Add to ORKGAn asymptotic recovery design procedure is proposed for square, discrete-time, linear, time-invariant multivariable systems, which allows a state-feedback design to be approximately recovered by a dynamic output feedback scheme. Both the case of negligible processing time (compared to the sampling interval) and of significant processing time are discussed. In the former case, it is possible to obtain perfect. © 1985 IEEE
Discrete-Time Linear Systems: Theory and Design with Applications combines system theory and design ...
This paper gives a concise parametrization of all identity interactors of a discrete-time multivaria...
In this paper the problem of the asymptotic tracking and stabilization with infinite gain margin, wi...
We show, in this paper, how a classical method for feedback linearization of a multivariable inverti...
The paper proposes a model recovery anti-windup (MRAW) scheme for linear time-invariant and discrete...
This paper considers discrete-time linear time-invariant systems subject to input and state constrai...
AbstractNecessary and sufficient conditions for the decoupling of an m-input, m-output linear discre...
The question of achieving decoupling and asymptotic disturbance rejection in time-invariant linear m...
The problem of the direct design of the closed-loop transfer function matri'; is addressed for multi...
The full text of this article is not available on SOAR. WSU users can access the article via IEEE Xp...
The sequential method for multivariable control systems design is reformulated to include full outpu...
This paper reveals that apart from changes of system structure vital system properties such as stabi...
This paper presents a design method of static output feedback controllers that guarantees asymptotic...
This thesis treats the following problem: Given a multivariable linear time-invariant plant, we want...
International audienceThis paper presents a constructive algorithm to design local controllers for f...
Discrete-Time Linear Systems: Theory and Design with Applications combines system theory and design ...
This paper gives a concise parametrization of all identity interactors of a discrete-time multivaria...
In this paper the problem of the asymptotic tracking and stabilization with infinite gain margin, wi...
We show, in this paper, how a classical method for feedback linearization of a multivariable inverti...
The paper proposes a model recovery anti-windup (MRAW) scheme for linear time-invariant and discrete...
This paper considers discrete-time linear time-invariant systems subject to input and state constrai...
AbstractNecessary and sufficient conditions for the decoupling of an m-input, m-output linear discre...
The question of achieving decoupling and asymptotic disturbance rejection in time-invariant linear m...
The problem of the direct design of the closed-loop transfer function matri'; is addressed for multi...
The full text of this article is not available on SOAR. WSU users can access the article via IEEE Xp...
The sequential method for multivariable control systems design is reformulated to include full outpu...
This paper reveals that apart from changes of system structure vital system properties such as stabi...
This paper presents a design method of static output feedback controllers that guarantees asymptotic...
This thesis treats the following problem: Given a multivariable linear time-invariant plant, we want...
International audienceThis paper presents a constructive algorithm to design local controllers for f...
Discrete-Time Linear Systems: Theory and Design with Applications combines system theory and design ...
This paper gives a concise parametrization of all identity interactors of a discrete-time multivaria...
In this paper the problem of the asymptotic tracking and stabilization with infinite gain margin, wi...