姓名：朱国荣 

性别：女 

职称：教授/博导 

邮箱：zhgr_55@whut.edu.cn 

地址：东院自动化学院东附楼311 

电话：18971400950 

  

指导专业：电气工程学硕/专硕；交通信息工程及控制学术博士；电子信息工程博士/能源动力工程博士 

  

研究方向：伺服电机驱动技术；人形机器人具身智能小脑控制技术；人形臂力控技术；电力电子装备研发与可靠性技术等。 

  

教师简介 

电力电子技术研究所所长，湖北省新能源动力电池工程技术研究中心副主任，曾任应用电子工程系主任；2009年博士毕业于华中科技大学电气与电子工程学院；同年入香港理工大学电子资讯工程系副研究员2年；2011年入武汉理工大学自动化学院；2012年中原电子集团公司博士后2年； 2013-2014年美国新墨西哥大学能源学院访问学者，2016-2017年丹麦奥尔堡大学能源学院访问学者。 

IEEE Senior Member；中国电源学会高级会员；武汉电源学会常务理事；电气女科学家专委会副主任委员；电力电子化电力系统与装备专委会副秘书长。IEEE Transactions on Power Electronics，IEEE Transactions on Industrial Electronics等期刊特约审稿人。  

主持：国家自然科学基金3项，工信部邮轮国家项目1项，国防863子课题、国家博士后基金、省重大支撑计划、省科技攻关各1项，国家重点实验室项目3项，企业委托多项。在国内外核心期刊和重要国际学术会议发表论文150余篇（其中，国际顶级期刊论文20余篇），均被SCI/EI检索（1篇国际顶级期刊IEEE TPEL论文高被引）。第一发明人授权发明专利20余项项。科学出版社出版专著1本。 

  

招生方向 

（1）伺服电机驱动技术：永磁同步电机驱动技术、机电集成动力单元电-热-磁兼容； 

（2）人形机器人具身智能小脑控制技术：复杂姿态下多自由度运动控制；肢体末端在线强化学习；端到端任务泛化；基于VLA的双臂协作技术；  

（3）人形臂力控技术：阻抗控制技术，高精度柔顺力控算法研究；  

(4) 电力电子应用技术：电力电子建模与控制、电力电子装备可靠性； 

欢迎所有对本团队研究方向感兴趣的同学加盟实验室。近几年，实验室每周跟浙江大学/中山大学有技术研讨会，提供到国内外顶级科研院所联合培养的机会。 

  

科研项目 

主持纵向项目如下： 

(1)国家自然科学基金面上项目，51977163/E0706，“六端口三相滤波器的有源实现及其稳定、可靠运行关键技术研究”， 2020.01-2023.12，75万。 

(2)国家自然科学基金面上项目，51777146/E0706，“高性能功率变换器DC-Link电容模组关键技术研究”， 2018.01-2021.12，74万。 

(3)国家工信部大型邮轮重点项目子课题，“上层建筑结构变形影响电气因素分析”，2018.01-2021.12，100万。 

(4)国家自然科学青年基金，51107092/E070602，“燃料电池供电系统低频纹波抑制技术研究”，2012.01-2014.12，26万元，结题优秀。 

(5)中船重工集团722研究所国家重点实验室开放基金，“大功率单相低频电源间谐波抑制技术研究”，2018.05-2019.04，10万，结题优秀。 

(6)中国电力科学研究院国家重点实验室开放基金项目，“电力电子装置运行可靠性及故障演化机理”，2017.04-2018.04，17万。 

(7)国防863子课题，某系统建模与仿真，2017.04-2018.06，47.5万。 

(8)湖北省重大科技创新计划项目，“高性能大功率起重专用变频器”， 2014.1-2016.12，15万元。 

(9)中国博士后科学基金面上项目，2012M511693，“消除分布式电源并网系统中低频纹波的策略研究”，2012.05-2014.05，5万元。 

(10)湖北省科技攻关项目，2011FAA009，“电动汽车磷酸铁锂离子动力电池管理系统”， 2011.09-2013.09，100万元。 

(11)国家自然科学基金面上项目，52277224/E0707，“基于SEI分解反应的特征信号研究锂离子电池热失控早期预警方法”， 2023.01-2026.12，54万，进行中，第二。 

