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Numerical Methods for Constrained Elliptic Optimal Control Problems with Rapidly Oscillating Coefficients

Published online by Cambridge University Press:  28 May 2015

Yanping Chen  and
Yuelong Tang
Yanping Chen*
Affiliation:
School of Mathematical Sciences, South China Normal University, Guangzhou 510631, Guangdong, China
Yuelong Tang
Affiliation:
Hunan Key Laboratory for Computation and Simulation in Science and Engineering, School of Mathematics and Computational Science, Xiangtan University, Xiangtan 411105, Hunan, China
*
Corresponding author. Email: [email protected]
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Abstract

In this paper we use two numerical methods to solve constrained optimal control problems governed by elliptic equations with rapidly oscillating coefficients: one is finite element method and the other is multiscale finite element method. We derive the convergence analysis for those two methods. Analytical results show that finite element method can not work when the parameter ε is small enough, while multiscale finite element method is useful for any parameter ε.

Keywords

65K0565K1065M60Optimal control problemsfinite element methodmultiscale finite element methodhomogenizationconvergence analysis
Type
Research Article
Information
East Asian Journal on Applied Mathematics , Volume 1 , Issue 3 , August 2011 , pp. 235 - 247
Copyright
Copyright © Global-Science Press 2011

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References

[1]Arada, N., Casas, E. and Tröltzsch, F., Error estimates for a semilinear elliptic optimal control problems, Copmut. Optim. Appl., 23 (2002), pp. 201229.Google Scholar
[2]Chen, Y., Superconvergence of mixed finite element methods for optimal control problems, Math. Comp., 77 (2008), pp. 12691291.Google Scholar
[3]Chen, Y. and Dai, Y., Superconvergence for optimal control problems governed by semi-linear elliptic equations, J. sci. Comput., 39 (2009), pp. 206221.Google Scholar
[4]Chen, Y., Huang, Y., Liu, W. B. and Yan, N. N., Error estimates and superconvergence of mixed finite element methods for convex optimal control problems , J. Sci. Comput., 42(4) (2010), pp. 382403.Google Scholar
[5]Chen, Z. and Hou, T. Y., A mixed multiscale finite element method for elliptic problems with oscillating coefficients, Math. Comp., 72 (2003), pp. 541576.CrossRefGoogle Scholar
[6]Chu, C. C., Graham, G. and Hou, T. Y., A new multiscale finite element method for high-contrast elliptic interface problems, Math. Comp., 79 (2010), pp. 19151955.Google Scholar
[7]Ciarlet, P. G., The Finite Element Method for Elliptic Problems, North-Holland, Amsterdam, 1978.Google Scholar
[8]Efendiev, Y. R., Hou, T. Y. and Wu, X. H., The convergence of non-conforming multiscale finite element methods, SIAM J. Numer. Anal., 37 (2000), pp. 888910.Google Scholar
[9]Falk, R., Approximation of a class of optimal control problems with order of convergence estimates, J. Math. Anal. Appl., 44 (1973), pp. 2847.Google Scholar
[10]Geveci, T., On the appoximation of the solution of an elliptic control problem governed by an elliptic equation, RAIRO Anal. Numer., 13 (1979), pp. 13328.Google Scholar
[11]He, W. M. and Cui, J. Z., A finite element method for elliptic problems with rapidly oscillating coefficients, BIT Numer. Math., 47 (2007), pp. 77102.CrossRefGoogle Scholar
[12]He, W. M. and Cui, J. Z., A new approximation method for second order elliptic problems with rapidly oscillating coefficients based on the method of multiscale asymptotic expansion, J. Math. Anal. Appl., 335 (2007), pp. 657668.Google Scholar
[13]Hou, T. Y. and Wu, X. H., A multiscale finite element method for elliptic problems in composite materials and porous media, J. Comput. Ehys., 134 (1997), pp. 169189.Google Scholar
[14]Hou, T. Y., Wu, X. H. and Cai, Z., Convergence of a multiscale finite element method for elliptic problems with rapidly oscillating coefficients, Math. Comp., 68 (1999), pp. 913943.Google Scholar
[15]Jiang, L. and Efendiev, Y., Mixed multisclae finite element analysis for wave equations using global information, Doma. Deco. Meth. Sci. Eng. XIX: Lecture Notes Comput. Sci. Eng., 78 (2011), pp. 181188.Google Scholar
[16]Ladyzhenskaya, O. A. and Ural'tseva, N. N., Linear and Quasilinear Elliptic Equations, Academic Press, New York, 1968.Google Scholar
[17]Li, R., Liu, W. B. and Yan, N. N., A posteriori error estimates of recovery type for distributed convex optimal control problems, J. Sci. Comput., 33 (2007), pp. 155182.Google Scholar
[18]Lions, J. L., Optimal Control of Systems Governed by Partial Differential Equations, Springer-Verlag, Berlin, 1971.Google Scholar
[19] H. Liu and Yan, N. N., Recovery type superconvergence and a posteriori error estimates for control problems governed by Stokes equations, J. Comput. Appl. Math., 209 (2007), pp. 187207.Google Scholar
[20]Liu, W. B. and Yan, N. N., A posteriori error estimates for distributed convex optimal control problems, Adv. Comput. Math., 15 (2001), pp. 285309.CrossRefGoogle Scholar
[21]Liu, W. B. and Yan, N. N., A posteriori error estimates for optimal control problems governed by parabolic equations, Numer. Math., 93 (2003), pp. 497521.Google Scholar
[22]Ma, X. and Zabaras, N., A stochastic mixed finite element heterogenous multiscale method for flow in porous media, J. Comput. Phys., 230 (2011), pp. 46964772.Google Scholar
[23]Moskow, S. and Vogelius, M., First order corrections to the homogenized eigenvalues of a periodic composite medium, Proc. Roy. Soc. Edinburgh Sect. A., 127 (1997), pp.12631299.Google Scholar
[24]Neittaanmaki, P. and Tiba, D., Optimal Control Of Nonlinear Parabolic Systems: Thoery, Algorithms And Applications, M. Dekker, New York, 1994.Google Scholar
[25]Parvazinia, M., A multiscale finite element for the solution of transport equations, Finite Elem. Anal. Des., 47 (2011), pp. 211219.Google Scholar
[26]Scott, L. R. and Zhang, S., Finite element interpolation of nonsmooth functions satisfying boundary conditions, Math. Comp., 54 (1990), pp. 483493.Google Scholar
[27]Weinan, E., Ming, P. and Zhang, P., Analysis of the heterogeneous multi-scale method for elliptic homogenization problems, J. Amer. Math. Soc., 18(1) (2005), pp. 121156.Google Scholar
[28]Zhiov, V. V., Kozlov, S. M. and Oleinik, O. A., Homogenization of Differential Operators and Integral Functionals, Springer-verlag, Heidelberg, 1994.Google Scholar