arXiv:1807.08547 Abstract | arXiv Analytics

arXiv:1807.08547 [math.NA]Abstract References Reviews Resources

Linear multistep methods for optimal control problems and applications to hyperbolic relaxation systems

Giacomo Albi, Michael Herty, Lorenzo Pareschi

Published 2018-07-23Version 1

We are interested in high-order linear multistep schemes for time discretization of adjoint equations arising within optimal control problems. First we consider optimal control problems for ordinary differential equations and show loss of accuracy for Adams-Moulton and Adams-Bashford methods, whereas BDF methods preserve high--order accuracy. Subsequently we extend these results to semi--lagrangian discretizations of hyperbolic relaxation systems. Computational results illustrate theoretical findings.

Categories: math.NA, math.OC

Subjects: 35L65, 49J15, 35Q93, 65L06

Keywords: optimal control problems, hyperbolic relaxation systems, linear multistep methods, results illustrate theoretical findings, bdf methods preserve high-order accuracy

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arXiv:1807.08547 [math.NA]Abstract References Reviews Resources

Linear multistep methods for optimal control problems and applications to hyperbolic relaxation systems

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arXiv:1807.08547 [math.NA]AbstractReferencesReviewsResources

Linear multistep methods for optimal control problems and applications to hyperbolic relaxation systems

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arXiv:1807.08547 [math.NA]Abstract References Reviews Resources