Detection and classification of power quality disturbances using discrete wavelet transform and wavelet networks

M.A.S. Masoum; S. Jamali; N. Ghaffarzadeh

Detection and classification of power quality disturbances using discrete wavelet transform and wavelet networks

Access Full Text

Detection and classification of power quality disturbances using discrete wavelet transform and wavelet networks

Author(s): M.A.S. Masoum ; S. Jamali ; N. Ghaffarzadeh
DOI: 10.1049/iet-smt.2009.0006

For access to this article, please select a purchase option:

Buy article PDF

Buy Knowledge Pack

IET members benefit from discounts to all IET publications and free access to E&T Magazine. If you are an IET member, log in to your account and the discounts will automatically be applied.

Learn more about IET membership

Recommend Title Publication to library

IET Science, Measurement & Technology — Recommend this title to your library

Thank you

Your recommendation has been sent to your librarian.

Author(s): M.A.S. Masoum ¹ ; S. Jamali ² ; N. Ghaffarzadeh ²
- Affiliations: 1: Department of Electrical and Computer Engineering, Curtin University of Technology, Perth, Australia
  2: Department of Electrical Engineering, Iran University of Science and Technology, Tehran, Iran
Source: Volume 4, Issue 4, July 2010, p. 193 – 205
DOI: 10.1049/iet-smt.2009.0006 , Print ISSN 1751-8822, Online ISSN 1751-8830

« Previous Article
Table of contents
Next Article »

Published

A novel approach for detection and classification of power quality (PQ) disturbances is proposed. The distorted waveforms (PQ events) are generated based on the IEEE 1159 standard, captured with a sampling rate of 20 kHz and de-noised using discrete wavelet transform (DWT) to obtain signals with higher signal-to-noise ratio. The DWT is also used to decompose the signal of PQ events and to extract its useful information. Proper feature vectors are selected and applied in training the wavelet network classifier. The effectiveness of the proposed method is tested using a wide spectrum of PQ disturbances including dc offset, harmonics, flicker, interrupt, sag, swell, notching, transient and combinations of these events. Comparison of test results with those generated by other existing methods shows enhanced performance with a classification accuracy of 98.18%. The main contribution of the paper is an accurate (because of proper selection of feature vectors), fast (e.g. a new de-noising approach with proposed identification criterion) and robust (at different signal-to-noise ratios) wavelet network-based algorithm (as compared to the conventional wavelet-based algorithms) for detection/classification of individual, as well as combined PQ disturbances.