(12)国家自然科学基金面上项目，52277242/E0707，“记及电-热能量耦合的构网型储能多机系统稳定机理及控制研究”， 2026.01-2029.12，50万，进行中，第二。 

  

  

主持的主要横向课题如下： 

(1)复杂环境中高性能足式机器人腿部构型优化与学习算法研究，110万; 

(2)用于人形机器人的可实现高度协作需要的高力矩密度一体化关节模组，30万元; 

(3)电力电子设备中关键元器件状态监测研究，30万元; 

(4)基于大规模新能源场站电网友好型主动支撑技术研究，47.7万元; 

(5)光储一体系统仿真技术研究,20万; 

(6)大型内河新能源船舶动力电池安全管理与综合电力系统安全高效优化运行控制关键技术，427万； 

(7)智能型螺栓紧固机器人关键技术研发，50万; 

(8)新一代智能机器人紧凑型柔顺关节关键技术研究，100万； 

(9)安阳地区新能源规划与消纳监测预警试点示范，146.7万； 

(10)某军工横向项目，202111HX39 ，103万； 

(11)锂离子电池SOC估算及热仿真技术研究，45万； 

(12)储能站智能消防安全管理策略模型研究，30万； 

(13)船用电池Pack制作/测试工艺标准研究，25万； 

(14)海上工程平台多电源转换技术研究仿真模型建设，25万； 

(15)某军工项目，某系统建模与仿真，47.5万; 

(16)1kW单相并网逆变器无电解电容功率解耦设计与系统评估，15.3万； 

(17)无线能量传输在3.3kW电动汽车充电系统研究设计开发协议，20万； 

(18)精密整流装置研制调试试验，10万。 

  

授权发明专利 

(1)朱国荣，陆江华，任意高阶谐振电路的通用模型及建模方法，2022，中国专利，ZL201811179868.7 

(2)朱国荣，陆江华，无线电能传输系统中双边LCC补偿电路的参数分析方法，2021，中国专利，ZL201811179861.5 

(3)朱国荣，杨双成，硬壳锂电池极柱与连接片的冷连接方法，2021，中国专利，ZL202110697575.3 

(4)朱国荣，曾定军，基于寿命模型参数波动的精确评估IGBT可靠性的方法，2021，中国专利，ZL201711007745.0    

(5)朱国荣，胡一豪，黎明，陆江华，一种恒流恒压无缝切换的感应电能传输系统，2020，中国专利，ZL201810997500.5 

(6)朱国荣，胡一豪，寿亚涛，陆江华，一种变匝间距平面螺旋线圈，2019，中国专利，ZL201810955548.X 

(7)朱国荣，王金，陆江华，黄云辉，基于恒流源的简易幼苗生长记录仪，2019.03.19，中国专利，ZL201610735517.4 

(8)朱国荣，黎文静，陆江华，李博，一种磁耦合无线能量传输装置的双面不对称线圈，2019.03.19，中国专利，ZL201610693511.5 

(9)朱国荣，贾舒然，彭俊然，彭业昌，一种基于BP神经网络的多峰值光伏MPPT方法，2018-01-12，中国专利，ZL201510784252.2 

(10)朱国荣，刘欣宇，牛怡青，陈伟，一种手机用偶极天线，2017.12.08，中国专利，ZL201510387830.9 

(11)朱国荣，马思源，陈皓，李小坤，刘连园，梁标，刘芙蓉，徐应年，陈伟，无电解电容单相逆变器低频纹波抑制拓扑结构及调制方法，2017.02.01，中国，201410577613.1 

(12)朱国荣，陈铭，伏潇斌，刘璐，刘连园，刘卫星，刘芙蓉，徐应年，陈伟，无电解电容单相桥式逆变器低频纹波抑制方法，2017.01.11，中国，201410580092.5 

(13)朱国荣，邱实，林鹏，何少佳，张东华，陈伟，马燕，刘芙蓉，基于动态均衡点的电池组均衡控制系统及控制方法，2016.03.09，中国，CN201310476602.X 

(14)朱国荣，马燕，徐小薇，何少佳，张东华，陈伟，邱实，刘芙蓉，基于最大平均均衡电流的电池均衡控制方法及系统，2015.12.2，中国，CN201310475414.5 

