Measures and LMIs for Impulsive Nonlinear Optimal Control

Author

Claeys, Maxim ; Arzelier, Denis ; Henrion, Didier ; Lasserre, Jean-Bernard

Author_Institution

LAAS, Toulouse, France

Volume

59

Issue

5

fYear

2014

fDate

May-14

Firstpage

1374

Lastpage

1379

Abstract

This note shows how to use semi-definite programming to find lower bounds on a large class of nonlinear optimal control problems with polynomial dynamics and convex semialgebraic state constraints and an affine dependence on the control. This is done by relaxing an optimal control problem into a linear programming problem on measures, also known as a generalized moment problem. The handling of measures by their moments reduces the problem to a convergent series of standard linear matrix inequality relaxations. When the optimal control consists of a finite number of impulses, we can recover simultaneously the actual impulse times and amplitudes by simple linear algebra. Finally, our approach can be readily implemented with standard software, as illustrated by a numerical example.

Keywords

convex programming; linear matrix inequalities; linear programming; method of moments; nonlinear control systems; optimal control; LMI; convex semialgebraic state constraints; generalized moment problem; impulsive nonlinear optimal control; linear matrix inequality relaxations; linear programming problem; polynomial dynamics; semidefinite programming; Aerospace electronics; Extraterrestrial measurements; Optimal control; Polynomials; Standards; Time measurement; Trajectory; Impulsive control; linear matrix inequalities; moment approach; occupation measures; optimal control;

fLanguage

English

Journal_Title

Automatic Control, IEEE Transactions on

Publisher

ieee

ISSN

0018-9286

Type

jour

DOI

10.1109/TAC.2013.2292735

Filename

6674982