Developments on the Stability of the Non-symmetric Coupling of Finite and Boundary Elements

IF 1 4区 数学 Q3 MATHEMATICS, APPLIED
M. Ferrari
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引用次数: 0

Abstract

Abstract We consider the non-symmetric coupling of finite and boundary elements to solve second-order nonlinear partial differential equations defined in unbounded domains. We present a novel condition that ensures that the associated semi-linear form induces a strongly monotone operator, keeping track of the dependence on the linear combination of the interior domain equation with the boundary integral one. We show that an optimal ellipticity condition, relating the nonlinear operator to the contraction constant of the shifted double-layer integral operator, is guaranteed by choosing a particular linear combination. These results generalize those obtained by Of and Steinbach [Is the one-equation coupling of finite and boundary element methods always stable?, ZAMM Z. Angew. Math. Mech. 93 (2013), 6–7, 476–484] and [On the ellipticity of coupled finite element and one-equation boundary element methods for boundary value problems, Numer. Math. 127 (2014), 3, 567–593], and by Steinbach [A note on the stable one-equation coupling of finite and boundary elements, SIAM J. Numer. Anal. 49 (2011), 4, 1521–1531], where the simple sum of the two coupling equations has been considered. Numerical examples confirm the theoretical results on the sharpness of the presented estimates.
有限元与边界元非对称耦合稳定性研究进展
考虑有限元与边界元的非对称耦合,求解无界域上二阶非线性偏微分方程。我们提出了一个新的条件,保证了相关的半线性形式诱导出一个强单调算子,并跟踪了对内域方程与边界积分方程线性组合的依赖。通过选择一个特定的线性组合,证明了非线性算子与位移双层积分算子的收缩常数有关的最优椭圆性条件。这些结果推广了Of和Steinbach[有限元法和边界元法的单方程耦合是否总是稳定的?], zm Z. Angew。数学。[j] .力学93(2013),6-7,476-484].边值问题的耦合有限元和单方程边界元方法的椭圆性,[j] .长春:吉林大学。[j] .数学学报,2014,35(3):567-593],由Steinbach [j] .数值模拟。数学学报,49(2011),4,1521 - 1531],其中考虑了两个耦合方程的简单和。数值算例证实了所提估计的理论结果。
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来源期刊
CiteScore
2.40
自引率
7.70%
发文量
54
期刊介绍: The highly selective international mathematical journal Computational Methods in Applied Mathematics (CMAM) considers original mathematical contributions to computational methods and numerical analysis with applications mainly related to PDEs. CMAM seeks to be interdisciplinary while retaining the common thread of numerical analysis, it is intended to be readily readable and meant for a wide circle of researchers in applied mathematics. The journal is published by De Gruyter on behalf of the Institute of Mathematics of the National Academy of Science of Belarus.
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