In this paper, active control of periodic vibration is implemented using maglev actuators which exhibit inherent nonlinear behaviors. A multi-channel feedforward control algorithm is proposed to solve these nonlinear problems, in which maglev actuators are treated as single-input-single-output systems with unknown time-varying nonlinearities. A radial basis function network is used by the algorithm as its controller, whose parameters are adapted only with the model of the linear system in the secondary path. Compared with the strategies in the conventional magnetic-levitation system control as well as nonlinear active noise/vibration control, the proposed algorithm has the advantage that the nonlinear modeling procedure of maglev actuators and the usage of displacement sensors could be both avoided. Numerical simulations and real-time experiments are carried out based on a multiple-degree-of-freedom vibration isolation system. The results show that the proposed algorithm not only could efficiently compensate for the actuators' time-varying nonlinearities, but also has the ability to greatly attenuate the energy of periodic vibration.


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    Title :

    Adaptive active control of periodic vibration using maglev actuators


    Additional title:

    Adaptive, aktive Regelung periodischer Schwingungen unter Verwendung von Magnetschwebetechnikaktuatoren


    Contributors:
    An, Fengyan (author) / Sun, Honglin (author) / Li, Xiaodong (author)

    Published in:

    Journal of Sound and Vibration ; 331 , 9 ; 1971-1984


    Publication date :

    2012


    Size :

    14 Seiten, 12 Bilder, 26 Quellen




    Type of media :

    Article (Journal)


    Type of material :

    Print


    Language :

    English





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