Exponential Convergence for Multiscale Linear Elliptic PDEs via Adaptive Edge Basis Functions

Yifan Chen, T. Hou, Yixuan Wang
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引用次数: 13

Abstract

In this paper, we introduce a multiscale framework based on adaptive edge basis functions to solve second-order linear elliptic PDEs with rough coefficients. One of the main results is that we prove the proposed multiscale method achieves nearly exponential convergence in the approximation error with respect to the computational degrees of freedom. Our strategy is to perform an energy orthogonal decomposition of the solution space into a coarse scale component comprising $a$-harmonic functions in each element of the mesh, and a fine scale component named the bubble part that can be computed locally and efficiently. The coarse scale component depends entirely on function values on edges. Our approximation on each edge is made in the Lions-Magenes space $H_{00}^{1/2}(e)$, which we will demonstrate to be a natural and powerful choice. We construct edge basis functions using local oversampling and singular value decomposition. When local information of the right-hand side is adaptively incorporated into the edge basis functions, we prove a nearly exponential convergence rate of the approximation error. Numerical experiments validate and extend our theoretical analysis; in particular, we observe no obvious degradation in accuracy for high-contrast media problems.
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基于自适应边基函数的多尺度线性椭圆偏微分方程的指数收敛性
本文提出了一种基于自适应边缘基函数的多尺度框架,用于求解二阶粗糙系数线性椭圆偏微分方程。主要结果之一是证明了所提出的多尺度方法在相对于计算自由度的近似误差上接近指数收敛。我们的策略是对解空间进行能量正交分解,将其分解成一个由网格中每个元素中的$a$谐函数组成的粗尺度分量,以及一个名为气泡部分的精细尺度分量,该分量可以在局部有效地计算。粗尺度分量完全依赖于边缘上的函数值。我们对每条边的逼近都是在Lions-Magenes空间$H_{00}^{1/2}(e)$中进行的,我们将证明这是一个自然而强大的选择。利用局部过采样和奇异值分解构造边缘基函数。当将右侧的局部信息自适应地加入到边缘基函数中时,我们证明了近似误差的收敛速度接近指数。数值实验验证和扩展了我们的理论分析;特别是,我们观察到高对比度介质问题的精度没有明显的下降。
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