Numerical Estimation of a Diffusion Coefficient in Subdiffusion
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Publication:5859525
DOI10.1137/19M1295088zbMATH Open1468.65127arXiv1909.00334MaRDI QIDQ5859525
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Publication date: 16 April 2021
Published in: (Search for Journal in Brave)
Abstract: In this work, we consider the numerical recovery of a spatially dependent diffusion coefficient in a subdiffusion model from distributed observations. The subdiffusion model involves a Caputo fractional derivative of order in time. The numerical estimation is based on the regularized output least-squares formulation, with an penalty. We prove the well-posedness of the continuous formulation, e.g., existence and stability. Next, we develop a fully discrete scheme based on the Galerkin finite element method in space and backward Euler convolution quadrature in time. We prove the subsequential convergence of the sequence of discrete solutions to a solution of the continuous problem as the discretization parameters (mesh size and time step size) tend to zero. Further, under an additional regularity condition on the exact coefficient, we derive convergence rates in a weighted norm for the discrete approximations to the exact coefficient {in the one- and two-dimensional cases}. The analysis relies heavily on suitable nonstandard nonsmooth data error estimates for the direct problem. We provide illustrative numerical results to support the theoretical study.
Full work available at URL: https://arxiv.org/abs/1909.00334
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