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| Field | Value |
| Title | ERROR ANALYSIS OF A FVEM FOR FRACTIONAL ORDER EVOLUTION EQUATIONS WITH NONSMOOTH INITIAL DATA |
| Names |
KARAA, S
PANI, AK |
| Date Issued | 2018 (iso8601) |
| Abstract | In this paper, a finite volume element (FVE) method is considered for spatial approximations of time fractional diffusion equations involving a Riemann-Liouville fractional derivative of order alpha is an element of (0,1) in time. Improving upon earlier results [Karaa et al., IMA J. Numer. Anal. 37 (2017) 945-964], error estimates in L-2(Omega)- and H-1(Omega)-norms for the semidiscrete problem with smooth and mildly smooth initial data, i.e., v is an element of H-2(Omega) boolean AND H-0(1)(Omega) and v is an element of H-0(1)(Omega) are established. For nonsmooth data, that is, v is an element of L-2(Omega), the optimal L-2(Omega)-error estimate is shown to hold only under an additional assumption on the triangulation, which is known to be satisfied for symmetric triangulations. Super-convergence result is also proved and as a consequence, a quasi-optimal error estimate is established in the L-infinity(Omega)-norm. Further, two fully discrete schemes using convolution quadrature in time generated by the backward Euler and the second-order backward difference methods are analyzed, and error estimates are derived for both smooth and nonsmooth initial data. Based on a comparison of the standard Galerkin finite element solution with the FVE solution and exploiting tools for Laplace transforms with semigroup type properties of the FVE solution operator, our analysis is then extended in a unified manner to several time fractional order evolution problems. Finally, several numerical experiments are conducted to confirm our theoretical findings. |
| Genre | Article |
| Topic | VOLUME ELEMENT METHOD |
| Identifier | ESAIM-MATHEMATICAL MODELLING AND NUMERICAL ANALYSIS-MODELISATION MATHEMATIQUE ET ANALYSE NUMERIQUE,52(2)773-801 |