核心概念
The author proves the stability of the Ritz projection in weighted W 1,1 spaces for finite element approximations of the Poisson equation.
摘要
The content discusses the stability of the Ritz projection in weighted W 1,1 spaces for finite element approximations of the Poisson equation. The authors address this issue by focusing on convex polygonal or polyhedral domains with weights from Muckenhoupt's class A1 and quasi-uniform meshes. They highlight that while stability in some norms is well-established, challenges remain for other norms like W 1,∞(Ω). Recent work has shown improvements in controlling the gradient of the Ritz projection over quasi-uniform meshes, leading to stability results in various spaces. The paper aims to extend these results to cases like W 1,1(Ω) and W 1,1w(Ω) when w ∈ A1 through a modification of previous proofs.
統計資料
For every u ∈ W 1,10(Ω) and every weight w ∈ A1, there holds ∥∇Rhu∥L10w(Ω) ≲ ∥∇u∥L10w(Ω).
The regularized Green’s function gz ∈ W 12(Ω) satisfies ⟨∇gz, ∇v⟩L2(Ω) = ⟨δz, ∂lv⟩L2(Ω), ∀v ∈ W 12(Ω).
Let T = {Th}h>0 be a family of conforming and quasi-uniform triangulations of Ω. Then Vh = L10(Th) ∩ W 11(Ω), and Rh : W 11 → Vh is defined by ⟨∇Rhu, ∇ψ⟩L2(Ω) = ⟨∇u, ∇ψ⟩L2(Ω), ∀ψ ∈ Vh.
引述
"Attention was turned to weighted W 1,p norms with weights belonging to Muckenhoupt’s classes."
"The result showed that the gradient of the Ritz projection over quasi-uniform meshes is pointwise controlled by the Hardy-Littlewood maximal operator."
"The aim is to show that these results can be obtained by a simple modification of their proof."