1. VI. REFERENCES
[1] X. Wang and J. R. McDonald, “Modern power system planning,” London: McGraw-Hill Book Co., 1994.
[2] G. Latorre, R. D. Cruz, J. M. Areiza and A. Villegas, “Classification of publications and models on
transmission expansion planning,” IEEE Trans. Power Syst., vol. 18, pp. 938-946, May 2003.
[3] F. F. Wu, F. L. Zheng and F. S. Wen, “Transmission investment and expansion planning in a restructured
electricity market,” Energy, vol. 31, pp. 954-966, May-Jun. 2006.
[4] A. J. Wood and B. F. Wollenberg, “Power Generation, Operation and Control,” New York: John Wiley &
Sons, 1996.
[5] L. L. Garver, “Transmission network estimation using linear programming,” IEEE Trans. Power Apparat.
Syst., vol. PAS-89, pp. 1688-1697, Sept.-Oct. 1970.
[6] R. Villasana, L. L. Garver, and S. J. Salon, “ Transmission network planning using linear programming,” IEEE
Trans. Power Apparat. Syst., vol. PAS-104, pp. 349-356, Feb. 1985.
[7] S. H. M. Hashimoto, R. Romero and J. R. S. Mantovani, “Efficient linear programming algorithm for the
transmission network expansion planning problem,” Proc. IEE-Gen. Transm. Dist., vol. 150, pp. 536-542, Sept.
2003.
[8] P. E. Berry and R. M. Dunnett, “Contingency constrained economic dispatch algorithm for transmission
planning,” IEE Proc., vol. 136-C, pp. 238-244, Jul. 1989.
[9] Z. M. Al-Hamouz and A. S. Al-Faraj, “Transmission expansion planning using nonlinear programming,” in
Proc. 2002 IEEE Power Eng. Soc.Transmission and Distribution Conf., vol. 1, pp. 50-55.
[10] M. A. Farrag and M. M. El-Metwally, “New method for transmission planning using mixed-integer
programming,” IEE Proc., vol. 135-C, pp. 319-323, Jul. 1988.
[11] L. Bahiense, G. C. Oliveira, M. Pereira and S. Granville, “A mixed integer disjunctive model for
transmission network expansion,” IEEE Trans. Power Syst., vol. 16, pp. 560-565, Aug. 2001.
[12] A. Santos, P. M. Franca and A. Said, “An optimization model for longrange transmission expansion
planning,” IEEE Trans. Power Syst., vol. 4, pp. 94-101, Feb. 1989.
[13] A. Seifu, S. Salon and G. List, “Optimization of transmission line planning including security constraints,”
IEEE Trans. Power Syst., vol. 4, pp. 1507-1512, Oct. 1989.
[14] M. V. F. Pereira, L. M. V. G. Pinto, S. H. F. Cunha and G. C. Oliveira, “A decomposition approach to
automated generation/transmission expansion planning,” IEEE Trans. Power Syst., vol. PAS-104, pp. 3074-
3083, Nov. 1985.
[15] S. Binato, M. V. F. Pereira and S. Granville, “A new benders decomposition approach to solve power
transmission network design problems,” IEEE Trans. Power Syst., vol. 16, pp. 235-240, May 2001.
[16] S. N. Siddiqi and M. L. Baughman, “Value-based transmission planning and the effects of network
models,” IEEE Trans. Power Syst., vol. 10, pp. 1835-1842, Nov. 1995.
[17] G. C. Oliveira, A. P. C. Costa and S. Binato, “Large scale transmission network planning using optimization
and heuristic techniques,” IEEE Trans. Power Syst., vol. 10, pp. 1828-1833, Nov. 1995.

2. [18] R. Romero and A. Monticelli, “A Hierarchical decomposition approach for transmission network
expansion planning,” IEEE Trans. Power Syst., vol. 9, pp. 373-380, Feb. 1994.
[19] R. Romero, A. Monticelli, A. Garcia and S. Haffner, “Test systems and mathematical models for
transmission network expansion planning,” Proc. IEE-Gen. Transm. Dist., vol. 149, pp. 27-36, Jan. 2002.
[20] I. G. Sánchez, R. Romero, J. R. S. Mantovani and A. Garcia, “Interior point algorithm for linear
programming used in transmission network synthesis,” Electric Power Systems Research, vol. 76, pp. 9-16,
Sept. 2005.
