[[1] O. I. Elgerd, Electric Energy Systems Theory: An Introduction, 2nd ed. New Delhi: Tata McGraw-Hill, 2007.]Search in Google Scholar
[[2] H. Bevrani, and T. Hiyama, Intelligent Automatic Generation Control, CRC press, 2011.]Search in Google Scholar
[[3] W. Tan, “Unified Tuning of PID Load Frequency Controller for Power Systems via IMC”, IEEE Transactions on Power Systems, vol. 25, pp. 341–50, 2009.10.1109/TPWRS.2009.2036463]Search in Google Scholar
[[4] R. K. Sahu, S. Panda, S. Padhan, “A Hybrid Firefly Algorithm and Pattern Search Technique for Automatic Generation Control of Multi Area Power Systems”, International Journal of Electrical Power & Energy Systems, vol. 64, pp. 9–23, 2015.10.1016/j.ijepes.2014.07.013]Search in Google Scholar
[[5] L. C. Saikia, J. Nanda, S. Mishra, “Performance Comparison of Several Classical Controllers in AGC for Multi-Area Interconnected Thermal System”, International Journal of Electrical Power & Energy Systems, vol. 33, pp. 394–401, 2011.10.1016/j.ijepes.2010.08.036]Search in Google Scholar
[[6] K. S. Parmar, S. Majhi, D. P. Kothari, “Load Frequency Control of a Realistic Power System with Multi-Source Power Generation”, International Journal of Electrical Power & Energy Systems, vol. 42, pp. 426–433, 2012.10.1016/j.ijepes.2012.04.040]Search in Google Scholar
[[7] Y. Arya, and N. Kumar, “Optimal Control Strategy-Based AGC of Electrical Power Systems: A Comparative Performance Analysis”, Optimal Control Applications and Methods, vol. 38, pp. 982–992, 2017.10.1002/oca.2304]Search in Google Scholar
[[8] E. Çam, and I. Kocaarslan, “Load Frequency Control in Two Area Power Systems using Fuzzy Logic Controller”, Energy Conversion and Management, vol. 46, pp. 233–243, 2005.10.1016/j.enconman.2004.02.022]Search in Google Scholar
[[9] Y. Arya, “Automatic Generation Control of Two-Area Electrical Power Systems via Optimal Fuzzy Classical Controller”, Journal of the Franklin Institute, vol. 355, pp. 2662–88, 2018.]Search in Google Scholar
[[10] JM. Chintu, R. K. Sahu, and S. Panda, “Adaptive Differential Evolution Tuned Hybrid Fuzzy PD-PI Controller for Automatic Generation Control of Power Systems”, International Journal of Ambient Energy, pp. 1–16, 2019.10.1080/01430750.2019.1653986]Search in Google Scholar
[[11] S. R. Khuntia, and S. Panda, “Simulation Study for Automatic Generation Control of a Multi-Area Power System by ANFIS Approach”, Applied Soft Computing, vol. 12, pp. 333–41, 2012.10.1016/j.asoc.2011.08.039]Search in Google Scholar
[[12] R. K. Sahu, S. Panda, A. Biswal, and TS. Gorripotu, “Design and Analysis of Tilt Integral Derivative Controller with Filter for Load Frequency Control of Multi-Area Interconnected Power Systems”, ISA Transactions, vol. 61, pp. 251–264, 2016.10.1016/j.isatra.2015.12.00126712682]Search in Google Scholar
[[13] C. N. S. Kalyan, and G. S. Rao, “Frequency and Voltage Stabilisation in Combined Load Frequency Control and Automatic Voltage Regulation of Multi Area System with Hybrid Generation Utilities by AC/DC Links”, International Journal of Sustainable Energy, 2020, https://doi.org/10.1080/14786451. 2020. 1797740.]Search in Google Scholar
[[14] R. K. Sahu, S. Panda, U. K. Rout, and D. K. Sahoo, “Teaching Learning Based Optimization Algorithm for Automatic Generation Control of Power System using 2-DOF PID Controller”, International Journal of Electrical Power & Energy Systems, vol. 77, pp. 287–301, 2016.10.1016/j.ijepes.2015.11.082]Search in Google Scholar
[[15] H. Gozde, MC. Taplamacioglu, and I. Kocaarslan, “Comparative Performance Analysis of Artificial Bee Colony Algorithm in Automatic Generation Control for Interconnected Reheat Thermal Power System”, International Journal of Electrical Power & Energy Systems, vol. 42, pp. 167–78, 2012.10.1016/j.ijepes.2012.03.039]Search in Google Scholar
