International audienceThe article proposes a convex optimization approach for the design of relay feedback controllers. The case of linear systems is studied in the presence of matched perturbations. The system input is a generalized relay that may take values in a finite set of constant vectors. A simple design method is proposed using Linear Matrix Inequalities (LMIs). Furthermore, the approach is used in the sampled-data case in order to guarantee (locally) the practical stabilization to a bounded ellipsoid of the order of the sampling interval. Time-varying uncertainties (in the state matrix and the sampling interval) can be easily included in the analysis
AbstractWe discuss how to solve rather general structured controller design problems by convex optim...
International audienceThis paper shows that, under specific structures of generalized plants, the se...
Abstract—In this paper, the design of controllers that incor-porate structural and multiobjective pe...
Abstract — We develop a general class of stochastic optimal control problems for which the problem o...
Abstract — We consider the problem of synthesizing optimal linear feedback policies subject to arbit...
This doctoral thesis treats three issues in control engineering related to relay feedback and multiv...
Abstract—We consider the problem of synthesizing optimal linear feedback policies subject to arbitra...
This paper presents a new procedure for continuous and discrete-time linear control systems design. ...
Abstract — In this paper, a new algorithm is proposed for the design of a family of controllers to b...
This paper presents a new procedure for continuous and discrete-time linear control systems design. ...
This paper discusses the design of optimal linear controllers for the attenuation of known periodic ...
International audience— The problem of finite-time stabilization of multi-input linear system by mea...
We consider the problem of synthesizing optimal linear feedback policies subject to arbitrary convex...
Linear matrix inequality conditions are given for the existence of a stabilising linear parameter de...
In this thesis, we outline three contributions in robust control. The first is the efficient computa...
AbstractWe discuss how to solve rather general structured controller design problems by convex optim...
International audienceThis paper shows that, under specific structures of generalized plants, the se...
Abstract—In this paper, the design of controllers that incor-porate structural and multiobjective pe...
Abstract — We develop a general class of stochastic optimal control problems for which the problem o...
Abstract — We consider the problem of synthesizing optimal linear feedback policies subject to arbit...
This doctoral thesis treats three issues in control engineering related to relay feedback and multiv...
Abstract—We consider the problem of synthesizing optimal linear feedback policies subject to arbitra...
This paper presents a new procedure for continuous and discrete-time linear control systems design. ...
Abstract — In this paper, a new algorithm is proposed for the design of a family of controllers to b...
This paper presents a new procedure for continuous and discrete-time linear control systems design. ...
This paper discusses the design of optimal linear controllers for the attenuation of known periodic ...
International audience— The problem of finite-time stabilization of multi-input linear system by mea...
We consider the problem of synthesizing optimal linear feedback policies subject to arbitrary convex...
Linear matrix inequality conditions are given for the existence of a stabilising linear parameter de...
In this thesis, we outline three contributions in robust control. The first is the efficient computa...
AbstractWe discuss how to solve rather general structured controller design problems by convex optim...
International audienceThis paper shows that, under specific structures of generalized plants, the se...
Abstract—In this paper, the design of controllers that incor-porate structural and multiobjective pe...