A Framework for Solving Parabolic Partial Differential Equations on Discrete Domains

arXiv - CS - Numerical Analysis Pub Date : 2023-12-01 DOI:arxiv-2312.00327
Leticia Mattos Da Silva, Oded Stein, Justin Solomon
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Abstract

We introduce a framework for solving a class of parabolic partial differential equations on triangle mesh surfaces, including the Hamilton-Jacobi equation and the Fokker-Planck equation. PDE in this class often have nonlinear or stiff terms that cannot be resolved with standard methods on curved triangle meshes. To address this challenge, we leverage a splitting integrator combined with a convex optimization step to solve these PDE. Our machinery can be used to compute entropic approximation of optimal transport distances on geometric domains, overcoming the numerical limitations of the state-of-the-art method. In addition, we demonstrate the versatility of our method on a number of linear and nonlinear PDE that appear in diffusion and front propagation tasks in geometry processing.
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离散域上求解抛物型偏微分方程的一个框架
本文介绍了在三角形网格表面上求解一类抛物型偏微分方程的框架,包括hamilton - jacobieequation和Fokker-Planck equation。这一类的微分方程通常具有非线性或刚性项,无法用标准方法在弯曲三角网格上求解。为了应对这一挑战,我们利用分裂积分器结合凸优化步骤来解决这些PDE。我们的机器可以用来计算几何域上最优传输距离的熵近似,克服了最先进方法的数值限制。此外,我们在几何处理中的扩散和前传播任务中出现的许多线性和非线性偏微分方程上展示了我们方法的多功能性。
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arXiv - CS - Numerical Analysis
arXiv - CS - Numerical Analysis
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