Noise elimination method of ultrasonic echo signal based on empirical and variational hybrid decomposition

被引：0

作者：

Wang C. ^{[1
]}

Yao Z. ^{[2
]}

Yang M. ^{[2
]}

Feng W. ^{[1
]}

机构：

[1] Changcheng Institute of Metrology & Measurement, Aviation Industry Corporation of China, Beijing

[2] School of Electrical and Information Engineering, Wuhan Institute of Technology, Wuhan

来源：

Yi Qi Yi Biao Xue Bao/Chinese Journal of Scientific Instrument | 2023年 / 44卷 / 06期

关键词：

noise elimination; signal decomposition; signal processing; ultrasonic detection;

D O I：

10.19650/j.cnki.cjsi.J2311061

中图分类号：

学科分类号：

摘要：

Ultrasonic defect detections are easily disturbed by complex noise in ultrasonic echo signals. To improve the accuracy of ultrasonic defect detection, an ultrasonic echo signal noise elimination method based on the hybrid decomposition is proposed. The fusion of empirical mode decomposition and correlation coefficient is used to preprocess the ultrasonic echo signal, and the preprocessing signal is obtained to eliminate the low-frequency noise components. Based on variational mode decomposition, the preprocessed signal is decomposed into several band-limited intrinsic mode functions (BLIMFs), and the mutual information is introduced to estimate the optimal mode number. The useful modes are extracted according to the correlation coefficient of the BLIMFs to the preprocessed signal, and the denoising results are reconstructed. The denoising performance of the proposed method is evaluated by simulation and measured ultrasonic echo signals. Compared with two existing methods, experimental results show that the proposed method can simultaneously eliminate high-frequency and low-frequency noises in ultrasonic echo signals. Under different SNR conditions, the mean SNR of the EMD, VMD and the proposed method are 10. 01 dB, 9. 48 dB, and 16. 09 dB, respectively, which proves the superiority of the proposed method for noise elimination of the ultrasonic echo signals. © 2023 Science Press. All rights reserved.

引用

页码：197 / 204

页数：7

共 23 条

[1] LIANG G AN, YAO Y Z, ZHENG K, Et al., Research on reconstruction method of fillet weld defect signal based on ultrasonic phased array, Computer Measurement & Control, 30, 3, pp. 222-228, (2022)
[2] LIU X, XIA J D, GONG L, Et al., Comparing study on bpn with rbfn and demodulated signal with radio-frequency signal for flaw classification in ultrasonic testing, Chinese Journal of Scientific Instrument, 6, pp. 638-641, (2002)
[3] LIU F F, LIU S P, ZHOU Z H G, Et al., Detailed characterisation and evaluation of composite stiffener R-zones based on mono-pulse ultrasonic reflection behavior, Ultrasonics, 124, (2022)
[4] WEN Y T, YANG R R, ZHANG Y Y., Debonding ultrasonic detection signal processing method of novel ceramic matrix composite material bonding member, Journal of Electronic Measurement and Instrumentation, 35, 2, pp. 143-151, (2021)
[5] ZHANG L, XU K J, MU L B, Et al., Signal processing method based on ultrasonic echo signal envelope fitting, Journal of Electronic Measurement and Instrumentation, 33, 8, pp. 194-201, (2019)
[6] CAO M Y, WANG X, YU D Y., Research on digital processing technology of ultrasonic signal high-noise background [ J ], Chinese Journal of Scientific Instrument, 2, pp. 200-202, (2002)
[7] SHEN X ZH, YE Q Z., Implementation of ultrasonic enhancement based on wiener filtering, Journal of Data Acquisition and Processing, 33, 3, pp. 455-460, (2018)
[8] TARPARA E G, PATANKAR V H., Real time implementation of empirical mode decomposition algorithm for ultrasonic nondestructive testing applications, Review of Scientific Instruments, 89, (2018)
[9] LIU T, LI J, CAI X F, Et al., A time-frequency analysis algorithm for ultrasonic waves generating from a debonding defect by using empirical wavelet transform, Applied Acoustics, 131, pp. 16-27, (2018)
[10] ZHAO S Q, LI S S, LUAN M H, Et al., Ultrasonic testing signal processing based on EEMD, Nondestructive Testing, 43, 5, pp. 16-24, (2021)

← 1 2 3 →