ENHANCED MULTI-OBJECTIVE PARTICLE SWARM OPTIMIZATION FOR OPTIMAL REACTIVE POWER DISPATCH CONSIDERING VOLTAGE STABILITY

Yujiao Zeng and Yanguang Sun

References

1. [1] R. Billington and S.S. Sachdev, Optimum network VAR planning by nonlinear programming, IEEE Transactions on Power Apparatus and Systems, PAS-92(4), 1973, 1217–1225.
2. [2] N. Grudinin, Reactive power optimization using successive quadratic programming method, IEEE Transactions on Power Systems, 13(4), 1998, 1219–1225.
3. [3] G.T. Hyedt and W.M. Grady, Optimal Var sitting using linear load flow formulation, IEEE Transactions on Power Apparatus Systems, PAS-92(5), 1983, 1214–1222.
4. [4] S. Granville, Optimal reactive dispatch through interior point methods, IEEE Transactions on Power Systems, 9(1), 1994, 136–146.
5. [5] I. Kenji, Reactive power optimization by genetic algorithm, IEEE Transactions on Power Systems, 9(2), 1994, 685–692.
6. [6] Q.H. Wu, Power system optimal reactive power dispatch using evolutionary programming, IEEE Transactions on PowerSystems, 10(3), 1995, 1243–1248.
7. [7] H. Yoshida, K. Kawata, and Y. Fukuyama, A particle swarm optimization for reactive power and voltage control considering voltage security assessment, IEEE Transactions on Power Systems, 15(4), 2000, 1232–1239.
8. [8] M. Varadarajan and K.S. Swarup, Differential evolutionary algorithm for optimal reactive power dispatch, Electrical Power and Energy Systems, 30(8), 2008, 435–441.
9. [9] M.A. Abido and J.M. Bakhashwain, A novel multiobjectiveevolutionary algorithm for optimal reactive power dispatchproblem, Proc. 10th IEEE International Conf. on Electronics, Circuits and Systems, Sharjah, United Arab Emirates, 2003, 1054–1057.
10. [10] M.A. Abido, Optimal VAR dispatch using a multiobjective evolutionary algorithm, International Journal of Electrical Power and Energy Systems, 27(1), 2005, 3–20.
11. [11] F. Shi Gang and Q. Ai, Multi-objective reactive power optimization using SPEA2, High Voltage Engineering, 9(27), 2007, 115–119.
12. [12] S. Jeyadevi, S. Babulal, and M. Willjuice Iruthayarajan, Solving multiobjective optimal reactive power dispatch using modified NSGA-II, International Journal of Electric Power and Energy Systems, 33(2), 2011, 219–228.
13. [13] X. Zhang, W. Chen, C. Dai, and W. Cai, Dynamic multi-group self-adaptive differential evolution algorithm for reactive power optimization, International Journal of Electrical Power and Energy Systems, 32(5), 2010, 351–357.
14. [14] M.A. Abido, Multiobjective particle swarm optimization for optimal power flow problem, Proc. Optimization Power System Conf. (MEPCON 2008), Aswan, 2010, 241–268.
15. [15] P. Kessel and H. Glavitsch, Estimating the voltage stability of a power system, IEEE Transactions on Power Delivery, 3(1), 1986, 346–354.
16. [16] C.A.C. Coello, G.T. Pulido, and M.S. Lechuga, Handlingmultiple objectives with particle swarm optimization, IEEETransactions on Evolutionary Computation, 8(3), 2004, 256–279.
17. [17] Y. Shi and R. Eberhart, Emprical study of particle swarm optimization, Proc. IEEE Int. Cong. on Evolutionary Computation, Washington, DC, 1999, 101–106.
18. [18] A. Ratnaweera, S.K. Halgamuge, and H.C. Watson, Self-organizing hierarchical particle swarm optimizer withtime-varying acceleration coefficients, IEEE Transactions onEvolutionary Computation, 8(3), 2004, 240–255.
19. [19] S.C. Esquivel and C.A.C. Coello, On the use of particle swarm optimization with multimodal functions, Proc. 2003 Congress on Evolutionary Computation, Canberra, Australia, 2003, 1130–1136.
20. [20] B. Luo, J. Zheng, J. Xie, and J. Wu, Dynamic crowdingdistance – a new diversity maintenance strategy for MOEAs,Proc. IEEE Int. Conf. on Natural Computation, Jinan, China,2008, 580–585.
21. [21] K. Deb, An efficient constraint handling method for genetic algorithms, Computer Methods in Applied Mechanics and Engineering, 186(4), 2000, 311–338.
22. [22] R. Zimmerman, C.E. Murillo Sanchez, and D. Gan, MAT-POWER 3.0: A Matlab power system simulation package(Ithaca, NY: Cornell University Press, 1997).
23. [23] J.G. Vlachogiannis and K.Y. Lee, Determining generator contributions to transmission system using parallel vector evaluated particle swarm optimization, IEEE Transactions on Power Systems, 20(4), 2005, 1765–1774.
24. [24] O. Alsac and B. Stott, Optimal load flow with steady state security, IEEE Transactions on Power Apparatus Systems, PAS-93(3), 1974, 745–751.
25. [25] K.Y. Lee, Y.M. Park, and J.L. Oritz, A united approach to optimal real and reactive power dispatch, IEEE Transactions on Power Apparatus Systems, PAS-104(2), 1985, 1147–1153.
26. [26] R. Christie, Power system test case archive (University of Washington, 1993), http://www.ee.washington.edu/research/pstca.
27. [27] D.A. Van Veldhuizen and G.B. Lamont, On measuring mul-tiobjective evolutionary algorithm performance, Proc. Congr. on Evolutionary Computation, La Jolla, CA, 2000, 204–211.
28. [28] S. Bandyopadhyay, S.K. Pal, and B. Aruna, Multiobjective GAs, quantitative indices, and pattern classification, IEEE Transactions on Systems, Man and Cybernetics, 34(5), 2004, 2088–2099.

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• Abstract
• DOI: 10.2316/Journal.203.2014.3.203-0072
• From Journal (203) International Journal of Power and Energy Systems - 2014

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