[[16] N. Hasan, I. Nasirudin, S. Farooq, “Hybrid Taguchi Genetic Algorithm-Based AGC Controller for Multisource Interconnected Power System”, Electric Power Components and Systems, vol. 47, pp. 101–12, 2019.10.1080/15325008.2019.1576242]Search in Google Scholar
[[17] D. Guha, P. K. Roy, and S. Banerjee, “Study of Differential Search Algorithm Based Automatic Generation Control of an Interconnected Thermal-Thermal System with Governor Dead-Band”, Applied Soft Computing, vol. 52, pp. 160–75, 2017.10.1016/j.asoc.2016.12.012]Search in Google Scholar
[[18] H. Shabani, B. Vahidi, and M. Ebrahimpour, “A Robust PID Controller Based on Imperialist Competitive Algorithm for Load-Frequency Control of Power Systems”, ISA Transactions, vol. 52, pp. 88–95, 2013.10.1016/j.isatra.2012.09.00823084664]Search in Google Scholar
[[19] P. N. Topno, and S. Chanana, “Load Frequency Control of a Two-Area Multi-Source Power System using a Tilt Integral Derivative Controller”, Journal of Vibration and Control, vol. 24, pp. 110–25, 2018.10.1177/1077546316634562]Search in Google Scholar
[[20] K. S. Simhadri, B. Mohanty, and SK. Panda, “Comparative Performance Analysis of 2DOF State Feedback Controller for Automatic Generation Control using Whale Optimization Algorithm”, Optimal Control Applications and Methods, vol. 40, pp. 24–42, 2019.10.1002/oca.2462]Search in Google Scholar
[[21] B. Khokhar, S. Dahiya, and KPS. Parmar, “A Novel Fractional Order Proportional Integral Derivative Plus Second-Order Derivative Controller for Load Frequency Control”, International Journal of Sustainable Energy, 2020, https://doi.org/10.1080/14786451.2020.1803861.10.1080/14786451.2020.1803861]Search in Google Scholar
[[22] R. K. Sahu, S. Panda, and U. K. Rout, “DE Optimized Parallel 2DOF PID Controller for Load Frequency Control of Power System with Governor Dead-Band Nonlinearity”, International Journal of Electrical Power & Energy Systems, vol. 49, pp. 19–33, 2013.10.1016/j.ijepes.2012.12.009]Search in Google Scholar
[[23] U. K. Rout, R. K. Sahu, and S. Panda, “Design and Analysis of Differential Evolution Algorithm Based Automatic Generation Control for Interconnected Power System”, Ain Shams Engineering Journal, vol. 4, no. 3, pp. 409–421, 2013.10.1016/j.asej.2012.10.010]Search in Google Scholar
[[24] BVS. Acharyulu, B. Mohanty, and P. K. Hota, “Analysis of Moth Flame Optimization Optimized Cascade Proportional-Integral-Proportional-Derivative Controller with Filter for Automatic Generation Control System Incorporating Solar Thermal Power Plant”, Optimal Control Applications and Methods, pp. 1–16, 2020.10.1002/oca.2582]Search in Google Scholar
[[25] D. Guha, PK. Roy, and S. Banerjee, “Symbiotic Organism Search Algorithm Applied to Load Frequency Control of Multi-Area Power System”, Energy Systems, vol. 9, pp. 439–68, 2018.10.1007/s12667-017-0232-1]Search in Google Scholar
[[26] R. K. Sahu, TS. Gorripotu, and S. Panda, “Automatic Generation Control of Multi-Area Power Systems with Diverse Energy Sources using Teaching Learning-Based Optimization Algorithm”, Engineering Science and Technology, an International Journal, vol. 19, pp. 113–34, 2016.10.1016/j.jestch.2015.07.011]Search in Google Scholar
[[27] TS. Gorripotu, DV. Kumar, MK. Boddepalli, and R. Pilla, “Design and Analysis of BFOA Optimized PID Controller with Derivative Filter for Frequency Regulation in Distributed Generation System”, International Journal of Automation and Control, vol. 12, no. 2, pp. 291–323, 2018.10.1504/IJAAC.2018.090808]Search in Google Scholar
[[28] S. Padhan, R. K. Sahu, S. Panda, “Application of Firefly Algorithm for Load Frequency Control of Multi-Area Interconnected Power System”, Electric Power Components and Systems, vol. 42, pp. 1419–30, 2014.]Search in Google Scholar
[[29] R. Storn, “Differrential Evolution – a Simple and Efficient Adaptive Scheme for Global Optimization over Continuous Spaces”, Technical report, International Computer Science Institute, 11, 1995.]Search in Google Scholar