1999年及2002年于武汉大学获机械电子专业学士及硕士学位，2005年于武汉大学获计算机应用技术专业获博士学位。2005年7月进入武汉大学自动化系（现并入电气与自动化学院）。2013年8月至2014年12月在美国纽约大学作访问学者。现任武汉大学电气与自动化学院教授、博导，人工智能与自动化系支部书记，中国电源学会无线电能传输技术及装置专业委员会委员、中国电工学会无线电能传输专业委员会委员。 中电联工业控制系统标准化工作组委员、工业机器人标准委员会委员

主要研究方向：人工智能在电力系统中的应用、无线电能传输、环境能量获取（振动取能、磁场取能、电场取能）、光储直柔配用电系统、电力电子系统建模与控制

 欢迎自动化、计算机、电气等相关专业同学到我课题组攻读硕士、博士（控制科学与工程学术博士，能源动力专业博士）；

欢迎学有余力的大二、大三同学到实验室参与科研项目。

本课题组有充足的科研项目与科研经费，近5年到帐经费超过1000万元。

电子邮箱：dqj@whu.edu.cn  

本课题组2024年入学还可招收2~3名硕士，欢迎咨询！

主持的项目：

1.  国家自然科学基金:无线电能传输系统数据驱动建模与控制（51977151），2020.1~2023.12，（63万元）

2.  国家自然科学基金:无线电能传送非理想Litz线线圈高频损耗电阻建模与品质因数优化(51677139),2017.1~2020.12   （63万元）

3.  纵向项目：电源控制策略及验证研究，2018~2020 （528万元）

4.  纵向项目：多通道无线电能传输系统稳定性研究，2020.11~2021.10

5.  企业委托横向项目：建筑侧交直流配用电系统演进路径与灵活调度技术研究， 2023.8~2024.11，148万元

6.  企业委托横向项目：传感器取能与网络技术辅助研究与装置研制项目技术开发，南方电网数字电网研究院，2023.8~2025.12，358万元

7.  企业委托横向项目：输电网关户外运行关键技术研究，南方电网数字电网研究院，2020.11~2022.10

8.  企业委托横向项目：光储直柔配用电系统规划与关键技术研究 2022.6~2023.12 （78.6万元）

9.  国际合作项目:全球创新计划-面向城市地区节能减排的电动汽车无线充电系统(1310146),3.1万英镑,2014.4~2016.4

GII (Global Innovation Initiative) Project:Wireless Charging Technologies for Electric Vehicles to Improve Energy Utilizations and Reduce Emissions in the Urban Environment, corporate with  New York University ( USA) and the Strathclde University ( United Kingdom), awarded by British Council.

10.纵向项目：混合充电系统. 2017.1~2017.12

11.企业委托横向项目：非侵入电能质量监测与敏感用户细分模型研究，深圳供电局，2018.1~2019.12

12.配电网直接供电的100kW电动汽车无线充电，深圳市科创委，2018.1~2019.12

13.企业委托横向项目:华润售电业务咨询，2017.9~2018.8.

14.国家电网公司总部科技项目:可充电无线传感网关键技术研究, 2017.1~2018.12

15.企业委托横向项目:AGV车辆无线充电；2016.8~2017.12

16.企业委托横向项目:配电网低电压治理验证技术研究, 2016~2017

17.企业委托横向项目:基于国网GIS数据接口开发, 2015年

18.企业委托横向项目:基于国网GIS的电力线路规划, 2015年

19.企业委托横向项目:配电数据采集终端研发, 2012年

20.企业委托横向项目:GIS导输电航线路巡检系统, 2012~2013

21.企业委托横向项目:基于GIS的配电网综合管理系统, 2011~2012

22.企业委托横向项目:典型用户需求响应潜力分析及互动节电模型研究,12015~2016

23.企业委托横向项目:配电网故障定位系统, 2011~2012

24.企业委托横向项目:太阳能及风力发电监测系统, 2012年

25.企业委托横向项目:光伏发电系统数据接口, 2012年

26.企业委托横向项目:九江供电公司配电网GIS, 2008~2011

27.企业委托横向项目:起重重量动态精确测量, 2010年

28.企业委托横向项目:火电厂凝结水精处理系统, 2007年

参与的项目:

