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Bibliographic Details
Main Authors: Kunisch, Karl, Simon, John Sebastian H.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.06479
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author Kunisch, Karl
Simon, John Sebastian H.
author_facet Kunisch, Karl
Simon, John Sebastian H.
contents A shape optimization problem subject to an elliptic equation in the presence of missing data on the Dirichlet boundary condition is considered. It is formulated by optimizing the deformation field that varies the spatial domain where the Poisson equation is posed. To take into consideration the missing boundary data the problem is formulated as a no-regret problem and approximated by low-regret problems. This approach allows to obtain deformation fields which are robust against the missing information. The formulation of the regret problems was achieved by employing the Fenchel transform. Convergence of the solutions of the low-regret to the no-regret problems is analysed, the gradient of the cost is characterized and a first order numerical method is proposed. Numerical examples illustrate the robustness of the low-regret deformation fields with respect to missing data. This is likely the first time that a numerical investigation is reported on for the level of effectiveness of the low-regret approach in the presence of missing data in an optimal control problem.
format Preprint
id arxiv_https___arxiv_org_abs_2412_06479
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Low-regret shape optimization in the presence of missing Dirichlet data
Kunisch, Karl
Simon, John Sebastian H.
Optimization and Control
A shape optimization problem subject to an elliptic equation in the presence of missing data on the Dirichlet boundary condition is considered. It is formulated by optimizing the deformation field that varies the spatial domain where the Poisson equation is posed. To take into consideration the missing boundary data the problem is formulated as a no-regret problem and approximated by low-regret problems. This approach allows to obtain deformation fields which are robust against the missing information. The formulation of the regret problems was achieved by employing the Fenchel transform. Convergence of the solutions of the low-regret to the no-regret problems is analysed, the gradient of the cost is characterized and a first order numerical method is proposed. Numerical examples illustrate the robustness of the low-regret deformation fields with respect to missing data. This is likely the first time that a numerical investigation is reported on for the level of effectiveness of the low-regret approach in the presence of missing data in an optimal control problem.
title Low-regret shape optimization in the presence of missing Dirichlet data
topic Optimization and Control
url https://arxiv.org/abs/2412.06479