Abstractions and Automated Algorithms for Mixed Domain Finite Element Methods

Cécile Daversin-Catty, C. Richardson, A. J. Ellingsrud, M. Rognes
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引用次数: 7

Abstract

Mixed dimensional partial differential equations (PDEs) are equations coupling unknown fields defined over domains of differing topological dimension. Such equations naturally arise in a wide range of scientific fields including geology, physiology, biology, and fracture mechanics. Mixed dimensional PDEs are also commonly encountered when imposing non-standard conditions over a subspace of lower dimension, e.g., through a Lagrange multiplier. In this article, we present general abstractions and algorithms for finite element discretizations of mixed domain and mixed dimensional PDEs of codimension up to one (i.e., nD-mD with |n-m| ≤ 1). We introduce high-level mathematical software abstractions together with lower-level algorithms for expressing and efficiently solving such coupled systems. The concepts introduced here have also been implemented in the context of the FEniCS finite element software. We illustrate the new features through a range of examples, including a constrained Poisson problem, a set of Stokes-type flow models, and a model for ionic electrodiffusion.
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混合域有限元方法的抽象与自动算法
混合维偏微分方程(PDEs)是在不同拓扑维数的域上定义的未知场耦合方程。这样的方程自然出现在广泛的科学领域,包括地质学、生理学、生物学和断裂力学。混合维偏微分方程在低维子空间上施加非标准条件时也经常遇到,例如,通过拉格朗日乘子。本文给出了余维数为1的混合域和混合维偏微分方程(即nD-mD, |n-m|≤1)有限元离散化的一般抽象和算法。我们介绍了高级数学软件抽象和低级算法来表达和有效求解这种耦合系统。这里介绍的概念也已经在FEniCS有限元软件的背景下实现。我们通过一系列的例子来说明这些新特征,包括一个约束泊松问题、一组斯托克斯型流动模型和一个离子电扩散模型。
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