Muhammad F. Tahir, Kashif Mehmood, Chen Haoyong, Atif Iqbal, Adeel Saleem, and Shaheer Shaheen
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[1] M.F. Tahir, C. Haoyong, K. Mehmood, N.A. Larik, A. Khan,and M.S. Javed, Short term load forecasting using bootstrapaggregating based ensemble artificial neural network, RecentAdvances in Electrical & Electronic Engineering (FormerlyRecent Patents on Electrical & Electronic Engineering), 13(7),2020, 980–992. [2] K.M. Cheema, and K. Mehmood, Improved virtual synchronousgenerator control to analyse and enhance the transient stabilityof microgrid, IET Renewable Power Generation, 14(4), 2020,495–505. [3] M.F. Tahir, C. Haoyong, A. Khan, M.S. Javed, N.A. Laraik,and K. Mehmood, Optimizing size of variable renewable energysources by incorporating energy storage and demand response,IEEE Access, 7, 2019, 103115–103126. [4] M.F. Tahir, C. Haoyong, K. Mehmood, N. Ali, and J.A.Bhutto,Integrated energy system modeling of China for 2020 by incor-porating demand response, heat pump and thermal storage,IEEE Access, 7, 2019, 40095–40108. [5] K. Mehmood, H.T.U. Hassan, A. Raza, A. Altalbe, and H.Farooq, Optimal power generation in energy-deficient scenariosusing bagging ensembles, IEEE Access, 7, 2019, 155917–155929. [6] K. Mehmood, K.M. Cheema, M.F. Tahir, A.R. Tariq, A.H.Milyani, R.M. Elavarasan, S. Shaheen, and K. Raju, Shortterm power dispatch using neural network based ensembleclassifier, Journal of Energy Storage, 33, 2021, 102101. [7] K. Mehmood, Z. Li, M.F. Tahir, and K.M. Cheema, Fastexcitation control strategy for typical magnetically controllablereactor for reactive power compensation, International Journalof Electrical Power & Energy Systems, 129, 2021, 106757. [8] K. Mehmood, K.M. Cheema, M.F. Tahir, A. Saleem, A.H.Milyani, A comprehensive review on magnetically controllablereactor: Modelling, applications and future prospects, EnergyReports, 7, 2021, 2354–2378. [9] Z. Li, K. Mehmood, and K. Xie, Magnetically controllablereactor based multi-FACTS coordination control strategy, In-ternational Journal of Electrical Power & Energy Systems,133, 2021, 107272. [10] Z. Li, K. Mehmood, R. Zhan, X. Yang, and Y. Qin, Voltage-current double loop control strategy for magnetically control-lable reactor based reactive power compensation, in 2019 IEEESustainable Power and Energy Conference (iSPEC), 2019 Nov21 (IEEE, 2019), 825–830. [11] T. Alquthami, S.E. Butt, M.F. Tahir, and K. Mehmood,Short-term optimal scheduling of hydro-thermal power plantsusing artificial bee colony algorithm, Energy Reports, 6, 2020,984–992. [12] Y. Ju, J. Wang, F. Ge, Y. Lin, M. Dong, D. Li, et al., Unitcommitment accommodating large scale green power, AppliedSciences, 9, 2019, 1611. [13] A. Sundaram, Multiobjective multi-verse optimization algo-rithm to solve combined economic, heat and power emissiondispatch problems, Applied Soft Computing, 91, 2020, 106195. [14] H. Tehzeeb-Ul-Hassan, M.F. Tahir, K. Mehmood,K.M.Cheema, A.H. Milyani, and Q. Rasool, Optimization ofpower flow by using Hamiltonian technique, Energy Reports,6, 2020, 2267–2275. [15] G. Chauhan, A. Jain, and N. Verma, Solving economic dis-patch problem using MiPower by lambda iteration method, in2017 1st International Conference on Intelligent Systems andInformation Management (ICISIM), 2017, 95–99. [16] Z. Li, W. Wu, B. Zhang, H. Sun, and Q. Guo, Dynamiceconomic dispatch using Lagrangian relaxation with multiplierupdates based on a quasi-Newton method, IEEE Transactionson Power Systems, 28, 2013, 4516–4527. [17] D. McLarty, N. Panossian, F. Jabbari, and A. Traverso,Dynamic economic dispatch using complementary quadraticprogramming, Energy, 166, 2019, 755–764. [18] S. Shalini and K. Lakshmi, Solving environmental economicdispatch problem with Lagrangian relaxation method, Inter-national Journal of Electronic and Electrical Engineering, 7,2014, 920. [19] A. Kaur, H. Singh, and A. Bhardwaj, Analysis of economicload dispatch using genetic algorithm, IJAIEM, 3, 2014. [20] U. Gven, Y. Sonmez, S. Duman, and N. Yrkeren, Combinedeconomic and emission dispatch solution using gravitationalsearch algorithm, Scientia Iranica, 19, 2012, 1754–1762. [21] A. Abdelaziz, E. Ali, and S. Abd Elazim, Combined economicand emission dispatch solution using flower pollination algo-rithm, International Journal of Electrical Power & EnergySystems, 80, 2016, 264–274 [22] M. Jevtic, N. Jovanovic, and J. Radosavljevic, Solving a com-bined economic emission dispatch problem using adaptive winddriven optimization, Turkish Journal of Electrical Engineer-ing& Computer Sciences, 26, 2018, 1747–1758. [23] P. Pao-La-Or, A. Oonsivilai, and T. Kulworawanichpong, Com-bined economic and emission dispatch using particle swarmoptimization, WSEAS Transactions on Environment and De-velopment, 6, 2010, 296–305. [24] M.S. Fakhar, S.A. Kashif, M.A. Saqib, and T. ul Hassan,Non cascaded short-term hydro-thermal scheduling using fullyinformed particle swarm optimization, International Journalof Electrical Power & Energy Systems, 73, 2015, 983–990. [25] D.C. Walters and G.B. Sheble, Genetic algorithm solution ofeconomic dispatch with valve point loading, IEEE Transactionson Power Systems, 8, 1993, 1325–1332. [26] Y.-M. Park, J.-R. Won, and J.-B. Park, A new approachto economic load dispatch based on improved evolutionaryprogramming, Engineering Intelligent Systems for ElectricalEngineering and Communications, 6, 1998, 103–110. [27] H.-T. Yang, C. Yang, and C.-L. Huang, Evolutionary pro-gramming based economic dispatch for units with non-smoothfuel cost functions, IEEE Transactions on Power Systems, 11,1996, 112–118. [28] J.-B. Park, K.-S. Lee, J.-R. Shin, and K.Y. Lee, A particleswarm optimization for economic dispatch with non smoothcost functions, IEEE Transactions on Power Systems, 20,2005, 34–42. [29] Y.-Chen, W.-C. Peng, and M.-C. Jian, Particle swarm opti-mization with recombination and dynamic linkage discovery,IEEE Transactions on Systems, Man, and Cybernetics, PartB (Cybernetics), 37, 2007, 1460–1470.8
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