(15)朱国荣，陈伟，赵东明，李向舜，张东华，抑制逆变系统低频纹波的自适应波形控制方法，2014.08.13，中国，ZL201210289178.3 

  

专著论文 

专著： 朱国荣，《单相变换器直流侧电容有源化技术研究》，科学出版社，2019年8月。 

期刊论文 

[1]Yuegong. Li, Guorong. Zhu, Jianghua. Lu and Hua. Geng, “Voltage Support Capability Improvement for Wind Farm with Reactive Power Substitution Control,” CSEE J. Power Energy Syst., Dec. 2024 

[2]张德勇,朱国荣,李悦功,等.抑制直驱风机故障恢复后暂态过电压的协调控制策略[J/OL].电源学报, 1-15[2025-04-07]. http: //kns. cnki. net/kcms/detail/12. 1420. TM. 20250304. 1811. 004.  

[3]B. Yao, G. Zhu, Q. Wang, H. Wang and H. Wang, "A Noninvasive Online Evaluation Method for Core Temperature of Aluminium Electrolytic Capacitors," in IEEE Transactions on Power Electronics, vol. 39, no. 3, pp. 2922-2926, March 2024. 

[4]Zhu G , Kong C , Wang J V ,et al.A simplified electrochemical model for lithium-ion batteries based on ensemble learning[J].iScience, 2024, 27(5) 

[5]Sun S , Huang Q , Zhu G ,et al.An Energy-Feed Type Split-Capacitor Three-Phase Four-Wire Power Electronic Load Compatible with Various Load Demands[J].Energies (19961073), 2024, 17(1). 

[6]Kang J , Wei W , Zhu G ,et al.An empirical parameter identification method considering hysteresis effects for LiFePO4 battery's electrochemical model[J].Journal of Energy Storage, 2024, 76. 

[7]ZHU G, KONG C, WANG J V, et al. A fractional-order electrochemical lithium-ion batteries model considering electrolyte polarization and aging mechanism for state of health estimation[J]. Journal of Energy Storage, 2023, 72: 108649. DOI:10.1016/j.est.2023.108649. (SCI Q1, IF=9.4) 

[8]ZHU G, KONG C, WANG J V, et al. A fractional-order model of lithium-ion battery considering polarization in electrolyte and thermal effect[J]. Electrochimica Acta, 2023, 438: 141461. DOI:10.1016/j.electacta.2022.141461. (SCI Q1, IF=6.6) 

[9]Jianghua Lu, Guorong Zhu, and Chris Mi, "Foreign object detection in wireless power transfer systems" IEEE Transactions on Industry Applications，2022,58(1): 1340 - 1354 

[10]Haoran Wang, Shili Huang, K. Dinesh, Guorong Zhu^* and Huai Wang. “Lifetime Prediction of DC-link Capacitors in Multiple Drives System Based on Simplified Analytical Modeling", IEEE Transactions on Power Electronics, 2021, 36(1): 844 - 860.  

[11]Zhixuan Wu, Guorong Zhu, Qian Wang , Shengjie Yang , Jing V. Wang and Jianqiang Kang， Study on Adaptive Cycle Life Extension Method of Li-Ion Battery Based on Differential Thermal Voltammetry Parameter Decoupling，Energies, 2021, 14(19):1-15 

[12]Haoran Wang, Cunzhong Li, Guorong Zhu^* and Huai Wang. “Model based Design and Optimization of Hybrid DC-link Capacitor Banks”, IEEE Transactions on Power Electronics, 2020, 35(9): 8910 - 8925 

[13]Ren L C, Zhu G R, Kang J Q, et al. An algorithm for state of charge estimation based on a single-particle model[J]. Journal of Energy Storage, 2021, 39:102644.  

[14]Lichao Ren; Guorong Zhu^*; Jing V Wang; Bingyang Luo; Jianqiang Kang. “Comparison of Robustness of Different State of Charge Estimation Algorithms”. Journal of Power Sources. 2020,478,228767. 

