Abstract
To eliminate the influence of white noise in partial discharge (PD) detection, we propose a novel method based on complete ensemble empirical mode decomposition with adaptive noise (CEEMDAN) and approximate entropy (ApEn). By introducing adaptive noise into the decomposition process, CEEMDAN can effectively separate the original signal into different intrinsic mode functions (IMFs) with distinctive frequency scales. Afterward, the approximate entropy value of each IMF is calculated to eliminate noisy IMFs. Then, correlation coefficient analysis is employed to select useful IMFs that represent dominant PD features. Finally, real IMFs are extracted for PD signal reconstruction. On the basis of EEMD, CEEMDAN can further improve reconstruction accuracy and reduce iteration numbers to solve mode mixing problems. The results on both simulated and on-site PD signals show that the proposed method can be effectively employed for noise suppression and successfully extract PD pulses. The fusion algorithm combines the CEEMDAN algorithm and the ApEn algorithm with their respective advantages and has a better de-noising effect than EMD and EEMD.
Highlights
Insulation deterioration is one of the most critical faults in the power system
Toeliminate eliminate the the environmental environmental disturbance and extract effective pulses, CEEMDAN‐approximate entropy (ApEn) is employed for environmental disturbance and extract effective partial discharge (PD) pulses, CEEMDAN-ApEn is employed for signal signal analysis
Noise interference is a big problem in PD signal extraction
Summary
Insulation deterioration is one of the most critical faults in the power system. Partial discharge (PD) is an essential symptom of insulation deterioration. Wavelet transform is suitable for processing non-stationary signal with better time-frequency resolution performance [5,6,7] It has been widely researched in PD signal de-noising and achieved excellent application effectiveness [8,9,10]. EEMD could effectively overcome the mode mixing in EMD by decomposing the original noise-corrupted signals into IMFs. Jin et al [20] present a novel adaptive EEMD method for switchgear PD signal denoising. The simulated and real PD results show that the proposed denoising algorithm is superior to wavelet transform and EMD-based PD de-noising methods. The proposed signal de-noising technique combines the advantages of CEEMDAN and ApEn. In this paper, CEEMDAN is utilized for PD signal decomposition to eliminate the mode mixing phenomenon in conventional EMD and improve the reconstruction accuracy in EEMD.
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