Optimal error estimates of a linearized second-order BDF scheme for a nonlocal parabolic problem
Autor: | M.S. Daoussa Haggar, M. Mbehou |
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Rok vydání: | 2023 |
Předmět: | |
Zdroj: | Arab Journal of Mathematical Sciences. |
ISSN: | 2588-9214 1319-5166 |
DOI: | 10.1108/ajms-05-2022-0126 |
Popis: | PurposeThis paper focuses on the unconditionally optimal error estimates of a linearized second-order scheme for a nonlocal nonlinear parabolic problem. The first step of the scheme is based on Crank–Nicholson method while the second step is the second-order BDF method.Design/methodology/approachA rigorous error analysis is done, and optimal L2 error estimates are derived using the error splitting technique. Some numerical simulations are presented to confirm the study’s theoretical analysis.FindingsOptimal L2 error estimates and energy norm.Originality/valueThe goal of this research article is to present and establish the unconditionally optimal error estimates of a linearized second-order BDF finite element scheme for the reaction-diffusion problem. An optimal error estimate for the proposed methods is derived by using the temporal-spatial error splitting techniques, which split the error between the exact solution and the numerical solution into two parts, that is, the temporal error and the spatial error. Since the spatial error is not dependent on the time step, the boundedness of the numerical solution in L∞-norm follows an inverse inequality immediately without any restriction on the grid mesh. |
Databáze: | OpenAIRE |
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