Interpretability of Path-Complete Techniques and Memory-based Lyapunov functions
Optimization and Control
2022-09-20 v1
Abstract
We study path-complete Lyapunov functions, which are stability criteria for switched systems, described by a combinatorial component (namely, an automaton), and a functional component (a set of candidate Lyapunov functions, called the template). We introduce a class of criteria based on what we call memory-based Lyapunov functions, which generalize several techniques in the literature. Our main result is an equivalence result: any path-complete Lyapunov function is equivalent to a memory-based Lyapunov function, however defined on another template. We show the usefulness of our result in terms of numerical efficiency via an academic example.
Keywords
Cite
@article{arxiv.2209.08561,
title = {Interpretability of Path-Complete Techniques and Memory-based Lyapunov functions},
author = {Matteo Della Rossa and Raphaël M. Jungers},
journal= {arXiv preprint arXiv:2209.08561},
year = {2022}
}
Comments
Preprint, Submitted to ACC23