[15]H.Wang, H.Wang, G.Zhu and F.Blaabjerg, "An Overview of Capacitive DC Links - Topology Derivation and Scalability Analysis",IEEE Transactions on Power Electronics. 2020, 35(2):1805-1829 

[16]Yi Liu, Huai Wang, Meng Huang, Xiaoming Zha, Guorong Zhu, “Simplified Power Loss Model for Aluminum Electrolytic Capacitors in Single-Phase Inverters”, IEEE Transactions on Power Electronics. 2020, 35(5): 4452-4456. 

[17] Jianghua Lu, Guorong Zhu, Deyan Lin, Yiming Zhang, Jin Jiang and Chris Mi, "Unified Load-Independent ZPA Analysis and Design in CC and CV Modes of Higher-Order Resonant Circuits for WPT Systems," IEEE Transactions on Transportation Electrification，2019, 5(4): 977-987  

[18] Jianghua Lu, Guorong Zhu, Deyan Lin, Yiming Zhang, Haoran Wang, and Chris Mi. “Realizing Constant Current and Constant Voltage Outputs and Input Zero Phase Angle of Wireless Power Transfer Systems with Minimum Component Counts,” IEEE Transactions on Intelligent Transportation Systems. DOI: 10.1109/TITS.2020.2985658, 2020：1-11  

[19]Li Gu,John Yupeng Gui,JingV.Wang,Guorong Zhu,and Jianqiang Kang, 

“Parameterized evaluation of thermal characteristics for a lithium-ion battery,”Energy,vol.178,pp.21-32,July 1 2019.  

[20]X.Wei,C.Li,M.Qi,B.Luo,X.Deng,and G.Zhu, “Research on Harmonic Current Amplification

 Effect of Parallel APF Compensating Voltage Source Nonlinear Load,”

 Energies, 2019,12(16): 3070-3079.  

[21]Jianghua Lu, Guo-Rong Zhu, Deyan Lin, S. C. Wong, and Jin Jiang. “Load-independent Voltage and Current Transfer Characteristics of High-order Resonant Network in IPT System,” IEEE Journal of Emerging and Selected Topics in Power Electronics, 2019, 7(1):422-436.   

[22]Jianghua Lu, Guorong Zhu, Huai Wang, Jin Jiang, Fei Lu, and Chris Mi. “Sensitivity analysis of inductive power transfer systems with voltage-fed compensation topologies” IEEE Transactions on Vehicular Technology, 2018.  

[23]Zhu, Guo-Rong，Wang, Haoran，Liang, Biao，Tan, Siew-Chong，Jiang,Jin，Enhanced Single-Phase Full-Bridge Inverter With Minimal Low-Frequency Current Ripple，IEEE Transactions on Industrial Electronics，2016.2.01，63（2）:937~943. 

[24]Li, Sinan，Guo-Rong Zhu，Tan, Siew-Chong，Hui, S. Y. Ron， Direct AC/DC Rectifier with Mitigated Low-Frequency Ripple Through Inductor-Current Waveform Control，IEEE Transactions on Power Electronics，2015.01.01，30（8）：4336~4348. 

[25]Guo-Rong Zhu，Siew-Chong Tan，Yu Chen，C. K. Tse，Mitigation of low-frequency current ripple in fuel-cell inverter systems through waveform control，IEEE Transactions on Power Electronics，2013.01.01，28（2）：779~792. 

[26]Guo-Rong Zhu，K. H. Loo，Y. M. Lai，Chi K. Tse，Quasi-Maximum Efficiency Point Tracking for Direct Methanol Fuel Cell DMFC/Supercapacitor Hybrid Energy System，IEEE Transactions on Energy Conversion，2012.3.1，3（27）561~571. 

[27]Gatla Ranjith Kumar, Wei Chen, Guo-Rong Zhu, Dingjun Zeng, and Ramchander Nirudi. “Lifetime estimation of modular cascaded H-bridge MLPVI for grid-connected PV systems considering mission profile,” Microelectronics Reliability, 2018. 

[28]Zhu, Guo-Rong，Xiao, Cheng-Yuan，Wang, Hao-Ran，Tan, Siew-Chong，Closed-loop waveform control of boost inverter，IET Power Electronics，2016.7.27，9（9）：1808~1818. 

[29]Wei, Xueliang, Guo-Rong Zhu, Lu, Jianghua，Xu, Xiaowei, Instantaneous current-sharing control scheme of multi-inverter modules in parallel based on virtual circulating impedance，IET Power Electronics，2016.4.20，9（5）：960~968. 

