Approximation classes for the anisotropic space-time finite element method. An almost characterization

Abstract

We study the approximation of Lp-functions, p∈ (0,∞], on cylindrical space-time domains T:=[0,T]× , 0<T<∞, ⊂ d Lipschitz, d∈ N, with respect to continuous anisotropic space-time finite elements on prismatic meshes. In particular, we propose a suitable refinement technique which creates (locally refined) prismatic meshes with sufficient smoothness and the desired anisotropy, and prove complexity estimates. Furthermore, we define a (quasi-)interpolation operator on this type of meshes and use it to characterize the corresponding approximation classes by showing direct and inverse estimates in terms of anisotropic Besov norms.