马伏军，博士，现为湖南大学电气学院教授、博导、湖南省科技创新领军人才、国家高层次青年人才、湖湘青年人才、湖南省优-青、湖南大学岳麓学者，为湖南大学‘输配电先进理论与技术’教育部创新团队和‘国家电能变换和控制工程技术研究中心’的核心成员，同时兼任湖南省工程师学会首届理事、湖南省信息技术标准化委员会委员、湖南省综合评标库专家、湖南省高新技术企业认证专家、中国科协科技人才奖项评审专家、中国电机工程学会电工数学专委会委员、中国电源学会青年工作委员会常务委员、中国电工技术学会青年工作委员会委员等。学术兼职：IEEE Senior member; SCI期刊《Scientific Reports》编辑、《电力科学与技术学报》、《智慧电力》、《上海交通大学学报》、《浙江电力》青年编委；IEEE Std Working Committee for P2950‘Electric traction system for high-speed Electric Multiple Units (EMUs)’等。

主要研究方向为高效电能变换、智能电网技术，包括冶金特种电源、多电平变换器MMC及多端口能量路由器等。近年来，本人主持承担了国家自科基金项目2项、湖南省教育厅重点项目1项、湖湘青年英计划1项、湖南省优-青基金项目1项、中德博士后交流基金项目1项、长沙科技创新重点项目1项、湖南大学青年教师培养计划项目1项等，并作为课题组主要成员参加了国家‘十一五’科技支撑项目子课题《高速铁路供电系统综合补偿及谐波抑制技术》、国家‘973’计划项目子项《微网及含微网配电系统的电能质量分析与控制》等。近年来，在IEEE、IET、《中国电机工程学报》、《电工技术学报》等国内外学术刊物上发表相关论文100余篇，其中SCI收录论文50余篇，其中第一作者/通讯作者发表SCI论文30余篇，在IEEE会刊上发表封面论文1篇；以第一发明人获授权国家发明专利22项，以第二发明人获授权国家发明专利9项;获得2022年湖南省自然科学二等奖1项(排第1)、2014年国家技术发明二等奖1项(排第3)、2018年国家科技进步创新团队奖(核心)、2013年中国机械工业科技一等奖1项(排第4)、2014年中国专利金奖和湖南省专利一等奖各1项(排第7)，2017年湖南省科技创新奖(核心)、湖南省高校研究生电子设计竞赛一等奖指导教师、十八届芙蓉学子科研创新奖(负责人)和2017年‘湖南省优秀博士学位论文’等。

联系方式：Email:mafujun2004 AT 163.com; mafujun2013 AT hnu.edu.cn.

招生要求：不愿虚度人生。

指导、发展理念：以诚待人，相处融洽，研究充实、愉快；通过实践磨砺，在成长过程中实现自我价值。

2020.11-至今 湖南大学电气工程教授/博导

2016.10－2020.11湖南大学电气工程副教授/博导

2016.10－2017.10德国TU Dortmund电气工程博士后(CSC-DAAD奖学金)

2013.06－2016.10湖南大学电气工程助理教授(湖南大学优博资助留校)

2008.09－2015.06湖南大学电气工程博士

2004.09－2008.07湖南大学自动化学士

[1]湖南省科技人才专项：湖南省科技创新领军人才(负责人,编号: 2023RS1035).

[2]湖南省科技人才专项：湖湘青年英才(负责人,编号: 2019RS2017).

[3]台达电力电子科教发展计划重点项目：大功率特种高频感应加热电源系统关键技术及应用研究(负责人，编号：DREK2024004)

[4]湖南省重点研发计划：大功率IGBT制氢电源系统关键技术研究，课题负责人，项目编号：2024JK2105.

[5]智能电网国家科技重大专项“感存算一体化微纳传感器件及变电主设备状态多维融合感知关键技术”项目，课题三负责人，项目编号：2024ZD0803403

[6]国家自科基金面上项目：适应于新能源接入的高速铁路多端口功率调节器及其协同控制研究(负责人,编号: ****7067).

[7]国家青年自科基金项目：高速铁路供电系统电能质量分析和混杂补偿控制研究(负责人,编号: ****7062).

[8]湖南省教育厅重点项目：多端口能量路由器系统及协同控制策略研究(负责人,编号:21A0014).

[9]湖南省自科基金优 青项目：大功率特种电能变换系统及控制理论研究(负责人，编号：2020JJ3010).

[10]中德(CSC-DAAD)博士后交流基金项目:High-Power modular multilevel converter and control for railway traction system (主持者,编号:留金欧[2016]6191号).

[11]国网湖南省电力有限公司：规模化电池储能接入湖南电网关键技术研究及应用(横向课题，负责人).

