Add to ORKGExtentions of the RGA (relative gain array) technique to nonlinear systems are considered. The steady-state properties are given by an array of nonlinear functions. It is shown that the corresponding dynamic description can be calculated using a reduction algorithm from differential algebra
We present results for the definition of nonlinear steady-state manifolds achieving output regulatio...
The majority of contemporary design tools do not still contain steady-state algorithms, especially f...
Abstract: The paper considers the problem of estimating the unknown input of a nonlinear dynamical s...
Extentions of the RGA (relative gain array) technique to nonlinear systems are considered. The stead...
Extentions of the RGA (relative gain array) technique to nonlinear systems are considered. The stead...
This article presents a procedure that utilizes the local polynomial approximation approach in the e...
The control of multi-input multi-output systems (MIMO) is more difficult than for single-input singl...
A theory of the analysis of nonlinear systems is developed. The central problem is the mathematical ...
Since the introduction of the Relative Gain Array (RGA) by Bristol in 1966, it has become awidely us...
Nonlinear system regulation is an active research area and is important for disturbance rejection an...
A rich collection of analytical tools based on differential geometric methods has been developed for...
This paper shows how Gröbner bases can be used to solve some common problems in nonlinear systems th...
In this paper we propose dynamical systems for computing diagonal balanced realizations arising in c...
A self-contained introduction to algebraic control for nonlinear systems suitable for researchers an...
A computational algorithm for predicting the dynamical response of a nonlinear structure by means of...
We present results for the definition of nonlinear steady-state manifolds achieving output regulatio...
The majority of contemporary design tools do not still contain steady-state algorithms, especially f...
Abstract: The paper considers the problem of estimating the unknown input of a nonlinear dynamical s...
Extentions of the RGA (relative gain array) technique to nonlinear systems are considered. The stead...
Extentions of the RGA (relative gain array) technique to nonlinear systems are considered. The stead...
This article presents a procedure that utilizes the local polynomial approximation approach in the e...
The control of multi-input multi-output systems (MIMO) is more difficult than for single-input singl...
A theory of the analysis of nonlinear systems is developed. The central problem is the mathematical ...
Since the introduction of the Relative Gain Array (RGA) by Bristol in 1966, it has become awidely us...
Nonlinear system regulation is an active research area and is important for disturbance rejection an...
A rich collection of analytical tools based on differential geometric methods has been developed for...
This paper shows how Gröbner bases can be used to solve some common problems in nonlinear systems th...
In this paper we propose dynamical systems for computing diagonal balanced realizations arising in c...
A self-contained introduction to algebraic control for nonlinear systems suitable for researchers an...
A computational algorithm for predicting the dynamical response of a nonlinear structure by means of...
We present results for the definition of nonlinear steady-state manifolds achieving output regulatio...
The majority of contemporary design tools do not still contain steady-state algorithms, especially f...
Abstract: The paper considers the problem of estimating the unknown input of a nonlinear dynamical s...