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Simulating water for computer graphics : particle-in-cell, explicit surfaces, and discontinuous Galerkin Edwards, Essex

Abstract

We propose several advances in the simulation of fluids for computer graphics. We concentrate on particle-in-cell methods and related sub-problems. We develop high-order accurate extensions to particle-in-cell methods demonstrated on a variety of equations, including constrained dynamics with implicit-explicit time integration. We track the liquid-air interface with an explicit mesh, which we show how to do in a provably exact fashion. To address the mismatched simulation and surface resolution, we solve the partial differential equations in each time step with with a p-adaptive discontinuous Galerkin discretization. This allows us to use a coarse regular grid for the entire simulation. For solving the resulting linear system, we propose a novel mostly-algebraic domain decomposition preconditioner that automatically creates a coarse discontinuous Galerkin approximation of the problem.

Item Metadata

Title
Simulating water for computer graphics : particle-in-cell, explicit surfaces, and discontinuous Galerkin
Creator
Edwards, Essex
Publisher
University of British Columbia
Date Issued
2015
Description
We propose several advances in the simulation of fluids for computer graphics. We concentrate on particle-in-cell methods and related sub-problems. We develop high-order accurate extensions to particle-in-cell methods demonstrated on a variety of equations, including constrained dynamics with implicit-explicit time integration. We track the liquid-air interface with an explicit mesh, which we show how to do in a provably exact fashion. To address the mismatched simulation and surface resolution, we solve the partial differential equations in each time step with with a p-adaptive discontinuous Galerkin discretization. This allows us to use a coarse regular grid for the entire simulation. For solving the resulting linear system, we propose a novel mostly-algebraic domain decomposition preconditioner that automatically creates a coarse discontinuous Galerkin approximation of the problem.
Genre
Thesis/Dissertation
Type
Text
Language
eng
Date Available
2016-01-07
Provider
Vancouver : University of British Columbia Library
Rights
Attribution-NoDerivs 2.5 Canada
DOI
10.14288/1.0223154
URI
http://hdl.handle.net/2429/56270
Degree
Doctor of Philosophy - PhD
Program
Computer Science
Affiliation
Science, Faculty of; Computer Science, Department of
Degree Grantor
University of British Columbia
Graduation Date
2016-02
Campus
UBCV
Scholarly Level
Graduate
Rights URI
http://creativecommons.org/licenses/by-nd/2.5/ca/
Aggregated Source Repository
DSpace

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Attribution-NoDerivs 2.5 Canada

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