1.  国家科技支撑计划项目:以电网低碳化为特征的智能电网综合示范工程  2013~2015

2.  企业委托横向项目:智能电网监测终端无线供电系统,2013~2015

3.  企业委托横向项目:基于ARM输电线路舞动及覆冰监测系统 ,2009年

4.  企业委托横向项目:火电厂节能评价系统,2011年

5.  企业委托横向项目:家居用电智能控制系统研究与开发,2011~2012

6.  企业委托横向项目:配电监测终端单元(FTU)研发 ,2011~2012

期刊论文:

[1]     Q. Deng, P.LUO*, et al, Pulse Interference Suppression for Wireless Shore Power System Based on Hybrid Energy Storage , in IEEE Transactions on Transportation Electrification (accepted)

[2]      Haitang Liu; Yuanteng Mei; Hong Zhou*; Wenshan Hu; Qijun Den*，, "Compact and Efficient Wireless Motor Drive with Bidirectional Motion Capability," in IEEE Transactions on Power Electronics, doi: 10.1109/TPEL.2023.3308389.

[3]      Z. Li， Q. Deng* et al., "Receding Horizon D-Optimal Input Design for Identification of Wireless Power Transfer Systems," in IEEE Journal of Emerging and Selected Topics in Power Electronics, vol. 11, no. 3, pp. 3597-3606, June 2023, doi: 10.1109/JESTPE.2023.3257960.

[4]      Q. Deng, Z. Li*, J. Liu, S. Li, P. Luo and K. Cui, "Data-Driven Modeling and Control Considering Time Delays for WPT System," in IEEE Transactions on Power Electronics, vol. 37, no. 8, pp. 9923-9932, Aug. 2022, doi: 10.1109/TPEL.2022.3151941.

[5]      X. Dai,G. Liu*,Q. Deng*,W. Zeng, Global Optimal Cooperative Control of Multiple DC–DC Converter Systems for Dynamic Consensus, IEEE Transactions on Power Electronics, vol. 36, no. 12, pp. 14340 - 14352, Dec.2021

[6]       L. Wang, P. Sun^*, X. Wu, J. Cai, Q. Deng ^* ，J. Sun, H. Zhou., "Mutual Inductance Identification of IPT System Based on Soft-start Process," IEEE Transactions on Power Electronics, Early access, doi: 10.1109/TPEL.2022.3142289.

[7]       Q. Deng ,Z. Li*, J. Liu*, et al. Multi-Inverter Phase-Shifted Control for Inductive Power Transfer with Overlapped Transmitters. IEEE Transactions on Power Electronics, vol. 36, no. 8, pp. 8799 - 8811, Jan.2021

[8]      A. Zhu, H. Zhou*, Q Deng*, et al., "Modeling and Phase Synchronization Control of High-Power Wireless Power Transfer System Supplied By Modular Parallel Multi-Inverters," in IEEE Transactions on Vehicular Technology, vol. 70, no. 7, pp. 6450-6462, July 2021, doi: 10.1109/TVT.2021.3080515.

[9]      H. Zhou, A. Zhu, Q Deng*, Protection Strategy for Wireless Charging Electrical Vehicles. IEEE Transactions on Vehicular Technology. vol. 69, no. 11, pp. 13510 -13520, Nov. 2020 (SCI二区,IF=4.5）

[10]   Q. Deng ,Y. Cheng*, F. Chen*, et al. Wired/Wireless Hybrid Charging System for Electrical Vehicles with Minimum Rated Power Requirement for DC Module. IEEE Transactions on Vehicular Technology. , vol. 69, no. 10, pp. 10889 -10898, Oct.2020

[11]   H. Zhou, J. Chen, Q. Deng*, F. Chen*, et al. Input-series output-equivalent-parallel multi-inverter system for high-voltage and high-power wireless power transfer. IEEE Transactions on Power Electronics, vol. 36, no. 1, pp. 228 -238, Jan.2021

[12]   J. Chen, H. Zhou, Q. Deng*, F. Chen*, et al. Free positioning wireless power transfer system based on one-to-multiple topology. IEEE Transactions on Power Electronics, , vol. 35, no. 10, pp. 9959 -9964, Oct.2020.