[21] S. Haffner, A. Monticelli, A. Garcia, J. Mantovani and R. Romero, “Branch and bound algorithm for
transmission system expansion planning using a transportation model,” Proc. IEE-Gen. Transm. Dist., vol. 147,
pp. 149-156, May 2000.
[22] Y. H. Song and M. R. Irving, “Optimisation techniques for electrical power systems part 2 heuristic
optimisation methods,” Power Engineering Journal, vol. 15, pp. 151-160, Jun. 2001.
[23] G. Latorre-Bayona and I. J. Pérez-Arriaga, “Chopin, a heuristic model for long term transmission
expansion planning,” IEEE Trans. Power Syst., vol. 9, pp. 1886-1894, Nov. 1994.
[24] E. J. de Oliveira, I. C. da Silva, J. L. R. Pereira and S. Carneiro, “Transmission system expansion planning
using a sigmoid function to handle integer investment variables,” IEEE Trans. Power Syst., vol. 20, pp. 1616-
1621, Aug. 2005.
[25] R. J. Bennon, J. A. Juves and A. P. Meliopoulos, “Use of sensitivity analysis in automated transmission
planning,” IEEE Trans. Power Syst., vol. PAS-101, pp. 53-59, Jan. 1982.
[26] A. Monticelli, A. Santos, M. V. F. Pereira, S. H. Cunha, B. J. Parker and J. C. G. Praca, “Interactive
transmission network planning using a leasteffort criterion,” IEEE Trans. Power Syst., vol. PAS-101, pp. 3919-
3925, Oct. 1982. 262
[27] M. V. F. Pereira and L. M. V. G. Pinto, “Application of sensitivity of load supplying capability to interactive
transmission expansion planning,” IEEE Trans. Power Syst., vol. PAS-104, pp. 381-389, Feb. 1985.
[28] C. Serna, J. Durán and A. Camargo, “A model for expansion planning of transmission systems, a practical
application example,” IEEE Trans. Power Syst., vol. PAS-97, pp. 610-615, Mar./Apr. 1978.
[29] A. O. Ekwue and B. J. Cory, “Transmission system expansion planning by interactive methods,” IEEE
Trans. Power Syst., vol. PAS-103, pp. 1583-1591, Jul. 1984.
[30] R. Romero, C. Rocha, J. R. S. Mantovani and I. G. Sánchez, “Constructive heuristic algorithm for the DC
model in network transmission expansion planning,” Proc. IEE-Gen. Transm. Dist., vol. 152, pp. 277-282, Mar.
2005.
[31] M. J. Rider, A.V. Garcia and R. Romero, “A constructive heuristic algorithm to short term transmission
network expansion planning,” 2004 IEEE Power Eng. Soc. General Meeting, vol. 2, pp. 2107-2113, Jun. 2004.
[32] I. G. Sánchez, R. Romero, J. R. S. Mantovani and M. J. Rider, “Transmission-expansion planning using the
DC model and nonlinearprogramming technique,” Proc. IEE-Gen. Transm. Dist., vol. 152, pp. 763-769, Nov.
2005.
[33] E. L. da Silva, H. A. Gil and J. M. Areiza, “Transmission network expansion planning under an improved
genetic algorithm,” IEEE Trans. Power Syst., vol. 15, pp. 1168-1175, Aug. 2000.

3. [34] G. Duan and Y. Yu, “Problem-specific genetic algorithm for power transmission system planning,” Electric
Power Systems Research, vol. 61, pp. 41-50, Feb. 2002.
[35] R. A. Gallego, A. Monticelli and R. Romero, “Transmission expansion planning by an extended genetic
algorithm,” Proc. IEE-Gen. Transm. Dist., vol. 145, pp. 329-335, May 1998.
[36] H. A. Gil and E. L. da Silva, “A reliable approach for solving the transmission network expansion planning
problem using genetic algorithms,” Electric Power Systems Research, vol. 58, pp. 45-51, May 2001.
[37] X. Jingdong and T. Guoqing, “The application of genetic algorithms in the multi-objective transmission
network planning,” in Proc. 4th Int. Conf. on Advances in Power System Control, Operation and Management,
1997, pp. 338-341.
[38] R. A. Gallego, A. B. Alves, A. Monticelli and R. Romero, “Parallel simulated annealing applied to long term
transmission network expansion planning,” IEEE Trans. Power Syst, vol.12, pp. 181-188, Feb. 1997.
