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- Title
Developments on the Stability of the Non-symmetric Coupling of Finite and Boundary Elements.
- Authors
Ferrari, Matteo
- 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.
- Subjects
THAILAND; BOUNDARY element methods; CONTRACTION operators; NONLINEAR differential equations; MONOTONE operators; PARTIAL differential equations
- Publication
Computational Methods in Applied Mathematics, 2023, Vol 23, Issue 2, p373
- ISSN
1609-4840
- Publication type
Article
- DOI
10.1515/cmam-2022-0085