Regular Papers

International Journal of Control, Automation and Systems 2018; 16(6): 2870-2877

Published online October 30, 2018

https://doi.org/10.1007/s12555-017-0541-0

© The International Journal of Control, Automation, and Systems

A Nonparametric Approach to Design Fixed-order Controllers for Systems with Constrained Input

Sofiane Khadraoui* and Hazem Nounou

University of Sharjah

Abstract

This paper presents an approach for designing fixed-structure controllers for input-constrained linear systems using frequency domain data. In conventional control approaches, a plant model is needed to design a suitable controller that meets some user-specified performance specifications. Mathematical models can be built based on fundamental laws or from a set of measurements. In both cases, it is difficult to find a simple and reliable model that completely describes the system behavior. Hence, errors associated with the plant modeling stage may contribute to the degradation of the desired closed-loop performance. Due to the fact that the modeling stage can be viewed only as an intermediate step introduced for the controller design, the concept of data-based control design has been introduced, where controllers are directly designed from measurements. Most existing data-based control approaches are developed for linear systems, which limit their application to systems with nonlinear phenomena. An important non-smooth nonlinearity observed in practical applications is the input saturation, which usually limits the system performance. Here, we attempt to develop a nonparametric approach to design controllers from frequency-domain data by taking into account input constraints. Two practical applications of the proposed method are presented to demonstrate its efficacy."

Keywords Actuator saturation, constrained optimization, data-based control, frequency response, energy consumption, safe process operation.

Article

Regular Papers

International Journal of Control, Automation and Systems 2018; 16(6): 2870-2877

Published online December 1, 2018 https://doi.org/10.1007/s12555-017-0541-0

Copyright © The International Journal of Control, Automation, and Systems.

A Nonparametric Approach to Design Fixed-order Controllers for Systems with Constrained Input

Sofiane Khadraoui* and Hazem Nounou

University of Sharjah

Abstract

This paper presents an approach for designing fixed-structure controllers for input-constrained linear systems using frequency domain data. In conventional control approaches, a plant model is needed to design a suitable controller that meets some user-specified performance specifications. Mathematical models can be built based on fundamental laws or from a set of measurements. In both cases, it is difficult to find a simple and reliable model that completely describes the system behavior. Hence, errors associated with the plant modeling stage may contribute to the degradation of the desired closed-loop performance. Due to the fact that the modeling stage can be viewed only as an intermediate step introduced for the controller design, the concept of data-based control design has been introduced, where controllers are directly designed from measurements. Most existing data-based control approaches are developed for linear systems, which limit their application to systems with nonlinear phenomena. An important non-smooth nonlinearity observed in practical applications is the input saturation, which usually limits the system performance. Here, we attempt to develop a nonparametric approach to design controllers from frequency-domain data by taking into account input constraints. Two practical applications of the proposed method are presented to demonstrate its efficacy."

Keywords: Actuator saturation, constrained optimization, data-based control, frequency response, energy consumption, safe process operation.

IJCAS
January 2025

Vol. 23, No. 1, pp. 1~88

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