Chaluvaiah Lakshminarayana and Malli R. Mohan
[1] C. Ucak and A. Pahwa, An analytical approach for step by step restoration of distribution systems following extended outages, IEEE Transactions on Power Delivery, 9(3), 1994, 952–958. [2] N.D.R. Sarma, V.C. Prasad, K.S. Prakesh Rao, and V.Shankar, A new network reconfiguration technique for service restoration in distribution networks, IEEE Transactions on Power Delivery, 9(4), 1994, 1936–1942. [3] D. Shirmohammadi, Service restoration in distribution networks via network reconfiguration, IEEE Transactions onPower Delivery, 7(2), 1992, 952–958. [4] J.K. Das, S. Chowdhury, S.P. Chowdhury, and S. Choudhuri, Development of restoration algorithm for typical power system to study post fault network topology, Journal of Institution Engineers (India), 81, 2000, 106–109. [5] S. Toune, F. Hiroyuki, G. Takamu, and F. Yoshikazu, Cooperative study of modern heuristic algorithms to service restoration in distribution systems, IEEE Transactions on Power Delivery, 17(1), 2002, 173–18. [6] A. Augugliaro, L. Dusonchet, and E. Riva Sanseverino, Multi-objective service restoration in distribution networks using an evolutionary approach and fuzzy sets, Electrical Power & Energy Systems, 22, 2000, 103–110. [7] A. Augugliaro, L. Dusonchet, and E. Riva Sanseverino, Evolving non-dominated solutions in multi-objective service restoration for automated distribution networks, Electric Power Systems Research, 59, 2001, 185–195. [8] Y. Kumar, B. Das, and J. Sharma, Service restoration in distribution systems using non-dominated sorting genetic algorithm, Power Systems Research, 76, 2006, 768–777. [9] K. Manjunath and M.R. Mohan, A new hybrid multi-objective quick service restoration technique for electric power distribution systems, Electrical Power Energy Systems, 29, 2007, 57–64. [10] A. Augugliaro, L. Dusonchet, and E. Riva Sanseverino, Service restoration in compensated distribution networks using a hybrid genetic algorithm, Electric Power Systems Research, 46, 1998, 59–66. [11] Y.T. Hsiao and C.Y. Chien, Enhancement of restoration service in distribution systems using a combination fuzzy-GA method, IEEE Transactions on Power Systems, 15, 2000, 1394–1400. [12] W.P. Luan, Genetic algorithm for supply restoration and optimal load shedding in power distribution networks, IEE Proceedings of General Transmitters and Distribution, 149, 2002, 145–151. [13] G. Rudplph, Convergence of evolutionary algorithms in general search space, Proc. Third IEEE Conf. Evolutionary Compution, 1996, 50–54. [14] Y.-T. Hsiao, Multi-objective evolution programming for feeder reconfiguration, IEEE Transactions on Power System, 19(1), 2004, 594–599. [15] S. Civanlar, I.J. Grainger, H. Yin, and S.S.H. Lee, Distribution feeder Reconfiguration for loss reduction, IEEE Transactions on Power Delivery, 3(3), 1998, 1217–1223. [16] E. Meseut Bran, and F.F. Wu, Optimal capacitor placement on radial distribution system, IEEE Transactions on Power Delivery, 4(1), 1989, 725–734. [17] C. Lakshminarayana and M.R. Mohan, A genetic algorithmmulti-objective approach for efficient operational planning technique of distribution systems, Journal of European Transactions on Electrical Power, !9, 2009, 186–208. [18] N. Srinivasan and K. Deb, Multi-objective function optimization using non-dominated sorting genetic algorithm, Evolutionary Computer, 2(3), 1994, 221–248. [19] K. Deb, Evolutionary algorithms for multi-criterion optimization in engineering and computer science, EUROGEN 99, University of Jvva skyla, Finland, 1999. [20] K. Deb, Multi-objective optimization using evolutionary algorithm (John Wiley & Sons Ltd.), 2002. [21] I.J. Nagarath and D.P. Kothari, Power system engineering (New Delhi: Tata McGraw Hill, 1994). [22] C. Lakshminarayana and M.R. Mohan, An improved load flow method for the analysis of pre/post fault distribution systems, IEEE Proc. India Int. Conf. Power Electronics, Chennai, 2006, 239–246. [23] C. Lakshminarayana and M.R. Mohan, A new fuzzy basedpower factor improvement and voltage limit violation minimization technique for electrical power distribution systems, IEEE Proc. Third Int. Conf. Artificial Intelligence in Engineering and Technology, Malaysia, 2006, 755–760.
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