Title :
A Transfer-Function Approach to Dual-Rate Controller Design for Unstable and Non-Minimum-Phase Plants
Author :
Salt, Julian ; Sala, A. ; Albertos, Pedro
Author_Institution :
Dept. of Syst. Eng. & Control, Univ. Politec. de Valencia, Valencia, Spain
Abstract :
An algebraic design via Diophantine equations of dual-rate regulators for linear unstable and non-minimum-phase plants, generalizing the well-known constraints for the reference model in single-rate systems, is presented in this brief. This brief improves previous results achieving internal stability for this kind of plants, by means of adapting the Youla parametrization of all stabilizing controllers to the dual-rate case. A simulation example on a robotic model, as well as an experimental magnetic levitation setup, are presented.
Keywords :
control system synthesis; linear systems; magnetic levitation; multivariable control systems; robots; stability; transfer functions; Diophantine equations; Youla parametrization; algebraic design; controller stability; dual-rate controller design; dual-rate regulators; internal stability; magnetic levitation setup; nonminimum-phase plants; single-rate systems; transfer function approach; Digital control; Magnetic levitation; Mathematical model; Polynomials; Stability analysis; Transfer functions; Digital control; Youla parametrization; diophantine equations; model-based control; multirate sampled data systems;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2010.2076386
