Time-frequency signal filtering of coulostatically induced transients based on empirical mode decomposition

被引:1
|
作者
Zhao, Y.-T. [1 ]
Guo, X-P.
机构
[1] Sun Rui Corros & Fouling Control Co, State Key Lab Marine Corros & Protect, Qingdao 266071, Peoples R China
[2] Huazhong Univ Sci & Technol, Dept Chem, Wuhan 430074, Peoples R China
来源
CORROSION | 2007年 / 63卷 / 08期
关键词
corrosion resistance; coulostatically-induced transient; electrode potential; empirical mode decomposition; frequency domain; impedance spectrum; nondestructive testing; signal processing;
D O I
10.5006/1.3278424
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
A method of filtering based on empirical mode decomposition (EMD)for coulostatically induced transients (CITs) is presented. This filtering was illustrated using CIT and its associated impedance spectra, and comparisons have been made with wavelet filtering and the finite impulse response (FIR) method. The results reported here demonstrate that EMD filtering is applicable to coulostatic measurements data in both the time and frequency domains, where wavelet filtering can also be successful. Moreover, in cases where the noise needs to befiltered from the nonlinear CITs, EMD can eliminate noisy data from CIT. The proposed method shows superior performance over the traditional methods and is an alternative filtering method for the CIT analysis.
引用
收藏
页码:749 / 757
页数:9
相关论文
共 50 条
  • [21] Multi-scale eigenvalues Empirical Mode Decomposition for geomagnetic signal filtering
    Qiao Nan
    Wang Li-hui
    Liu Qing-ya
    Zhai Hong-qi
    MEASUREMENT, 2019, 146 : 885 - 891
  • [22] Time-frequency representation of earthquake accelerograms and inelastic structural response records using the adaptive chirplet decomposition and empirical mode decomposition
    Spanos, P. D.
    Giaralis, A.
    Politis, N. P.
    SOIL DYNAMICS AND EARTHQUAKE ENGINEERING, 2007, 27 (07) : 675 - 689
  • [23] Microseismic signal denoising using simple bandpass filtering based on normal time-frequency transform
    Yao, Yanji
    Wang, Guocheng
    Liu, Lintao
    ACTA GEOPHYSICA, 2023, 71 (05) : 2217 - 2232
  • [24] Empirical mode decomposition using variable filtering with time scale calibrating
    Yuan Ye~(1
    2.School of Industrial Design and Information Engineering
    3.The Science and Technology Committee of China Aerospace Science and Industry Corporation
    Journal of Systems Engineering and Electronics, 2008, 19 (06) : 1076 - 1081
  • [25] Geomagnetic signal de-noising method based on improved empirical mode decomposition and morphological filtering
    Zhai, Hongqi
    Wang, Lihui
    Liu, Qingya
    Qiao, Nan
    PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART G-JOURNAL OF AEROSPACE ENGINEERING, 2021, 235 (05) : 578 - 588
  • [26] Empirical mode decomposition using variable filtering with time scale calibrating
    Yuan Ye
    Mei Wenbo
    Wu Siliang
    Yuan Qi
    JOURNAL OF SYSTEMS ENGINEERING AND ELECTRONICS, 2008, 19 (06) : 1076 - 1081
  • [27] An Improved Signal Processing Approach Based on Analysis Mode Decomposition and Empirical Mode Decomposition
    Chen, Zhongzhe
    Liu, Baqiao
    Yan, Xiaogang
    Yang, Hongquan
    ENERGIES, 2019, 12 (16)
  • [28] Deep learning approach to coal and gas outburst recognition employing modified AE and EMR signal from empirical mode decomposition and time-frequency analysis
    Li, Bing
    Wang, Enyuan
    Shang, Zheng
    Li, Zhonghui
    Li, Baolin
    Liu, Xiaofei
    Wang, Hao
    Niu, Yue
    Wu, Qian
    Song, Yue
    JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING, 2021, 90
  • [29] Empirical Mode Decomposition-based filtering for fatigue induced hand tremor in laparoscopic manipulation
    Chandra, Sourav
    Hayashibe, Mitsuhiro
    Thondiyath, Asokan
    BIOMEDICAL SIGNAL PROCESSING AND CONTROL, 2017, 31 : 339 - 349
  • [30] Multi-component signal decomposition method based on the generalized demodulation time-frequency analysis
    Cheng, Jun-Sheng
    Yang, Yu
    Yu, De-Jie
    Zhendong Gongcheng Xuebao/Journal of Vibration Engineering, 2007, 20 (06): : 563 - 569
12345