International audiencePole placement represents a classical method for controlling finite-dimensional linear timeinvariant systems, largely covered in the open literature. Basically, it consists of placing the poles of the closed-loop system in some predetermined loci in the complex plane. This paper discusses some of the extensions of this method to linear systems described by delay-differential equations. Among others, the finite spectrum assignment (FSA), the continuous pole placement (CPP) and the partial pole placement (PPP) approaches are presented and illustrated through some simple low-order dynamical systems
The method known as the dominant pole algorithm (DPA) has previously been successfully used in combi...
The method known as the dominant pole algorithm (DPA) has previously been successfully used in combi...
This paper is aimed at the presentation of a suboptimal numerical algorithm that has been designed f...
International audiencePole placement represents a classical method for controlling finite-dimensiona...
In this paper, we describe a stabilization method for linear time-delay systems which extends the cl...
We investigate the exact and approximate spectrum assignment properties associated with realizable o...
This chapter presents a parameter-based frequency-domain approach for the analysis and control of li...
International audienceThis paper concerns some spectral properties of the scalar dynamical system de...
International audienceThis chapter briefly presents some "user-friendly" methods and techniques (fre...
International audienceThis paper presents a systematic frequency domain approach to analyse the stab...
An appropriate setting of eventual controller parameters for a derived controller structure represen...
International audienceRecently, the conditions on a multiple spectral value to be dominant for retar...
AbstractA design procedure is put forward for pole allocation for single-input systems with time del...
Systems with internal delays in feedback loops, so called time-delay or anisochronic ones, constitut...
The method known as the dominant pole algorithm (DPA) has previously been successfully used in combi...
The method known as the dominant pole algorithm (DPA) has previously been successfully used in combi...
This paper is aimed at the presentation of a suboptimal numerical algorithm that has been designed f...
International audiencePole placement represents a classical method for controlling finite-dimensiona...
In this paper, we describe a stabilization method for linear time-delay systems which extends the cl...
We investigate the exact and approximate spectrum assignment properties associated with realizable o...
This chapter presents a parameter-based frequency-domain approach for the analysis and control of li...
International audienceThis paper concerns some spectral properties of the scalar dynamical system de...
International audienceThis chapter briefly presents some "user-friendly" methods and techniques (fre...
International audienceThis paper presents a systematic frequency domain approach to analyse the stab...
An appropriate setting of eventual controller parameters for a derived controller structure represen...
International audienceRecently, the conditions on a multiple spectral value to be dominant for retar...
AbstractA design procedure is put forward for pole allocation for single-input systems with time del...
Systems with internal delays in feedback loops, so called time-delay or anisochronic ones, constitut...
The method known as the dominant pole algorithm (DPA) has previously been successfully used in combi...
The method known as the dominant pole algorithm (DPA) has previously been successfully used in combi...
This paper is aimed at the presentation of a suboptimal numerical algorithm that has been designed f...