AbstractThis paper derives two canonical state space forms (i.e., the observer canonical form and the observability canonical form) from multiple-input multiple-output systems described by difference equations. The state space model is expressed by the first-order difference equation and is equivalent to the input–output representation. More specifically, by setting the different state variables, the difference equations or the input–output representations can be transformed into two observable canonical forms and the canonical state space model can be also transformed into the difference equations. Finally, two examples are given
We tackle the obtaining of canonical forms for classifying linear control systems with regard to cha...
International audienceThis paper deals with necessary and sufficient conditions to transform a class ...
In this paper a complete presentation is given of a new canonical representation of multi-input, mul...
AbstractThis paper derives two canonical state space forms (i.e., the observer canonical form and th...
AbstractThe main purpose of the paper is to present a uniform algorithm for transforming time-invari...
In this paper, we give sufficient conditions which guarantee the existence of a diffeomorphism in an...
AbstractBased on a generalization of the classical Bruhat factorization of nonsingular matrices to a...
Abstract A basic and substantial theorem of one-dimensional systems theory, due to R. Kalman, says t...
Abstract- In this paper we propose a method to model nonlinear multivariable systems. We will use a ...
In the present paper the problem of equivalence under coordinate changes and output transformations ...
This document is the report of my "Habilitation à Diriger des Recherches". This is equivalent to a s...
Modeling of physical systems consists of writing the equations describing a phenomenon and yields as...
AbstractThe problem of transforming a class of linear time-varying continuous time systems into cont...
AbstractThe problem of transforming a class of time-varying multivariable control system to the cont...
This paper proposes a parameter and state estimator for canonical state space systems from measured ...
We tackle the obtaining of canonical forms for classifying linear control systems with regard to cha...
International audienceThis paper deals with necessary and sufficient conditions to transform a class ...
In this paper a complete presentation is given of a new canonical representation of multi-input, mul...
AbstractThis paper derives two canonical state space forms (i.e., the observer canonical form and th...
AbstractThe main purpose of the paper is to present a uniform algorithm for transforming time-invari...
In this paper, we give sufficient conditions which guarantee the existence of a diffeomorphism in an...
AbstractBased on a generalization of the classical Bruhat factorization of nonsingular matrices to a...
Abstract A basic and substantial theorem of one-dimensional systems theory, due to R. Kalman, says t...
Abstract- In this paper we propose a method to model nonlinear multivariable systems. We will use a ...
In the present paper the problem of equivalence under coordinate changes and output transformations ...
This document is the report of my "Habilitation à Diriger des Recherches". This is equivalent to a s...
Modeling of physical systems consists of writing the equations describing a phenomenon and yields as...
AbstractThe problem of transforming a class of linear time-varying continuous time systems into cont...
AbstractThe problem of transforming a class of time-varying multivariable control system to the cont...
This paper proposes a parameter and state estimator for canonical state space systems from measured ...
We tackle the obtaining of canonical forms for classifying linear control systems with regard to cha...
International audienceThis paper deals with necessary and sufficient conditions to transform a class ...
In this paper a complete presentation is given of a new canonical representation of multi-input, mul...