Z. Ghofrani-Jahromi, M. Abedi, G.B. Gharehpetian, and M. Masjed-Jamei
[1] V. Brandwajn, A.B.R. Kumar, A. Ipakchi, A. Bose, & S.D.Kuo, Severity indices for contingency screening in dynamicsecurity assessment, IEEE Transactions on Power Systems, 12 (3), 1997, 1136–1142. [2] Z. Jia & B. Jeyasurya, Contingency ranking for on-line voltage stability assessment, IEEE Transactions on Power Systems, 15 (3), 2000, 1093–1097. [3] Y. Mansour, A.Y. Chang, J. Tamby, E. Vaahedi, B.R. Corns, & El–Sharkawi, Large scale dynamic security screening and ranking using neural networks, IEEE Transactions on Power Systems, 12 (2), 1997, 954–960. [4] Y. Mansour, E. Vaahedi, & M.A. El–Sharkawi, Dynamic security contingency screening and ranking using neural networks, IEEE Transactions on Neural Networks, 8 (4), 1997, 942–950. [5] E. Vaahedi, C. Fuchs, W. Xu, Y. Mansour, H. Hamadanizadeh, & G.K. Morison, Voltage stability contingency screening and ranking, IEEE Transactions on Power Systems, 14 (1), 1999, 256–265. [6] N. Amjadi & M. Esmaili, Application of a new sensitivity analysis framework for voltage contingency ranking, IEEE Transactions on Power Systems, 20 (2), 2005, 973–983. [7] L. Srivastava, S.N. Singh, & J. Sharma, Knowledge based neural network for voltage contingency selection and ranking, IEEE Proceedings on Generation, Transmission, and Distribution, 146 (6), 1999, 649–656. [8] K.L. Lo, L.J. Peng, J.F. Macqueen, A.O. Ekwue, & D.T.Y.Cheng, Fast real power contingency ranking using counterpropagation network, IEEE Transactions on Power Systems, 13 (4), 1259–1264. [9] I. Musirin & T. Khawa, Abdul Rahman, Hybrid neural network topology for line outage contingency ranking, Proc. of IEEE National Power and Energy Conf. (PECon), Bangi, Malaysia, 2003, 220–224. [10] S. Greene, I. Dobson, & F.L. Alvarado, Contingency ranking for voltage collapse via sensitivities from a single nose curve, IEEE Power Engineering Society, Summer Meeting, Berlin, Germany, 1997, paper # SM97_707. [11] I. Musirin & T. Khawa, Abdul Rahman, Simulation technique for voltage collapse prediction and contingency ranking in power system, Proc. of IEEE Student Conf. on Research and Development, Shah Alam, Malaysia, 2002, 188–191. [12] I. Musirin & T. Khawa Abdul Rahman, Fast automatic contingency analysis and ranking technique for power system security assessment, Proc. of IEEE Student Conf. on Research and Development, Putrajaya, Malaysia, 2003, 231–236. [13] M. Moghavvemi & F.M. Omar, Technique for contingencymonitoring and voltage collapse prediction, IEE Proceeding on Generation, Transmission, and Distribution, 145 (6), 1998, 634–640. [14] T. Jain, L. Srivastava, & S.N. Singh, Fast voltage contingency screening using radial basis function neural network, IEEE Transactions on Power Systems, 18 (4), 2003, 1359–1366. [15] M. Moghavvemi & O. Faruque, Real-time contingency evaluation and ranking technique, IEE Proc. on Gener. Transm. Distrib, 145 (5), 1998, 517–524. [16] T.L. Saaty, The analytical hierarchy process, planning, priority, resource allocation, USA: (RWS Publications, 1980). [17] S. Gerbex, R. Cherkaoui, & A.J. Germond, Optimal location of FACTS devices to enhance power system security, IEEE PowerTech Conference, 2003, Bologna, Italy.
Important Links:
Go Back