Available in electronic format
Available in print format		 Mathematics of Computation
Journal of the American Mathematical Society
ISSN 1088-6842(e) ISSN 0025-5718(p)
Previous issue | Table of contents | Next issue
Articles in press | Recently posted articles | Most recent issue | All issues
Previous Article | Next Article
     

Optimal order collocation for the mixed boundary value problem on polygons

Author(s): Pascal Laubin.
Journal: Math. Comp. 70 (2001), 607-636.
MSC (2000): Primary 65N35, 65R20; Secondary 45B05
Posted: March 2, 2000
Retrieve article in: PDF
This article is available free of charge

Abstract | References | Similar articles | Additional information

Abstract: In usual boundary elements methods, the mixed Dirichlet-Neumann problem in a plane polygonal domain leads to difficulties because of the transition of spaces in which the problem is well posed. We build collocation methods based on a mixed single and double layer potential. This indirect method is constructed in such a way that strong ellipticity is obtained in high order spaces of Sobolev type. The boundary values of this potential define a bijective boundary operator if a modified capacity adapted to the problem is not $1$. This condition is analogous to the one met in the use of the single layer potential, and is not a problem in practical computations. The collocation methods use smoothest splines and known singular functions generated by the corners. If splines of order $2m-1$ are used, we get quasi-optimal estimates in $H^m$-norm. The order of convergence is optimal in the sense that it is fixed by the approximation properties of the first missed singular function.

References:

1.
C.A. Berenstein and R. Gay, Complex variables, an introduction, Graduate Texts in Mathematics, 125, 1991, Springer. MR 92f:30001

2.
M. Costabel, Boundary integral operators on Lipschitz domains: elementary results, SIAM J. Math. Anal. 19 (1988), 613-626. MR 89h:35090

3.
M. Costabel and E. Stephan, Boundary integral equations for mixed boundary value problems in polygonal domains and Galerkin approximation, Banach Center Publications 15 (1985), 175-251. MR 88f:35037

4.
M. Costabel and E. Stephan, On the convergence of collocation methods for boundary integral equations on polygons, Math. Comp. 49 (1987), 461-478. MR 88j:65292

5.
M. Costabel and E. Stephan, Duality estimates for the numerical solution of integral equations, Numer. Math. 54 (1988), 339-353. MR 90b:65245

6.
R. Dautray et J.-L. Lions, Analyse mathématique et calcul numérique pour les sciences et les techniques, 4, Méthodes variationnelles, Masson, 1988. MR 89m:00002

7.
J. Elschner and I. Graham, An optimal order collocation method for first kind boundary integral equations on polygons, Numer. Math. 70 (1995), 1-31. MR 95m:65215

8.
Elschner J., Jeon Y., Sloan I. H. and Stephan E.P.: The collocation method for mixed boundary value problem on domains with curved polygonal boundaries. Numer. Math. 76 (1997), 355-381. MR 98h:65055

9.
Gaier D., Integralgleichungen erster Art und konforme Abbildung, Math. Z. 147 (1976), 113-129. MR 53:786

10.
Grisvard P., Elliptic problems in nonsmooth domains. Monographs and Studies in Mathematics 24, Pitman, 1985. MR 86m:35044

11.
Hardy G.H., Littlewood J.E. and Pólya G., Inequalities. Cambridge University Press, 1952. MR 13:727e

12.
D.S. Jerison and C.E. Kenig, The Dirichlet problem in nonsmooth domains, Ann. of Math. 113 (1981), 367-382. MR 84j:35076

13.
D.S. Jerison and C.E. Kenig, The Neumann problem on Lipschitz domains, Bull. Amer. Math. Soc. 4 (1981), 203-207. MR 84a:35064

14.
P. Laubin, High order convergence for collocation of second kind boundary integral equations on polygons, Numer. Math. 79 (1998), 107-140. MR 99b:65156

15.
P. Laubin and M. Baiwir, Spline collocation for a boundary integral equation on polygons with cuts, Siam. J. Numer. Anal., 35 (1998), 1452-1474. MR 99a:65165

16.
S. Prössdorf and B. Silbermann, Numerical analysis for integral and related operator equations, Birkhäuser, Operator Theory: Advances and Applications 52, 1991. MR 94f:65126

17.
B.-W. Schulze, Pseudo-differential boundary value problems, conical singularities and asymptotics, Akademie Verlag, Mathematical Topics, Vol. 4, 1994. MR 95e:58172

18.
G. Verchota, Layer potentials and regularity for the Dirichlet problem for Laplace's equation in Lipschitz domains, J. Funct. Anal. 59 (1984), 572-611. MR 86e:35038

19.
W.L. Wendland, E. Stephan and G.C. Hsiao, On the boundary equation method for the plane mixed boundary value problem of the laplacian, Math. Meth. in the Appl. Sci. I, 1979, 265-321. MR 82e:31003

20.
W.L. Wendland, Boundary element methods for elliptic problems. in Mathematical theory of finite and boundary elements methods, DMV Seminar, Band 15, Birkhäuser, 1990. MR 92f:65004

Similar Articles:

Retrieve articles in Mathematics of Computation with MSC (2000): 65N35, 65R20, 45B05

Retrieve articles in all Journals with MSC (2000): 65N35, 65R20, 45B05

Additional Information:

Pascal Laubin
Affiliation: Université de Liège, Institut de Mathématique, Grande Traverse 12, B-4000 Liège, Belgium
Email: P.Laubin@ulg.ac.be

DOI: 10.1090/S0025-5718-00-01209-6
PII: S 0025-5718(00)01209-6
Keywords: Collocation method, mixed problem, optimal order
Received by editor(s): May 22, 1998
Received by editor(s) in revised form: November 17, 1998 and March 16, 1999
Posted: March 2, 2000
Copyright of article: Copyright 2000, American Mathematical Society

  AMS Website Logo Small Comments: webmaster@ams.org
© Copyright 2009, American Mathematical Society
Privacy Statement 		Search the AMSPowered by Google