Add to ORKGAbstract: The problem of decoupling a linear system by dy-namic compensation into multi-input multi-output subsystems is studied by applying proper and stable fractional representations of transfer matrices. A necessary and sufficient condition is given for a decoupling and a stabilizing controller to exist. The set of all controllers that decouple and simultaneously stabilize the system is determined in parametric form. Optimal decoupling controllers are then obtained by an appropriate selection of the parameter
A dynamic feedforward scheme allows measurable signal decoupling to be solved independently of other...
summary:In this paper we present an input-output point of view for the problem of closed loop norm m...
This paper deals with the input-output decoupling problem with asymptotic stability for a class of m...
The problem of decoupling a linear system by dynamic compensation into multi-input multi-output subs...
Sufficient and necessary conditions are derived for solving disturbance decoupling problems by using...
A new approach to optimal decoupling for multi-input multi-output (MIMO), linear, time-invariant con...
AbstractThe transfer matrix approach allows one to exhibit fairly easily fundamental invariants of m...
In the design of feedback control systems for linear multivariable plants, insisting on the eliminat...
Absfracf-Necessary and sdicient conditions far the "decou-pling " of an m-input, m-output ...
The problem of linear system decoupling is examined based on recent results on linear feedback. New ...
summary:In this paper we present a solution to the decoupling problem with stability of linear multi...
Abstruct-The problem of linear system decoupling is examined based on recent results on linear feedb...
In this paper, the use of the Smith-McMillan form in decoupling multiple-input multiple-output syste...
The problem of reducing a multi input-multi output system to many single input-single output systems...
MIMO-identification and robust MIMO-controller design are cumbersome. As a result, MIMO-systems are ...
A dynamic feedforward scheme allows measurable signal decoupling to be solved independently of other...
summary:In this paper we present an input-output point of view for the problem of closed loop norm m...
This paper deals with the input-output decoupling problem with asymptotic stability for a class of m...
The problem of decoupling a linear system by dynamic compensation into multi-input multi-output subs...
Sufficient and necessary conditions are derived for solving disturbance decoupling problems by using...
A new approach to optimal decoupling for multi-input multi-output (MIMO), linear, time-invariant con...
AbstractThe transfer matrix approach allows one to exhibit fairly easily fundamental invariants of m...
In the design of feedback control systems for linear multivariable plants, insisting on the eliminat...
Absfracf-Necessary and sdicient conditions far the "decou-pling " of an m-input, m-output ...
The problem of linear system decoupling is examined based on recent results on linear feedback. New ...
summary:In this paper we present a solution to the decoupling problem with stability of linear multi...
Abstruct-The problem of linear system decoupling is examined based on recent results on linear feedb...
In this paper, the use of the Smith-McMillan form in decoupling multiple-input multiple-output syste...
The problem of reducing a multi input-multi output system to many single input-single output systems...
MIMO-identification and robust MIMO-controller design are cumbersome. As a result, MIMO-systems are ...
A dynamic feedforward scheme allows measurable signal decoupling to be solved independently of other...
summary:In this paper we present an input-output point of view for the problem of closed loop norm m...
This paper deals with the input-output decoupling problem with asymptotic stability for a class of m...