期刊论文:

[1]      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, accepted (DOI: 10.1109/TPEL.2021.3052232)

[2]      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

[3]      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

[4]      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

[5]      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.

[6]      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.

[7]      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.

[8]      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

[9]      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

[10]   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

[11]   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)

[12]   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)

[13]   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)

[14]   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)

[15]      Liu, Jiangtao(#); Deng, Qijun(*); Wang, Wenbin; Li, Zhifan(*), Modeling and Control of Inverter Zero-Voltage-Switching for Inductive Power Transfer System, IEEE Access, 2019 , 7139885~139894,

[16]      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,

[17]   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, (early access, IF=3.5)

[18]   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)

[19]   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)

[20]   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)

[21]   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)

[22]   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)

[23]   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)

[24]   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)

[25]   邓其军,刘姜涛,陈诚,. 应用于无线电能传输 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

[26]   邓其军,刘姜涛,周洪,. 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

[27]   邓其军,刘姜涛, ,. 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,20173218):52~61

[28]   邓其军,刘姜涛, 诚,周洪,. 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)

[29]   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.

[30]   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,

[31]   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

[32]   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

[33]   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

[34]   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

[35]   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

[36]   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.


专利:

[1]       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.

[2]       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.

[3]       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 2028-1-24, 中国, ZL201820130114.1.

[4]       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 2028-1-24, 中国, ZL201820130112.2.

[5]       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.

[6]       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 2036-9-18, 中国, ZL201610827851.2.

[7]       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 2038-4-28, 中国, ZL201810397709.8.

[8]       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.

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

[10]    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.

[11]    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.

[12]    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.

[13]    胡文山; 周洪; 张兴豪; 邓其军; 李刚; 李佳, 一种台灯装置, 2017-02-082037-03-27, 中国, CN201710189047.0.

[14]    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 2026-12-14, 中国, ZL201621374383.X.

[15]    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。

[16]    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。

[17]    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。

[18]    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。

[19]    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。

[20]    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。

[21]    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。

[22]    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。

[23]    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。

[24]    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。

[25]    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。