Abstract A new functional-based approach is developed for the stability analysis of linear impulsive systems. The new method, which introduces looped-functionals, considers non-monotonic Lyapunov functions and leads to LMIs conditions devoid of exponential terms. This allows one to easily formulate dwell-times results, for both certain and uncertain systems. It is also shown that this approach may be applied to a wider class of impulsive systems than existing methods. Some examples, notably on sampled-data systems, illustrate the efficiency of the approach
AbstractThis paper studies robust stability of uncertain impulsive dynamical systems. By introducing...
This paper presents a new approach for analyzing delay-dependent stability and hybrid L2 X l2-gain p...
In this work, we consider impulsive dynamical systems evolving on an infinite-dimensional space and ...
International audienceA new functional-based approach is developed for the stability analysis of lin...
International audienceAn improved functional-based approach for the stability analysis of linear unc...
Accepted at IEEE Transactions on Automatic Control 10.1109/TAC.2012.2200379International audienceNew...
International audienceThis article investigates the asymptotic stability of impulsive delay dynamica...
International audienceThe robust stability analysis of asynchronous and uncertain sampled-data syste...
International audience— In this paper we give tractable necessary and sufficient condition for the g...
International audienceThis paper contributes to the stability analysis for nonlinear impulsive dynam...
This paper contributes to the stability analysis for impulsive dynamical systems based on a vector L...
The problem of persistent bounded disturbance rejection for uncertain linear impulsive systems is co...
Abstract. We prove that impulsive systems, which possess an ISS Lyapunov function, are ISS for time ...
The problems of exponential stability and L2-gain for a class of time-delay systems with impulsive e...
This paper investigates stability for systems with practical levels of complexity including nonlinea...
AbstractThis paper studies robust stability of uncertain impulsive dynamical systems. By introducing...
This paper presents a new approach for analyzing delay-dependent stability and hybrid L2 X l2-gain p...
In this work, we consider impulsive dynamical systems evolving on an infinite-dimensional space and ...
International audienceA new functional-based approach is developed for the stability analysis of lin...
International audienceAn improved functional-based approach for the stability analysis of linear unc...
Accepted at IEEE Transactions on Automatic Control 10.1109/TAC.2012.2200379International audienceNew...
International audienceThis article investigates the asymptotic stability of impulsive delay dynamica...
International audienceThe robust stability analysis of asynchronous and uncertain sampled-data syste...
International audience— In this paper we give tractable necessary and sufficient condition for the g...
International audienceThis paper contributes to the stability analysis for nonlinear impulsive dynam...
This paper contributes to the stability analysis for impulsive dynamical systems based on a vector L...
The problem of persistent bounded disturbance rejection for uncertain linear impulsive systems is co...
Abstract. We prove that impulsive systems, which possess an ISS Lyapunov function, are ISS for time ...
The problems of exponential stability and L2-gain for a class of time-delay systems with impulsive e...
This paper investigates stability for systems with practical levels of complexity including nonlinea...
AbstractThis paper studies robust stability of uncertain impulsive dynamical systems. By introducing...
This paper presents a new approach for analyzing delay-dependent stability and hybrid L2 X l2-gain p...
In this work, we consider impulsive dynamical systems evolving on an infinite-dimensional space and ...