[30]Zhang, D. H. ，Guo-Rong Zhu，Bao, J.，Ma, Y.，He, S. J.，Qiu,.S.，Chen, W.，Research on Parameter Identification of Battery Model Based on Adaptive Particle Swarm Optimization Algorithm，Journal of Computational and Theoretical Nanoscience，2015.7.01，12（7）：1362~1367. 

[31]Wei, Xueliang, Guo-Rong Zhu, Lu, Jianghua，Li Wenjing , Improved Reactive Current Detection Method of SVG，Energies，2017，10（9）：1374~1380.  

[32]DH Zhang，Guo-Rong Zhu，SJ He，S Qiu，Y Ma， Balancing Control Strategy for Li-Ion Batteries String Based on Dynamic Balanced Point，Energies，2015.3.4，2015，8(3)：1830~1847. 

[33]Bo Li, Guorong Zhu, Jianghua Lu, Wenjing Li, Gatla Ranjith Kumar, and Jin Wang. “Output characteristics of LCC-S compensation network and its optimal parameters design in IPT system,” The Journal of Engineering, vol. 2017, no. 13, pp. 1576-1579, 2017. 

[34]Gatla Ranjith Kumar, Guo-Rong Zhu, Jianghua Lu, Wei Chen, and Bo Li. “Thermal analysis and reliability evaluation of cascaded H-bridge MLPVI for grid-connected applications,” The Journal of Engineering, vol. 2017, no. 13, pp. 1595-1599, 2017.  

[35]石琼林,郭东旭,杨耕,朱国荣,康健强.基于分数阶模型的磷酸铁锂电池负极特征区间确定方法[J].电工技术学报, 2020年. 

[36]石琼林,朱国荣,陈雅,康健强.基于负极主导区间的电池神经网络老化预测[J].电源技术, 2020年. 

[37]杨明,朱国荣,邓翔天等.考虑宽负载变化的有源电容等效容值控制与损耗分析[J].电源学报, 2020年. 

[38]陆江华, 朱国荣, 黎文静, 李博和姜晶. 感应耦合能量传输系统中双边LCC谐振腔恒流和恒压模式的研究[J], 中国电机工程学报, 2019, 39(09): 2768-2778.  

[39]朱国荣, 林鹏, 陆江华和李小坤. 无线能量传输系统双LCC谐振补偿电路研究[J], 华中科技大学学报（自然科学版）, 2015, 45(5): 104-109  

[40]朱国荣，王浩然，肖程元，刘芙蓉，陈伟，抑制燃料电池单相逆变系统低频纹波的波形控制方法，中国电机工程学报，2014.3.01，（18）：2936~2943 

[41]王浩然，朱国荣，伏潇斌，刘卫星，王怀，无电解电容单相电力变换器直接脉动功率控制方法，中国电机工程学报，2016.7.01，（13）：3573~3581+3376 

[42]刘璐，朱国荣，陈皓，罗昉， 三相四线制VIENNA整流器损耗分析与热设计，电工技术学报，2014.12.31，（S1）：282~290. 

[43]孙祺明,黎文静,罗冰洋,熊松,陆江华,王菁,朱国荣.一种具有兼容耦合和抗偏移能力的螺旋双C型双面线圈的设计与研究[J].电工电能新技术,2019,38(05):32-42. 

[44]孟浩,罗冰洋,刘庆,查明,罗志清,熊松,朱国荣.Buck型DC-APF抑制大功率极低频发射系统间谐波技术研究[J].电工电能新技术,2019,38(05):43-50.  

[45]唐君超杰，王浩然，马思源，朱国荣，王怀，含有源功率解耦的单相H桥逆变器综合可靠性评估，电源学报，2016.11.15，（06）：10~16. 

[46]马思源，曹咏芳，朱国荣，非对称12脉波整流自耦变压器绕组结构研究，电源学报，2015.1.15，（01）：107~113+118. 

EI检索会议论文（通讯作者或第一作者） 

[1]Peng X, Luo B, Zhu G. Distributed Photovoltaic Power Prediction Based on Spatiotemporal Attention Convolutional Networks under Weather-free Conditions[C]//2024 IEEE China International Youth Conference on Electrical Engineering (CIYCEE). IEEE, 2024: 1-5. 

