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SIAMNUM
2010

Analysis and Optimization of Robin-Robin Partitioned Procedures in Fluid-Structure Interaction Problems

13 years 7 months ago
Analysis and Optimization of Robin-Robin Partitioned Procedures in Fluid-Structure Interaction Problems
In the solution of Fluid-Structure Interaction problems, partitioned procedures are modular algorithms that involve separate fluid and structure solvers, that interact, in an iterative framework, through the exchange of suitable transmission conditions at the FS interface. In this work we study, using Fourier analysis, the convergence of partitioned algorithms based on Robin transmission conditions. We derive, for different models of the fluid and the structure, a frequency dependent reduction factor at each iteration of the partitioned algorithm, which is minimized by choosing optimal values of the coefficients in the Robin transmission conditions. Two-dimensional numerical results are also reported, which highlight the effectiveness of the optimization procedure. Key words. Fluid-structure interaction, Robin conditions, Fourier analysis, optimized Schwartz methods AMS subject classifications. 65B99, 65M60,
Luca Gerardo-Giorda, Fabio Nobile, Christian Verga
Added 21 May 2011
Updated 21 May 2011
Type Journal
Year 2010
Where SIAMNUM
Authors Luca Gerardo-Giorda, Fabio Nobile, Christian Vergara
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