[12]国网湖南省电力有限公司：多功能移动储能应急电源的场景分析、系统设计及控制策略研究(横向课题，负责人).

[13]云南电网有限责任公司：适应新能源接入的多端口能量路由器关键技术研究(横向课题，负责人).

[14] 2018年国家重点研发计划：直流电网限流装置拓扑及控制(主要参与者，编号：2018YFB0904603).

[15]国家科技支撑计划项目子课题:高速铁路供电系统综合补偿及谐波抑制技术(主要参与者,编号:2009BAG12A09).

[16]国家973计划项目:微网及含微网配电系统的电能质量分析与控制(主要参与者,编号:2009CB219706).

[17]湖南省重大科技专项:智能化大型电磁冶金成套装备关键技术研发与应用示范(主要参与者,编号:2016GK1002).

[18]湖南省重大科技专项:大功率海洋通讯电声换能系统关键技术与重大装备研发(主要参与者,编号:2017XK2104).

发表论文：

[1] Qixiang Yang, Fujun Ma*, Junpan Wang, ZhengXiao Zhang. A Comprehensive Induction Heating Power System for Large All-metal Cooking Pots with Energy Storage, IEEE Journal of Emerging and selected topics on Power Electronics,2024. (网络见刊)

[2] Qiaoling Peng, and Simiao Zhou, Fujun Ma*, Gelin Huang, Rui Fan. A Model Predictive Control of Three-Level Cascaded Noninverting Buck-Boost Converter for Energy Storage System, IEEE Trans. Industrial Electronics, 2024, DOI:10.1109/TIE.2024.3481950. (网络见刊)

[3] Junpan Wang, Fujun Ma*, Qixiang Yang, ZhengXiao Zhang. A High-Power Two-port Multiple-Frequency LLLC Induction Heating Power System, IEEE Trans. Power Electronics, 2024, DOI:10.1109/TPEL.2024.3477715. (网络见刊)

[4] Yulin Kuang;Fujun Ma*;Cheng Yang;Qiaoling Peng;Gelin Huang. Pre-Synchronization Control Strategy for Virtual Synchronous Generator Grid Connection Based on Voltage Mathematical Relationships. IEEE Access, vol.12, pp. 135854-135863, 2024, DOI:10.1109/ACCESS.2024.3457683.

[5] Gelin Huang, Fujun Ma*, et al. Dual Fundamental Frequency HSS-Based Reduced Order Impedance Modeling of AC/AC Modular Multilevel Converter for Tundish Heating, IEEE Trans. Power Delivery, 2024, DOI: 10.1109/TPWRD.2024.3377807(网络见刊)

[6] Man-Chung Wong*;Mengmeng Xiao;Fujun Ma;Lei Wang, Reliability Evaluation of Pilot Virtual-Mesh FREEDMSs by SST Series and Three-Port Power Hub Parallel Energy Routers, IEEE Transactions on Smart Grid, 2024, DOI: 10.1109/TSG.2024.3362961.(网络见刊)

[7] Hongqi Ding, Fujun Ma*, Rong Han, Gelin Huang, Man-Chung Wong. An Internal Thermal Distribution Balance Control of Submodule in Modular Multilevel Converter, IEEE Trans. Industrial Electronics, 2024, DOI: 10.1109/TIE.2023.3333002.(网络见刊)

[8] Hongqi Ding, Fujun Ma*, Rong Han, Cheng Zhang, Manchung Wong, Fault-Tolerant Method of Modular Railway Power Conditioner Based on DC-Bus Voltage Regulation, IEEE Trans. Transportation Electrification, VOL. 10, NO. 1, pp.2220-2234, 2024. DOI: 10.1109/TTE 2023.3285987.

[9] Hongqi Ding; Fujun Ma*; Rong Han; Lei Wang; Gelin Huang. Loss-Balancing Control Strategy for Single-Phase MMC With Asymmetric Phase Leg Structure, IEEE Trans. Power Electronics, 2024, VOL. 39, NO. 2, pp.2063-2075, DOI: 10.1109/TPEL.2023.3329496.

[10] Fayun Zhou, Xinxing Xiang*, Fujun Ma, Yichao Wang, Fangyuan Zhou and Peng Peng. An Improved Phase-Disposition Pulse Width Modulation Method for Hybrid Modular Multilevel Converter, Energies, 2023, 16(3), 1192; https://doi.org/10.3390/en16031192, Jan. 2023.

