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Yaocheng Li1,Yongpeng Xu1,Mingkai Xu2,Siyuan Wang2,Zhicheng Xie3,Zhe Li1,Xiuchen Jiang1(School of Electronic Information and Electrical Engineering,Shanghai Jiao Tong University;State Grid Shandong Electric Power Company Jinan Power Supply Company;Maintenance & Test Center of EHV power Transmission Company,China Southern Power Grid).Automatic infrared image recognition method for substation equipment based on a deep self-attention network and multi-factor similarity calculation[J].Global Energy Interconnection,2022,第4期
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Zhao Xin1,Dongqin Xiong2,Teng Yun1,Zhe Chen3,Guangwei Liu1(School of Electrical Engineering,Shenyang University of Technology;Jing-Jin Electric Technologies Co.Ltd.;Department of Engineering and Science,Aalborg University).Optimal design of linear switched reluctance motor for sea wave power generation[J].Global Energy Interconnection,2022,第4期
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Yuan Gao1,Han Jiang2,Fangzheng Peng1,Yi Gao2,Yan Zhang1,Xunpeng Shi3(State Grid Economic and Technological Research Institute;Global Energy Interconnection Group Co.;Australia–China Relations Institute,University of Technology Sydney).Factors affecting economics of clean energy transmission channel in Southeast Asia[J].Global Energy Interconnection,2022,第4期
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梅竞成,胡景博,万正东,齐冬莲.一种通过学习分支求解机组检修问题的方法[J].全球能源互联网(英文),2022,第4期
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徐衍会,徐宜佳,黄琰.应用于平抑风电波动模式下氢储能系统典型运行曲线的生成[J].全球能源互联网(英文),2022,第4期
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梁涵卿,韩晓男,于昊洋,李凡,刘忠健,张柯欣.适用于高比例新能源并网的输电网故障原因辨识方法[J].全球能源互联网(英文),2022,第4期
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李曜丞,许永鹏,胥明凯,王思源,谢志成,李喆,江秀臣.基于深度自注意力网络和多因素相似度计算的变电站设备红外图像自动识别方法[J].全球能源互联网(英文),2022,第4期
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赵鑫,熊冬勤,滕云,陈哲,刘光伟.用于海浪发电直线开关磁阻电机优化设计[J].全球能源互联网(英文),2022,第4期
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胡彬,吴佳玮,李鹏,孙蔚,肖晋宇.基于各向异性天空散射模型的光伏系统效率前排阴影遮挡损失系数计算方法[J].全球能源互联网(英文),2022,第4期
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蔡翼驰,齐东莲.一种基于并网模式下级联H桥蓄电池储能系统的分布式VSG控制方法[J].全球能源互联网(英文),2022,第4期
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雷兴,纪航,许强,叶頲,张圣甫,黄成军.基于声谱图的声阵列传感器装置数据诊断方法研究[J].全球能源互联网(英文),2022,第4期
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肖凯,李道兴,王晓辉,郭鹏天.基于图计算的电力营配数据建模及应用[J].全球能源互联网(英文),2022,第4期
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高源,江涵,彭方正,高艺,张艳,施训鹏.东南亚清洁能源输电通道经济性影响因素研究[J].全球能源互联网(英文),2022,第4期
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Hiromu Hamada1,Yoshitaka Kusayanagi1,Masamoto Tatematsu2,Masayuki Watanabe3,Hiroshi Kikusato4(Tokyo Electric Power Company HoldingsInc.4-1Egasaki-choTsurumi-kuYokohama230-8510 Kanagawa;Kansai Electric Power CompanyInc.3-11-20NakojiAmagasaki661-0974 Hyogo;Kyushu Institute of Technology1-1 Sensui-choTobata-kuKitakyushuFukuoka 804-8550;Fukushima Renewable Energy InstituteAIST (FREA)2-2-9 MachiikedaiKoriyama963-0298 Fukushima).Challenges for a reduced inertia power system due to the large-scale integration of renewable energy[J].Global Energy Interconnection,2022,第3期
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Zhenlan Dou1,Chunyan Zhang1,Wei Wang2,Dan Wang3,Qiqi Zhang1,Yanxing Cai4,Ruitian Fan4(State Grid Shanghai Municipal Electric Power Company;Global Energy Interconnection Development and Cooperation Organization;Key Laboratory of Smart Grid of Ministry of EducationTianjin University;Shanghai University of Electric Power).Review on key technologies and typical applications of multi-station integrated energy systems[J].Global Energy Interconnection,2022,第3期
