A new level-dependent sub band adaptive noise reduction algorithm based on wavelet transform is proposed in order to improve the effect of power quality signal de-noising for power quality monitoring system. This threshold algorithm has two adjustable parameters to adjust the threshold both fine and coarsely, and the optimal parameters are determined by BP neural networks algorithm. Power disturbance data is referred to actual power disturbance data at IEEE open source and applied for test. The test results indicate that the proposed algorithm could denoise the different kind of power disturbances effectively, and the signal noise ratio is improved further with a smaller mean square error.

CT Hsieh, SJ Huang, CL Huang. Data reduction of power quality disturbances—a wavelet transform approach, Electr Power Syst. Res. 1998; 47:79-86.

SA Yilmaz, A Subasi, M Bayrak, et al., Application of lifting based wavelet transforms to characterize power quality events, Energy Convers Manage. 2007; 48:112-123.

S Santaso, WM Grady, and EJ Powers. Characterization of distribution power quality events with Fourier and wavelet transforms. IEEE Trans Power Delivery. 2000; 15: 247-254.

UD Dwivedi, SN Singh. Denoising techniques with change-point approach for wavelet-based power-quality monitoring, IEEE Trans Power Delivery. 2009; 24:1719-1727.

O Poisson, P Rioual, M Meunier. Detection and measurement of power quality disturbance using wavelet transform, IEEE Trans Power Delivery. 2000; 15: 1039-1044.

S Chen, HY Zhu. Wavelet transform for processing power quality disturbances. Eurasip J Adv Signal Process. 2007: 176-196.

D Donoho. Denoising by soft-thresholding. IEEE Trans Inf Theory. 1995; 41: 613-617.

H Yang, CC Liao. A de-noising scheme for enhancing wavelet-based power quality monitoring system, IEEE Trans. Power Delivery. 2001; 16: 353-360.

Q Zhang, H Liu, Q Lan. Power quality signal denoising based on wavelet hybrid threshold method, Electric Power Autom Equip. 2008; 28: 28-30.

M Zhang, K Li, Y Hu, A high efficient compression method for Power Quality Applications. IEEE Trans Instrum Meas. 2011; 60:1976-1985.

L Zhang, P Bao, Q Pan. Threshold analysis in wavelet-based denoising. Electron Lett. 2001; 37:1485-1486.

NSD Brito, BA Souza, EAC Pires. Daubechics Wavelets in Quality of Electrical Power. Proceedings of the 8th International conference on Harmonics and Quality of Power, Greece, Athens. 1998: 14-18.

HY Gao, AG Bruce. WaveShrink with firm shrinkage, Statistica Sinica. 1997; 7: 855-874.

TY Ji, Z Lu, QH Wu. Detection of power disturbances using morphological gradient wavelet. Signal Process. 2008; 88: 255-267.

CC Liao, HT Yang, HH Chang. Denoising Techniques With a Spatial Noise-Suppression Method for Wavelet-Based Power Quality Monitoring. IEEE Trans Instrum Meas. 2011; 60: 1986-1996.

Huang J, Xie J, Li H, Tian G, Chen X. Self-adaptive decomposition level de-noising method based on wavelet transform. TELKOMNIKA, 2012; 10(5): 1015-1020.

Z Wang, H Jiang. Robust incipient fault identification of aircraft engine rotor based on wavelet and fraction. Aerospace Science Technology. 2010; 14: 221-224.

S Poornachandra. Wavelet-based de-noising using sub-band dependent threshold for ECG signals. Digital Signal Process. 2008; 18: 49-55.

G Manoj, K Rajesh, G Ram Awtar. Neural network based indexing and recognition of power quality disturbances. TELKOMNIKA, 2011; 9(2): 227-236.