Article ID Journal Published Year Pages File Type
499552 Computer Methods in Applied Mechanics and Engineering 2008 20 Pages PDF
Abstract

We introduce a framework for FETI methods using ideas from the decomposition via Lagrange multipliers of H01(Ω) derived by Raviart–Thomas [P.A. Raviart, J.-M. Thomas, Primal hybrid finite element methods for second order elliptic equations, Math. Comput. 31 (138) (1977) 391–413] and complemented with the detailed work on polygonal domains developed by Grisvard [P. Grisvard, Singularities in boundary value problems, Rech. Math. Appl. 22 (1992)]. We compute the action of the Lagrange multipliers using the natural H001/2 scalar product, therefore no consistency error appears. Our analysis allows to deal with cross points and floating subdomains in a natural manner. As a byproduct, we obtain that the condition number for the iteration matrix is independent of the mesh size and there is no need for preconditioning. This result improves the standard asymptotic bound for this condition number given by (1+log(H/h))2,whereHandh are the characteristic subdomain size and element size respectively, shown by Mandel–Tezaur in [J. Mandel, R. Tezaur, Convergence of a substructuring method with Lagrange multipliers, Numer. Math. 73 (1996) 473–487]. Numerical results that confirm our theoretical analysis are presented.

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Physical Sciences and Engineering Computer Science Computer Science Applications
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