Singularly Perturbed Control Systems with Noncompact Fast Variable
Analysis of PDEs
2015-07-09 v1
Abstract
We deal with a singularly perturbed optimal control problem with slow and fast variable depending on a parameter {\epsilon}. We study the asymptotic, as {\epsilon} goes to 0, of the corresponding value functions, and show convergence, in the sense of weak semilimits, to sub and supersolution of a suitable limit equation containing the effective Hamiltonian. The novelty of our contribution is that no compactness condition are assumed on the fast variable. This generalization requires, in order to perform the asymptotic proce- dure, an accurate qualitative analysis of some auxiliary equations posed on the space of fast variable. The task is accomplished using some tools of Weak KAM theory, and in particular the notion of Aubry set.
Cite
@article{arxiv.1507.02176,
title = {Singularly Perturbed Control Systems with Noncompact Fast Variable},
author = {Thuong Nguyen and Antonio Siconolfi},
journal= {arXiv preprint arXiv:1507.02176},
year = {2015}
}