[2]Z. Li, B. Luo, Y. Li, J. Lu and G. Zhu, "Study on Control Strategy of Wind Farms for Rapid Response to Grid Dispatch Instructions," 2024 IEEE China International Youth Conference on Electrical Engineering (CIYCEE), Wuhan, China, 2024, pp. 1-6, doi: 10.1109/CIYCEE63099. 2024. 10846372. 

[3]B. Hu, X. Deng, J. V. Wang, G. Zhu, "A Hardware-in-loop test platform for BMS in the energy storage system based on an Extended Single Particle model," 2024 IEEE 10th International Power Electronics and Motion Control Conference (IPEMC2024-ECCE Asia), Chengdu, China, 2024, pp. 1465-1470, 

[4]Luo J, Zhu G, Wei X, et al. Research on Torque Ripple Suppression of PMSM Based on IP+ QPR Control[C]//2024 IEEE China International Youth Conference on Electrical Engineering (CIYCEE). IEEE, 2024: 1-6. 

[5]K. Li, G. Zhu, K. Feng and J. Lu, "Analysis of Direct-drive Turbine Shaft Torsional Vibration under Inertia Control Strategy," 2024 IEEE 19th Conference on Industrial Electronics and Applications (ICIEA), Kristiansand, Norway, 2024, pp. 1-6. 

[6]Xiaqing Weng, Guorong Zhu, Jing V. Wang and Jianqiang Kang," Parameter identification of electrochemical-thermal coupling model for large-capacity lithium-ion batteries based on neural network algorithm", 2021, in Proc. LNEE. 

[7]Yihao Hu, Guorong Zhu, Jing V. Wang and Jianqiang Kang,"Consistency Screening of Lithium-ion Batteries Based on Improved FCM Algorithm", 2021,in Proc. LNEE. 

[8]Y. Wu, B. Luo, J. Lu, D. Zhang, and G. Zhu“A Method for Realizing Variable Transconductance Constant Current Output of LCC-N Compensated IPT System”,2021, in Proc. LNEE. 

[9]X. He, B. Luo, X. Deng, G. Zhu, G. Zhang, Q. Wang, "Research on Energy Management Strategy of Hybrid Energy Storage System for Electric Ship," 2021 5th IEEE Conference on Energy Internet and Energy System Integration (EI2), 2021 

[10]Z. Kong, Q. Wang, G. Zhu, H. Wang and H. Wang, "Design and Benchmark of Passive and Active Inductors for a 7.5 kW Motor Drive," 2021 IEEE Energy Conversion Congress and Exposition (ECCE), 2021, pp. 4874-4879, doi: 10.1109/ECCE47101.2021.9595971.  

[11]曹宇珂,朱国荣,陆江华,庞牧野,向馗, 槽极组合对四足机器人关节电机性能影响研究, 第十五届中国智能机器人大会，杭州，2021.8.30 

[12]S. Huang, H. Wang, D. Kumar, G. Zhu and H. Wang, "Reliability Evaluation of DC-link Capacitors in Multi-drive Systems," 2019 IEEE Energy Conversion Congress and Exposition (ECCE), USA, Accepted. 

[13]M. Qi, S. Huang, C.Li, H. Wang, G. Zhu and H. Wang, "Design and Benchmark of Capacitive DC Links for the Hold-up Time Application," 2019 IEEE International Symposium on Power Electronics for Distributed Generation Systems (PEDG), Xian，2019. 

[14]Y. Shou, B. Luo, S. Xiong, G. Zhu, J. Lu and J. Wang, “Efficiency Analysis in IPT System Based on LCC Compensation Network,” 2019 IEEE 10th International Conference on Power Electronics and ECCE Asia (ICPE 2019-ECCE Asia), Taiwan. 

[15]G. Ranjith Kumar, W. Chen, G. Zhu, J. Wang and K. Sainadh Singh, “Lifetime comparison of IGBT modules in Grid-Connected Multilevel Photovoltaic Inverters Considering Mission Profile,” 2019 IEEE 10th International Conference on Power Electronics and ECCE Asia (ICPE 2019-ECCE Asia) , Taiwan. 