[13]   F. Chen, P. C. Young, H. Garnier, Q. Deng* and M. K. Kazimierczuk. Data-driven modeling of wireless power transfer systems with multiple transmitters. IEEE Transactions on Power Electronics, vol. 35, no. 11, pp. 11363 -11379, Jan.2020.

[14]   F. Chen, H. Garnier, Q. Deng*, M. K. Kazimierczuk and X. Zhuan. Control-oriented modeling of wireless power transfer systems with phase-shift control. IEEE Transactions on Power Electronics, 35(2):2119–2134, 2020.

[15]   Q. Deng, P. Sun*, W. Hu*, D. Czarkowski,et.al," Modular Parallel Multi-Inverter System for High-Power Inductive Power Transfer", IEEE Transactions on Power Electronics, vol. 34, no. 10, pp. 9422 -9434, Oct.2019 (DOI: 10.1109/TPEL.2019.2891064,  SCI一区,IF=6.8）

[16]   Q. Deng, Z. Wang, C. Chen*, D. Czarkowski,et.al,  "Modeling and Control of Inductive Power Transfer System Supplied by Multiphase Phase-Controlled Inverter " , IEEE Transactions on Power Electronics, vol. 34, no. 9, pp. 9303 - 9315, Sep.2019 (DOI: 10.1109/TPEL.2018.2886846,  SCI一区,IF=6.8）

[17]   J. Liu, Q. Deng*, D. Czarkowski, M. Kazimierczuk, H. Zhou and W. Hu,“Frequency Optimization for Inductive Power Transfer Based on AC Resistance Evaluation of Litz-wire ,” IEEE Transactions on Power Electronics, vol. 34, no. 3, pp. 2355 - 2363, March 2019 (DOI:, SCI一区,IF=6.8）

[18]         Liu, Jiangtao(#); Deng, Qijun(*); Wang, Wenbin; Li, Zhifan(*), Modeling and Control of Inverter Zero-Voltage-Switching for Inductive Power Transfer System, IEEE Access, 2019 , 7：139885~139894,

[19]         Chen, Cheng(#); Zhou, Hong; Deng, Qijun(*); Hu, Wenshan; Yu, Yanjuan; Lu, Xiaoqing; Lai, Jingang, Modeling and Design of Zero-Voltage-Switching Controller for Wireless Power Transfer Systems Based on Closed-Loop Dominant Pole, Journal of Power Electronics, 2019.9 , 19(5)：1235~1247,

[20]   C. Chen , H. Zhou, Q. Deng*,et., al, Modeling and Decoupled Control of Inductive Power Transfer to Implement Constant Current/Voltage Charging and ZVS Operating for Electric Vehicles, IEEE Access,  vol. 6, pp. 59917-59928, 2018, 

[21]   H. Zhou, X. Gao*, J. Lai, W. Hu, Q. DENG*,et., al, Natural Frequency Optimization of Wireless Power Systems on Power Transmission Lines, IEEE Access, vol. 6,  pp. 14038 - 14047, Jan. 2018(IF=3.5)

[22]   Z. Lei, H. Zhou, W. Hu*, Q. Deng*,et., al,Modular Web-Based Interactive Hybrid Laboratory Framework for Research and Education 20152 - 20163, IEEE Access, vol. 6,  pp. Jan. 2018(IF=3.5)

[23]   Q. Deng*, J. Liu, D. Czarkowski,  H. Zhou and  W. Hu, “An Inductive Power Transfer System Supplied by a Multiphase Parallel Inverter,”IEEE Transactions on Industrial Electronics, vol. 64, no. 9, pp. 7039–7047, May 2017.( SCI一区,IF=7.168)

[24]   Q. Deng*, J. Liu*, D. Czarkowski, M. Kazimierczuk, M. Bojarski, H. Zhou and  W. Hu, “Frequency-dependent resistance of Litz-wire square solenoid coils and quality factor optimization for wireless power transfer,”IEEE Transactions on Industrial Electronics, vol. 63, no. 5, pp. 2825–2837, May 2016.( SCI一区,IF=7.168)

