DocumentCode
1459517
Title
Input constrained non-equilibrium transient trajectory shaping via a three-stage control method for a class of non-linear systems
Author
Yan, Fengping ; Wang, Jiacheng
Author_Institution
Dept. of Mech. & Aerosp. Eng., Ohio State Univ., Columbus, OH, USA
Volume
6
Issue
3
fYear
2012
Firstpage
375
Lastpage
383
Abstract
This study deals with the non-equilibrium transient trajectory shaping problem for non-linear, strict feedback, single-input-single-output systems by a three-stage switching control method. Through this control method, the non-linear system output tracking error can be constrained within a set of properly pre-designed boundaries when it is converging to the equilibrium point. In particular, the three-stage switching control method imposes a constant bound (the first stage), two exponentially converging time-varying functions (the second stage), and a smaller constant bound (the third stage) as the tracking error boundary in each of the three stages, respectively. By designing control laws separately in the corresponding stages, the trajectory of the system tracking error can be assured within the boundaries during transient period. The bound of the control input magnitude can be determined with the respective control law at each stage and consequently establish the tradeoff between system transient performance and the available control resource. Numerical examples are utilised to show the effectiveness of the technique.
Keywords
control system synthesis; feedback; nonlinear control systems; time-varying systems; transient analysis; control law design; input constrained nonequilibrium transient trajectory shaping problem; nonlinear strict feedback single-input single-output systems; output tracking error; system transient performance; three-stage switching control method; time-varying functions; tracking error boundary; transient period;
fLanguage
English
Journal_Title
Control Theory & Applications, IET
Publisher
iet
ISSN
1751-8644
Type
jour
DOI
10.1049/iet-cta.2010.0745
Filename
6159160
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