Authors: Xin Luo, Jin Huang, Pan Cheng

Abstract:

By means of Sidi-Israeli’s quadrature rules, mechanical quadrature methods (MQMs) for solving the first kind boundary integral equations (BIEs) of steady state Stokes problem are presented. The convergence of numerical solutions by MQMs is proved based on Anselone’s collective compact and asymptotical compact theory, and the asymptotic expansions with the odd powers of the errors are provided, which implies that the accuracy of the approximations by MQMs possesses high accuracy order O (h3). Finally, the numerical examples show the efficiency of our methods.

Keywords: Stokes problem, boundary integral equation, mechanical quadrature methods, asymptotic expansions.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1088344

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References:

[1] Zhu Jia-lin. A boundary integral equation method for solving stationary stokes problem, Mathematica Numerica Sinica, 1986, 8(3):119-139.
[2] Lu Tao and Ma Chang zheng. A high precision combination method of nystrom approximations for solving the boundary integral equations of the second kind, Chinese Journal Of Computation Physics, 1997.
[3] Lu Tao and Huang Jin. High accuracy nystrm approximations and their extrapolations for solving weakly singular integral equations of the second kind, Chinese Journal Of Computation Physics, 56(1991), 119-139.
[4] Lu Tao and Huang Jin, Quadrature methods with high accuracy and extrapolation for solving boundary integral equations of the first kind, Mathematica Numerica Sinica, 01(2000), 59-72.
[5] Sidi A., Israeli M., Quadrature methods for periodic singular and weakly singular Fredholm integral equations. J. of Scientific Computing, 1988, 3(2), 201-231.
[6] R. Kress, Linear Integral Equations. Springer, 1989.
[7] Brebbia C A, Venturini W S(ed.). Boundary Element Techniques: Applications in Fluid Flow and Computational Aspects. Computational Mechanics Publications, 1987.
[8] C. B. Liem, T. Lu and T. M. Shih, The Splitting Extrapolation Method, World Scientic, Singapore, 1995.
[9] M. Costabel, V. J. Ervin and E. P. Stephan, On the convergence of collocation methods for Symm’s integral equation on open curves. Math. Comp., 51(1988), 167-179.
[10] Yu De-hao, The Coupling of Natural BEM and FEM for Stokes Problem on Unbounded Domain, Mathematica Numerica Sinica, 1992,14(3):371- 378.
[11] O. Steinbach. Numerical Approximation Methods for Elliptic Boundary Value Problems. Springer, 2003.
[12] Sidi. A., A new variable transformation for numerical integration, I. S., Num Math. 112 (1993), 359-373.
[13] Anselone, P. M.,: Collectively Compact Operator Approximation Theory. Prentice-Hall, Englewood Cliffs, NJ. (1971)
[14] Segerlind, L. J.: Applied finite element analysis, John Wiley, New York, (1984).
[15] Zienkiewicz, O. C.: The finite element method, McGraw Hill, Maidenhead, (1977).
[16] Li, W. H.: Fluid mechanics in water resources engineering, Allyn and Bacon, Toronto, (1983).
[17] Sloan, I. H., Spence, A.: The Galerkin method for integral equations of first-kind with logarithmic kernel: theory. IMA J. Numer. Anal. 8, 105-122 (1988).
[18] Costabel, M., Ervin, V. J., Stephan, E. P.: On the convergence of collocation methods for Symm’s integral equation on open curves. Math. Comp. 51, 167-179 (1988).