep. We reformulate the projection and diffusion steps as integration problems based on the recently introduced walk-on-boundary technique [Sugimoto et al. 2023]. We transform the volume integral arising from the source term of the pressure Poisson equation into a form more amenable to practical numerical evaluation. Our resulting velocity-based formulation allows for the proper simulation of scenes that the prior vorticity-based Monte Carlo method [Rioux-Lavoie et al. 2022] either simulates incorrectly or cannot support. We demonstrate that our method can easily incorporate advancements drawn from conventional non-Monte Carlo methods by showing how one can straightforwardly add buoyancy effects, divergence control capabilities, and numerical dissipation reduction methods, such as advection-reflection and PIC/FLIP methods.

Topics & Concepts

Monte Carlo methodMonte Carlo integrationHybrid Monte CarloSolverMonte Carlo molecular modelingPointwiseMarkov chain Monte CarloQuasi-Monte Carlo methodStatistical physicsApplied mathematicsComputer sciencePhysicsMathematical optimizationMathematicsMathematical analysisStatisticsComputer Graphics and Visualization Techniques3D Shape Modeling and AnalysisAdvanced Vision and Imaging
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