[39] R. Romero, R. A. Gallego and A. Monticelli, “Transmission system expansion planning by simulated
annealing,” IEEE Trans. Power Syst., vol. 11, pp. 364-369, Feb. 1996.
[40] F. Wen and C. S. Chang, “Transmission network optimal planning using the tabu search method,” Electric
Power Systems Research, vol. 42, pp. 153-163, Aug. 1997.
[41] R. A. Gallego, R. Romero and A. J. Monticelli, “Tabu search algorithm for network synthesis,” IEEE Trans.
Power Syst., vol. 15, pp. 490-495, May 2000.
[42] E. L. da Silva, J. M. A. Ortiz, G. C. de Oliveira and S. Binato, “Transmission network expansion planning
under a tabu search approach,” IEEE Trans. Power Syst., vol. 16, pp. 62-68, Feb. 2001.
[43] R. A. Gallego, A. Monticelli and R. Romero, “Comparative studies on non-convex optimization methods for
transmission network expansion planning,” IEEE Trans. Power Syst., vol. 13, pp. 822-828, Aug. 1998.
[44] R. C. G. Teive, E. L. Silva and L. G. S. Fonseca, “A cooperative expert system for transmission expansion
planning of electrical power systems,” IEEE Trans. Power Syst, vol. 13, pp. 636-642, May 1998.
[45] F. D. Galiana, D. T. McGillis and M. A. Marin, “Expert systems in transmission planning,” in Proc. IEEE, May
1992, vol. 80, pp. 712-726.
[46] J. R. Shin and Y. M. Park, “Optimal long-term transmission planning by expert system approach,” in Proc.
1993 IEEE Reg. 10 Conf. Comput. Commun. Control Power Eng., pp. 713-717.
[47] H. Kim, S. Moon, J. Choi, C. Lee, J. Wang and R. Billinton, “Transmission system expansion planning of
KEPCO system(Youngnam area) using fuzzy set theory,” in Proc. IEEE Power Eng. Soc. Transmission and
Distribution Conf., Jul. 2002, vol. 1, pp. 535-540.
[48] S. Binato, G. C. de Oliveira and J. L. de Araújo, “A greedy randomized adaptive search procedure for
transmission expansion planning,” IEEE Trans. Power Syst., vol. 16, pp. 247-253, May 2001.
[49] C. Gao and H. Cheng and C. Jiang, “Particle swarm optimization based hybrid algorithm for transmission
expansion planning,” WSEAS Transactions on Electronics, vol. 2, pp. 119-127, Oct. 2005.
[50] K. Yoshimoto, K. Yasuda and R. Yokohama, “Transmission expansion planning using neuro-computing
hybridized with genetic algorithm,” in Proc. 1995 IEEE Conf. on Evolutionary Comput., vol. 1, pp. 126-131.

4. [51] T. S. Chung, K. K. Li, G. J. Chen, J. D. Xie and G. Q. Tang, “Multiobjective transmission network planning by a
hybrid GA approach with fuzzy decision analysis,” Int. J. Electr. Power Energy Syst., vol. 25, pp. 187-192, Mar.
2003.
[52] T. Al-Saba and I. El-Amin, “The application of artificial intelligent tools to the transmission expansion
problem,” Electric Power Systems Research, vol. 62, pp. 117-126, Jun. 2002.
[53] A. H. Escobar, R. A. Gallego and R. Romero, “Multistage and coordinated planning of the expansion of
transmission systems,” IEEE Trans. Power Syst., vol. 19, pp. 735-744, May 2004.
[54] V. A. Levi and M. S. Calovic, “A new decomposition based method for optimal expansion planning of large
transmission networks,” IEEE Trans. Power Syst., vol. 6, pp. 937-943, Aug. 1991.
[55] K. J. Kim, Y. M. Park and K. Y. Lee, “Optimal long term Transmission expansion planning based on
maximum principle,” IEEE Trans. Power Syst., vol. 3, pp. 1494-1501, Nov. 1988.
[56] H. K. Youssef and R. Hackam, “New transmission planning model,” IEEE Trans. Power Syst., vol. 4, pp. 9-
18, Feb. 1989.
[57] M. El-Metwally and A. Harb, “Transmission planning using admittance approach and quadratic
programming,” Electric Machines and Power Systems, vol. 21, pp. 69-83, Jan.-Feb. 1993.
