Title :
Discrete-time anti-windup: Part 1 — Stability and performance
Author :
Turner, Matthew C. ; Herrmann, Guido ; Postlethwaite, Ian
Author_Institution :
Control and Instrumentation Group, University of Leicester, University Road, Leicester, LE1 7RH, UK
Abstract :
The anti-windup problem is formulated in discrete-time using a configuration which effectively decouples the nominal linear and nonlinear parts of a closed loop system with constrained plant inputs. Conditions are derived which ensure an upper bound on the induced l2 norm of a certain mapping which is central to the anti-windup problem. Results are given for the full-order case, where a solution always exists, and for static and low-order cases, where a solution does not necessarily exist, but which is often more appealing from a practical point of view.
Keywords :
Asymptotic stability; Closed loop systems; Electronic mail; STATCOM; Stability analysis; Transfer functions; Anti-windup; constrained control; discrete systems;
Conference_Titel :
European Control Conference (ECC), 2003
Conference_Location :
Cambridge, UK
Print_ISBN :
978-3-9524173-7-9
