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Almousawi & Aldair                                                                                                               | 11

  and Ultracapacitors”, IEEE Trans. Vehicle Technol., Vol.     [23] R. A. Dougal, S. Liu, R. E. White, “Power and Life
  61, No.8, pp. 3375–3386, 2012.                                 Extension of Battery– Ultracapacitor Hybrids”, IEEE
[10] Li Sun, Kaiwu Feng, Chris Chapman, Nong Zhang, “An          Trans. components Packaging Technol., Vol. 25, No. 1,
  Adaptive Power-Split Strategy for Battery-Supercapacitor       pp. 120–131, 2002.
  Powertrain-Design, Simulation, and Experiment”, IEEE
  Trans. Power Electron, Vol. 32, pp. 9364–9375, 2017.         [24] Ziyou Song, Heath Hofmann, Jianqiu Li, Xuebing Han,
[11] Zhou Shengzhe, Wang Kai, Xue Wen, “Fuzzy Logic-             Xiaowu Zhang, Minggao Ouyang “A comparison study of
  Based Control Strategy for a Battery/Supercapacitor            different semi-active hybrid energy storage system
  Hybrid Energy Storage System in Electric Vehicles.”, In        topologies for electric vehicles” J. Power Sources, Vol.
  Proceedings of the 2017 Chinese Automation Congress            274, pp. 400–411, 2015.
  (CAC), Jinan, China, Vol. 1, pp. 5598-5601, October
  2017.                                                        [25] Wei Li, Geza Joos, “A power electronic interface for a
[12] Nabil J. Aklo and Mofeed Turky Rashid,                      battery supercapacitor hybrid energy storage system for
  "Reinforcement Learning Based Energy Storage Units             wind applications”, PESC Rec. IEEE Annual. Power
  Scheduling Considering Point of Common Coupling                Electron. Spec. Conf., pp. 1762–1768, 2008.
  Constraint," 2021 3rd International Symposium on
  Material and Electrical Engineering Conference (ISMEE),      [26] A. Etxeberria, I. Vechiu, H. Camblong, J. M. Vinassa,
  pp. 1-8, 2021.                                                 “Comparison of three topologies and controls of a hybrid
[13] Lee Wai, Chong Yee, Wan Wong Rajprasad, Kumar               energy storage system for microgrids”, Energy Conversion
  Rajkumar Rajpartiban, Kumar Rajkumar, Dino Isa,                and Management, Vol. 54, pp. 113–121, 2012.
  “Hybrid Energy Storage Systems and Control Strategies
  for Stand-Alone Renewable Energy Power Systems”,             [27] A. Khaligh, Z. Li, “Battery, ultracapacitor, fuel cell, and
  Renew. Sustain. Energy Rev., Vol. 66, pp. 174-189, 2016.       hybrid energy storage systems for electric, hybrid electric,
[14] R. Yumurtaci, “Role of Energy Management in Hybrid          fuel cell, and plug-in hybrid electric vehicles: State of the
  Renewable Energy Systems: Case Study-Based Analysis            art”, IEEE Trans. Veh. Technol., Vol. 59, No. 6, pp. 2806–
  Considering Varying Seasonal Conditions.” Turkish              2814, 2010.
  Journal of Elec. Eng. and Comp. Sci., Vol 21, pp. 1077-
  1091, 2013.                                                  [28] A. Kuperman, I. Aharon, S. Malki, A. Kara, “Design of
[15] J. Shen, A. Khaligh, “A Supervisory Energy                  a semiactive battery-ultracapacitor hybrid energy source”,
  Management Control Strategy in a Battery Ultracapacitor        IEEE Trans. Power Electron., Vol. 28, No. 2, pp. 806–815,
  Hybrid Energy Storage System”, IEEE Trans. Transp.             2013.
  Electr. Vol. 1, pp. 223–231, 2015.
