Khaleeq R. Niazi, Mohammed R. Farooqi, Chandra M. Arora, and Simrath L. Surana
[1] A. Merlin & H. Back, Search for a minimum-loss operatingspanning tree configuration in an urban power distribution,Proc. 5th Power System Computation Conf., Cambridge, UK,1975, 1–18. [2] S. Civanlar, J.J. Grainger, H. Yin, & S.S.H. Lee, Distributionfeeder reconfiguration for loss reduction, IEEE Transactionson Power Delivery, 3(3), 1988, 1217–1223. [3] D. Shirmohammadi & W.H. Hong, Reconfiguration of electricdistribution networks for resistive line loss reduction, IEEETransactions on Power Delivery, 4(1), 1989, 1492–1498. [4] S.K. Goswami & S.K. Basu, A new algorithm for the recon-figuration of distribution feeders for loss minimization, IEEETransactions on Power Delivery, 7(3), 1992, 1482–1491. [5] M.E. Baran & F.F. Wu, Network reconfiguration in distri-bution systems for loss reduction and load balancing, IEEETransactions on Power Delivery, 4(2), 1989, 1401–1407. [6] C.S. Chen & M.Y. Cho, Energy loss reduction by criticalswitches, IEEE Transactions on Power Delivery, 8(3), 1993,1246–1253. [7] J.C. Wang, H.D. Chiang, & G.R. Darling, An efficient algorithmfor real time network reconfiguration in large scale unbalanceddistribution systems, IEEE Transactions on Power Systems,11(1), 1996, 511–517. [8] K. Aoki, T. Ichimori, & M. Kanezashi, Normal state optimalload allocation in distribution systems, IEEE Transactions onPower Delivery, PWRD2, 1987, 147–155. [9] T.E. McDermott, I. Drezga, & R.P. Broadwater, A heuristicnon-linear constructive method for distribution system recon-figuration, IEEE Transactions on Power Systems, 14(2), 1999,478–483. [10] T.P. Wagner, A.Y. Chikhani, & R. Hackam, Feeder recon-figuration for loss reduction, IEEE Transactions on PowerDelivery, 6(4), 1991, 1922–1933. [11] R. Sarfi, M. Salama, & A. Chikhani, A survey of state of art indistribution system reconfiguration for system loss reduction,Electrical Power System Research, 31(1), 1994, 61–70. [12] R. Sarfi, M. Salama, & A. Chikhani, Distribution systemreconfiguration for loss reduction: an algorithm based onnetwork partitioning theory, IEEE Transactions on PowerSystems, 11(1), 1996, 514–510. [13] N.D.R. Sarma & K.S.P. Rao, A new 0-1 integer programmingmethod for feeder reconfiguration for loss minimization indistribution systems, Electrical Power System Research, 33,1995, 125–131. [14] B. Morton & I.M.Y. Moreels, An efficient brute-force solutionto the network reconfiguration problem, IEEE Transactionson Power Delivery, 15(3), 2000, 996–1000. [15] V.N. Gohokar, M.K. Khedkar, & G.M. Dhole, Formulation ofdistribution reconfiguration problem using network topology:a generalized approach, Electrical Power System Research, 69,2004, 305–310. [16] H.P. Schmidt, N. Ida, N. Kagan, & J.C. Guaraldo, Fast recon-figuration of distribution system considering loss minimization,IEEE Transactions on Power Systems, 20(3), 2005, 1311–1319. [17] F.V. Gomes, S. Carneiro, Jr, J.L.R. Pereira, M.P. Vanagre,P.A.N. Garcia, & L.R. Araujo, A new heuristic reconfiguration20algorithm for large distribution systems, IEEE Transactionson Power Systems, 20(3), 2005, 1373–1378. [18] K. Nara, A. Shiose, M. Kiagawa, & T. Ishihara, Implementationof genetic algorithm for distribution system loss minimumreconfiguration, IEEE Transactions on Power Systems, 7(3),1992, 1044–1051. [19] M. Lin, F.S. Cheng, & M.T. Tsay, Distribution feeder reconfig-uration with refined genetic algorithm, IEE Proc. GenerationTransmission and Distribution, 147, 2000, 349–354. [20] J.Z. Zhu, Optimal reconfiguration of electric distribution net-work using refined genetic algorithm, Electrical Power SystemResearch, 62, 2002, 37–42. [21] E.R. Ramos, A.G. Exposito, J.R. Santos, & F.L. Iborra,Path based distribution network modeling: application toreconfiguration for loss reduction, IEEE Transactions on PowerSystems, 20(2), 2005, 556–564. [22] A.C.B. Delbem, A.C.P.L. Carvalho, & N.G. Bretas, Mainchain representation of evolutionary algorithms applied todistribution system reconfiguration, IEEE Transactions onPower Systems, 20(1), 2005, 425–436. [23] K. Prasad, R. Ranjan, N.C. Sahoo, & A. Chaturvedi, Optimalconfiguration of radial distribution system using fuzzy mutatedgenetic algorithm, IEEE Transactions on Power Delivery,20(2), 2005, 1211–1213. [24] Y.-Y. Hong & S.-Y. Ho, Determination of network configu-ration considering multi-objective in distribution systems us-ing genetic algorithm, IEEE Transactions on Power Systems,20(2), 2005, 1062–1069. [25] C.H. Lin, C.S. Chen, C.J. Wu, & M.S. Kang, Application ofimmune algorithm to optimal switching operation for distribu-tion loss minimization and load balance, IEE Proc. GenerationTransmission and Distribution, 150(2), 2003, 183–189. [26] H.K. Yunseok & K.K.-H. Jung, Artificial neural network basedfeeder reconfiguration for loss reduction in distribution system,IEEE Transactions on Power Delivery, 18(3), 1993, 1356–1366. [27] Y.J. Hsiao & C.Y. Chen, Multi objective feeder reconfiguration,IEE Proc. Generation Transmission and Distribution, 148,2001, 333–336. [28] C.T. Su, C.-F. Chang, & J.-P. Chiou, Distribution network re-configuration for loss reduction by ant colony search algorithm,Electrical Power System Research, 75, 2005, 190–199. [29] D. Das, A fuzzy multiobjective approach for network reconfig-uration of distribution systems, IEEE Transactions on PowerDelivery, 21(1), 2006, 202–209. [30] Y.-J. Jeon, J.-C. Kim, J.-O. Kim J.-R. Shin, & K.Y. Lee, Anefficient simulated annealing algorithm for network reconfigu-ration in large scale distribution systems, IEEE Transactionson Power Delivery, 17(4), 2002, 1070–1078. [31] H. Salazar, R. Gallego, & R. Romero, Artificial neural networkand clustering techniques applied in the reconfiguration ofdistribution systems, IEEE Transactions on Power Delivery,21(3), 2006, 1735–1741. [32] Y.-C. Chuang, Y.-L. Ke, C.-S. Chen, & Y.-L. Chen, Rule-expert knowledge based Petri net approach for distributionsystem temperature adoptive feeder reconfiguration, IEEETransactions on Power Systems, 21(3), 2006, 1362–1370.
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