International audienceRobust dynamic output design most often relies on nonconvex problems. This is precisely the case with linear parameter-varying (LPV) control when the measured varying parameters do not exactly fit the real ones. This paper provides a solution in the convex programming framework with the use of linear matrix inequality (LMI) solvers in the case of polytopic parameter dependence. A bounded uncertainty set is defined from the difference between the measured and the true parameters from which LMI stabilization and performance conditions are obtained after bounding. As a desired property, the proposed conditions reduce to the classical LPV ones whenever the true parameters are available for control synthesis
A new method for the design of fixed-structure dynamic output-feedback Linear Parameter Varying (LPV...
This paper presents a new procedure for continuous and discrete-time linear control systems design. ...
This paper presents a new procedure for continuous and discrete-time linear control systems design. ...
International audienceRobust dynamic output design most often relies on nonconvex problems. This is ...
Linear matrix inequality conditions are given for the existence of a stabilising linear parameter de...
Gain-scheduling approach is a powerful tool but it only guarantees the local stability and performan...
Convex parameterization of fixed-order robust stabilizing controllers for systems with polytopic unc...
In this paper, a convex set of fixed-order H-infinity and H2 dynamic output-feedback controllers for...
In this paper, the problem of designing an LPV state-feedback controller for uncertain LPV systems t...
Linear Parameter-Varying (LPV) techniques provide a convenient extension of linear systems theory to...
Synthesising a gain-scheduled output feedback H∞ controller via parameter-dependent Lyapunov functio...
In this paper, we deal with the problem of stability and stabilization for linear parameter-varying ...
Abstract—A method is presented for synthesizing output estimators for a class of continuous time, un...
This paper presents an iterative algorithm to compute a Robust Control Invariant (RCI) set, along wi...
This paper presents an improved robust stability condition for uncertain discrete-time systems with ...
A new method for the design of fixed-structure dynamic output-feedback Linear Parameter Varying (LPV...
This paper presents a new procedure for continuous and discrete-time linear control systems design. ...
This paper presents a new procedure for continuous and discrete-time linear control systems design. ...
International audienceRobust dynamic output design most often relies on nonconvex problems. This is ...
Linear matrix inequality conditions are given for the existence of a stabilising linear parameter de...
Gain-scheduling approach is a powerful tool but it only guarantees the local stability and performan...
Convex parameterization of fixed-order robust stabilizing controllers for systems with polytopic unc...
In this paper, a convex set of fixed-order H-infinity and H2 dynamic output-feedback controllers for...
In this paper, the problem of designing an LPV state-feedback controller for uncertain LPV systems t...
Linear Parameter-Varying (LPV) techniques provide a convenient extension of linear systems theory to...
Synthesising a gain-scheduled output feedback H∞ controller via parameter-dependent Lyapunov functio...
In this paper, we deal with the problem of stability and stabilization for linear parameter-varying ...
Abstract—A method is presented for synthesizing output estimators for a class of continuous time, un...
This paper presents an iterative algorithm to compute a Robust Control Invariant (RCI) set, along wi...
This paper presents an improved robust stability condition for uncertain discrete-time systems with ...
A new method for the design of fixed-structure dynamic output-feedback Linear Parameter Varying (LPV...
This paper presents a new procedure for continuous and discrete-time linear control systems design. ...
This paper presents a new procedure for continuous and discrete-time linear control systems design. ...