References

1. 1)
  - Bakshi, B.R., Stephanopoulos, G.: `Wavelets as basis functions for localized learning in a multi-resolution hierarchy', Int. Joint Conf. Neural Networks, IJCNN, 7–11 June 1992, 2, p. 140–145.
2. 2)
  - M.B.I. Reaz , F. Choong , M.S. Sulaiman , F.M. Yasin , M. Kamada . Expert system for power quality disturbance classifier. IEEE Trans. Power Deliv. , 3 , 1979 - 1988
3. 3)
  - T.X. Zhu , S.K. Tso , K.L. Lo . Wavelet-based fuzzy reasoning approach to power-quality disturbance recognition. IEEE Trans. Power Deliv. , 4 , 1928 - 1935
4. 4)
  - S. Santoso , E.J. Powers , W.M. Grady . Power quality disturbance data compression using wavelet transform methods. IEEE Trans. Power Deliv. , 3 , 1250 - 1257
5. 5)
  - S. Santoso , E.J. Powers , W.M. Grady , A.C. Parsons . Power quality disturbance waveform recognition using wavelet-based neural classifier- part 1: theoretical foundation. IEEE Trans. Power Deliv. , 1 , 222 - 228
6. 6)
  - A.M. Gaouda . Power quality detection and classification using wavelet-multiresolution signal decomposition. IEEE Trans. Power Deliv. , 4 , 1469 - 1476
7. 7)
  - S. Santoso , W.M. Grady , E.J. Powers , J. Lamoree , S.C. Bhatt . Characterization of distribution power quality events with Fourier and wavelet transforms. IEEE Trans. Power Deliv. , 247 - 254
8. 8)
  - Tong, W., Song, X., Lin, J., Zhao, Z.: `Detection and classification of power quality disturbances based on wavelet packet decomposition and support vector machines', ISCP 2006 Proc., 2006.
9. 9)
  - J. Chung , E.J. Powers , W.M. Grady , S.C. Bhatt . Power disturbance classifier using a rule-based method and wavelet packet-based hidden Markov model. IEEE Trans. Power Deliv. , 233 - 241
10. 10)
  - M. Kezunovic , I. Rikalo . Detect and classify faults using neural nets. IEEE Comput. Appl. Power , 4 , 42 - 47
11. 11)
  - C.S. Burrus , R.A. Gopinath , H. Guo . (1998) Introduction to wavelets and wavelet transform: a primer.
12. 12)
  - P.K. Dash , S. Mishra , M.M.A. Salama , A.C. Liew . Classification of power system disturbance using a fuzzy expert system and a Fourier linear combiner. IEEE Trans. Power Deliv. , 472 - 477
13. 13)
  - J. Huang , M. Negnevitsky , D.T. Nguyen . A neural-fuzzy classifier for recognition of power quality disturbances. IEEE Trans. Power Deliv. , 609 - 616
14. 14)
  - M. Misiti , Y. Misiti , G. Oppenheim , J.M. Poggi . Wavelet toolbox 4 user's guide.
15. 15)
  - E.F. Fuchs , M.A.S. Masoum . (2008) Power quality of electric machines and power systems.
16. 16)
  - O. Poisson , P. Rioual , M. Meunier . Detection and measurement of power disturbances using wavelet transform. IEEE Trans. Power Deliv. , 1039 - 1044
17. 17)
  - D.L. Donoho . ’ Denoising by soft-thresholding. IEEE Trans. Inf. Theory. , 3 , 613 - 627
18. 18)
  - A. Elmitwally , S. Farghal , M. Kandil , S. Abdelkar , M. Elketab . Proposed wavelet neuro-fuzzy combined system for power quality violations detection and diagnosis. IEE Proc. Gener. Transm. Distrib. , 1 , 15 - 20
19. 19)
  - O. Sen , S. Zhengxiang , W. Jianhua , C. Degui . Application of LVQ neural networks combined with genetic algorithm in power quality signals classification. Power Syst. Technol. , 491 - 495
20. 20)
  - M. Karimi , H. Mokhtari , M.R. Iravani . Wavelet based on-line disturbance detection for power quality applications. IEEE Trans. Power Deliv. , 1212 - 1220
21. 21)
  - S. Burrus , R.A. Gopinath , H. Guo . (1998) Introduction to wavelet and wavelet transform: a primer.
22. 22)
  - M. Nadler , E.P. Smith . (1992) Pattern recognition engineering.
23. 23)
  - Q. Zhang . Using wavelet network in nonparametric estimate. IEEE Trans. Neural Netw. , 2 , 227 - 236
24. 24)
  - T.X. Zhu , S.K. Tso , K.L. Lo . Wavelet-based fuzzy reasoning approach to power-quality disturbance recognition. IEEE Trans. Power Deliv. , 4 , 1928 - 1935
25. 25)
  - S. Santoso , E.J. Powers , W.M. Grady , A.C. Parsons . Power quality disturbance waveform recognition using wavelet-based neural classifier- part 2: application. IEEE Trans. Power Deliv. , 1 , 229 - 235
26. 26)
  - A. Elmitwally , S. Farghal , M. Kandil , S. Abdelkader , M. Elkateb . Proposed wavelet-neurofuzzy combined system for power quality violations detection and diagnosis. IEE Proc. Gener. Transm. Distrib. , 1 , 15 - 20
27. 27)
  - Q. Zhang , A. Benveniste . Wavelet networks. IEEE Trans. Neural Netw. , 6 , 889 - 898
28. 28)
  - J.C. Goswami , A.K. Chan . (1999) Fundamental of wavelets: theory, algorithms and application.
29. 29)
  - Hu, G.S., Xie, J., Zhu, F.F.: `Classification of power quality disturbances using wavelet and fuzzy support vector machines', IEEE Proc. Fourth Int. Conf. Machine Learning and Cybernetics, 18–21 August 2005, Guangzhou, p. 3981–3984.

Login

Not registered yet?

Share

Tools

Login to add to favourites

Key

Detection and classification of power quality disturbances using discrete wavelet transform and wavelet networks

Detection and classification of power quality disturbances using discrete wavelet transform and wavelet networks

Buy article PDF

Buy Knowledge Pack

Thank you

References

Related content