A posteriori error analysis of hybrid higher order methods for the elliptic obstacle problem

arXiv - CS - Numerical Analysis Pub Date : 2024-05-08 DOI:arxiv-2405.04961
Kamana Porwal, Ritesh Singla
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Abstract

In this article, a posteriori error analysis of the elliptic obstacle problem is addressed using hybrid high-order methods. The method involve cell unknowns represented by degree-$r$ polynomials and face unknowns represented by degree-$s$ polynomials, where $r=0$ and $s$ is either $0$ or $1$. The discrete obstacle constraints are specifically applied to the cell unknowns. The analysis hinges on the construction of a suitable Lagrange multiplier, a residual functional and a linear averaging map. The reliability and the efficiency of the proposed a posteriori error estimator is discussed, and the study is concluded by numerical experiments supporting the theoretical results.
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椭圆障碍问题混合高阶方法的后验误差分析
本文采用混合高阶方法对椭圆障碍问题进行后验误差分析。该方法涉及由$r$度多项式表示的单元未知数和由$s$度多项式表示的面未知数,其中$r=0$,$s$为$0$或$1$。离散障碍约束特别适用于单元未知数。分析的关键在于构建一个合适的拉格朗日乘法器、一个辅助函数和一个线性平均图。讨论了所提出的后验误差估计器的可靠性和效率,最后通过数值实验支持了理论结果。
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arXiv - CS - Numerical Analysis
arXiv - CS - Numerical Analysis
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