Title
Optimal convergence of finite element approximation to an optimization problem with PDE constraint*
Document Type
Article
Publication Date
4-1-2022
Abstract
We study in this paper the optimal convergence of finite element approximation to an optimization problem with PDE constraint. Specifically, we consider an elliptic distributed optimal control problem without control constraints, which can also be viewed as a regularized inverse source problem. The main contributions are two-fold. First, we derive a priori and a posteriori error estimates for the optimization problems, under an appropriately chosen norm that allows us to establish an isomorphism between the solution space and its dual. These results yield error estimates with explicit dependence on the regularization parameter alpha so that the constants appeared in the derivation are independent of alpha. Second, we prove the contraction property and rate optimality for the adaptive algorithm with respect to the error estimator and solution errors between the adaptive finite element solutions and the continuous solutions. Extensive numerical experiments are presented that confirm our theoretical results.
Publication Source (Journal or Book title)
INVERSE PROBLEMS
Recommended Citation
Gong, W., Tan, Z., & Zhou, Z. (2022). Optimal convergence of finite element approximation to an optimization problem with PDE constraint*. INVERSE PROBLEMS, 38 (4) https://doi.org/10.1088/1361-6420/ac4f5c