Research PaperNo Access

Experimental and Theoretical Analysis of Bispectrum Characteristics of Phase Coupled Signals

Wenbing Wu

https://orcid.org/0000-0002-0034-2188

School of Big Data, Fuzhou University of Foreign Studies and Trade, Fuzhou, P. R. China

Search for more papers by this author

and

Xiaojian Yuan

https://orcid.org/0000-0002-9434-2962

School of Big Data, Fuzhou University of Foreign Studies and Trade, Fuzhou, P. R. China

E-mail Address: yxj@fzfu.edu.cn

Corresponding author.

Search for more papers by this author

https://doi.org/10.1142/S0218126624501081Cited by:0 (Source: Crossref)

Abstract

Fourier transform points out that a certain function that meets certain conditions can be decomposed into a linear combination of trigonometric functions (sine or cosine functions). The functions of high-order cumulant include suppressing the Gaussian noise, eliminating independent signal components, and identifying the phase coupling phenomenon of the signal. To prove this hypothesis, this study constructs a cosine signal with the phase coupling phenomenon based on Fourier transform theory which substitutes it into the third-order cumulant expression and performs detailed reasoning. The constructed signal is extended to the complex signal domain and the same conclusion is obtained. The number of coupled signals is expanded from three to a higher value. The results of the study give definite mathematical and physical meaning to the bispectral peaks. The collected mechanical vibration signals are given to demonstrate this conclusion. The demonstrated characteristics of high-order cumulants have made them widely used in many fields.

This paper was recommended by Regional Editor Tongquan Wei.

Keywords:

References

1. K. Czeluśniak, W. J. Staszewski and F. Aymerich , Local bispectral characteristics of nonlinear vibro-acoustic modulations for structural damage detection, Mech. Syst. Signal Process. 178 (2022) 109199. Crossref, Web of Science, Google Scholar
2. A. Hajnayeb , Cavitation analysis in centrifugal pumps based on vibration bispectrum and transfer learning, Shock Vib. 2021 (2021) 6988949. Web of Science, Google Scholar
3. Z. Hashempour, H. Agahi and A. Mahmoodzadeh , A novel method for fault diagnosis in rolling bearings based on bispectrum signals and combined feature extraction algorithms, Signal Image Video Process. 16 (2022) 1043–1051. Crossref, Web of Science, Google Scholar
4. V. Gunasegaran, M. Amarnath, H. Chelladurai and I. P. Krishna , Application of bispectrum analysis to detect faults in helical geared system, Mater. Today, Proc. 46 (2021) 8802–8806. Crossref, Google Scholar
5. Y. Xu, C. Fu, N. Hu, B. Huang, F. Gu and A. D. Ball , A phase linearisation–based modulation signal bispectrum for analysing cyclostationary bearing signals, Struct. Health Monitor. 20 (2021) 1231–1246. Crossref, Web of Science, Google Scholar
6. L. Cui, H. Xu, J. Ge, M. Cao, Y. Xu, W. Xu and D. Sumarac , Use of bispectrum analysis to inspect the non-linear dynamic characteristics of beam-type structures containing a breathing crack, Sensors 21 (2021) 1177. Crossref, Web of Science, Google Scholar
7. I. Mitiche, Jenkins, M. D. Boreham, A. P. Nesbitt and G. Morison , An expert system for EMI data classification based on complex bispectrum representation and deep learning methods, Expert Syst. Appl. 171 (2021) 114568. Crossref, Web of Science, Google Scholar
8. I. Mitiche, MD. Jenkins, P. Boreham, A. Nesbitt and G. Morison , Deep complex neural network learning for high-voltage insulation fault classification from complex bispectrum representation, 27th European Signal Processing Conf. (EUSIPCO) (IEEE, 2019), pp. 1–5. Crossref, Google Scholar
9. J. Guo, Z. Shi, D. Zhen, Z. Meng, F. Gu and A. D. Ball , Modulation signal bispectrum with optimized wavelet packet denoising for rolling bearing fault diagnosis, Struct. Health Monitor. 21 (2022) 984–1011. Crossref, Web of Science, Google Scholar
10. J. C. P. Allen and C. T. Ng , Guided wave mixing and bispectrum analysis for monitoring of bolted joints, ACAM10: 10th Australasian Congress Applied Mechanics, (Engineers Australia, 2021), pp. 514–521. Google Scholar
11. H. Zhai, Z. Li and X. Zhang , DOA estimation of noncircular signals for coprime linear array via polynomial root-finding technique, J. Circuits Syst. Comput. 30 (2021) 2150028. Link, Web of Science, Google Scholar
12. S. Luo, G. Bi, T. Wu, Y. Xiao and R. Lin , An effective LFM signal reconstruction method for signal denoising, J. Circuits Syst. Comput. 27 (2018) 1850140. Link, Web of Science, Google Scholar
13. G. Zickert and C. E. Yarman , Gaussian mixture model decomposition of multivariate signals, Signal, Image Video Process. 16 (2022) 429–436. Crossref, Web of Science, Google Scholar
14. J. Guo, H. Zhang, D. Zhen, Z. Shi, F. Gu and A. D. Ball , An enhanced modulation signal bispectrum analysis for bearing fault detection based on non-Gaussian noise suppression, Measurement 151 (2020) 107240. Crossref, Web of Science, Google Scholar
15. M. Zhang, J. Yang and Z. Zhang , Locomotive gear fault diagnosis based on wavelet bispectrum of motor current, Shock Vib. 2021 (2021) 5554777. Web of Science, Google Scholar
16. O. Trigui, W. Zouch, M. Ben Slima and M. Ben Messaoud , Bispectral analysis-based approach for steady-state visual evoked potentials detection, Multimedia Tools Appl. 78 (2019) 12865–12882. Crossref, Web of Science, Google Scholar
17. J. Guo, D. Zhen, H. Li, Z. Shi, F. Gu and A. D. Ball , Fault detection for planetary gearbox based on an enhanced average filter and modulation signal bispectrum analysis, ISA Trans. 101 (2020) 408–420. Crossref, Web of Science, Google Scholar
18. X. Du , Fault detection using bispectral features and one-class classifiers, J. Process Control 83 (2019) 1–10. Crossref, Web of Science, Google Scholar
19. H. Li, Z. Tian, Y. He and B. Xu , Fault prognosis of hydraulic pump based on bispectrum entropy and deep belief network, Measure. Sci. Rev. 19 (2019) 195–203. Crossref, Web of Science, Google Scholar
20. F. Wang and L. Fang , Bispectrum texture feature manifold for feature extraction in rolling bear fault diagnosis, Math. Probl. Eng. 2019 (2019) 3805729. Web of Science, Google Scholar
21. C. Wang, Y. Li and M. Gao , Target classification using Renyi entropy features of cyclic bispectrum, J. Eng. 21 (2019) 7717–772. Crossref, Google Scholar