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Article

Dynamic surface control for stabilization of the oscillating eccentric rotor

Details

Citation

Qaiser N, Hussain A, Iqbal N & Qaiser N (2007) Dynamic surface control for stabilization of the oscillating eccentric rotor. Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering, 221 (3), pp. 311-319. https://doi.org/10.1243/09596518JSCE222

Abstract
The present paper presents a new solution for the stabilization and disturbance attenuation problems of the oscillating eccentric rotor (OER), an extensively studied non-linear under-actuated mechanical system. Designing control law for such systems is a challenging task owing to the under-actuation property, which poses problems in exact feedback linearization. Presented non-linear controller design exploits the recently introduced dynamic surface control technique in a novel manner. The task of the controller is not only to de-spin the rotor but also to stop the translational oscillations. The design procedure is simpler and more intuitive than currently available integrator backstepping or energy-shaping-based designs. Stability is analysed by decomposing the system into a cascade of several subsystems. Advantages over existing controller designs are analysed theoretically and verified using numerical simulations. The design is found to attenuate oscillation amplitude effectively in the presence of an external sinusoidal translational disturbance besides aggressive stabilization.

Keywords
oscillating eccentric rotor; under-actuated mechanical systems; dynamic surface control; back-stepping

Journal
Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering: Volume 221, Issue 3

StatusPublished
Publication date31/05/2007
PublisherSAGE
ISSN0959-6518
eISSN2041-3041