Title :
Robust decentralized control design using integral sliding mode control
Author :
Larbah, Eshag ; Patton, Ron J.
Author_Institution :
Dept. of Eng., Univ. of Hull, Kingston upon Hull, UK
Abstract :
The problem of robust decentralization of uncertain inter-connected systems is concerned with the goal of de-coupling a Lipschitz non-linear systems into individual “decentralized” subsystems satisfying security and fault-tolerance objectives. This work proposes a new strategy for robust decentralized control in which each subsystem uses an observer-based state estimate structure invoking an approach to separation principle recovery, based on Integral Sliding Model Control (ISMC) with careful consideration of both matched and unmatched uncertainties arising from inter-connections and disturbances. The proposed design strategy for the linear observer and uncertainty de-coupling designs involves a single LMI. An example of 3 unstable inter-connected non-linear systems is used to illustrate the power of the approach.
Keywords :
control system synthesis; decentralised control; fault tolerance; integral equations; interconnected systems; linear matrix inequalities; linear systems; nonlinear control systems; observers; robust control; uncertain systems; variable structure systems; ISMC; LMI; Lipschitz nonlinear system; decentralized subsystem; fault-tolerance objective; integral sliding mode control; linear observer; observer-based state estimate structure; robust decentralized control design; security; separation principle recovery; uncertain interconnected system; uncertainty decoupling design; unstable interconnected nonlinear system; Artificial intelligence; Uncertainty; Decentralized control; Integral sliding mode control;
Conference_Titel :
Control (CONTROL), 2012 UKACC International Conference on
Conference_Location :
Cardiff
Print_ISBN :
978-1-4673-1559-3
Electronic_ISBN :
978-1-4673-1558-6
DOI :
10.1109/CONTROL.2012.6334610
