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         [18] M. Shawon, A. Al-Durra, C. Caruana and S. Muyeen, “Small signal stability analysis of
             doubly fed induction generator including SDBR”, Proc. IEEE ICEMS. 1–6.
         [19] Okedu, K.E., Muyeen, S.M., Takahashi, R., Tamura, J., 2012. Wind farms fault ride through
             using DFIG with new protection scheme. IEEE Trans. Sust. Energy 3 (3), 242–254, April.
         [20] Muyeen, S.M., Hasan Ali, Mohd., Takahashi, R., Murata, T., Tamura, J., Tomaki, Y., Saka-
             hara, A., Sasano, E., 2007. A comparative study on transient stability analysis of wind
             turbine generator system using different drive train models. IET-Proc. Renew. Power Gen.
             (IET-RPG) 1 (2), 131–141, June.
         [21] Wasynczuk, O., Man, D.T., Sullivan, J.P., 1981. Dynamic behavior of a class of wind tur-
             bine generator during random wind fluctuations. IEEE Trans. Power Apparatus Systems
             100 (6), 2845–2873, Vol. PAS.
         [22] Bao, Sh.N., Chen, Q.X., Jiang, T., 1990. Modeling and identification of a wind turbine
             system. Wind Eng. 20 (4), 203–218.
         [23] Linyuan, Z., Jinjun, L., Fangcheng, L., 2010. Design and implementation of STATCOM
             combined with series dynamic braking resistor for low voltage ride through of wind farms.
             Energy Conversion Congress and Exposition (ECCE), USA September 12–16.
         [24] Ghazi, R., Alibadi, 2009. Stability improvement of wind farms with fixed speed turbine
             generators using braking resistors. 20th International Conference and Exhibition on Elec-
             tricity Distribution, 1–4 8–11 June.



         Further Readings

         [25] Holdsworth, L., Wu, X.G., Ekanayeke, J.B., Jenkins, N., 2003. Comparison of fixed speed
             and doubly fed induction wind turbine during system disturbances. IEE Proc. Gen. Trans.
             Distrib. 15 (3), 343–352.
         [26] Yang, L., Ostergaard, J., yang Dong, Z., Po Wong, Kit., Xikui Ma, 2011. Oscillatory stabil-
             ity and eigenvalue sensitivity analysis of a dfig wind turbine system. IEEE Trans. Energy
             Conv. 26 (3), 328–339.
         [27] Rahimi, M., Parniani, M., 2010. Dynamic behavior analysis of doubly fed induction gen-
             erator wind turbines-the influence of rotor and speed controller parameters. Elect. Power
             Energy Syst. 32, 464–477.
         [28] Mishra, Y., Mishra, S., Li, F.X., 2009. Small signal stability analysis of a DFIG based
             wind power system under different modes of operation. IEEE Trans. Energy Conv. 24 (4),
             972–982.
         [29] Hasanuzzaman Shawon, M., Ahmed Al-Durra, S., Muyeen, M., 2011. Stability augmen-
             tation of interconnected offshore wind and marine current farms. IEEE Conference on
             Industrial Electronics Society, 961–966.
         [30] Kundur, P., 1994. Power System Stability and Control. MacGraw-Hill, New York.
         [31] Matlab/Simulink User's Guide, The Math works Inc, 2016
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