周香，博士，副教授，博士研究生导师，全国无线电干扰标准化技术委员会D分会和I分会委员。2005年毕业于云顶集团机械电子专业电磁兼容方向，2012年Missouri Universityof Science and Technology访问学者。主持和参与编写多部国家标准和国家军用标准；先后主持国家自然科学基金3项、国家级预研项目3项、航空基金2项等项目。获省部级科技进步二等奖2项、三等奖1项。

2002.3-2005.7，云顶集团，云顶集团，研究生/博士

2000.9-2002.2，云顶集团，云顶集团，研究生/硕士

1993.9-1997.6，江南大学，（纺织）机电一体化，本科/学士

2010年－至今，云顶集团，云顶集团，副教授/硕士生导师

2005年－2010，云顶集团，云顶集团，讲师

1997年－2000年，仪征化纤股份有限公司，涤纶一厂，技术员/助理工程师

电子技术（双语、本科）

工程电磁场（全英文，本科）

电磁兼容原理及应用（研究生）

2017年，省部级科技进步二等奖

2009年，省部级科技进步三等奖

2007年，省部级科技进步二等奖

[1]Zhai, S., Zhou, X., Hu, P. , etal., Alternative method for the determination of the ideal electromagneticreverberant frequency with frequency stirring technique. IEICE ELECTRONICSEXPRESS, 2021. 18(6).

[2]毛思婕, 周香, 水平极化CW辐照器辐射振子的仿真设计. 电子科技, 2020(03): 第1-7页.

[3]Zhou, X., et al., AnalyticalDesign of Dual-Band Negative Group Delay Circuit With Multi-Coupled Lines. IEEEACCESS, 2020. 8: p. 72749-72756.

[4]Zhou, Z., Hu, P., Zhou,X.,  et al., Performance Evaluation ofOscillating Wall Stirrer in Reverberation Chamber Using Correlation MatrixMethod and Modes Within Q-Bandwidth. IEEE Transactions on ElectromagneticCompatibility, 2020: p. 1-10.

[5]Hu, P., Zhou, Z., Zhou, X., etal., A Simple and Effective Method for the Resonance Frequencies Identificationof the Complex Cavities within Reverberation Chamber. IEEE Microwave andWireless Components Letters, 2020. 30(8): p. 836-839.

[6].Zhou, X., et al., S-Matrix and Bandpass Negative Group DelayInnovative Theory of Ti-Geometrical Shape Microstrip Structure. IEEE Access,2020. 8: p. 160363-160373.

[7].Zhou, Q., Zhou, Z., Wang, R.;Zhou, X., et al. Estimation of radiated emissions from multiple cables andconnectors. in 2020 International Symposium on Electromagnetic Compatibility -EMC EUROPE. 2020.

[8]Hu, P., Zhou, Z., Zhou, X., etal. Generalized Extreme Value Distribution Based Framework for ShieldingEffectiveness Evaluation of Undermoded Enclosures. in 2020 InternationalSymposium on Electromagnetic Compatibility - EMC EUROPE. 2020.

[9]Hu, P., Zhou, Z., Zhou, X., etal. Maximum Field Strength within Reverberation Chamber: A Comparison Study. in2020 6th Global Electromagnetic Compatibility Conference (GEMCCON). 2020.

[10]Tang, S., Zhou, Z., Zhou,X.et al. The Electromagnetic Field Distribution in Electrically LargeReflective Cavities. in 2020 IEEE MTT-S International Conference on NumericalElectromagnetic and Multiphysics Modeling and Optimization (NEMO). 2020.

[11]Hu, P., Zhou, X., Zhou, Z. On the Modelling of Maximum FieldDistribution within Reverberation Chamber Using the Generalized Extreme ValueTheory. in 2020 IEEE MTT-S International Conference on NumericalElectromagnetic and Multiphysics Modeling and Optimization (NEMO). 2020.