[58] A. H. El-Abiad and Y. P. Dusonchet, “Discrete optimization and the planning of electric power networks,”
IEEE Trans. Circuit Theory, vol. CT-20, pp. 230-238, May 1973.
[59] X. L. Wang, X. F. Wang, and Y. B. Mao, “Improved genetic algorithm for optimal multistage transmission
system planning,” in Proc. IEEE Power Eng. Soc. Transmission and Distribution Conf., Jul. 2001, vol. 3, pp. 1737-
1742.
[60] H. K. M. Youseef, “Dynamic transmission planning using a constrained genetic algorithm,” Int. J. of Electr.
Power Energy Syst., vol. 23, pp. 857-862, Nov. 2001.
[61] J. Fonseka and V. Miranda, “A hybrid meta-heuristic algorithm for transmission expansion planning,” in
Conf. Probabilistic Methods Applied to Power Syst., 2002, pp. 250-262.
[62] A. K. David and F. S. Wen, “Transmission planning and investment under competitive electricity market
environment,” in Proc. IEEE Power Eng. Soc. Summer Meeting, Jul. 2001, vol. 3, pp. 1725-1730.
[63] M. O. Buygi, M. Shahidehpour, H. M. Shanechi and G. Balzer, “Transmission planning approaches in
restructured power systems,” in Proc. 2003 IEEE Power Tech Conf., 2003, vol. 2, pp. 7.
[64] W. Wong, H. Chao, D. Julian, P. Lindberg and S. Kolluri, “Transmission planning in a deregulated
environment,” in Proc. IEEE Power Eng. Soc. Transmission and Distribution Conf., Apr. 1999, vol. 1, pp. 350-
355.
[65] R. J. Thomas, J. T. Whitehead, H. Outhred and T. D. Mount, “Transmission system planning - The old world
meets the new,” in Proc. IEEE, Nov. 2005, vol. 93, pp. 2026-2035.
[66] F. Woolf Tulsa, “Global transmission expansion: recipes for success,” Tulsa, OK: PennWell Corp., 2003.
[67] R. E. Clayton and R. Mukerji, “System planning tools for the competitive market,” IEEE Comput. Applicat.
Power, vol. 9, pp. 50-55, Jul. 1996.
[68] R. D. Cruz and G. Latorre, “HIPER: Interactive tool for mid-term transmission expansion planning in a
deregulated environment,” IEEE Power Engineering Review, vol. 20, pp. 61-62, Nov. 2000.

5. [69] C. Cagigas and M. Madrigal, “Centralized vs. Competitive Transmission Expansion Planning: The Need For
New Tools,” in Proc. 2003 IEEE Power Eng. Soc. General Meeting Conf., vol. 2, pp. 1012-1017.
[70] G. Drayton, M. McCoy, M. Pereira, E. Cazalet, M. Johannis and D. Philips, “Transmission expansion
planning in the western interconnection - The planning process and the analytical tools that will be needed to
do the job,” IEEE Power Eng. Soc. Power Systems Conf. and Exposition, vol. 3, pp. 1556-1561, Oct. 2004.
[71] T. De la Torre, J. W. Feltes, T. G. S. Román and H. M. Merril, “Deregulation, privatization, and competition:
Transmission planning under uncertainty,” IEEE Trans. Power Syst., vol. 14, pp. 460-465, May 1999. 263
[72] M. V. F. Pereira, M. F. McCoy, and H. M. Merrill, “Managing risk in the new power business,” IEEE Comput.
Applicat. Power, vol. 13, pp. 18-24, Apr. 2000.
[73] R. Nadira, R. R. Austria, C. A. Dortolina and F. Lecaros, “TransmissionPlanning in the Presence of
Uncertainties,” in Proc. 2003 IEEE Power Eng. Soc General Meeting Conf., vol. 1, pp. 289-294.
[74] H. Chao, F. X. Li, L. H. Trinh, J. P. Pan, M. Gopinathan and D. J. Pillo, “Market based transmission planning
considering reliability and economic performances,” Int. Conf. on Probabilistic Methods Applied to Power Syst.,
pp. 557-562, Sep. 2004.
[75] M. O. Buygi, M. Shahidehpour, H. M. Shanechi and G. Balzer, “Market based transmission planning under
uncertainties,” Int. Conf. on Probabilistic Methods Applied to Power Syst., pp. 563-568, Sep. 2004.