[16] M. E. Glavin, William Gerard Hurley, “Optimisation of     [29] Selman, Nasir Hussein, Jawad Mahmood, “Comparison
  a photovoltaic battery ultracapacitor hybrid energy storage    Between Perturb & Observe, Incremental Conductance
  system”, Solar Energy, Vol. 86, pp. 3009-3020, 2012.           and Fuzzy Logic MPPT Techniques at Different Weather
[17] W. L. Jing, C. H. Lai, W. S. Wong, M. D. Wong, “Cost        Conditions”, IJIRSET, Vol. 5, No. 7, pp. 12556-12569,
  analysis of battery-supercapacitor hybrid energy storage       2016.
  system for standalone PV systems”, In Proceedings of the
  4th IET Clean Energy and Technology Conference, Kuala        [30] Bhule Deeksha, S. Jain, Subhojit Ghosh, “Power
  Lumpur, Malaysia, 14–15 November 2016.                         Management Control Strategy for PV-Battery Standalone
[18] Ali M. Jasim, Basil H. Jasim, “Grid-Forming and Grid-       System”, 2020 IEEE 9th Power India International
  Following Based Microgrid Inverters Control”, IJEEE,           Conference (PIICON), pp. 1-6, 2020.
  Vol. 18, No.1, pp. 111–131, June 2022.
  DOI:10.37917/ijeee.18.1.13                                   [31] Ali Q. Almousawi, Ammar A. Aldair, “A New Power
[19] A. Etxeberria, I. Vechiu, H. Camblong, J. M. Vinassa,       Management Control Strategy for PV-BESS Hybrid
  H. Camblong, “Hybrid Energy Storage Systems for                System”, international journal of computing and digital
  renewable Energy Sources Integration in microgrids: A          systems, Vol.12, Issue 01, pp. 427-437.
  review”, 2010 Conf. Proc. IPEC, pp. 532–537, 2010.
[20] Yunjie Gu, Xin Xiang, Wuhua Li, Xiangning He,             [32] Ali K. Almousawi, Ammar A. Aldair, “Control Strategy
  “Mode-Adaptive Decentralized Control for Renewable             of Reactive Power Sharing in an Islanded Microgrids”, 3D
  DC Microgrid with Enhanced Reliability and Flexibility”,       SCEEER Conference, (2020), p.p 112-118.
  IEEE Trans. Power Electron., Vol. 29, No. 9, pp. 5072–
  5080, 2014.                                                  [33] Wenlong Jing, Chean Hung Lai, Wallace S. H. Wong,
[21] Jackson John Justo, Francis Mwasilu, Ju Lee, Jin Woo        M. L. Dennis Wong, “A comprehensive study of battery-
  Jung, “AC-microgrids versus DC-microgrids with                 supercapacitor hybrid energy storage system for
  distributed energy resources: A review”, Renew. Sustain.       standalone PV power system in rural
  Energy Rev., Vol. 24, pp. 387–405, 2013.                       electrification”, Applied Energy, Vol. 224, pp. 340-356,
[22] J. P. Zheng, T. R. Jow, M. S. Ding, “Hybrid power           2018.
  sources for pulsed current applications”, IEEE Trans.
  Aerosp. Electron. Syst., Vol. 37, No. 1, pp. 288–292, 2001.  [34] Atheel K. Abdual Zahra, and Turki Y. Abdalla. “An
                                                                 ABC Optimized Adaptive Fuzzy Sliding Mode Control
                                                                 Strategy for Full Vehicle Active Suspension
                                                                 System”, IJEEE, Vol. 18, No.1, pp. 151–165, Sep. 2021.
                                                                 DOI:10.37917/ijeee.17.2.17

                                                               [35] R. Sathishkumar, Sathish Kumar Kollimalla, Mahesh K.
                                                                 Mishra, “Dynamic energy management of micro grids
                                                                 using battery super capacitor combined storage”, in Proc.
                                                                 Annual IEEE India Conf. (INDICON), pp. 1078–1083,
                                                                 2012.
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