This work is licensed under the Creative Commons Attribution 4.0 International License.
Zhao, B. Microgrid optimal deployment technology and Application. Science Press: Peking, China, 2015; pp. 1–5.ZhaoB.Science PressPeking, China201515Search in Google Scholar
Su, L.; Zhang, J.H.; Wang, L. Related problems and technical research of microgrid. Power system protection and control. 2010, 38, 235–239.SuL.ZhangJ.H.WangL.Related problems and technical research of microgrid201038235239Search in Google Scholar
Tan, Y.;Lv, Z.L.; Li, J. Multi-objective capacity optimization of distributed generation based on improved ELM. Power system protection and control. 2016, 44, 63–70.TanY.LvZ.L.LiJ.Multi-objective capacity optimization of distributed generation based on improved ELM2016446370Search in Google Scholar
Ding, M.; Wang, B.; Zhao, Bo. Configuration Optimization of Capacity of Standalone PV-Wind-Diesel-Battery Hybrid Microgrid. Power System Technology. 2013, 37, 575–581.DingM.WangB.ZhaoBoConfiguration Optimization of Capacity of Standalone PV-Wind-Diesel-Battery Hybrid Microgrid201337575581Search in Google Scholar
Jiang, Q.Y.; Shi, Q.J.; Li, X.P. Optimal configuration of standalone wind-solar-storage power supply system. Electric Power Automation Equipment. 2013, 33, 19–26.JiangQ.Y.ShiQ.J.LiX.P.Optimal configuration of standalone wind-solar-storage power supply system2013331926Search in Google Scholar
Rotaru, F.; Chicco, G.; Grigoras, G.; Cartina, G. Two-stage distributed generation optimal sizing with clustering-based node selection. Int J Electr Power Energy Syst. 2012, 40, 120–129.RotaruF.ChiccoG.GrigorasG.CartinaG.Two-stage distributed generation optimal sizing with clustering-based node selection20124012012910.1016/j.ijepes.2012.02.012Search in Google Scholar
Liu, Y.H.; Wang, F.; Tan, Y.H. Multi-objective Optimal Capacity. Configuration and Emission Reduction Benefit Analysis of Grid-connected Microgrid. Proceedings of the CSU-EPSA. 2017, 29, 70–75.LiuY.H.WangF.TanY.H.Multi-objective Optimal Capacity. Configuration and Emission Reduction Benefit Analysis of Grid-connected Microgrid2017297075Search in Google Scholar
Pesaran H.A.M.; Huy, P.D.; Ramachandaramurthy, V. K. A review of the optimal allocation of distributed generation: Objectives, constraints, methods, and algorithms. Renewable and Sustainable Energy Reviews. 2017, 75, 293–312.PesaranH.A.M.HuyP.D.RamachandaramurthyV. K.A review of the optimal allocation of distributed generation: Objectives, constraints, methods, and algorithms20177529331210.1016/j.rser.2016.10.071Search in Google Scholar
Lopes Silva, M.A.; de Souza, S.R.; Freitas Souza, M.J.; De Franca Filho, M.F. Hybrid metaheuristics and multi-agent systems for solving optimization problems: A review of frameworks and a comparative analysis. Applied Soft Computing. 2018, 71, 433–459.Lopes SilvaM.A.de SouzaS.R.Freitas SouzaM.J.De Franca FilhoM.F.Hybrid metaheuristics and multi-agent systems for solving optimization problems: A review of frameworks and a comparative analysis20187143345910.1016/j.asoc.2018.06.050Search in Google Scholar
Blum, C.; Puchinger, J.; Raidl, G.R.; Roli, A. Hybrid metaheuristics in combinatorial optimization: a survey. Applied Soft Computing. 2011, 11, 4135–4151.BlumC.PuchingerJ.RaidlG.R.RoliA.Hybrid metaheuristics in combinatorial optimization: a survey2011114135415110.1016/j.asoc.2011.02.032Search in Google Scholar
Aydin, M.E. Coordinating metaheuristic agents with swarm intelligence. Journal of intelligent manufacturing. 2012, 23, 991–999.AydinM.E.Coordinating metaheuristic agents with swarm intelligence20122399199910.1007/s10845-010-0435-ySearch in Google Scholar
Wang, C.S.; Hong, B.W.; Guo, L. Dispatch Strategies of PV-Battery Microgrid in Different Scenarios. Power System Technology. 2013, 37, 1775–1782.WangC.S.HongB.W.GuoL.Dispatch Strategies of PV-Battery Microgrid in Different Scenarios20133717751782Search in Google Scholar
Liu, Y.H. Optimal Configuration and Economic Analysis of Microgrid. Master's thesis, Hunan University, Changsha, China, 2016.LiuY.H.Master's thesis,Hunan UniversityChangsha, China2016Search in Google Scholar
Liu, B.L.; Huang, X.J.; Li, J. Optimal Sizing of Distributed Generation in a Typical Island MicrogridWith Time-shifting Load. Proceedings of the CSEE. 2014, 35, 4250–4258.LiuB.L.HuangX.J.LiJ.Optimal Sizing of Distributed Generation in a Typical Island MicrogridWith Time-shifting Load20143542504258Search in Google Scholar
Zhu, L.; Yan, Z.; Yang, X. Optimal Configuration of Battery Capacity in Microgrid Composed of Wind Power and Photovoltaic Generation With Energy Storage. Power System Technology.2012, 36, 26–31.ZhuL.YanZ.YangX.Optimal Configuration of Battery Capacity in Microgrid Composed of Wind Power and Photovoltaic Generation With Energy Storage2012362631Search in Google Scholar
Xing, P.X.; Zhang, S.Z.; Zeng, M.D. Review of configuration optimization for hybrid microgrid with multiple energy resources. Engineering Journal of Wuhan University. 2017, 50, 375–383.XingP.X.ZhangS.Z.ZengM.D.Review of configuration optimization for hybrid microgrid with multiple energy resources201750375383Search in Google Scholar
Wang, X.Y.; Kan, Y. Economic load dispatch of renewable energy-based power systems with high penetration of large-scale hydropower station based on multi-agent glowworm swarm optimization. Energy Strategy Reviews. 2019, 26, 1–14.WangX.Y.KanY.Economic load dispatch of renewable energy-based power systems with high penetration of large-scale hydropower station based on multi-agent glowworm swarm optimization20192611410.1016/j.esr.2019.100425Search in Google Scholar
Zheng, J.H.; Zou, J. Multi-objective Evolutionary Optimization. Science Press: Peking, China, 2017; pp. 164–165.ZhengJ.H.ZouJ.Science PressPeking, China201716416510.1002/9781119136378.ch5Search in Google Scholar