[16]S. Huang, S. Xiong, D. Zeng, L. Qu, L. Nie and G. Zhu, "Accurate Lifetime Predication of Aluminum Electrolytic Capacitor Considering Equivalent Series Resistance Variations," 2018 IEEE International Power Electronics and Application Conference and Exposition (PEAC), Shenzhen, 2018, pp. 1-5. 

[17]Jianghua Lu, Guo-Rong Zhu, Wenjing Li, and Bo Li. “Load-Independent ZPA Conditions in Both Constant Current and Constant Voltage Modes of LCC-Series Compensated IPT System” in Proc. 2018 IEEE Wireless Power Transfer Conference (WPTC), Montreal, Quebec, Canada, Jun. 2018. 

[18]Jianghua Lu，Guorong Zhu，Yatao Shou，Fei Liu，“Coupling- and Load-Independents Output Voltage and ZPA Operation in LCC-Series Compensated IPT System”，2018 IEEE Energy Conversion Congress and Exposition (ECCE), USA, 2018. 

[19]Jianghua Lu, Guo-Rong Zhu, Jin Jiang, Wenjing Li, and Bo Li. “Load-independent transconductance and ZPA input for symmetrical resonant converter in IPT system,” in Proc. 2017 IEEE Energy Conversion Congress and Exposition (ECCE), Cincinnati, OH, USA, pp. 4393-4397, Oct. 2017. 

[20]Wenjing Li, Jianghua Lu, Guo-Rong Zhu, and Wu Chen. “Impact of the wire tightness degree on circular pad with different coil size in IPT system," in Proc. 2017 IEEE 3rd International Future Energy Electronics Conference and ECCE Asia (IFEEC 2017 - ECCE Asia), Kaohsiung, Taiwan, pp. 2273-2278, Jul. 2017. 

[21]Dingjun Zeng，Yuanxing Zhang，Taoyong Li，Mingxuan Qi，Erjie Qi，Guorong Zhu，Reliability Research of DC Charging Module，43nd Conference of the Industrial Electronics Society，IECON 2017，Beijing，2017.10.29-2017.11.01 

[22]Erjie Qi，Mingxuan Qi，Dingjun Zeng，Haoran Wang，Guorong Zhu，Jing Zhang，Kan Zhong，System Reliability Evaluation Considering Parameter Variations of a Single-phase Inverter with Integrated Active Power Decoupling，43nd Conference of the Industrial Electronics Society，IECON 2017，Beijing，2017.10.29-2017.11.01 

[23]Tang, Junchaojie，Wang, Haoran，Ma, Siyuan，Zhu, Guorong，Wang, Huai，Reliability Evaluation of a Single-phase H-bridge Inverter with Integrated Active Power Decoupling，42nd Conference of the Industrial Electronics Society, IECON 2016，Florence，2016.10.24-2016.10.27 

[24]Ma, Siyuan，Wang, Haoran，Tang, Junchaojie，Zhu, Guorong，Wang, Huai, Lifetime estimation of DC-link capacitors in a single-phase converter with an integrated active power decoupling module，42nd Conference of the Industrial Electronics Society, IECON 2016，Florence，2016.10.24-2016.10.27 

[25]Wang, Haoran，Wang, Huai，Zhu, Guorong, Blaabjerg, Frede, Cost assessment of three power decoupling methods in a single-phase power converter with a reliability-oriented design procedure，8th IEEE International Power Electronics and Motion Control Conference, IPEMC-ECCE Asia 2016，Hefei，2016.5.22-2016.5.26 

[26]S. Ma, H. Wang, G. Zhu，H. Wang, Power loss analysis and comparision of DC and AC side decoupling module in a H-bridge inverter，International Power Electronics and Motion Control Conference - ECCE Asia (ECCE Asia)，Hefei，2016.05.22-2016.05.25 

[27]Jianghua Lu, Peng Lin, Xiaokun Li, Guo-Rong Zhu, et al. “Research on seamless transfer from CC to CV modes for IPT EV charging system based on double-sided LCC compensation network,” in Proc. 2016 IEEE Energy Conversion Congress and Exposition (ECCE), Milwaukee, WI, USA, pp. 1-6, Sept. 2016. 