[25]   Q. Deng*, J. Liu*, D. Czarkowski, M. Bojarski, J. Chen, H. Zhou and  W. Hu, “Edge Position Detection of On-line Charged Vehicles with Segmental Wireless Power Supply,” IEEE Transactions on Vehicular Technology. vol. 65, no. 5, pp. 3610–3621, May 2017  (IF=4.0)

[26]   Q. Deng*,Jiangtao Liu*,Dariusz Czarkowski, Mariusz Bojarski, Erdem Asa, Francisco de Leon,” Design of a Wireless Charging System with a Phase-Controlled Inverter for Electric Vehicles under Varying Parameters”, IET Power Electron., vol. 9, no. 13, pp. 2461-2470, Oct. 2016   (IF=3.58)

[27]   X. Wang, P. Sun, Q. Deng*, et al. Evaluation of AC Resistance in Litz Wire Planar Spiral Coils for Wireless Power Transfer, Journal of Power Electronics,   Vol.18,   vol. 4, pp.1268-1277, Jul. 2018 (IF=1.2)

[28]   Wenshan Hu, Zhongcheng Lei, Hong Zhou, Guo-Ping Liu, Q. Deng, Dongguo Zhou and Zhi-Wei Liu, , “Plug-in Free Web Based 3-D Interactive Laboratory for Control Engineering Education,”IEEE Transactions on Industrial Electronics,(DOI: 10.1109/TIE.2016.2645141,( SCI一区,IF=7.168)

[29]   Zhongcheng Lei; Hong Zhou; Wenshan Hu; Q. Deng; Dongguo Zhou; Zhi-Wei Liu," HTML5-Based 3-D Online Control Laboratory With Virtual Interactive Wiring Practice ",IEEE Transactions on Industrial Infomics, (SCI一区, IF=6.0)

[30]   H Zhou ， C Chen ， J Lai ， X Lu ， Q Deng, Affine nonlinear control for an ultra-supercritical coal fired once-through boiler-turbine unit, Energy , 2018 , 153,(SCI一区，IF=5.8)

[31]   X. Gao, H. Zhou, W. Hu, Q. Deng, et.,al, Capacitive power transfer through virtual self-capacitance route, ,IET Power Electron., vol. 11, no. 6, pp. 1110 - 1118, Oct. 2018  (IF=3.58)

[32]   邓其军,曾文彬,戴小然, 多斩波器电流协同控制[J]. 电工技术学报, 2021, 36(15): 3272-3281

[33]   邓其军,刘姜涛,陈诚,等. 应用于无线电能传输 的 Litz线平面矩形螺旋线圈高频电阻计算[J]. 电工技术学报, 2016, 31(11):176-185

[34]   邓其军,刘姜涛,周洪,等. 应用于无线电能传送的测控系统设计与开发[J]. 电力自动化设备, 2015, 35(7):147-152

[35]   邓其军,刘姜涛,陈 诚,等. 无线电能传输系统三相相移控制逆变器研发[J]. 电工技术学报,2017，32（18）：52~61。

[36]   邓其军,刘姜涛, 陈 诚，周洪,等. 多相并联的15 kW无线电能传输系统研发[J]. 电力自动化设备（录用)

[37]   邓其军,王慧琴. 频率匹配对谐振无线电能传输效率的影响[J]. 武汉大学学报（工学版）, 2016, 49(3):441-445.

[38]   周洪 ，蒋燕，胡文山，罗垚，邓其军,磁共振式无线电能传输系统应用的电磁环境安全性研究及综述，电工技术学报，2016.1.25，（02）：1~12刘姜涛,

[39]   邓其军,聂明媚,刘震宇,基于ARM的智能配电房通信管理机设计,自动化与仪表,2014,(01):34-37

[40]   邓其军,周洪,鲁觉.面向图形对象的配电网单线图绘制与使用[J]. 电力自动化设备,2009,Vol.29(6):97-100. EI检

[41]   邓其军,周洪,吴昌博.一种新型配电网倒闸操作票生成及防误系统[J]. 电力自动化设备,2009,Vol.29(7):123-126. EI检索

[42]   陈勇,邓其军,周洪.无重叠交叉的配电网单线图自动生成算法[J]. 电力自动化设备,2010,Vol.30(11):90-93. EI检索

[43]   邓其军,刘姜涛,周洪,陈勇. 低压台区地理图到电气接线图的自动转换[J].电力系统保护与控制,2011,39(4):132-136. EI检索

[44]   邓其军,苏克明,赵连明.基于配电网复杂设备的拓扑建模与分析[J].武汉大学学报工学版,2009,Vol.42(4):491-495.

