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Robust Iterative Solution of a Class of Time-Dependent Optimal Control Problems
- Abstract:
- The fast iterative solution of optimal control problems, and in particular PDE-constrained optimization problems, has become an active area of research in applied mathematics and numerical analysis. In this paper, we consider the solution of a class of time-dependent PDE-constrained optimization problems, specifically the distributed control of the heat equation. We develop a strategy to approximate the (1,1)-block and Schur complement of the saddle point system that results from solving this problem, and therefore derive a block diagonal preconditioner to be used within the MINRES algorithm. We present numerical results to demonstrate that this approach yields a robust solver with respect to step-size and regularization parameter.
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(Preview, pdf, 409.3KB, Terms of use)
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- Publisher:
- Wiley
- Publication date:
- 2012-07-01
- UUID:
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uuid:0553aa14-d0f4-4f74-985b-57dbdbb33737
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oai:eprints.maths.ox.ac.uk:1560
- Deposit date:
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2012-07-18
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- Copyright date:
- 2012
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