Linear-Time Smoke Animation with Vortex Sheet Meshes

Tyson Brochu, Todd Keeler, Robert Bridson

We present the ﬁrst quality physics-based smoke animation method which runs in time approximately linear in the size of the rendered two-dimensional visual detail. Our fundamental representation is a closed triangle mesh surface dividing space between clear air and a uniformly smoky region, on which we compute vortex sheet dynamics to accurately solve inviscid buoyant ﬂow. We handle arbitrary moving no-stick solid boundaries and by default handle an inﬁnite domain. The simulation itself runs in time linear to the number of triangles thanks to the use of a well-conditioned integral equation treatment together with a Fast Multipole Method for linear-time summations, providing excellent performance. Basic zero-albedo smoke rendering, with embedded solids, is easy to implement for interactive rates, and the mesh output can also serve as an extremely compact and detailed input to more sophisticated volume rendering.

Linear-Time Smoke Animation with Vortex Sheet Meshes

Posted by christopherbatty on July 17th, 2012 Posted in Fluids

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