6 DAFTAR PUSTAKA [1] Musofa Mulya, M. Algoritma Flower Pollination untuk Kendali Optimal pada Sistem Multi Mesin dengan GUPFC. Universitas Gadjah Mada. 2014. [2] Zhang, X. P. Modeling of the interline power Flow Controller and the Generalized Unified Power Flow Controller in Newton power Flow. Generation, Transmission and Distribution, IEE Proceedings (pp. 268 27). IET. 2006. [3] Sun, L., Mei, S., & Lu, Q. Application of GUPFC in China's Sichuan Power grid-Modelling, Control Stategy and Case Study. IEEE. 2003. [4] Hadi, S. P. Dynamic modeling and damping function of GUPFC in multimachine power system. IPTEK, The Journal for Technology and Science, 205-213. 2011. [5] Lubis, R. S., Hadi, S. P., & Tumiran. Dynamic Simulation of the Generalized Unified Power Flow Controller in Multi-Machine Power Systems. International Journal of Electrical & Computer Sciences IJECS-IJENS, 7584. 2012. [6] Masgumelar, H. Pengaruh GUPFC pada stabilitas sistem tenaga multimesin. Yogyakarta, Indonesia: Universitas Gadjah Mada. 2011. [7] Aryahadi, R. Implementasi Metode Particle Swarm Optimization untuk perancangan GUPFC pada multimachine dengan rancangan sinyal kendali berbasis lead-lag. Yogyakarta: UGM. 2013. [8] Jaleel, J. A., & Thanvy, N. A Comparative Study Between PI, PD, PID and Lead-lag Controllers for Power System Stabilizer. International Conference on Circuits, Power and Computing Technology. 2013. [9] Baheshti, Z., Mariyam, S., Shamsuddin. A Review of Population-based MetaHeuristic Algorithms. Int.J. Advance. Soft Comput. Appl., Vol. 5, No. 1. 2013. [10] Permadi, L.W., Hadi, S.P., Ali, H.R. Penalaan Parameter Kendali GUPFC 133 pada Sistem Tenaga Multimesin menggunakan Ant Colony Optimization (ACO). Yogyakarta: Universitas Gadjah Mada.2014. [11] Lin, Y.J. A Fast Power System Stabilizer for Compresing Synchronous Generator Oscillations. IEEE. 2002 [12] Issarachai., Ngamroo. Design of Robust H∞ infinite PSS via Normalized Coprime Factorization Approach. IEEE. 2001. [13] Tan, Y.L., Wang, Y. Effects of FACTS Controller Line Compensation on Power System Stability. IEEE.1998. [14] Bhowmick, S. A Comparison of Commonly used Input Signals for Power Oscillation Damping. India Annual Conference. IEEE. 2004. [15] Chen, J., Lie, T., Viathgamuwa. Enhancement of Power System Damping using VSC-based series connected FACTS controllers. IEEE. 2003. [16] Pandey, R.K. Design Criterion of STATCOM damping Controller-An Analytical Approach. IEEE. 2007. [17] Ladjavardi, M., Masoum, M.A.S., Islam, S.M. Small-Signal Stability Analysis of Disorted Power Systems installed with SSSC. IEEE. 2007. [18] Tripathy, M. bacteria Foraging: A New Tool for Simultaneous Robust Design of UPFC Controllers. International Joint Conference on Neural Networks. 2006. [19] Jothi, S.N.M., Somasundaram, P. Transient Stability Enhancement with UPFC. International Conference on Information and Communication Technology in Electrical Sciences. 2007. [20] Bamasak, S. M. FACTS Based Stabilizers for PowerStability Enhancement. Dahran, Saudi arabia. 2005. [21] Eldamaty, A. Damping Interarea and Torsional Oscillations Using FACTS Devices. University of Saskatchewan: Thesis. 2005. [22] Jalilvand, A., Safari, A., & Aghmasheh, R. (2008). Design of State Feedback Stabilizer for Multi Machine Power System Using PSO Algorithm. Multitopic Conference, INMIC, (pp. 17-23). 2008. 134 [23] Wang, H. Application of Modelling UPFC into Multi-Machine Power Systems. IRR Proceeding Gener. Transm. Distrib., (pp. 306-312). 1999. [24] Irwanto. Perbaikan Stabilitas Dinamis Sistem Tenaga Listrik dengan Pemasangan UPFC Berbasis Stabilizer pada Saluran Transmisi. Yogyakarta: Thesis. 2002. [25] Fardanesh, B., Shperling, B., Uzunovic, E., & Zellingher, S. Multi-Converter Devices: The Generalized Unified Power Flow Controller (GUPFC). New York Power Authority, USA. 2000. [26] Zhang, X. P. Modeling of the interline power Flow Controller and the Generalized Unified Power Flow Controller in Newton power Flow. Generation, Transmission and Distribution, IEE Proceedings (pp. 268 - 27). IET. 2006. [27] Abniki, H., Asadi, A., Khajavi, P., Nabavi-Razavi, M.T. A Novel Optimization technique for Linear Optimal Control and Power System Stabilizer in Multimachine Power Systems.IEEE. 2011. [28] Aboul-Ela, M.E., Sallam, A.A., McCalley, J.D., Fouad, A.A. Damping Controller Design for Power System Oscillations using Global Signals. IEEE Transactions on Power System Vol. 11, No.2. 1996. [29] Zhan, X.P. Modeling of the Generalized Unified Power Flow Controller (GUPFC) in a Nonlinear Interior Point OPF. IEEE Transactions on Power System, Vol. 16, No. 3. 