This paper focuses on the stabilization problem of neutral systems in the presence of time-varying delays and control saturation. Based on a descriptor approach and the use of a modified sector relation, global and local stabilization conditions are derived using Lyapunov-Krasovskii functionals. These con-ditions, formulated directly as linear matrix inequalities (LMIs), allow to relate the control law to be computed to a set of admissible initial conditions, for which the asymptotic and exponential stabilities of the closed-loop system are ensured. An extension of these conditions to the particular case of retarded systems is also provided. From the theoretical conditions, optimization problems with LMI constraints are therefore proposed t...
A linear parameter varying approach is introduced for the design of a constant state-feedback contro...
The problem of state feedback stabilization is studied for networked control systems (NCSs) subject ...
Abstract: Linear matrix inequality conditions are given for the robust stability of neutral systems ...
International audienceThis paper focuses on the stabilization problem of neutral systems in the pres...
Abstract: This paper focuses on the stabilization problem of neutral systems in the presence of cont...
International audienceThis paper focuses on the stabilization problem of neutral systems in the pres...
A method is proposed for stabilization, using static state feedback, of systems subject to time-vary...
This paper addresses the stabilization conditions for neutral systems with mixed time delays. By con...
This paper is concerned with the problems of stability and H∞ control of linear neutral systems. Fir...
This paper focuses on some asymptotic stability problems of a class of linear systems described by n...
In this paper, the problem of stability and stabilization for neutral delay-differential systems wit...
Abstract—In this paper, the problem of stability and stabilization for neutral delay-differential sy...
International audienceThe concept of practical fixed-time input-to-state stability for neutral time-...
It is well-known that the global asymptotic stability analysis of neutral systems is an important co...
Practical stability guarantees trajectories of a dynamical system being bounded within a prespecifie...
A linear parameter varying approach is introduced for the design of a constant state-feedback contro...
The problem of state feedback stabilization is studied for networked control systems (NCSs) subject ...
Abstract: Linear matrix inequality conditions are given for the robust stability of neutral systems ...
International audienceThis paper focuses on the stabilization problem of neutral systems in the pres...
Abstract: This paper focuses on the stabilization problem of neutral systems in the presence of cont...
International audienceThis paper focuses on the stabilization problem of neutral systems in the pres...
A method is proposed for stabilization, using static state feedback, of systems subject to time-vary...
This paper addresses the stabilization conditions for neutral systems with mixed time delays. By con...
This paper is concerned with the problems of stability and H∞ control of linear neutral systems. Fir...
This paper focuses on some asymptotic stability problems of a class of linear systems described by n...
In this paper, the problem of stability and stabilization for neutral delay-differential systems wit...
Abstract—In this paper, the problem of stability and stabilization for neutral delay-differential sy...
International audienceThe concept of practical fixed-time input-to-state stability for neutral time-...
It is well-known that the global asymptotic stability analysis of neutral systems is an important co...
Practical stability guarantees trajectories of a dynamical system being bounded within a prespecifie...
A linear parameter varying approach is introduced for the design of a constant state-feedback contro...
The problem of state feedback stabilization is studied for networked control systems (NCSs) subject ...
Abstract: Linear matrix inequality conditions are given for the robust stability of neutral systems ...