Adaptive robust control of AC motors with fractional-order disturbance observer

Adaptive robust control of AC motors with fractional-order disturbance observer

Parametric uncertainties and uncertain nonlinearities always exist in mechatronics servo system and degrade their tracking accuracy. In this paper, adaptive robust control with fraction-order disturbance observer is synthesized for high accuracy motion control of a AC motor. The global stability was...

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Bibliographic Details
Published in:Proceedings of the 33rd Chinese Control Conference pp. 4181 - 4185
Main Authors: Dong Zhenle, Ma Dawei, Wang Xiaofeng, Yao Jianyong
Format: Conference Proceeding
Language:English
Published: TCCT, CAA 01-07-2014
Subjects:
AC motors
adaptive robust control
disturbance observer
fractional-order
Friction
Mathematical model
Mechatronics
motion control
Observers
Robustness
Uncertainties
Uncertainty
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Summary:Parametric uncertainties and uncertain nonlinearities always exist in mechatronics servo system and degrade their tracking accuracy. In this paper, adaptive robust control with fraction-order disturbance observer is synthesized for high accuracy motion control of a AC motor. The global stability was proved via Lyapunov Theorem. The proposed controller accounts for not only the parameter deviation (e.g., unknown inertia load), but also the uncertain nonlinearities (coming from modeling errors and external disturbances). In the resulting controller, parameter adaptation was used to reduce the parameter uncertainties, the fractional-order disturbance observer was used to estimate the modeling errors and external disturbances. To attenuate the uncompensated disturbances and errors, the robust controller was designed. The comparative simulation results show that the proposed controller guarantees a prescribed tracking performance.
ISSN:2161-2927
DOI:10.1109/ChiCC.2014.6895639