PW-FBPNN: A Hybrid Fault Diagnosis Method for Power Circuit Systems Combining Principal Component Analysis, Wavelet Packet Transform, and Fuzzy Neural Networks

Chen, Xu; Zhang, Chao; Zhang, Haomiao; Cheng, Zhiqiang; Yan, Yu

doi:10.20532/cit.2024.1005850

Journal of computing and information technology, Vol. 32 No. 3, 2024.

Original scientific paper

https://doi.org/10.20532/cit.2024.1005850

PW-FBPNN: A Hybrid Fault Diagnosis Method for Power Circuit Systems Combining Principal Component Analysis, Wavelet Packet Transform, and Fuzzy Neural Networks

Xu Chen ; State Grid Ningxia Marketing Service Center, State Grid Ningxia Metrology Center, Yinchuan, Ningxia, China *
Chao Zhang ; State Grid Ningxia Marketing Service Center, State Grid Ningxia Metrology Center, Yinchuan, Ningxia, China
Haomiao Zhang ; State Grid Ningxia Marketing Service Center, State Grid Ningxia Metrology Center, Yinchuan, Ningxia, China
Zhiqiang Cheng ; State Grid Ningxia Marketing Service Center, State Grid Ningxia Metrology Center, Yinchuan, Ningxia, China
Yu Yan ; State Grid Ningxia Marketing Service Center, State Grid Ningxia Metrology Center, Yinchuan, Ningxia, China

* Corresponding author.

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APA 6th Edition

Chen, X., Zhang, C., Zhang, H., Cheng, Z. & Yan, Y. (2024). PW-FBPNN: A Hybrid Fault Diagnosis Method for Power Circuit Systems Combining Principal Component Analysis, Wavelet Packet Transform, and Fuzzy Neural Networks. Journal of computing and information technology, 32 (3), 159-176. https://doi.org/10.20532/cit.2024.1005850

MLA 8th Edition

Chen, Xu, et al. "PW-FBPNN: A Hybrid Fault Diagnosis Method for Power Circuit Systems Combining Principal Component Analysis, Wavelet Packet Transform, and Fuzzy Neural Networks." Journal of computing and information technology, vol. 32, no. 3, 2024, pp. 159-176. https://doi.org/10.20532/cit.2024.1005850. Accessed 10 Jan. 2025.

Chicago 17th Edition

Chen, Xu, Chao Zhang, Haomiao Zhang, Zhiqiang Cheng and Yu Yan. "PW-FBPNN: A Hybrid Fault Diagnosis Method for Power Circuit Systems Combining Principal Component Analysis, Wavelet Packet Transform, and Fuzzy Neural Networks." Journal of computing and information technology 32, no. 3 (2024): 159-176. https://doi.org/10.20532/cit.2024.1005850

Harvard

Chen, X., et al. (2024). 'PW-FBPNN: A Hybrid Fault Diagnosis Method for Power Circuit Systems Combining Principal Component Analysis, Wavelet Packet Transform, and Fuzzy Neural Networks', Journal of computing and information technology, 32(3), pp. 159-176. https://doi.org/10.20532/cit.2024.1005850

Vancouver

Chen X, Zhang C, Zhang H, Cheng Z, Yan Y. PW-FBPNN: A Hybrid Fault Diagnosis Method for Power Circuit Systems Combining Principal Component Analysis, Wavelet Packet Transform, and Fuzzy Neural Networks. Journal of computing and information technology [Internet]. 2024 [cited 2025 January 10];32(3):159-176. https://doi.org/10.20532/cit.2024.1005850

IEEE

X. Chen, C. Zhang, H. Zhang, Z. Cheng and Y. Yan, "PW-FBPNN: A Hybrid Fault Diagnosis Method for Power Circuit Systems Combining Principal Component Analysis, Wavelet Packet Transform, and Fuzzy Neural Networks", Journal of computing and information technology, vol.32, no. 3, pp. 159-176, 2024. [Online]. https://doi.org/10.20532/cit.2024.1005850

Abstract

Due to the complexity of fault states and the non-linear relationship between input and output responses, fault diagnosis in complex power circuit systems faces significant challenges. This study proposes a novel hybrid method, PW-FBPNN, which integrates principal component analysis (PCA), wavelet packet transform (WPT), and fuzzy back propagation neural network (FBPNN) to enhance fault diagnosis. The effectiveness of this method was demonstrated through experiments on the voltage divider basic operational amplifier and the second-order filter circuit of the four operational amplifiers. PW-FBPNN achieved 100% accuracy in diagnosing most types of faults, with a minimum accuracy of 91.67% for challenging faults. This method was significantly superior to existing methods such as FCM-HMM-SVM and KICA-DNN in terms of accuracy and computational efficiency and could complete the diagnosis in just 0.01 seconds. These results indicate that PW-FBPNN has the potential to improve fault diagnosis in power circuit systems, providing a promising solution for enhancing system reliability and maintenance efficiency.

Keywords

power circuit system; fuzzy neural network; principal component analysis; wavelet packet transform method; fault diagnosis

Hrčak ID:

326533

URI

https://hrcak.srce.hr/326533

Publication date:

16.11.2024.

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Journal of computing and information technology, Vol. 32 No. 3, 2024.

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