[28]Jianghua Lu, Wenjing Li, Bo Li, and Guo-Rong Zhu. “Variable Compensation Network for Achieving Constant Current or Voltage Output in IPT System,” in Proc. 2016 International Conference on Industrial Informatics - Computing Technology, Intelligent Technology, Industrial Information Integration (ICIICII), Wuhan, China, pp. 14-17, Dec. 2016. 

[29]Wenjing Li, Jianghua Lu, Guo-Rong Zhu, Wei Zhang, and Jin Jiang. “Design and research of a double-sided flux coupler in inductive power transfer system," in Proc. 2016 42nd Annual Conference of the IEEE Industrial Electronics Society, Florence, Italy, pp. 6033-6037, Dec. 2016. 

[30]Wang, Hao-Ran，Zhu, Guo-Rong，Fu, Xiao-Bin，Ma, Si-Yuan，Xie, Ming，Li, Xiao-Song，Jiang, Jing，An AC side-active power decoupling modular for single phase power converter，7th Annual IEEE Energy Conversion Congress and Exposition, ECCE 2015，Montreal, QC，2015.9.20-2015.9.24 

[31]Wang, Haoran，Zhu, Guorong，Fu, Xiaobin，Ma, Siyuan，Wang, Huai， Waveform control method for mitigating harmonics of inverter systems with nonlinear load，41st Annual Conference of the IEEE Industrial Electronics Society, IECON 2015，Yokohama，2015.11.9-2015.11.12 

[32]Biao Liang，Guo-rong Zhu，Xiao-bin Fu，Wei-xing Liu，Hao-ran Wang ，Single-phase Bidirectional Bridge Topology without Electrolytic Capacitor at the DC Side，2014 IEEE International Power Electronics and Application Conference and Exposition(IEEE PEAC' 2014)，Shanghai，2014.11.5-2014.11.8 

[33]Guo-Rong Zhu，Wei-xing Liu，Xiao-bin Fu，Biao Liang，Hao-ran Wang ，Neutral-Point Voltage Waveform Control Method for Mitigating the Low-Frequency Ripple Current in E-capless Full-Bridge Inverter，2014 IEEE International Power Electronics and Application Conference and Exposition(IEEE PEAC' 2014)，Shanghai，2014.11.5-2014.11.8 

[34]Guo-Rong Zhu，Xiao, Cheng-Yuan，Wang, Hao-Ran，Chen, Wei，Tan, Siew-Chong，Dynamic characteristics of boost inverter with waveform control，29th Annual IEEE Applied Power Electronics Conference and Exposition, APEC 2014，Fort Worth, TX，2014.3.16-2014.3.20 

[35]Guo-Rong Zhu，Wang, H.R.，Xiao, C.Y.，Tan, Siew-Chong，Kang, Y.，Assessment of waveform control method for mitigation of low-frequency current ripple，28th Annual IEEE Applied Power Electronics Conference and Exposition, APEC 2013，California，2013.3.17-2013.3.21 

[36]Guo-Rong Zhu，Tan, Siew-Chong，Wang, Ke-Wei，Tse, Chi K.，Waveform Control of Fuel-cell Inverter Systems，IEEE Energy Conversion Congress and Exposition (ECCE)，North Carolina State，2012.9.15-2012.9.20 

[37]Dong-hua Zhang，Guo-rong Zhu，Shi Qiu，Yan Ma，Wei Chen， Lithium-Ion Battery Cells Voltage Equalization Using Optimized Circuit Parameters and Control Strategy，2014 IEEE Vehicle Power and Propulsion Conference (VPPC)，Beijing，2013.10.15-2013.10.18 

[38]Zhang, D.H.，Qiu, S.，Zhu, G.R.，Ma, Y.，Chen, W.，Wong, S.C.， Balancing control strategy for li-ion batteries string based on dynamic balanced point，2013 9th IEEE Vehicle Power and Propulsion Conference, IEEE VPPC 2013，Beijing，2013.10.15-2013.10.18 

[39]Hao-ran Wang，Guo-rong Zhu，Dong-hua Zhang，Wei Chen，Yu Chen，On the practical design of a single-stage single-switch isolated PFC regulator based on sliding mode control，2012 IEEE 7th International Power Electronics and Motion Control Conference - ECCE Asia, IPEMC 2012，Harbin，2012.6.2-2012.6.5