English

A Higher-order Maximum Principle for Impulsive Optimal Control Problems

Optimization and Control 2019-07-11 v2

Abstract

We consider a nonlinear system, affine with respect to an unbounded control uu which is allowed to range in a closed cone. To this system we associate a Bolza type minimum problem, with a Lagrangian having sublinear growth with respect to uu. This lack of coercivity gives the problem an {\it impulsive} character, meaning that minimizing sequences of trajectories happen to converge towards discontinuous paths. As is known, a distributional approach does not make sense in such a nonlinear setting, where, instead, a suitable embedding in the graph-space is needed. We provide higher order necessary optimality conditions for properly defined impulsive minima, in the form of equalities and inequalities involving iterated Lie brackets of the dynamical vector fields. These conditions are derived under very weak regularity assumptions and without any constant rank conditions.

Keywords

Cite

@article{arxiv.1903.05056,
  title  = {A Higher-order Maximum Principle for Impulsive Optimal Control Problems},
  author = {M. Soledad Aronna and Monica Motta and Franco Rampazzo},
  journal= {arXiv preprint arXiv:1903.05056},
  year   = {2019}
}
R2 v1 2026-06-23T08:06:00.196Z