Convergence estimates for an higher order optimized Schwarz method for domains with an arbitrary interface

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摘要

Optimized Schwarz methods form a class of domain decomposition methods for the solution of elliptic partial differential equations. Optimized Schwarz methods employ a first or higher order boundary condition along the artificial interface to accelerate convergence. In the literature, the analysis of optimized Schwarz methods relies on Fourier analysis and so the domains are restricted to be regular (rectangular). In this paper, we express the interface operator of an optimized Schwarz method in terms of Poincare–Steklov operators. This enables us to derive an upper bound of the spectral radius of the operator arising in this method of 1−O(h1/4) on a class of general domains, where h is the discretization parameter. This is the predicted rate for a second order optimized Schwarz method in the literature on rectangular subdomains and is also the observed rate in numerical simulations.

论文关键词:65N55,65N30,65Y10,35J20,Optimized Schwarz methods,Domain decomposition,Lions nonoverlapping method,Convergence acceleration,Poincare–Steklov operator

论文评审过程:Received 13 November 2009, Revised 30 March 2010, Available online 17 June 2010.

论文官网地址:https://doi.org/10.1016/j.cam.2010.06.007