A new anisotropic finite element method on polyhedral domains: interpolation error analysis
For researchers in finite element methods, this provides a simpler, explicit refinement algorithm with less restrictive geometric conditions, though it is an incremental improvement over existing anisotropic methods.
The paper proposes new anisotropic tetrahedral mesh refinement algorithms for the Poisson equation on polyhedral domains, improving convergence for singular solutions. Numerical tests validate the method.
Consider the Poisson equation with the Dirichlet boundary condition on a three-dimensional polyhedral domain. For singular solutions from the non-smoothness of the domain boundary, we propose new anisotropic tetrahedral mesh refinement algorithms to improve the convergence of finite element approximation. The proposed algorithm is simple, explicit, and requires less geometric conditions on the mesh and on the domain. Then, we develop interpolation error estimates in suitable weighted spaces for the anisotropic mesh. These estimates can be used to design optimal finite element methods approximating singular solutions. We report numerical test results to validate the method.