会议论文:

[1]       Deng Qijun, Czarkowski, Dariusz,Bojarski, Mariusz,Chu,Zhengyan,De Leon, Francisco,Liu, Jiangtao,Edge position detection of on-line vehicles with segmental wireless power supply,2014 IEEE International Electric Vehicle Conference, IEVC 2014,Florence, Italy,2014.12.17-2014.12.19

[2]       Xingran Gao, Q. Deng,Wenshan Hu, Hong Zhou, Huiqin Wang. Electromagnetic Properties of a WPT System Applied on Transmission Lines, in the proceeding of the 37th Progress In Electromagnetics Research Symposium , PIERS 2016, ShangHai, China, 2014.8.8-2014.8.11

[3]       Q. Deng, Huiqin Wang, Xingran Gao, Hong Zhou, Wenshan Hu.A Novel EV Wireless Charging System with Two-coil/Three-coil Hybrid Application, in the proceeding of the 37th Progress In Electromagnetics Research Symposium, PIERS 2016, ShangHai, China, 2014.8.8-2014.8.11

[4]       Rui Feng, Nina Roscoe, Layth Qaseer, Mariusz Bojarski, Jaegue Shin, Dariusz Czarkowski, Francisco De Leon, Stephen Finney, Q. Deng.Magnetic Field Distribution in a WPT System for Electric Vehicle Charging , in the proceeding of the 37th Progress In Electromagnetics Research Symposium, PIERS 2016, ShangHai, China, 2014.8.8-2014.8.11

[5]       Wu, Zhiding, Deng Qijun, Xie, Xiongwei,Hu, Wenshan,Gao,Like,Zhou, Hong,Liu, Changkun,The Researches on The Effect of Iron Core on Transmission Efficiency in Resonance Coupling Wireless Energy Transmission,10th IEEE International Conference on Control and Automation (IEEE ICCA),196-201,Hangzhou, PEOPLES R CHINA,2013.6.12-2013.6.14

[6]       Wu, Zhiding, Deng Qijun, Xie, Xiongwei,Hu, Wenshan,Gao Like,Zhou, Hong,Liu, Changkun,The Researches on The Effect of Iron Core on Transmission Efficiency in Resonance Coupling Wireless Energy Transmission,10th IEEE International Conference on Control and Automation (IEEE ICCA),196-201,Hangzhou, PEOPLES R CHINA,2013.6.12-2013.6.14

[7]       Bojarski, Mariusz,Czarkowski, Dariusz,de Leon, Francisco,Deng Qijun, Kazimierczuk, Marian K.,Sekiya, Hiroo,Multiphase Resonant Inverters with Common Resonant Circuit,IEEE International Symposium on Circuits and Systems (ISCAS),2445-2448,Melbourne,,2014.6.1-2014.6.5

[8]       Zhou, Hong,Lai, Jingang,Hu, Wenshan, Deng Qijun, Demand-Side Energy Management:FTTH -Based Mode for Smart Homes,American Control Conference,Portland, OR,2014.12.4-2014.12.6

[9]       Hu, Wenshan,Zhou, Hong, Deng Qijun,  Gao, Xingran,Optimization Algorithm and Practical Implementation for 2-coil Wireless Power Transfer Systems,American Control Conference,4330-4335,2014.12.4-2014.12.6

[10]    Gao, Like,Hu, Wenshan,Xie, Xiongwei,Deng Qijun, Wu, Zhiding,Zhou, Hong,Jiang, Yan,Optimum Design of Coil for Wireless Energy Transmission System Based on Resonant Coupling,10th IEEE International Conference on Control and Automation (IEEE ICCA),190-195,Hangzhou, PEOPLES R CHINA,2013.6.12-2013.6.14

