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Volume 31 Issue 02
Feb.  2005
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Journal of Beijing University of Aeronautics and Astronautics  > 2005  >  31(02): 172-176.
Zhang Lei, Liu Yongguang, Fu Yongling, et al. Adaptive feedback control method for active vibration isolation based on on-line frequencies estimation[J]. Journal of Beijing University of Aeronautics and Astronautics, 2005, 31(02): 172-176. (in Chinese)
Citation: Zhang Lei, Liu Yongguang, Fu Yongling, et al. Adaptive feedback control method for active vibration isolation based on on-line frequencies estimation[J]. Journal of Beijing University of Aeronautics and Astronautics, 2005, 31(02): 172-176. (in Chinese)
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Adaptive feedback control method for active vibration isolation based on on-line frequencies estimation

  • 1.

    School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

  • 2. Institute of Vibration & Noise, Naval University of Engineering, Wuhan 430033, China

  • Received Date: 20 Jun 2004
  • Publish Date: 28 Feb 2005
    Abstract
  • As the adaptive feedforward control method used for active control of periodic vibration has many shortcomings, an adaptive feedback control method was proposed based on on-line frequency estimation. The vibration disturbance was recovered with the error signal, and the frequencies of periodic components in disturbance were estimated using cascaded adaptive notch filters, whose parameters were adjusted with recursive least mean algorithm(RLS). Reference signals were produced at the estimated frequencies as controller inputs, and controller weights were adjusted based on Lyapunov stability theory. Simulation and experimental results show the frequency estimation method has good estimation accuracy, the adaptive feedback control method can gain over 16 dB vibration isolation at the vibration frequency, and the controller parameters adjustment is fast.

     

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  • [1] Widrow B, Shur D, Shaffer S. On adaptive inverse control . Proceedings of 15th Asilomar Conference . Sata Clara, CA, 1981.185~189 [2] Burgess J C. Active adaptive sound control in a duct:a computer simulation[J]. Journal of Acoustical Society of America, 1981,70(5):715~726 [3] Haykin S. Adaptive filter theory(fourth editon)[M]. Beijing:Pubishing House of Electronics Industry, 2002 [4] 高 鹰, 谢胜利. 一种变步长LMS自适应滤波算法及分析[J]. 电子学报, 2001, 29,(8):1~4 Gao Ying, Xie Shengli. A variable step size LMS adaptive filtering algorithm and its analysis[J]. Acta Electronic Sinica, 2001, 29,(8):1~4(in Chinese) [5] Kosaka T, Elliott S J, Bouder C C. A novel frequency domain filtered-x LMS algorithm for active noise reduction . IEEE International Conference on Acoustics, Speech, and Signal Processing . Munich, Germany, 1997, 1:403~406 [6] Yeung T K, Yau S F. A feedback ANC system using adaptive lattice filters . IEEE International Symposium on Circuits and Systems . Monterey, CA,1998,5:186~189 [7] 冯晋利, 武 洁, 王绍卿. 快速高分辨频率估计算法[J]. 现代引信,1998,(1):53~57 Feng Jinli, Wu Jie, Wang Shaoqing. Fast high resolution frequency estimation . Modern Fuse, 1998,(1):53~57(in Chinese) [8] Kim I S, Na H S, Kin K J. Constraint filtered-x and filtered-u least-mean-square algorithms for the active noise control in ducts[J]. Journal of the Acoustical Society of America, 1994, 95(3):379~389
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