Robust Stabilization of Input-Delayed Systems Subject to Parametric Uncertainties

Author

Chen, Wu-Hua ; Zheng, Wei Xing

Author_Institution

Coll. of Math. & Inf. Sci., Guangxi Univ., Nanning

Volume

1

fYear

0

fDate

0-0 0

Firstpage

2485

Lastpage

2489

Abstract

The robust stabilization problem for uncertain systems with unknown input delay based on the reduction method is studied in this paper. Two types of the unknown input delay are considered: one is constant; the other one is continuous and may vary fast. Sufficient matrix inequalities conditions for the stabilizability of such systems are derived via Lyapunov functionals and descriptor approach to time-delay systems. An algorithm involving convex optimization is proposed to design a delayed state feedback controller such that the system can be stabilized for all admissible uncertainties. The usefulness of the proposed algorithm is demonstrated by a numerical example

Keywords

Lyapunov methods; convex programming; delays; linear matrix inequalities; robust control; uncertain systems; Lyapunov functionals; convex optimization; delayed state feedback controller; descriptor approach; input-delayed systems; linear matrix inequalities; parametric uncertainties; reduction method; robust stabilization; time-delay systems; uncertain systems; Control systems; Delay systems; Educational institutions; Information science; Linear matrix inequalities; Mathematics; Robustness; State feedback; Uncertain systems; Uncertainty; Input delays; linear matrix inequalities; uncertain systems;

fLanguage

English

Publisher

ieee

Conference_Titel

Intelligent Control and Automation, 2006. WCICA 2006. The Sixth World Congress on

Conference_Location

Dalian

Print_ISBN

1-4244-0332-4

Type

conf

DOI

10.1109/WCICA.2006.1712808

Filename

1712808