[11]    Gao, Like,Hu, Wenshan,Wu, Zhiding,Deng Qijun, Xie, Xiongwei,Zhou, Hong,Luo, Shengqi,Magnetic Coupling Resonant Wireless Energy Transmission Coil Quantitative Relation Modeling and Simulation Research,10th IEEE International Conference on Control and Automation (IEEE ICCA),202-207,Hangzhou, PEOPLES R CHINA,2013.6.12-2013.6.14。

[12]    Gao, Like,Zhou, Hong,Wu, Zhiding,Hu, Wenshan,Zhu, Wenji,Zhu, Bin,Zhou, Ke,Deng Qijun, Review of Magnetic Coupling Resonance Wireless Energy Transmission,International Conference on Energy (Energy),330-338,Hengshan, PEOPLES R CHINA,2013.6.27-2013.6.29。

[13]    Wu, Zhiding,Zhou, Hong,Gao, Like,Deng Qijun, Zhu, Wenji,Hu, Wenshan,Zhou, Ke,Jiang, Chaoqiang,Research on Transmission Efficiency of Waveform in Resonant Induction Wireless Energy Transmission System,International Conference on Energy (Energy),373-379,Hengshan, PEOPLES R CHINA,2013.6.27-2013.6.29

 

专著:

[1]  张国忠,孟红霞,邓其军.普通高等教育“十一五”国家级规划教材《智能控制系统及应用》[M].北京:中国电力出版社,2008

[2]  周洪,邓其军.普通高等教育“十一五”国家级规划教材《网络控制技术及应用》[M].北京:中国电力出版社,2007

[3]  周洪,邓其军.专著《智能大厦控制系统》[M].北京:中国电力出版社,2007

 

专利:

[1]       邓其军; 董帅良; 周洪; 胡文山,一种基于IPT并联多逆变器的相位同步检测方法和装置 , 2020-9-3, 中国, CN202010915929.2..

[2]       邓其军; 程远峰; 董帅良; 周洪; 胡文山,一种基于最小视在功率模块的混合充电系统和设计方法, 2020-9-3, 中国, CN202010917111.4.

[3]       周洪; 胡文山; 高星冉; 胡悦; 罗语婷; 邓其军; 周东国, 一种全面板极板耦合电容的优化方法, 2018-6-19, 中国, CN201810629068.4.

[4]       周洪; 胡文山; 高星冉; 王雅倩; 罗语婷; 邓其军; 周东国, 一种双极板电容式高压无线输电直流电源系统, 2018-6-11, 中国, CN201810596175.1.

[5]       龙晓秘; 邓其军, 一种基于可调直流功率模块的电动汽车无线充电系统,2018-8-7 至2028-1-24, 中国, ZL201820130114.1.

[6]       龙晓秘; 邓其军, 一种电动汽车无线充电负载端消失的检测与保护装置,2018-8-7 至2028-1-24, 中国, ZL201820130112.2.

[7]       周洪; 吴雨; 蒋燕; 陈诚; 邓其军; 胡文山, 一种大功率无线电能传输系统的非线性分析控制方法, 2019-7-19, 中国, CN201910655359.5.

[8]       周洪; 陈诚; 易凌松; 邓其军; 胡文山, 基于温度场的能耗测试与分析方法,2018-12-14 至2036-9-18, 中国, ZL201610827851.2.

[9]       周洪; 陈诚; 罗新; 邓其军; 胡文山; 高星冉, 一种适用于高压输电线路铁塔的无线电能传输系统安装装置, 2019-10-25 至2038-4-28, 中国, ZL201810397709.8.

[10]    周洪; 陈诚; 蒋燕; 范惠子; 高星冉; 邓其军; 胡文山, 应用于高压线路监测的无线供电装置电磁安全性分析方法, 2018-2-2, 中国, CN201810108015.8.

[11]    周洪; 李佳; 李刚; 陈晶; 邓其军; 胡文山, 电容调谐电路, 2018-01-16 至2026-12-14, 中国, ZL201621374077.6.

