References
- N. G. Hingorani, “Power electronics in electric utilities: role of power electronics in future power systems,” Proc. IEEE, vol. 76, no. 4, pp. 481–482, Apr. 1988.
- A. Lashkar Ara, A. Kazemi, and S. A. Nabavi Niaki, “Modelling of Optimal Unified Power Flow Controller (OUPFC) for optimal steady-state performance of power systems,” Energy Convers. Manage., vol. 52, pp. 1325–1333, 2011.
- A. Lashkar Ara, A. Kazemi, and M. Behshad, “Improving power systems operation through multi-objective optimal location of optimal unified power flow controller,” Turk. J. Electri. Eng. Comput. Sci., vol. 21, pp. 1893–1908, 2013.
- A. Lashkar Ara, J. Aghaei, M. Alaleh, and H. Barati, “Contingency-based optimal placement of Optimal Unified Power Flow Controller (OUPFC) in electrical energy transmission systems,” Sci. Iran., vol. 20, pp. 778–785, 2013.
- M. Behshad, A. Lashkar Ara, and A. H. Rahmani, “Optimal location of UPFC device considering system loadability, totalfuel cost, power losses and cost of installation,” in Proc. 2nd Int. Conf. Power Electron. Intell. Transp. Syst. (PEITS), 2009, pp. 231–237.
- G. N. Taranto, L. M. V. G. Pinto, and M. V. F. Pereira, “Representation of FACTS devices in power system economic dispatch,” IEEE Trans. Power Syst., vol. 7, no. 2, pp. 572–576, May. 1992.
- S. Y. Ge, and T. S. Chung, “Optimal active power flow incorporating power flow control needs in flexible AC transmission systems,” IEEE Trans. Power Syst., vol. 14, no. 2, pp. 738–744, May. 1999.
- H. Ambriz-Perez, E. Acha, and C. R. Fuerte-Esquivel, “Advanced SVC models for Newton–Raphson load flow and Newton optimal power flow studies,” IEEE Trans. Power Syst., vol. 15, no. 1, pp. 129–136, Feb. 2000.
- T. S. Chung, and Y. Z. Li, “A hybrid GA approach for OPF with consideration of FACTS devices,” IEEE Power Eng. Rev., vol. 20, no. 8, pp. 54–57, Aug. 2000.
- W. Ongsakul, and P. Bhasaputra, “Optimal power flow with FACTS devices byhybrid TS/SA approach,” Int. J. Electrical Power Energy Syst., vol. 24, pp. 851–857, 2002.
- A. Deihimi, and H. Javaheri, “A Fuzzy multi-objective multi-case genetic-based optimization for allocation of FACTS devices to improve system static security, power loss and transmission line voltage profiles,” Int. Rev. Electrical Eng., vol. 5, no. 4, pp. 1616–1626, 2010.
- MATLAB Release 2014a, The MathWorks, Inc., Natick, Massachusetts, United States.
- R. D. Zimmerman, C. E. Murillo-Sánchez, and R. J. Thomas, “MATPOWER: Steady-State Operations, Planning and Analysis Tools for Power Systems Research and Education,” Power Syst. IEEE Trans on., vol. 26, no. 1, pp. 12–19, Feb. 2011. DOI: 10.1109/TPWRS.2010.2051168.
- A. Nabavi-Niaki, and M. R. Iravani, “Steady-state and dynamic models of unified power flow controller (UPFC) for power
- S. Jashfar, and S. Esmaeili, “Volt/var/THD control in distribution networks considering reactive power capability of solar energy conversion,” Int. J. Electrical Power Energy Syst., vol. 60, pp. 221–233, 2014.
- D. S. Kirschen, and G. Strbac, Fundamentals of power system economics. John Wiley & Sons, 2004.
- S. K. K. Ng, C. W. Lee, and J. Zhong, “A game-theoretic approach to study strategic interaction between transmission and generation expansion planning,” in Proc. NAPS-2006 38th Annual North Am. Power Symp., 2006, pp. 115–120.
- D. Bonmann, “Technical information on the ABB phase shifting transformer,” Feb. 16, 2001.
- L. J. Cai, I. Erlich, G. Stamtsis, and Y. Luo, “Optimal choice and allocation of FACTS devices in deregulated electricity market using genetic algorithms,” Power Systems Conference and Exposition, IEEE PES, IEEE, New York, NY, USA, Oct. 2004.
- K. Y. Lee, Y. M. Park, and J. L. Ortiz, “A united approach to optimal real and reactive power dispatch,” IEEE Trans. Power Apparatus Syst., vol. PER-5, no. 5, pp. 1147–1153, May. 1985.
- M. M. Hosseini-Bioki, M. Rashidinejad, and A. Abdollahi, “An implementation of particle swarm optimization to evaluate optimal under-voltage load shedding in competitive electricity markets,” J. Power Sources, vol. 242, pp. 122–131, 2013.