2001. [30] Johnson, B.K. How FACTS Controllers Function in an AC Transmission System: Series and Combined Multiterminal Controllers.IEEE. 2003. [31] Johnson, B.K. How Series and Combined Multiterminal Controllers FACTS Controllers Function in an AC Transmission System.IEEE. 2004. [32] Jabr, R.A. Extended Conic Quadratic Calculator for Load and Transfer Capability with GUPFC Devices. UPEC Aug 31st –Sept 3rd. 2010. [33] Azbe, V., Mihalic, R. Damping of Power-System Oscillations with the 135 Application of a GUPFC. IEEE Bucharest Power Tech Conference, June 28th-July 2nd. 2009. [34] Karaboga, D., Akay, B. Artificial Bee Colony (ABC) Algorithm on Training Artificial Neural Networks.IEEE. 2007. [35] Imaduddien, H.W., Hadi, S.P., Sarjiya. Perancangan Kendali TCSC dengan Algoritma Genetika pada Sistem Tenaga Listrik Bermesin Tunggal. Yogyakarta: Universitas Gadjah Mada. 2012. [36] Muzani, M., Hadi, S.P., Setiyanegoro, I.M. Perancangan Kendali UPFC berbasis Algoritma Genetika pada Sistem Single Machine Infinite Bus. Yogyakarta: Universitas Gadjah Mada. 2012. [37] Fatah, M.R., Hadi, S.P., Setiyanegoro, I.M. Kendali FACTS pada Single Machine Infinite Bus menggunakan Algoritma Genetika. Yogyakarta: Universitas Gadjah Mada. 2012. [38] Scott Kirkpatrick, D. Gelatt Jr., and Mario P Vecchi. Optimization by Simulated Annealing. Science, 220(4598):671-680.1983. [39] Fister, I, jr., Yang, X.S., Brest, J., Fister, D. A Brief Review of Nature-Inspired Algorithms for Optimization. Elektrotehniski Vestnik. 2013. [40] Zong Woo Geem, Joong Hoon Kim, and GV Loganathan. A New Heuristic Optimization Algorithm: Harmony Search. Simulation, 76(2):60-68. 2001. [41] Xin-She Yang. Flower pollination algorithm for global optimization. Unconventional Computation and Natural Computation, pages 240–249, 2012. [42] Xin-She Yang and Suash Deb. Cuckoo search via l´evy flights. In Nature & Biologically Inspired Computing, 2009. NaBIC 2009. World Congress on, pages 210–214. IEEE, 2009. [43] X.S. Yang. A new metaheuristic bat-inspired algorithm. NatureInspired Cooperative Strategies for Optimization (NICSO 2010), pages 65–74, 2010. 136 [44] Xin-She Yang. Firefly algorithm, stochastic test functions and design optimisation. International Journal of Bio-Inspired Computation, 2(2):78– 84, 2010. [45] Sadek, M. Z., & Mohammed, M. A. Incorporating of GUPFC in Load Flow studies. 2007. [46] Yang, X.S. Nature-Inspired Metaheuristic Algorithms. Luniver Press, University of Cambridge, UK. 2010. [47] D. Karaboga. An idea based on honey bee swarm for numerical optimization. Technical Report TR06, Erciyes University, Turkey. 2005. [48] D. Karaboga and B. Basturk. On the performance of artificial bee colony (ABC) algorithm. Applied Soft Computing, 687-697. 2008. [49] M. Dorigo and T. Stiitzle, Ant Colony Optimization. MIT Press, Cambridge. 2004. [50] Richardson, P. Bats. Natural History Museum, London. 2008. [51] Payne, R.B., Sorenson, M.D., Klitz, K. The Cuckoos. Oxford University Press. 2005. [52] Bradley, D. Novel cuckoo search algorithm beats particle swarm optimization in engineering design (news article). Science Daily, May 29. 2010. [53] Yang, X.S. Firefly Algorithm for multimodal optimization, in stochastic algorithm: Foundation and Applications. SAGA, Lecture Notes in Computer Science, 5792, 169-178. 2009. [54] Glover, B. J. Understanding Flowers and Flowering: An Integated Approach. Oxford University Press. 2007. [55] Waser, N. M. Flower Constancy: Definition, Cause, and Measurement. The American Naturalist, 127 (5), 596-603. 1986. [56] Pavlyukevich, I. Levy flights, non-local search and simulated annealing. J. Computational Physics, 226. 1830-1844. 2007. 137 [57] Yang, X. S. Flower Pollination Algorithm for Global Optimization, in: Unconventional Computation and Natural Computation 2012, Lecture Notes in Computer Science, Vol. 7445. Pp. 240-249. 2012. [58] Z. W. Geem, Recent Advances in Harmony Search Algorithm, Studies in Computational Intelligence, Springer. 2010. [59] J. Kennedy and R. C. Eberhart. Particle swarm optimization. In Proceedings of the 1995 IEEE International Conference on Neural Networks. IEEE Service Center, Piscataway. 1995. [60] S. Kirkpatrick, C. D. Gelatt, and M. P. Vecchi. Optimization by simulated annealing. Science, 220, No. 4598, 671-680 (1983). [61] Kundur, P. Power System Stability and Control (- ed.). (N. J. Balu, & M. G. Lauby, Eds.) -: McGraw-Hill. 1994. [62] P. W. Sauer and M. A. Pai, Power System Dynamics and Stability, Prentice Hall, Inc., New Jersey, 1998. [63] Yu, Y.N. Electric Power System Dynamics. Academic Press, A subsidiary of Harcourt Brace Jovanovich, New York. 1983. 138