A posteriori error estimators for stabilized finite element approximations of an optimal control problem

Alejandro Allendes; Enrique Otárola; Richard Rankin

doi:10.1016/j.cma.2018.05.036

A posteriori error estimators for stabilized finite element approximations of an optimal control problem

Alejandro Allendes, Enrique Otárola, Richard Rankin

Research output: Journal Publication › Article › peer-review

2 Citations (Scopus)

Abstract

We derive a posteriori error estimators for an optimal control problem governed by a convection–reaction–diffusion equation; control constraints are also considered. We consider a family of low-order stabilized finite element methods to approximate the solutions to the state and adjoint equations. We obtain a fully computable a posteriori error estimator for the optimal control problem. All the constants that appear in the upper bound for the error are fully specified. Therefore, the proposed estimator can be used as a stopping criterion in adaptive algorithms. We also obtain a robust a posteriori error estimator for when the error is measured in a norm that involves the dual norm of the convective derivative. Numerical examples, in two and three dimensions, are presented to illustrate the theory.

Original language	English
Pages (from-to)	147-177
Number of pages	31
Journal	Computer Methods in Applied Mechanics and Engineering
Volume	340
DOIs	https://doi.org/10.1016/j.cma.2018.05.036
Publication status	Published - 1 Oct 2018

Keywords

Convection–reaction–diffusion equation
Fully computable a posteriori error estimator
Linear–quadratic optimal control problem
Robust a posteriori error estimator
Stabilized methods

ASJC Scopus subject areas

Computational Mechanics
Mechanics of Materials
Mechanical Engineering
General Physics and Astronomy
Computer Science Applications

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10.1016/j.cma.2018.05.036

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title = "A posteriori error estimators for stabilized finite element approximations of an optimal control problem",

abstract = "We derive a posteriori error estimators for an optimal control problem governed by a convection–reaction–diffusion equation; control constraints are also considered. We consider a family of low-order stabilized finite element methods to approximate the solutions to the state and adjoint equations. We obtain a fully computable a posteriori error estimator for the optimal control problem. All the constants that appear in the upper bound for the error are fully specified. Therefore, the proposed estimator can be used as a stopping criterion in adaptive algorithms. We also obtain a robust a posteriori error estimator for when the error is measured in a norm that involves the dual norm of the convective derivative. Numerical examples, in two and three dimensions, are presented to illustrate the theory.",

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doi = "10.1016/j.cma.2018.05.036",

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T1 - A posteriori error estimators for stabilized finite element approximations of an optimal control problem

AU - Allendes, Alejandro

AU - Otárola, Enrique

AU - Rankin, Richard

PY - 2018/10/1

Y1 - 2018/10/1

N2 - We derive a posteriori error estimators for an optimal control problem governed by a convection–reaction–diffusion equation; control constraints are also considered. We consider a family of low-order stabilized finite element methods to approximate the solutions to the state and adjoint equations. We obtain a fully computable a posteriori error estimator for the optimal control problem. All the constants that appear in the upper bound for the error are fully specified. Therefore, the proposed estimator can be used as a stopping criterion in adaptive algorithms. We also obtain a robust a posteriori error estimator for when the error is measured in a norm that involves the dual norm of the convective derivative. Numerical examples, in two and three dimensions, are presented to illustrate the theory.

AB - We derive a posteriori error estimators for an optimal control problem governed by a convection–reaction–diffusion equation; control constraints are also considered. We consider a family of low-order stabilized finite element methods to approximate the solutions to the state and adjoint equations. We obtain a fully computable a posteriori error estimator for the optimal control problem. All the constants that appear in the upper bound for the error are fully specified. Therefore, the proposed estimator can be used as a stopping criterion in adaptive algorithms. We also obtain a robust a posteriori error estimator for when the error is measured in a norm that involves the dual norm of the convective derivative. Numerical examples, in two and three dimensions, are presented to illustrate the theory.

KW - Convection–reaction–diffusion equation

KW - Fully computable a posteriori error estimator

KW - Linear–quadratic optimal control problem

KW - Robust a posteriori error estimator

KW - Stabilized methods

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DO - 10.1016/j.cma.2018.05.036

M3 - Article

AN - SCOPUS:85048755479

SN - 0045-7825

VL - 340

SP - 147

EP - 177

JO - Computer Methods in Applied Mechanics and Engineering

JF - Computer Methods in Applied Mechanics and Engineering

ER -

A posteriori error estimators for stabilized finite element approximations of an optimal control problem

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Keywords

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