Feedforward control based on neural networks for disturbance rejection in hard disk drives

X. Ren; C. Y. Lai; V. Venkataramanan; F. L. Lewis; S. S. Ge; T. Liew

doi:10.1049/iet-cta.2008.0138

Feedforward control based on neural networks for disturbance rejection in hard disk drives

X. Ren, C. Y. Lai, V. Venkataramanan^*, F. L. Lewis, S. S. Ge, T. Liew

^*Corresponding author for this work

School of Automation

Research output: Contribution to journal › Article › peer-review

14 Citations (Scopus)

Abstract

A feedforward control based on neural networks to attenuate the effect of external vibrations on the positioning accuracy of hard disk drives (HDDs) is presented. The adaptive neural network compensator utilises accelerometer signals to detect external vibrations. No information on the plant, sensor and disturbance dynamics is needed in the design of the adaptive neural network compensator. The stability of the proposed scheme is analysed by the Lyapunov criterion. Experimental results show that the tracking performance of HDDs can be improved significantly by using the feedforward controller when compared with the case without compensation.

Original language	English
Pages (from-to)	411-418
Number of pages	8
Journal	IET Control Theory and Applications
Volume	3
Issue number	4
DOIs	https://doi.org/10.1049/iet-cta.2008.0138
Publication status	Published - 2009

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title = "Feedforward control based on neural networks for disturbance rejection in hard disk drives",

abstract = "A feedforward control based on neural networks to attenuate the effect of external vibrations on the positioning accuracy of hard disk drives (HDDs) is presented. The adaptive neural network compensator utilises accelerometer signals to detect external vibrations. No information on the plant, sensor and disturbance dynamics is needed in the design of the adaptive neural network compensator. The stability of the proposed scheme is analysed by the Lyapunov criterion. Experimental results show that the tracking performance of HDDs can be improved significantly by using the feedforward controller when compared with the case without compensation.",

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AU - Ren, X.

AU - Lai, C. Y.

AU - Venkataramanan, V.

AU - Lewis, F. L.

AU - Ge, S. S.

AU - Liew, T.

PY - 2009

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N2 - A feedforward control based on neural networks to attenuate the effect of external vibrations on the positioning accuracy of hard disk drives (HDDs) is presented. The adaptive neural network compensator utilises accelerometer signals to detect external vibrations. No information on the plant, sensor and disturbance dynamics is needed in the design of the adaptive neural network compensator. The stability of the proposed scheme is analysed by the Lyapunov criterion. Experimental results show that the tracking performance of HDDs can be improved significantly by using the feedforward controller when compared with the case without compensation.

AB - A feedforward control based on neural networks to attenuate the effect of external vibrations on the positioning accuracy of hard disk drives (HDDs) is presented. The adaptive neural network compensator utilises accelerometer signals to detect external vibrations. No information on the plant, sensor and disturbance dynamics is needed in the design of the adaptive neural network compensator. The stability of the proposed scheme is analysed by the Lyapunov criterion. Experimental results show that the tracking performance of HDDs can be improved significantly by using the feedforward controller when compared with the case without compensation.

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Feedforward control based on neural networks for disturbance rejection in hard disk drives

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