[76] M. O. Buygi, M. Shahidehpour, H. M. Shanechi and G. Balzer, “Marketbased transmission expansion
planning: Fuzzy risk assessment,” in Proc. 2004 IEEE Int. Conf. on Electric Utility Deregulation, Restructuring
and Power Technologies, vol. 2, pp. 427-432.
[77] M. O. Buygi, M. Shahidehpour, H. M. Shanechi and G. Balzer, “Market based transmission expansion
planning: Stakeholders' desires,” in Proc. 2004 IEEE Int. Conf. on Electric Utility Deregulation, Restructuring
and Power Technologies, vol. 2, pp. 433-438.
[78] M. O. Buygi, G. Balzer, H. M. Shanechi and M. Shahidehpour, “Marketbased transmission expansion
planning,” IEEE Trans. Power Syst., vol. 19, pp. 2060–2067, Nov. 2004.
[79] M. Lu, Z. Y. Dong, T. K. Saha, “A Framework for Transmission Planning in a Competitive Electricity
Market,” Transmission and Distribution Conf. and Exhibition: Asia and Pacific, pp. 1-6, Aug. 2005.
[80] V. Miranda and L. M. Proenca, “Probabilistic choice vs. risk analysis – conflicts and synthesis in power
system planning,” IEEE Power Industry Comput. Applicat. Conf., pp. 16-21, Aug. 1997.
[81] V. Miranda and L. M. Proenca, “Why Risk Analysis Outperforms Probabilistic Choice as the Effective
Decision Support Paradigm for Power System Planning,” IEEE Trans. Power Syst, vol. 13, pp. 643-648, May
1998.
[82] N. Yang and F. S. Wen, “A chance constrained programming approach to transmission system expansion
planning,” Electric Power Systems Research, vol. 75, pp. 171-177, Aug. 2005.
[83] M. S. Kandil, S. M. El-Debeiky and N. E. Hasanien, “A hybrid mathematical and rule-based system for
transmission network planning in a deregulated environment,” in Proc. IEEE Power Eng. Soc. Transmission
and Distribution Conf., Jul. 2001, pp. 1451-1456.

6. [84] H. B. Sun and D. C. Yu, “A multiple-objective optimization model of transmission enhancement planning
for independent transmission company (ITC),” in Proc. IEEE Power Eng. Soc. Transmission and Distribution
Conf., Jul. 2000, vol. 4, pp. 2033-2038.
[85] A. Orths, A. Schmitt, A. Z. Styczynski and J. Verstege, “Multi-criteria optimization methods for planning
and operation of electrical energy systems,” Electrical Engineering, vol. 83, pp. 251-258, 2001.
[86] Z. A. Styczynski, “Power network planning using game theory,” in Proc. 13th Power Syst. Comput. Conf.
Trondheim, 1999, pp. 607-613.
[87] A. S. D. Braga and J. T. Saraiva, “A multiyear dynamic approach for transmission expansion planning and
long-term marginal costs computation,” IEEE Trans. Power Syst., vol. 20, pp. 1631-1639, Aug. 2005.
[88] C. L. Hwang and A. S. M. Masud, “Multiple objective decision making: methods and applications: a state-
of-the art survey,” Berlin: Springer- Verlag, 1979.
[89] G. B. Shrestha and P. A. J. Fonseka, “Congestion-driven transmission expansion in competitive power
markets,” IEEE Trans. Power Syst., vol. 19, pp. 1658-1665, Aug. 2004.
[90] J. Choi, A. A. El-Keib and T. Tran, “A fuzzy branch and bound-based transmission system expansion
planning for the highest satisfaction level of the decision maker,” IEEE Trans. Power Syst, vol. 20, pp. 476-484,
Feb. 2005.
[91] J. Choi, T. Tran, A. A. El-Keib, R. Thomas, H. S. Oh and R. Billinton, “A method for transmission system
expansion planning considering probabilistic reliability criteria,” IEEE Trans. Power Syst., vol. 20, pp. 1606-
1615, Aug. 2005.
[92] H. Singh, “Introduction to game theory and its application in electric power markets,” IEEE Comput.
Applicat. Power, vol. 12, pp. 18-22, Oct. 1999.
[93] J. Contreras and F. F. Wu, “Coalition formation in transmission expansion planning,” IEEE Trans. Power
Syst., vol. 14, pp. 1144-1152, 1999.
