A trust region reduced basis Pascoletti-Serafini algorithm for multi-objective PDE-constrained parameter optimization
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2022
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In the present paper non-convex multi-objective parameter optimization problems are considered which are governed by elliptic parametrized partial differential equations (PDEs). To solve these problems numerically the Pascoletti-Serafini scalarization is applied and the obtained scalar optimization problems are solved by an augmented Lagrangian method. However, due to the PDE constraints, the numerical solution is very expensive so that a model reduction is utilized by using the reduced basis (RB) method. The quality of the RB approximation is ensured by a trust-region strategy which does not require any offline procedure, where the RB functions are computed in a greedy algorithm. Moreover, convergence of the proposed method is guaranteed. Numerical examples illustrate the efficiency of the proposed solution technique.
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BANHOLZER, Stefan, Luca MECHELLI, Stefan VOLKWEIN, 2022. A trust region reduced basis Pascoletti-Serafini algorithm for multi-objective PDE-constrained parameter optimizationBibTex
@techreport{Banholzer2022trust-56240,
year={2022},
series={Konstanzer Schriften in Mathematik},
title={A trust region reduced basis Pascoletti-Serafini algorithm for multi-objective PDE-constrained parameter optimization},
number={401},
author={Banholzer, Stefan and Mechelli, Luca and Volkwein, Stefan},
note={Wird erscheinen in: Mathematical and Computational Applications ; von 2022}
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<dcterms:abstract xml:lang="eng">In the present paper non-convex multi-objective parameter optimization problems are considered which are governed by elliptic parametrized partial differential equations (PDEs). To solve these problems numerically the Pascoletti-Serafini scalarization is applied and the obtained scalar optimization problems are solved by an augmented Lagrangian method. However, due to the PDE constraints, the numerical solution is very expensive so that a model reduction is utilized by using the reduced basis (RB) method. The quality of the RB approximation is ensured by a trust-region strategy which does not require any offline procedure, where the RB functions are computed in a greedy algorithm. Moreover, convergence of the proposed method is guaranteed. Numerical examples illustrate the efficiency of the proposed solution technique.</dcterms:abstract>
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Wird erscheinen in: Mathematical and Computational Applications ; von 2022
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