[11] Gaoxiang Li;Fujun Ma*;Chuanping Wu;Mingshen Li;Josep M. Guerrero; Man-Chung Wong. A Generalized Harmonic Compensation Control Strategy for Mitigating Subsynchronous Oscillation in Synchronverter Based Wind Farm Connected to Series Compensated Transmission Line, IEEE Trans. Power Systems, 2023, Vol.38, Is.3, pp.2610-2620.

[12] Ding Hongqi, Fujun Ma*, Han Rong, Wang Lei, Lin Liheng, Qianming Xu. Junction Temperature Optimization Based Compensation Strategy of Modular Multilevel Railway Power Conditioner, IEEE Trans. Power Electronics, VOL. 37, NO. 6, pp.6585-6598, 2022.

[13] Fujun Ma*, Yulin Kuang, Zhengwen Wang, Gelin Huang, Dexing Kuang and Cheng Zhang. Multi-Port and -Functional Power Conditioner and Its Control Strategy with Renewable Energy Access for a Railway Traction System, Energies, 2021, 14(19), 6146.

[14] Zhuzhen, Fujun Ma*, Linheng Lin, Lei Wang Dexing Kuang, Qianming Xu, Manchung Wong. Multi-Mode Smooth Transition Technique for Three-level Cascaded Noninverting Buck-Boost DC-DC Converter, IEEE Trans. Power Electronics, VOL. 36, NO. 12, Pages: 14409-14419, 2021.

[15] Gaoxiang Li, An Luo, Zhixing He, Fujun Ma*, et al. A DC Hybrid Active Power Filter and Its Nonlinear Unified Controller Using Feedback Linearization, IEEE Trans. Industrial electronics, 2021, VOL.68, NO.7, pp.5788-5798.

[16] Fujun Ma*; Wang Xin, Zhen Zhu, et al. Multi-Port Railway Power Conditioner and Its Management Control Strategy with Renewable Energy Access, IEEE Journal of Emerging and selected topics on Power Electronics, VOL. 8, NO. 2, JUN. 2020, Pages: 1405–1418.

[17] Gaoxiang Li, Fujun Ma*, Yichao Wang, et al. Design and Operation Analysis of Virtual Synchronous Compensator, IEEE Journal of Emerging and selected topics on Power Electronics, VOL.8, NO.4, pp. 3835-3845, DEC. 2020.

[18] Fujun Ma*, Xu Qianming, He Zhixing, An Luo. A Railway Traction Power Conditioner Using Modular Multilevel Converter and Its Control Strategy for High-speed Railway System, IEEE Trans. Transportation Electrification, vol.2, no.1, pp.96-109, 2016. (IEEE封面长文,该期刊Top10 Popular papers)

[19] Zhen Zhu; Fujun Ma*; Wang Xin, Wei Xinwei, Li Gaoxiang. Operation Analysis and A Game Theoretic Approach to Dynamic Hybrid Compensator for V/v Railway Traction System, IEEE Transactions on Power Electronics, VOL. 34, NO. 9, Sep. 2019, Pages: 8574–8587.

[20] Fujun Ma*; Zhen Zhu; Jun Min; Yufei Yue; Xianxian He. Model Analysis and Sliding Mode Current Controller for Multilevel Railway Power Conditioner for the V/v Traction System, IEEE Trans. Power Electronics, Feb. 2019, vol.34, no.2, pp.1243-1253.

[21] Jun Min, Fujun Ma*, Qianming Xu, Zhixing He, An Luo, and Alfio Spina. Analysis, Design, and Implementation of Passivity-Based Control for Multilevel Railway Power Conditioner, IEEE transactions on Industrial Informatics, 2018, 14(2), pp.415-425.

[22] Qianming Xu; Fujun Ma*; Zhixing He; Yandong Chen; Josep M. Guerrero, et al. Analysis and Comparison of Modular Railway Power Conditioner for High-Speed Railway Traction System, IEEE Transactions on Power Electronics, 2017, 32(8), pp.6031-6048.

[23] Zhixing He; Fujun Ma*;Qianming Xu; Yandong Chen; Josep M. Guerrero, et al. Reactive Power Strategy of Cascaded Delta-connected STATCOM Under Asymmetrical Voltage Conditions, IEEE Journal of emerging and selected topics in power electronics, 5(2), pp 784-795, 2017.

[24] Gaoxiang Li, Fujun Ma*, An Luo, Zhixing He, Zhen Zhu, Virtual Impedance-Based VSG Control for Grid-Connected Inverter Under the Weak Grid Situations, IET Power electronics, May 2018, Vol. 11, Is. 13, pp. 2125 - 2132.

[25] Fujun Ma*, Zhixing He, Xu Qianming, An Luo. Multilevel Power Conditioner and Its model predictive Control for Railway Traction System, IEEE Trans. Industrial electronics, 2016, Vol.63, no.11, pp.7275–7285.

