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01.03.2015 | Survey Article

Second Order Optimality Conditions and Their Role in PDE Control

verfasst von: Eduardo Casas, Fredi Tröltzsch

Erschienen in: Jahresbericht der Deutschen Mathematiker-Vereinigung | Ausgabe 1/2015

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Abstract

If \(f: \mathbb{R}^{n} \to \mathbb{R}\) is twice continuously differentiable, f′(u)=0 and f″(u) is positive definite, then u is a local minimizer of f. This paper surveys the extension of this well known second order sufficient optimality condition to the case \(f: U \to \mathbb{R}\), where U is an infinite-dimensional linear normed space. The reader will be guided from the case of finite dimensions via a brief discussion of the calculus of variations and the optimal control of ordinary differential equations to the control of nonlinear partial differential equations, where U is a function space. In particular, the following questions will be addressed: Is the extension to infinite dimensions straightforward or will unexpected difficulties occur? How have second order sufficient optimality conditions to be modified, if simple inequality constraints are imposed on u? Why do we need second order conditions and how can they be applied? If they are important, are we able to check if they are fulfilled?

It turns out that infinite dimensions cause new difficulties that do not occur in finite dimensions. We will be faced with the surprising fact that the space, where f″(u) exists can be useless to ensure positive definiteness of the quadratic form v↦f″(u)v ². In this context, the famous two-norm discrepancy, its consequences, and techniques for overcoming this difficulty are explained. To keep the presentation simple, the theory is developed for problems in function spaces with simple box constraints of the form α≤u≤β. The theory of second order conditions in the control of partial differential equations is presented exemplarily for the nonlinear heat equation. Different types of critical cones are introduced, where the positivity of f″(u) must be required. Their form depends on whether a so-called Tikhonov regularization term is part of the functional f or not. In this context, the paper contains also new results that lead to quadratic growth conditions in the strong sense.

As a first application of second order sufficient conditions, the stability of optimal solutions with respect to perturbations of the data of the control problem is discussed. Second, their use in analyzing the discretization of control problems by finite elements is studied. A survey on further related topics, open questions, and relevant literature concludes the paper.

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Titel: Second Order Optimality Conditions and Their Role in PDE Control
verfasst von: Eduardo Casas
Fredi Tröltzsch
Publikationsdatum: 01.03.2015
Verlag: Springer Berlin Heidelberg
Erschienen in: Jahresbericht der Deutschen Mathematiker-Vereinigung / Ausgabe 1/2015
Print ISSN: 0012-0456
Elektronische ISSN: 1869-7135
DOI: https://doi.org/10.1365/s13291-014-0109-3

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