[94] J. Contreras and F. F. Wu, “A kernel-oriented algorithm for transmission expansion planning,” IEEE Trans.
Power Syst., vol. 13, pp. 1434-1440, Nov. 2000.
[95] J. Yen, Y. H. Yan, J. Contreras, P. C. Ma and F. F. Wu, “Multi-agentapproach to the planning of power
transmission expansion,” Decision Support Syst., vol. 28, pp. 279-290, May 2000.
[96] R. Fang and D. J. Hill, “A new strategy for transmission expansion in competitive electricity markets,”
IEEE Trans. Power Syst, vol. 18, pp. 374-380, Feb. 2003.
[97] H. S. Ko, T. Niimura and K. Ozawa, “A day-ahead electricity price prediction based on a fuzzy-neuro
autoregressive model in a deregulated electricity market,” in Proc. Int. Joint Conf. on Neural Networks, May
2002, vol. 2, pp. 1362-1366.
[98] J. Contreras, R. Espinola, F. J. Nogales and A. J. Conejo, “ARIMA models to predict next-day electricity
prices,” IEEE Trans. Power Syst., vol. 18, pp. 1014-1020, Aug. 2003.
[99] O. B. Fosso, A. Gjelsvik, A. Haugstad, B. Mo and I. Wangensteen, “Generation scheduling in a deregulated
system. The Norwegian case,” IEEE Trans. Power Syst., vol. 14, pp. 75-81, Feb. 1999.
[100]B. R. Szkuta, L. A. Sanabria and T. S. Dillon, “Electricity price shortterm forecasting using artificial neural
networks,” IEEE Trans. Power Syst., vol. 14, pp. 851-857, 1999.

7. [101]J. Valenzuela and M. Mazumdar, “On the computation of the probability distribution of the spot market
price in a deregulated electricity market,” IEEE Power Industry Comput. Applicat. Conf., pp. 268-271, May
2001.
[102]R. C. Garcia, J. Contreras, M. van Akkeren, J. Garcia and C. Batista, “A GARCH forecasting model to predict
day-ahead electricity prices,” IEEE Trans. Power Syst., vol. 20, pp. 867-874, May 2005.
[103]D. Srinivasan and M. A. Lee, “Survey of hybrid fuzzy neural approaches to electric load forecasting,” in
Proc. IEEE Int. Conf. on Systems, Man and Cybernetics, Oct. 1995, vol. 5, pp. 4004-4008.
[104]H. K. Alfares and M. Nazeeruddin, “Electric load forecasting: Literature survey and classification of
methods,” Int. J. Syst. Science, vol. 33, pp. 23-34, Jan. 2002.
[105]W. Charytoniuk, M. S. Chen, P. and van Olinda, “Nonparametric regression based short-term load
forecasting,” IEEE Trans. Power Syst., vol. 13, pp. 725-730, Aug, 1998.
[106]D. G. Infield and D. C. Hill, “Optimal smoothing for trend removal in short term electricity demand
forecasting,” IEEE Trans. Power Syst., vol. 13, pp. 1115-1120, Aug, 1998.
[107]M. E. El-Hawary and G. A. N. Mbamalu, “Load forecasting via suboptimal seasonal autoregressive models
and iteratively reweighted least squares estimation,” IEEE Trans. Power Syst., vol. 8, pp. 343-348, Feb. 1993.
[108]E. B. Makram, A. A. Girgis and T. Zheng, “Hybrid wavelet-Kalman filter method for load forecasting,”
Electric Power Systems Research, vol. 54, pp. 11-17, Apr. 2000.
[109]G. Juberias, R. Yunta, J. Garcia Moreno and C. Mendivil, “A new ARIMA model for hourly load
forecasting,” in Proc. IEEE Transmission and Distribution Conf., Apr. 1999, pp. 314-319.
[110]D. G. Lee, B. W. Lee and S. H. Chang, “Genetic programming model for long-term forecasting of electric
power demand,” Electric Power Systems Research, vol. 40, pp. 17-22, Jan. 1997.
[111]K. Padmakumari, K. P. Mohandas and S. Thiruvengadam, “Long term distribution demand forecasting
using neuro fuzzy computations,” Int. J. Electrical Power and Energy Syst., vol. 21, pp. 315-322, Apr. 1999.