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Yuting Teng1,2,Wei Deng1,2,Wei Pei1,2,Yifeng Li1,2,Li Ding1,2,Hua Ye1,2(Institute of Electrical Engineering Chinese Academy of Sciences;University of Chinese Academy of Sciences).Review on grid-forming converter control methods in high-proportion renewable energy power systems[J].Global Energy Interconnection,2022,第3期
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Yanhui Xu,Tianchu Gao(North China Electric Power UniversityBeijing).Sub-synchronous frequency domain-equivalent modeling for wind farms based on rotor equivalent resistance characteristics[J].Global Energy Interconnection,2022,第3期
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Boyu Chen1,Yanbo Che1,Jingkai Wang2,Hongfeng Li1,Linjun Yu2,Dacheng Wang2(Key Laboratory of Smart Grid of Education MinistryTianjin University;Aerospace Information Research InstituteChinese Academy of Sciences).An estimation framework of regional rooftop photovoltaic potential based on satellite remote sensing images[J].Global Energy Interconnection,2022,第3期
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Koichi Nara(IEEE Life FellowProf.Emeritus Ibaraki University4-12-1 NakanarusawaHitachi Ibaraki 316-8511).Next-generation power delivery system with resiliency and environmental affinity[J].Global Energy Interconnection,2022,第3期
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Kenji IBA(Department of Electrical EngineeringMeisei UniversityTokyo Japan 2-1-1 HodokuboHino-shiTokyo).Massive energy storage system for effective usage of renewable energy[J].Global Energy Interconnection,2022,第3期
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Ryuichi Yokoyama,Yicheng Zhou(Energy and Environment and Technology Research Institute and Waseda University1-22-2 Nishi-Waseda ShinjukuNishi-Waseda East Wing 106Tokyo169-0051).MicroGrid Designer: user-friendly design,operation and control assist tools for resilient microgrid and autonomous community[J].Global Energy Interconnection,2022,第3期
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Junichi Arai1,Yasuhiro Taguchi2(Kogakuin University1-24-2 Nishi-ShinjukuShinjukuTokyo 163-8677;Energy and Environment Technology Research Institute1-22-2 Nishi-Waseda ShinjukuNishi-Waseda East Wing 106Tokyo 169-0051).Coordinated control between a grid forming inverter and grid following inverters suppling power in a standalone microgrid[J].Global Energy Interconnection,2022,第3期
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YasuyoYamazaki,Ryuichi Yokoyama(Waseda University).Microgrids and a Community with a Shared Future for Mankind[J].Global Energy Interconnection,2022,第3期
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新井淳一,田口康裕.独立型微电网中构网逆变器与跟网逆变器协调控制研究[J].全球能源互联网(英文),2022,第3期
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徐衍会,高天初.基于转子等值电阻特性的风电场次同步频域等值建模[J].全球能源互联网(英文),2022,第3期
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伊庭健二.用于可再生能源的大规模储能系统研究[J].全球能源互联网(英文),2022,第3期
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横山隆一,周意诚.适用于弹性微网的设计、操作和控制辅助工具研究[J].全球能源互联网(英文),2022,第3期
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滨田启,草柳义孝,立松正本,渡边正行,佐藤宏.可再生能源大规模并网对减少电力系统惯性的挑战[J].全球能源互联网(英文),2022,第3期
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