As part of the development of Lyapunov techniques for cyberphysical systems, we study and compare graph-based stability certificates with respect to their conservatism. Previous work have highlighted the dependence of this ordering with respect to the properties of the chosen template of candidate Lyapunov functions. We extend here previous results from the literature to the case of templates closed under addition, as for instance the set of quadratic functions. In this context, we provide a characterization of the ordering, using an approach based on abstract operations on graphs, called lifts, which encode in a combinatorial way the algebraic properties of the chosen template. We finally provide a numerical method to algorithmically check...
We study the stability of switching dynamical systems with the following dynamics
Abstract: We investigate linear programming relaxations to synthesize Lyapunov functions that es-tab...
In this paper, in the framework of stability analysis of switched systems, we review and analyze mul...
As part of the development of Lyapunov techniques for cyberphysical systems, we study and compare gr...
In the context of discrete-time switched systems, we study the comparison of stability certificates ...
This paper investigates, in the context of discrete-time switched systems, the problem of comparison...
In the framework of discrete-time switching systems, we analyze and compare various stability certif...
We study criteria allowing to compare the conservativeness of stability certificates for switching s...
We study path-complete Lyapunov functions, which are stability criteria for switched systems, descri...
We provide an algorithmic procedure allowing to compare stability certificates for discretetime swit...
A Path-Complete Lyapunov Function is an algebraic criterion composed of a finite number of functions...
We study path-complete Lyapunov functions, which are stability criteria for switched systems, descri...
A Path-Complete Lyapunov Function is an algebraic criterion composed of a finite number of functions...
We study optimization-based criteria for the stability of switching systems, known as Path-Complete ...
We introduce the framework of path-complete graph Lyapunov functions for approximation of the joint ...
We study the stability of switching dynamical systems with the following dynamics
Abstract: We investigate linear programming relaxations to synthesize Lyapunov functions that es-tab...
In this paper, in the framework of stability analysis of switched systems, we review and analyze mul...
As part of the development of Lyapunov techniques for cyberphysical systems, we study and compare gr...
In the context of discrete-time switched systems, we study the comparison of stability certificates ...
This paper investigates, in the context of discrete-time switched systems, the problem of comparison...
In the framework of discrete-time switching systems, we analyze and compare various stability certif...
We study criteria allowing to compare the conservativeness of stability certificates for switching s...
We study path-complete Lyapunov functions, which are stability criteria for switched systems, descri...
We provide an algorithmic procedure allowing to compare stability certificates for discretetime swit...
A Path-Complete Lyapunov Function is an algebraic criterion composed of a finite number of functions...
We study path-complete Lyapunov functions, which are stability criteria for switched systems, descri...
A Path-Complete Lyapunov Function is an algebraic criterion composed of a finite number of functions...
We study optimization-based criteria for the stability of switching systems, known as Path-Complete ...
We introduce the framework of path-complete graph Lyapunov functions for approximation of the joint ...
We study the stability of switching dynamical systems with the following dynamics
Abstract: We investigate linear programming relaxations to synthesize Lyapunov functions that es-tab...
In this paper, in the framework of stability analysis of switched systems, we review and analyze mul...