[112]A. K. Sinha and J. K. Mandal, “Hierarchical dynamic state estimator using ANN-based dynamic load
prediction,” Proc. IEE-Gen. Transm. Dist., vol. 146, pp. 541-549, Nov. 1999.
[113]A. S. Chandrashekara, T. Anathapadmanabha and A. D. Kulkarni, “Neuro-expert system for planning and
load forecasting of distribution systems,” Int. J. Electr. Power and Energy Syst., vol. 21, pp. 309-314, 1999.
[114]California Independent System Operator, “A proposed methodology for evaluating the economic
benefits of transmission expansions in a restructured wholesale electricity market,” Mimeo 2003. [Online].
Available: http://www.caiso.com
[115]California Independent System Operator, “Transmission economic assessment methodology (TEAM),”
Mimeo 2004. [Online]. Available: http://www.caiso.com
[116]Consortium of Electric Reliability Technology Solutions, “Economic Evaluation of Transmission
Interconnection in a Restructured Market,” 2004. [Online]. Available: http://www.energy.ca.gov/reports 264
[117]W. S. Read, W. K. Newman, I. J. Perez-Arriaga, H. Rudnick, M. R. Gent and A. J. Roman, “Reliability in the
new market structure (Part 1),” IEEE Power Engineering Review, vol. 19, pp. 4-14, Dec. 1999.
[118]W. S. Read, W. K. Newman, I. J. Perez-Arriaga, H. Rudnick, M. R. Gent and A. J. Roman, “Reliability in the
new market structure (Part 2),” IEEE Power Engineering Review, vol. 20, pp. 10-16, Jan. 2000.

8. [119]R. Allan and R. Billinton, “Probabilistic assessment of power systems,” Proc. IEEE, vol. 88, pp. 140-162,
Feb. 2000.
[120]I. D. J. Silva, M. J. Rider, R. Romero, A. V. Garcia and C. A. Murari, “Transmission network expansion
planning with security constraints,” Proc. IEE-Gen. Transm. Dist., vol. 152, pp. 828-836, Nov. 2005.
[121]M. J. Beshir, “Probabilistic based transmission planning and operation criteria development for the
Western Systems Coordinating Council,” in Proc. IEEE Power Eng. Soc. Summer Meeting, 1999, vol. 1 pp. 134-
139.
[122]W. Li, W. Mansour, J. K. Korczynski and B. J. Mills, “Application of transmission reliability assessment in
probabilistic planning of BC hydro Vancouver south metro system,” IEEE Trans. Power Syst., vol. 10, pp. 964-
970, May 1995.
[123]A. F. Vojdani, R. D. Williams, W. Gambel, W. Li, L. Eng and B. N. Suddeth, “Experience with application of
reliability and value of service analysis in system planning,” IEEE Trans. Power Syst., vol. 11, pp. 1489-1496,
Aug. 1996.
[124]A. A. Chowdhury and D. O. Koval, “Value-based system facility planning,” IEEE Power and Energy
Magazine, vol. 2, pp. 58-67, Sep./Oct. 2004.
[125]F. F Wu, F. S. Wen and G. Duan, “Generation planning and investment under deregulated environment:
Comparison of USA and China,” 2004 IEEE Power Eng. Soc. General Meeting, vol. 2, pp. 1324-1328, Jun. 2004.
[126]IEEE Power Eng. Soc. 2004 General Meeting Panel Presentations, “Power System and Power Market
Development in China-Problems and Proposed Alleviation Measures,” X. Bai and S. Fu 2004. [Online].
Available: http://www.ieee.org/pes
[127]S. Mukhopadhyay, “Power generation and transmission planning in India - methodology, problems and
investments,” 2004 IEEE Power Eng. Soc. General Meeting, vol. 2, pp. 1321-1323, Jun. 2004.
[128]L.S. Belyaev, N. I. Voropai, S. V. Podkovalnikov, V. V. Trufanov, G. I. Sheveleva and A. R. Yankilevsky,
“Power generation and transmission expansion planning procedures in Asia: market environment and
investment problems,” 2004 IEEE Power Eng. Soc. General Meeting, vol. 2, pp. 1330-1333, Jun. 2004.
[129]T. Watanabe, “Prospects of deregulated power market in Japan and challenges to realize stable
operation,” 2002 IEEE Power Eng. Soc. Transmission and Distribution Conf., vol. 2, pp. 1486-1488, Oct. 2002.