[26] Fujun Ma, Luo An*, X.Y. Xu, Huagen Xiao, C.P. Wu, and Wen Wang. A simplified power conditioner based on Half-bridge converter for High-speed Railway System, IEEE Trans. Industrial Electronics, vol.60, no.2, pp.728-738, 2013.

[27] Fujun Ma*, An Luo, Qiaopo Xiong, He Zhixing, Xu Qianming. Derivation of Zero-Sequence Circulating Current and the Compensation of Delta-Connected SVG for Unbalanced Load, IET power electronics, Vol. 9, no. 3, pp. 576–588, 2016.

[28] Zhixing He, Fujun Ma*, Mingshen Li, Qianming Xu. Multifunctional Hybrid Active Power Converter and Its Industrial Application for Electrolytic Copper-foil, IET generation transmission distribution, 2016, Vol.10, no.16, pp. 3985 - 3994.

[29] Fujun Ma*, An Luo, Shuai Zhikang, Tu Chunming, Qiaopo Xiong. The voltage ripple analysis of simplified active power compensator for negative sequence and reactive power compensation, IET power electronics, vol.7, no.10, pp. 2582–2594, 2014.

[30] An Luo, Fujun Ma*, Qiaopo Xiong, He Zhixing. The Development of High-current Power Supply System for Electrolytic Copper-foil, Journal of Power Electronics, Vol.15, No.2, pp. 399-410, 2015.

[31] Fujun Ma*, An Luo, Qiaopo Xiong. The Power Analysis and Its Control of Two-phase Orthogonal Power Supply for the Continuous Casting, Journal of Electrical Engineering & Technology, Vol.10, No.3, pp. 971-982, 2015.

[32] Zhinxing He*, Fujun Ma, Luo An, Chen Yandong, Qianming Xu, Circulating Current Derivation and Comprehensive Compensation of Cascaded STATCOM Under Asymmetrical Voltage Conditions, IET generation transmission distribution, 2016, Vol.10, no.12, pp. 2924 - 2932.

[33] Luo An*, Fujun Ma, C.P. Wu, Shiqi Ding, Q.-C. Zhong, and Z.K. Shuai. A dual-loop control strategy of railway static power regulator under V/V electric traction system, IEEE Trans. Power Electronics, vol.26, no.7, pp.2079-2091, 2011.

[34] Qianming Xu*, Fujun Ma, Luo An, Zhinxing He. Hierarchical direct power control of modular multilevel converter for tundish induction heating, IEEE Trans. Industrial Electronics, 2016, Vol.63, no.12, pp. 7919–7929.

[35] Qianming Xu, Fujun Ma, An Luo*, Zhixing He. Analysis and Control of M3C based UPQC for Power Quality Improvement in Medium/High Voltage Power Grid, IEEE Trans. Power Electronics, vol.31, no.12, pp. 8182 - 8194, 2016.

[1] 2022年湖南省自然科学二等奖(排第1).项目名称：多能互联系统高效运行及控制关键理论与方法，授奖单位:湖南省政府.

[2]2014年度’国家技术发明二等奖’(排第3).项目名称：冶金特种大功率电源系统关键技术与装备及其应用，授奖单位:中华人民共和国国务院.

[3] 2013年度’中国机械工业科学技术一等奖’(排第4).项目名称：冶金特种大功率电力电子变换电源拓扑与控制方法及应用,授奖单位:中国机械工业联合会.

[4] 2018年国家科技进步创新团队奖(核心)，项目名称：湖南大学电能高效变换与控制团队，授奖单位:中华人民共和国国务院

[5] 2014年度’中国专利金奖’(排第7).项目名称：两相逆变电源系统及其综合控制方法【ZL****10209751.0】,授奖单位:中国知识产权局.

[6] 2014年度’湖南省专利一等奖’(排第7).项目名称：两相逆变电源系统及其综合控制方法【ZL****10209751.0】,授奖单位:湖南省人民政府.

[7] 2014年度’节能中国十大应用技术’(排第4).项目名称：冶金用大功率特种电源拓扑与先进控制技术,授奖单位:中国节能协会.

[8] 2017年湖南省团队科技创新奖(核心)，项目名称：电能绿色变换及控制技术研究及产业化，授奖单位：湖南省政府.

[9] 2017年湖南省优秀博士学位论文(唯一作者)，项目名称：冶金特种电力电子变换拓扑结构及先进控制技术研究，授奖单位：湖南省教育厅.

[10] 2015年十八届芙蓉学子团队科研创新奖，项目名称：高效电能变换及控制团队，授奖单位：湖南省团委.