This article presents a novel sampled-data static output-feedback control technique for continuous-time linear parameter-varying (LPV) systems. Particularly, the input-delay approach is introduced to map the sample-and-hold dynamics into the continuous-time domain with delay in the states. This, together with a new parameter-dependent Lyapunov-Krasovskii functional, results in a bounded real lemma for the underlying closed-loop LPV systems. Furthermore, application of convex optimization techniques transforms the controller synthesis problem into the feasibility of a group of parameterized matrix inequalities. It is also shown that the convexification procedures allow for controller dependence on time-varying parameters. Simulation studies ...
Linear Parameter-Varying (LPV) techniques provide a convenient extension of linear systems theory to...
International audienceThis paper addresses the design of a sampled-data model predictive control (MP...
This paper investigates the problem of discretization and digital output feedback control design for...
This article presents a novel sampled-data static output-feedback control technique for continuous-t...
Sampled-data output-feedback H ∞ control of linear systems is considered. The only restriction on th...
In this paper, we address the analysis and the state-feedback synthesis problems for linear paramete...
A new approach to robust sampled-data control is introduced. The system is modelled as a continuous-...
This paper proposes new synthesis conditions to design H∞ static output-feedback controllers for dis...
Sampled-data H1 control of linear systems with constant state, control and measurement delays is con...
This paper extends existing results on a technique for gain-scheduled, L 2 -gain control of linear p...
This paper studies the problem of exponential stabilization of linear systems with time-varying samp...
This paper addresses the design of optimal sampled-data output feedback full order controllers for l...
This paper addresses the problem of delay-dependent stabilization for linear parameter-varying syste...
This paper discusses the design of gain-scheduled sampled-data controllers for continuous-time polyt...
International audienceThis chapter deals with the stability analysis of sampled-data systems with in...
Linear Parameter-Varying (LPV) techniques provide a convenient extension of linear systems theory to...
International audienceThis paper addresses the design of a sampled-data model predictive control (MP...
This paper investigates the problem of discretization and digital output feedback control design for...
This article presents a novel sampled-data static output-feedback control technique for continuous-t...
Sampled-data output-feedback H ∞ control of linear systems is considered. The only restriction on th...
In this paper, we address the analysis and the state-feedback synthesis problems for linear paramete...
A new approach to robust sampled-data control is introduced. The system is modelled as a continuous-...
This paper proposes new synthesis conditions to design H∞ static output-feedback controllers for dis...
Sampled-data H1 control of linear systems with constant state, control and measurement delays is con...
This paper extends existing results on a technique for gain-scheduled, L 2 -gain control of linear p...
This paper studies the problem of exponential stabilization of linear systems with time-varying samp...
This paper addresses the design of optimal sampled-data output feedback full order controllers for l...
This paper addresses the problem of delay-dependent stabilization for linear parameter-varying syste...
This paper discusses the design of gain-scheduled sampled-data controllers for continuous-time polyt...
International audienceThis chapter deals with the stability analysis of sampled-data systems with in...
Linear Parameter-Varying (LPV) techniques provide a convenient extension of linear systems theory to...
International audienceThis paper addresses the design of a sampled-data model predictive control (MP...
This paper investigates the problem of discretization and digital output feedback control design for...