ESTIMATION OF FAULT LOCATION ON TRANSMISSION LINES WITH MUTUAL COUPLING

Vijay S. Kale, Sudhir R. Bhide, and Prashant P. Bedekar

References

  1. [1] A.T. Johns and S.K. Salman, Digital protection for power systems (Peter Peregrinus Ltd, England, 1997).
  2. [2] B.R. Reddy, Ch. Prasanth Babu, M. Swetha, Munagala Suryakalavathi, and B.P. Singh, Localization of faults in a transmission line using wavelet techniques, Proc. IEEE Annual Report Conf. on Electrical Insulation and Dielectric Phenomena, Vancouver, Canada, 2007, 767–771.
  3. [3] M. Garc´ıa-Gracia, W. Osal, and M.P. Comech, Line protection based on the differential equation algorithm using mutual coupling, Elsevier Electric Power Systems Research Journal, 77(5), 2007, 566–573.
  4. [4] D. Spoor and Jian Guo Zhu, Improved single-ended travelingwave fault-location algorithm based on experience with conventional substation transducers, IEEE Transactions on Power Delivery, 21(3), 2006, 1714–1719.
  5. [5] A. Jain, V.S. Kale, and A.S. Thoke, Application of artificial neural network to transmission line faulty phase selection and fault distance location, Proc. IASTED Int. Energy and Power System Conf., Thailand, 2006, 262–267.
  6. [6] H. Jung, Y. Park, M. Han, C. Lee, H. Park, and M. Shin, Novel technique for fault location estimation on parallel transmission lines using wavelet, Elsevier Electrical Power and Energy Systems Journal, 29, 2007, 76–82.
  7. [7] S. Guobing, S. Jiale, and G. Yaozhong, An accurate fault location algorithm for parallel transmission lines using one terminal data, Elsevier Electrical Power and Energy Systems Journal, 31, 2009, 124–129.
  8. [8] J. Gracia, A.J. Mazon, and I. Zamora, Best ANN structures for fault location in single and double-circuit transmission lines, IEEE Transactions on Power Delivery, 20(4), 2005, 2389–2395.
  9. [9] A.J. Mazon, I. Zamora, J. Gracia, K. Sagastabeitia, P. Eguia, F. Jurado, and J.R. Saenz, Fault location system on double circuit two terminal transmission lines based on ANNs, IEEE Int. Conf. on Power Tech., Porto, Portugal, 2001, 1–5.
  10. [10] P.K. Dash, A.K. Pradan, and G. Panda, Application of minimal radial basis function neural network to distance protection, IEEE Transactions on Power Delivery, 16(1), 2001, 68–74.
  11. [11] S.A. Gafoor and P.V. Ramana Rao, Wavelet based fault detection, classification and location in transmission lines, Proc. IEEE Int. Power and Energy Conf., Putrajaya, Malaysia, 2006, 114–118.
  12. [12] M.T. Hagh, K. Razi, and H. Taghizadeh, Fault classification and location of power transmission lines using artificial neural network, Proc. IEEE Int. Power Eng. Conf., Singapore, 2007, 1109–1114. 63 ”
  13. [13] Z. Chen and J. Maun, Artificial neural network approach to single ended fault locator on transmission lines, IEEE Transactions on Power Systems, 15(1), 2000, 370–375.
  14. [14] A. Ngaopitakkul, A. Kundakorn, and S. Bunjongjit, Discrete wavelet transform and probabilistic neural networks algorithms for identification of fault location on transmission systems, Proc. IEEE Int. Conf. on Power System Technology, Singapore, 2004, 270–274.
  15. [15] S. Ekici, S. Yildirim, and M. Poyraz, Energy and entropy based feature extraction for locating fault on transmission lines by using neural network and wavelet packet decomposition, Elsevier Expert Systems with Applications, 34, 2008, 2937– 2944.
  16. [16] D. Das, N.K. Singh, and A.K. Sinha, A Comparison of Fourier transform and wavelet transform methods for detection and classification of faults on transmission lines, Proc. IEEE Power India Conf., 2006, 1–7.
  17. [17] P.M. Anderson, Power system protection (John Wiley and Sons, USA, 1999).
  18. [18] V.S. Kale, S.R. Bhide, and P.P. Bedekar, Faulted Phase Selection on Double Circuit Transmission Line using Wavelet Transform and Neural Network, IEEE Third International Conference on Power Systems, IIT Kharagpur, India, 2009, 1–6.
  19. [19] V.S. Kale, S.R. Bhide, and P.P. Bedekar, and G.V.K. Mohan, Detection and classification of faults on parallel transmission lines using wavelet transform and neural network, International Journal of Electrical and Computer Engineering, 3(16), 2008, 1063–1067.
  20. [20] C.H. Kim and R. Aggarwal, Wavelet transforms in power systems, IET Power Engineering Journal, April, 2000, 81–87.
  21. [21] R. Aggarwal and Y. Song, Artificial neural networks in power systems, IEE Power Engineering Journal, June, 1997, 129–134.
  22. [22] MATLAB 7.1 User’s Guides for SimPowerSystem, Wavelet toolbox and neural network toolbox.

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