Li Lin, Wenyu Guo, Junbing Wang, and Jizhong Zhu
[1] T.A. Short, Electric power distribution handbook (Boca Raton, FL: CRC, 2004). [2] T. Gönen, Electric power distribution system (New York, NY: McGraw-Hill, 1986). [3] F.-C. Lu and Y.-Y. Hsu, Reactive power/voltage control in a distribution substation using dynamic programming, IEE Proceedings-Generation Transmission and Distribution, 142(6), 1995, 639–645. [4] C.J. Rridenbaugh, D.A. DiMascio, and R.D’Aquila, Voltage control improvement through capacitor and transformer tap optimization, IEEE Transactions on Power Systems, 7(1), 1992, 222–227. [5] J.Z. Zhu, K. Cheung, D. Hwang, and A. Sadjadpour, Operation strategy for improving voltage profile and reducing system loss, IEEE Transactions on Power Delivery, 25(1), 2010, 390–397. [6] J.Z. Zhu, Optimal reactive power control using modified interior point method, Electric Power Systems Research, 66, 2003, 187–192. [7] S.K. Goswami, T. Ghose, and S.K. Basu, An approximate method for capacitor placement in distribution system using heuristics and greedy search technique, Electric Power Systems Research, 51(3), 1999, 143–151. [8] F.C. Lu and Y.Y. Hsu, Fuzzy dynamic programming approach to reactive power voltage control in a distribution substation, IEEE Transactions on Power Systems, 12(2), 1997, 681–688. [9] Z.Q. Mi and F. Wang, Substation reactive power and voltage control using fuzzy control theory, 2009 International Conference on Industrial and Information Systems, 2009, China. [10] R.H. Liang and C.K. Cheng, Dispatch of main transformer ULTC and capacitors in a distribution system, IEEE Transactions on Power Delivery, 16(4), 2001, 625–630. [11] B. Kasztenny, E. Rosolowsk, and J. Izykowski, Fuzzy logic controller for on-load transformer tap changer, IEEE Transactions on Power Delivery, 13(1), 1998, 164–170. [12] F.C. Lu and Y.Y. Hsu, Fuzzy dynamic programming approach to reactive power voltage control in a distribution substation, IEEE Transactions on PWRS, 12(2), 1997, 681–688. [13] Y.Y. Hsu et al., A combined artificial neural network-fuzzy dynamic programming approach to reactive power/voltage control in a distribution substation, IEEE Transactions on PWRS, 13(4), 1998, 1265–1271. [14] M.M.A. Salama and A.Y. Chikhani, An expert system for reactive power control of a distribution system, IEEE Transactions on Power Delivery, 7(2), 1992, 940–945. [15] D.H. Spatti, I.N. Silva, W.F. Usida, and R.A. Flauzino, Real-time voltage regulation in power distribution system using fuzzy control, IEEE Transactions on Power Delivery, 25(2), 2010, 1112–1123. [16] K. Khiat, A. Chaker, A. Exposito, and J. Ramo, Reactive power optimization and voltage control in the western Algerian transmission system: A hybrid approach, Electric Power Systems Research, 64, 2003, 3–10. [17] J.Z. Zhu, C.S. Chang, W. Yan, and G.Y. Xu, Reactive power optimization using an analytic hierarchical process and a non-linear optimization neural network approach, IEE Proceedings-Generation Transmission and Distribution, 145(1), 1998, 89–96. [18] R.H. Liang and Y.S. Wang, Fuzzy-based reactive power and voltage control in a distribution system, IEEE Transactions on Power Delivery, 18(2), 2003, 610–618. [19] Z.Q. Zhu, Practical load modelling method for power system, Automation of Electric Power Systems, 23(10), 1999, 34–39. [20] L.L. Grigsby, Power system stability and control (Florida, USA: CRC Press, 2007). [21] C.Y. Choo, Power system load modelling (Auckland, New Zealand: Auckland University Press, 2006). [22] J.Z. Zhu, Optimization of power system operation (New York, USA: Wiley-IEEE Press, 2009).
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