[130]CIGRÉ Study Committee 37 (SC37), “Network planning in a deregulated environment,” 2002. [Online].
Available: http://www.eltra.dk
[131]Swiss Federal Office of Energy (SFOE), “Report on the blackout in Italy on 28 September 2003,” R.
Bacher and U. Näf 2003. [Online]. Available: http://www.swiss-energy.ch
[132]Nord Pool ASA, “The Nordic Power Market,” 2004. [Online]. Available: http://www.nordpool.com
[133]The Nordel Planning Committee, “Nordic Grid Master Plan 2002,” 2002. [Online]. Available:
http://www.nordel.org
[134]E. Hagstrom, I. Norheim and K. Uhlen, “Large-scale wind power integration in Norway and impact on
damping in the Nordic grid,” Wind Energy, vol. 8, pp. 375-384, Jul./Sep., 2005.
[135]T. Cerepnalkovski, “Southeast European Power Systems Aspects Overview,” in Proc. 2003 IEEE Power
Eng. Soc. General Meeting Conf., vol. 1, pp. 378-380.

9. [136]S. Mijailovic, “Review of Electricity Supply and Demand in South East Europe,” in Proc. 2003 IEEE Power
Eng. Soc. General Meeting Conf., vol. 1, pp. 381-387.
[137]Edison Electric Institute, “Meeting U.S. Transmission Needs,”2005. [Online]. Available:
http://www.eei.org
[138]EPRI Destinations 2004, “39 Grid Operations and Planning,” 2004. [Online]. Available:
http://www.epri.com
[139]U.S. Department of Energy, “National Transmission Grid Study,” 2002. [Online]. Available:
http://www.eh.doe.gov/ntgs
[140]North American Electric Reliability Council, “Transmission Expansion: Issues and Recommendations,”
2002. [Online]. Available: http://www.nerc.com
[141]PJM, “Regional Transmission Expansion Plan – December, 2005,” 2005. [Online]. Available:
http://www.pjm.com
[142]California Independent System Operator, “California Long-Term Regional Transmission Plan,” 2002.
[Online]. Available: http://www.caiso.com
[143]M. Madrigal, F. Aboytes and R. Flores, “Transmission Management, Pricing and Expansion Planning in
Mexico: Current Status and Perspectives,” 2004 IEEE Power Eng. Soc. General Meeting, vol. 2, pp. 1309-1314,
Jun. 2004.
[144]R. Sanz, “Argentinean Transmission Regulatory System: Darks and Lights,” 2004 IEEE Power Eng. Soc.
General Meeting, vol. 2, pp. 1292- 1297, Jun. 2004.
[145]L. A. Barroso, J. M. Bressane, L. M. Thomé, M. Junqueira, I. Camargo, G. Oliveira, S. Binato and M. V.
Pereira, “Transmission Structure in Brazil: Organization, Evaluation and Trends,” 2004 IEEE Power Eng.
Soc. General Meeting, vol. 2, pp. 1301-1306, Jun. 2004.
[146]R. Ríos, J. Karacsonyi and M. Tinoco, “Allocation of Transmission Capacity in the Central America
Electricity Market,” 2004 IEEE Power Eng. Soc. General Meeting, vol. 2, pp. 1286-1291, Jun. 2004.
[147]H. Rudnick, “The Challenges of Transmission Expansion in the Chilean Power Sector: Market or Central
Planning?,” 2004 IEEE Power Eng. Soc. General Meeting, vol. 2, pp. 1307-1308, Jun. 2004.
[148]W. Amador, S. Cossio and A. P. H. Corredor, “Transmission, Operation and Congestion Management in
the Colombian Electricity Market,” 2004 IEEE Power Eng. Soc. General Meeting, vol. 2, pp. 1298-1300,
Jun. 2004.
[149]O. O. Chisari, P. Dal-Bo and C. A. Romero, “High-tension electricity network expansions in Argentina
decision mechanisms and willingnessto- pay revelation,” Energy Economics, vol. 23, pp. 697-715, Nov. 2001.
[150]M. V. Pereira, L. A. Barroso, L. M. Thomé, G. Oliveira, S. Binato and M. Junqueira, “Transmission
Expansion in Competitive Hydrothermal Markets: The brazilian Case,” PowerTech, St. Petersburg (Russia), Jun.
2005.