Schwarz Waveform Relaxation Method for the Viscous Shallow Water Equations

Martin, Véronique

doi:10.1007/3-540-26825-1_70

Schwarz Waveform Relaxation Method for the Viscous Shallow Water Equations

Véronique Martin¹²

Conference paper

1799 Accesses
4 Citations

Part of the book series: Lecture Notes in Computational Science and Engineering ((LNCSE,volume 40))

Summary

We are interested in solving time dependent problems using domain decomposition method. In the classical methods, one discretizes first the time dimension and then one solves a sequence of steady problems by a domain decomposition method. In this paper, we study a Schwarz Waveform Relaxation method which treats directly the time dependent problem. We propose algorithms for the viscous Shallow Water equations.

This is a preview of subscription content, log in via an institution.

Chapter: USD 29.95; Price excludes VAT (USA)

eBook: USD 129.00; Price excludes VAT (USA)

Softcover Book: USD 169.99; Price excludes VAT (USA)

Tax calculation will be finalised at checkout

Purchases are for personal use only

Learn about institutional subscriptions

Preview

Unable to display preview. Download preview PDF.

References

M. J. Gander, L. Halpern, and F. Nataf. Optimal convergence for overlapping and non-overlapping Schwarz waveform relaxation. In C.-H. Lai, P. Bjøstad, M. Cross, and O. Widlund, editors, Eleventh international Conference of Domain Decomposition Methods. ddm.org, 1999.
Google Scholar
M. J. Gander and A. M. Stuart. Space time continuous analysis of waveform relaxation for the heat equation. SIAM J., 19:2014–2031, 1998.
Article MathSciNet MATH Google Scholar
M. J. Gander and H. Zhao. Overlapping Schwarz waveform relaxation for parabolic problems in higher dimension. In A. Handlovičová, M. Komorníkova, and K. Mikula, editors, Proceedings of Algoritmy 14, pages 42–51. Slovak Technical University, September 1997.
Google Scholar
C. Japhet. Optimized Krylov-Ventcell method. Application to convectiondiffusion problems. In P. E. Bjøstad, M. S. Espedal, and D. E. Keyes, editors, Proceedings of the 9th international conference on domain decomposition methods, pages 382–389. ddm.org, 1998.
Google Scholar
C. Japhet, F. Nataf, and F. Rogier. The optimized order 2 method. application to convection-diffusion problems. Future Generation Computer Systems FUTURE, 18, 2001.
Google Scholar
T. G. Jensen and D. A. Kopriva. Comparison of a finite difference and a spectral collocation reduced gravity ocean model. Modelling Marine Systems, 2:25–39, 1990.
Google Scholar
E. Lelarasmee, A. E. Ruehli, and A. L. Sangiovanni-Vincentelli. The waveform relaxation method for time-domain analysis of large scale integrated circuits. IEEE Trans. on CAD of IC and Syst., 1:131–145, 1982.
Article Google Scholar
J.-L. Lions and E. Magenes. Nonhomogeneous Boundary Value Problems and Applications, volume I. Springer, New York, Heidelberg, Berlin, 1972.
Google Scholar
P.-L. Lions. On the Schwarz alternating method. III: a variant for nonoverlapping subdomains. In T. F. Chan, R. Glowinski, J. Périaux, and O. Widlund, editors, Third International Symposium on Domain Decomposition Methods for Partial Differential Equations, held in Houston, Texas, March 20–22, 1989, Philadelphia, PA, 1990. SIAM.
Google Scholar
V. Martin. Méthode de décomposition de domaine de type relaxation d'ondes pour des équations de l'océanographie. PhD thesis, 2003.
Google Scholar
F. Nataf and F. Rogier. Factorization of the convection-diffusion operator and the Schwarz algorithm. M ³ AS, 5(1):67–93, 1995.
MathSciNet MATH Google Scholar
J. Pedlosky. Geophysical Fluid Dynamics. Springer Verlag, New-York, 1987.
MATH Google Scholar
A. Quarteroni and A. Valli. Domain Decomposition Methods for Partial Differential Equations. Oxford Science Publications, 1999.
Google Scholar
H. A. Schwarz. Über einen Grenzübergang durch alternierendes Verfahren. Vierteljahrsschrift der Naturforschenden Gesellschaft in Zürich, 15:272–286, May 1870.
MATH Google Scholar
S. Vandewalle. Parallel multigrid waveform relaxation for parabolic problems. B. G. Teubner, Stuttgart, 1993.
MATH Google Scholar

Download references

Author information

Authors and Affiliations

LAGA Université Paris XIII, Paris
Véronique Martin

Authors

Véronique Martin
View author publications
You can also search for this author in PubMed Google Scholar

Editor information

Editors and Affiliations

Moffett Field, CA
Timothy J. Barth
Bonn
Michael Griebel
New York
David E. Keyes & Tamar Schlick &
Espoo
Risto M. Nieminen
Leuven
Dirk Roose
Fachbereich Mathematik und Informatik, Freie Universität Berlin, Arnimallee 2-6, 14195, Berlin, Germany
Ralf Kornhuber
Department of Mathematics, University of Houston, Philip G. Hoffman Hall 651, 77204-3008, Houston, TX, USA
Ronald Hoppe
Dassault Aviation, 78 Quai Marcel Dassault Cedex 300, 92552, St. Cloud, France
Jacques Périaux
Laboratoire Jacques-Louis Lions, Université Paris VI, 175 Rue de Chevaleret, 75013, Paris, France
Olivier Pironneau
Courant Institute of Mathematical Science, New York University, Mercer Street 251, 10012, New York, USA
Olof Widlund
Department of Mathematics Eberly College of Science, Pennsylvania Sate University, McAllister Building 218, 16802, University Park, PA, USA
Jinchao Xu

Rights and permissions

Reprints and permissions

Copyright information

About this paper

Cite this paper

Martin, V. (2005). Schwarz Waveform Relaxation Method for the Viscous Shallow Water Equations. In: Barth, T.J., et al. Domain Decomposition Methods in Science and Engineering. Lecture Notes in Computational Science and Engineering, vol 40. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-26825-1_70

Download citation

DOI: https://doi.org/10.1007/3-540-26825-1_70
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-22523-2
Online ISBN: 978-3-540-26825-3
eBook Packages: Mathematics and StatisticsMathematics and Statistics (R0)

Publish with us

Policies and ethics