Necessary and sufficient conditions are provided for stochastic stability and mean exponential stability of impulsive systems with jumps triggered by a renewal process, that is, the intervals between jumps are independent and identically distributed. The conditions for stochastic stability can be efficiently tested in terms of the feasibility of a set of LMIs or in terms of an algebraic test. The relation between the different stability notions for this class of systems is also discussed. The results are illustrated through their application to the stability analysis of networked control systems. We present two benchmark examples for which one can guarantee stability for inter-sampling times roughly twice as large as in a previous paper
We study the exponential stability of the complex dynamical network described by differentially nonl...
Abstract—This note is concerned with stability analysis and stabilization of randomly switched syste...
We consider Stochastic Hybrid Systems (SHSs) for which the lengths of times that the system stays in...
Necessary and sufficient conditions are provided for stochastic stability and mean exponential stabi...
Abstract — Necessary and sufficient conditions are provided for stochastic stability and mean expone...
We consider impulsive systems with several reset maps triggered by independent renewal processes, i....
We consider networked control systems in which sensors, actuators, and controller transmit through a...
identically distributed intervals between transitions. Our approach involves the derivation of novel...
We consider the control of impulsive systems with independent and identically distributed intervals ...
In this study, the problem of input-to-state stability (ISS) is systematically investigated for nonl...
This paper presents a novel impulsive system approach to input-to-state stability (ISS) analysis of ...
The investigations are made on the exponential synchronization of the stochastic Lur'e system with n...
This paper investigates the problem of noise-to-state practical stability in mean (NSpS-M) (which is...
This survey addresses stability analysis for stochastic hybrid systems (SHS), which are dynamical sy...
We study the exponential stability of the complex dynamical network described by differentially nonl...
Abstract—This note is concerned with stability analysis and stabilization of randomly switched syste...
We consider Stochastic Hybrid Systems (SHSs) for which the lengths of times that the system stays in...
Necessary and sufficient conditions are provided for stochastic stability and mean exponential stabi...
Abstract — Necessary and sufficient conditions are provided for stochastic stability and mean expone...
We consider impulsive systems with several reset maps triggered by independent renewal processes, i....
We consider networked control systems in which sensors, actuators, and controller transmit through a...
identically distributed intervals between transitions. Our approach involves the derivation of novel...
We consider the control of impulsive systems with independent and identically distributed intervals ...
In this study, the problem of input-to-state stability (ISS) is systematically investigated for nonl...
This paper presents a novel impulsive system approach to input-to-state stability (ISS) analysis of ...
The investigations are made on the exponential synchronization of the stochastic Lur'e system with n...
This paper investigates the problem of noise-to-state practical stability in mean (NSpS-M) (which is...
This survey addresses stability analysis for stochastic hybrid systems (SHS), which are dynamical sy...
We study the exponential stability of the complex dynamical network described by differentially nonl...
Abstract—This note is concerned with stability analysis and stabilization of randomly switched syste...
We consider Stochastic Hybrid Systems (SHSs) for which the lengths of times that the system stays in...