Page 337 - Decision Making Applications in Modern Power Systems

P. 337

298 Decision Making Applications in Modern Power Systems

[5] R.K. Sahu, S. Panda, P.C. Pradhan, Design and analysis of hybrid firefly algorithm-
pattern search based fuzzy PID controller for LFC of multi area power systems, Int.
J. Electr. Power Energy Syst. 69 (2015) 200 212.
[6] S. Debbarma, L.C. Saikia, N. Sinha, Automatic generation control using two degree of
freedom fractional order PID controller, Int. J. Electr. Power Energy Syst. 58 (2014)
120 129.
[7] A. Rahman, L.C. Saikia, N. Sinha, Load frequency control of a hydro-thermal system
under deregulated environment using biogeography-based optimised three-degree-of-
freedom integral-derivative controller, IET Gener. Transm. Distrib. 9 (15) (2015)
2284 2293.
[8] S.A. Taher, M.H. Fini, S.F. Aliabadi, Fractional order PID controller design for LFC in
electric power systems using imperialist competitive algorithm, Ain Shams Eng. J. 5 (1)
(2014) 121 135.
[9] S. Sondhi, Y.V. Hote, Fractional order PID controller for load frequency control, Energy
Convers. Manage. 85 (2014) 343 353.
[10] M.H. Fini, G. Yousefi, H.H. Alhelou, A Comparative study on the performance of many-
objective and single-objective optimisation algorithms of tuning load frequency controllers
in multi-area power systems, IET Gener. Transm. Distrib. (2016).
[11] R.K. Sahu, S. Panda, S. Padhan, A novel hybrid gravitational search and pattern search
algorithm for load frequency control of nonlinear power system, Appl. Soft Comput. 29
(2015) 310 327.
[12] T.H. Mohamed, et al., Decentralized model predictive based load frequency control in an
interconnected power system, Energy Convers. Manage. 52 (2) (2011) 1208 1214.
[13] F. Liu, et al., Optimal load-frequency control in restructured power systems, IEE Proc.—
Gener. Transm. Distrib. 150 (1) (2003) 87 95.
[14] B. Mohanty, S. Panda, P.K. Hota, Controller parameters tuning of differential evolution
algorithm and its application to load frequency control of multi-source power system, Int.
J. Electr. Power Energy Syst. 54 (2014) 77 85.
[15] H. Alhelou, M.E. Haes, Hamedani Golshan, J. Askari-Marnani, Robust sensor fault detec-
tion and isolation scheme for interconnected smart power systems in presence of RER and
EVs using unknown input observer, Int. J. Electr. Power Energy Syst. 99 (2018)
682 694.
C.S. Chang, W. Fu, F. Wen, Load frequency control using genetic-algorithm based fuzzy
gain scheduling of PI controllers, Electr. Mach. Power Syst. 26 (1) (1998) 39 52.
[16] B. Mohanty, S. Panda, P.K. Hota, Differential evolution algorithm based automatic gener-
ation control for interconnected power systems with non-linearity, Alexandria Eng. J. 53
(3) (2014) 537 552.
[17] P. Bhatt, R. Ranjit, S.P. Ghoshal, Optimized multi area AGC simulation in restructured
power systems, Int. J. Electr. Power Energy Syst. 32 (2010) 311 332.
[18] E.S. Ali, S.M. Abd-Elazim, Bacteria foraging optimization algorithm based load fre-
quency controller for interconnected power system, Int. J. Electr. Power Energy Syst. 33
(3) (2011) 633 638.
[19] K. Naidu, et al., Application of firefly algorithm with online wavelet filter in automatic
generation control of an interconnected reheat thermal power system, Int. J. Electr. Power
Energy Syst. 63 (2014) 401 413.
[20] H. Shabani, B. Vahidi, M. Ebrahimpour, A robust PID controller based on imperialist
competitive algorithm for load-frequency control of power systems, ISA Trans. 52 (1)
(2013) 88 95.

332 333 334 335 336 337 338 339 340 341 342