[12]    胡文山; 周洪; 张兴豪; 邓其军; 李刚; 李佳, 一种电能传输系统, 2017-04-06, 中国, CN201710221407.0.

[13]    邓其军; 周洪; 陈晶; 胡文山; 李刚; 李佳, 一种电动汽车位置检测装置、方法, 2017-04-06, 中国, CN201710221408.5.

[14]    邓其军; 周洪; 陈晶; 胡文山; 李刚; 李佳, 一种动态无线传电通道、道路、系统, 2017-04-06, 中国, CN201710221410.2.

[15]    胡文山; 周洪; 张兴豪; 邓其军; 李刚; 李佳, 一种台灯装置, 2017-02-08至2037-03-27, 中国, CN201710189047.0.

[16]    周洪; 李佳; 李刚; 张兴豪; 邓其军; 胡文山, 电网输电线路检测系统,2017-12-12 至2026-12-14, 中国, ZL201621374383.X.

[17]    邓其军,陈诚,刘姜涛,周洪,胡文山, 一种基于相控逆变器实现功率调节的        电动汽车无线充电系统及方法,  中国, CN201510359749.X。

[18]    周洪,胡文山,邓其军,蒋燕,高星冉,一种高压强电环境下的无线供电装置,中国,CN201520658826.7。

[19]    高立克,胡文山,谢雄威,周洪,周柯,邓其军,吴智丁,罗胜琪,祝文姬,刘常坤,李克文,蒋燕,俞小勇,吴丽芳,李珊,吴剑豪,一种基于无线能量传输的固有频率调节装置,2014.11.5-2024.6.19,CN201420328673.5。

[20]    周柯,邓其军,谢雄威,胡文山,高立克,周洪,吴智丁,蒋燕,祝文姬,刘常坤,李克文,罗胜琪,俞小勇,吴丽芳,李珊,吴剑豪,一种无线能量传输系统的电磁辐射安全预警系统,2013.9.11-2023.4.27, CN201320223793.4。

[21]    吴智丁,邓其军,谢雄威,胡文山,高立克,周洪,周柯,刘常坤,祝文姬,蒋燕,李克文,罗胜琪,俞小勇,吴丽芳,李珊,一种用于无线能量传输的高频功率驱动系统,2013.10.2-2023.4.25,CN201320215196.7。

[22]    谢雄威,周洪,高立克,邓其军,周柯,胡文山,吴智丁,罗胜琪,祝文姬,蒋燕,李克文,刘常坤,俞小勇,吴丽芳,李珊,吴剑豪,一种无线能量传输系统的接收端设备,2013.10.2-2023.4.25,CN201320215184.4。

[23]    祝文姬,周洪,谢雄威,邓其军,高立克,胡文山,周柯,刘常坤,吴智丁,蒋燕,李克文,罗胜琪,俞小勇,吴丽芳,李珊,吴剑豪,一种小尺寸无线能量传输系统,2013.9.11-2023.4.25,广西,CN201320215874.X。

[24]    刘姜涛,邓其军,应黎明,一种变步长调整的变压器噪声有源控制方法,2013.7.17-2033.3.12,湖北,CN201310078114.3。

[25]    谢雄威,胡文山,高立克,周洪,周柯,邓其军,吴智丁,刘常坤,祝文姬,李克文,俞小勇,吴丽芳,李珊,吴剑豪,一种无线能量传输系统,2013.8.21-2023.1.31,广西,CN201320054448.2。

[26]    谢雄威,邓其军,高立克,周洪,周柯,胡文山,吴智丁,蒋燕,祝文姬,李克文,俞小勇,吴丽芳,李珊,吴剑豪,基于共振耦合的无线能量传输中线圈匝数选择方法,2013.6.5-2033.1.31,CN201310038342.8。

[27]    谢雄威,周洪,高立克,胡文山,周柯,邓其军,吴智丁,江朝强,祝文姬,李克文,俞小勇,吴丽芳,李珊,吴剑豪,信号波形对谐振感应无线能量传输效率影响的验证方法,2013.5.15-2033.1.31, CN201310037584.5。