Research on the De-noising Method of the Transient Vibration Signal of Complex Pipeline
ID:118 View Protection:ATTENDEE Updated Time:2021-08-29 20:19:22 Hits:425 Poster Presentation

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Abstract
The transient vibration signals generated by the valve switch, pump start and stop operation of the complex hydraulic pipeline system are nonlinear, non-stationary, complex and high-noise, thus, the signal analysis and feature extraction encounter some difficulties. To address this problem, this article introduces a denoising method based on the parameter-optimized variational mode decomposition (VMD) method and the improved wavelet threshold (IWT). Firstly, the transient vibration signal was decomposed into multiple intrinsic modal functions (IMFs) by using the VMD after the optimized parameters of the improved grey wolf optimization algorithm (IGWO). The denoised signal was reconstructed by the effective IMFs denoised by the IWT, which were selected according to the selection principle of the effective IMF component. The results of the example verification showed that the denoising performance of the proposed method was significantly improved compared with the denoising methods such as denoising based on VMD and correlation coefficient, joint denoising based on VMD and wavelet soft threshold (VMD-WT(Soft)), denoising based on EMD and correlation coefficient, joint denoising based on EMD and wavelet soft threshold (EMD-WT(Soft)), joint denoising based on EMD and improved wavelet threshold (EMD-IWT), and it had excellent denoising effect on the transient vibration signal of the pipeline system.
Keywords
IGWO;VMD;correlation coefficient;improved wavelet threshold;transient vibration signal
Speaker
Shihao Yang
Institute of Engnieering; Ocean University of China; Qingdao 266000

Submission Author
Kaisheng Zhang Ocean University of China;Institute of Engineering;Department of Mechanical engineering;Qingdao 266000
Shihao Yang Institute of Engnieering; Ocean University of China; Qingdao 266000
Baocheng Zhang Ocean University of China;Institute of Engineering;Department of Mechanical engineering;Qingdao 266000
Yetao Wu China; Ocean University of China;Department of Mechanical and Electrical Engineering; School of Engineering; Qingdao 266100
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Important Date
  • Conference Date

    Nov 01

    2022

    to

    Nov 03

    2022

  • Oct 30 2022

    Draft paper submission deadline

  • Nov 09 2022

    Registration deadline

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Qingdao University of Technology