In this paper, by using bilinear finite element and L1 approximation, a fully-discrete scheme is established for time fractional diffusion equation with variable coefficient on anisotropic meshes. Unconditionally stable analysis of the proposed scheme are presented in both L-2-norm and H-1-norm. Moreover, convergence, superclose and superconvergence results are derived by combining interpolation with projection, which is the key technique for the numerical analysis. Specifically, by defining a novel projection operator, the error estimate between the projection and the exact solution is obtained on anisotropic meshes. Furthermore, high accuracy analysis on interpolation of bilinear finite element and projection is gained by means of some known results about the interpolation and mean value technique. Based on the related results about projection and interpolation, the optimal error estimate in L-2-norm and superclose of interpolation in H-1-norm are deduced by skillfully dealing with fractional derivative. At the same time, the global superconvergence is presented by employing interpolation postprocessing operator. Finally, numerical results are provided to demonstrate the validity of the theoretical analysis.

• 出版日期2018-5-15
• 单位西南财经大学; 许昌学院