Supercloseness of Primal-Dual Galerkin Approximations for Second Order Elliptic Problems

Bernardo Cockburn; Manuel A. Sánchez; Chunguang Xiong

doi:10.1007/s10915-017-0538-0

Supercloseness of Primal-Dual Galerkin Approximations for Second Order Elliptic Problems

Bernardo Cockburn, Manuel A. Sánchez^*, Chunguang Xiong

^*此作品的通讯作者

数学学院

科研成果: 期刊稿件 › 文章 › 同行评审

3 引用（Scopus）

摘要

We show that two widely used Galerkin formulations for second-order elliptic problems provide approximations which are actually superclose, that is, their difference converges faster than the corresponding errors. In the framework of linear elasticity, the two formulations correspond to using either the stiffness tensor or its inverse the compliance tensor. We find sufficient conditions, for a wide class of methods (including mixed and discontinuous Galerkin methods), which guarantee a supercloseness result. For example, for the HDG_k method using polynomial approximations of degree kCloseSPigtSPi 0 , we find that the difference of approximate fluxes superconverges with order k+ 2 and that the difference of the scalar approximations superconverges with order k+ 3. We provide numerical results verifying our theoretical results.

源语言	英语
页（从-至）	376-394
页数	19
期刊	Journal of Scientific Computing
卷	75
期	1
DOI	https://doi.org/10.1007/s10915-017-0538-0
出版状态	已出版 - 1 4月 2018

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Cockburn, B., Sánchez, M. A., & Xiong, C. (2018). Supercloseness of Primal-Dual Galerkin Approximations for Second Order Elliptic Problems. Journal of Scientific Computing, 75(1), 376-394. https://doi.org/10.1007/s10915-017-0538-0

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abstract = "We show that two widely used Galerkin formulations for second-order elliptic problems provide approximations which are actually superclose, that is, their difference converges faster than the corresponding errors. In the framework of linear elasticity, the two formulations correspond to using either the stiffness tensor or its inverse the compliance tensor. We find sufficient conditions, for a wide class of methods (including mixed and discontinuous Galerkin methods), which guarantee a supercloseness result. For example, for the HDGk method using polynomial approximations of degree kCloseSPigtSPi 0 , we find that the difference of approximate fluxes superconverges with order k+ 2 and that the difference of the scalar approximations superconverges with order k+ 3. We provide numerical results verifying our theoretical results.",

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AU - Cockburn, Bernardo

AU - Sánchez, Manuel A.

AU - Xiong, Chunguang

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Y1 - 2018/4/1

N2 - We show that two widely used Galerkin formulations for second-order elliptic problems provide approximations which are actually superclose, that is, their difference converges faster than the corresponding errors. In the framework of linear elasticity, the two formulations correspond to using either the stiffness tensor or its inverse the compliance tensor. We find sufficient conditions, for a wide class of methods (including mixed and discontinuous Galerkin methods), which guarantee a supercloseness result. For example, for the HDGk method using polynomial approximations of degree kCloseSPigtSPi 0 , we find that the difference of approximate fluxes superconverges with order k+ 2 and that the difference of the scalar approximations superconverges with order k+ 3. We provide numerical results verifying our theoretical results.

AB - We show that two widely used Galerkin formulations for second-order elliptic problems provide approximations which are actually superclose, that is, their difference converges faster than the corresponding errors. In the framework of linear elasticity, the two formulations correspond to using either the stiffness tensor or its inverse the compliance tensor. We find sufficient conditions, for a wide class of methods (including mixed and discontinuous Galerkin methods), which guarantee a supercloseness result. For example, for the HDGk method using polynomial approximations of degree kCloseSPigtSPi 0 , we find that the difference of approximate fluxes superconverges with order k+ 2 and that the difference of the scalar approximations superconverges with order k+ 3. We provide numerical results verifying our theoretical results.

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KW - Mixed methods

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KW - Tensor coefficient

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Supercloseness of Primal-Dual Galerkin Approximations for Second Order Elliptic Problems

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