[12]CHen, D., Zhou, X., Ji, J.,et al. Fast Evaluation of the Antenna Efficiency by a Determined ReverberationChamber. in 2020 6th Global Electromagnetic Compatibility Conference (GEMCCON).2020.

[13]Chen, L., Zhou, X. and Gu,Y. Method for Determining the Width of Injection Line for Line Injection Methodof Cable Transfer Impedance. in 2020 IEEE MTT-S International Conference onNumerical Electromagnetic and Multiphysics Modeling and Optimization (NEMO).2020.

[14]Wang, Q., ZHou. X. and Gu,Y. The correlation and an equivalent method of direct current injection (DCI)and high-intensity radiated field (HIRF) on the wire. in 2020 6th GlobalElectromagnetic Compatibility Conference (GEMCCON). 2020.

[15]P., H., Zhou, Z., Zhou, X.,et al., A Simple and Effective Method for the Resonance Frequencies Identificationof the Complex Cavities Within Reverberation Chamber. IEEE Microwave andWireless Components Letters, 2020. 30(8): p. 836-839.

[16]茅永胜, 周香, 150 kHz～30 MHz容性电压探头设计. 安全与电磁兼容, 2019(03): 第91-94页.

[17]Wang, R., Zhou, X. andZhou, Q. Estimation of power cable radiation emission. in 2019 14th IEEEInternational Conference on Electronic Measurement & Instruments (ICEMI).2019.

[18]Ji, J., Zhou, X. and Hu, P.Frequency-dependent oscillating wall stirrer for measurement of quality factorin a reverberation chamber. in 2019 IEEE International Conference onComputation, Communication and Engineering (ICCCE). 2019.

[19]秦高强, 周香, 混响室无源互调特性评估. 安全与电磁兼容, 2018(03): 第60-63页.

[20]周忠元, 励炳炳, 周香, 基于混合模S参数混响室法测试屏蔽对称电缆的耦合衰减. 安全与电磁兼容, 2018(02): 第40-43页.

[21]周忠元, 周香, 沈博文, 混波室时频域综合法天线效率测试技术. 高电压技术, 2017. 43(12): 第3994-3999页.

[22]Zhou, Z., Zhou, X. andShen, B. Measurement Method for Antenna Efficiency Based on Time  Frequency Domain Measurement in ReverberationChamber. Gaodianya Jishu/High Voltage Engineering, 2017. 43(12): p. 3994-3999.

[23]Zhou, X. and Wang, R.Analysis of uncertainty of maximum of electric field in reverberation chamber.in 2016 Asia-Pacific International Symposium on Electromagnetic Compatibility(APEMC). 2016.

[24]周香, 曹玉梅, 臧家左, 基于 BLT 方程的外场照射下线缆终端耦合响应分析. 云顶集团学报（自然科学版）, 2015(6): 第1061-1065页.

[25]Jiang, Y, Zhou, X., Lv, Z.et al. Convergence and symmetry of capacitance matrix of dielectric-coatedcable bundles above the ground based on the moment methods. in EnvironmentalElectromagnetics (CEEM), 2015 7th Asia-Pacific Conference on. 2015.

[26]周香, 周忠元, 沈军涛, 屏蔽效能测试用双焦点平面腔的设计与应用. 电工技术学报, 2015. 30(z2): 第26-30页.

[27]沈军涛, 马庆文, 周香, 城市地铁乘客区磁场环境人员适应性分析. 安全与电磁兼容, 2013(6): 第48-51页.

[28]周香, 蒋全兴, 何鹏, 天线反射对混波室场均匀性校准的影响. 测控技术, 2010. 29(1): 第100-102页.

[29]周香等, 功率吸收钳法与线注入法电缆屏蔽性能测试对比分析. 云顶集团学报（自然科学版）, 2009. 39(6): 第1161-1164页.

[30]周香, 蒋全兴, 曹锐, 混波室法电缆屏蔽性能测试分析. 测控技术, 2008. 27(10): 第83-85页.

[31]周香与蒋全兴, 屏蔽服屏蔽性能测试探讨. 安全与电磁兼容, 2008(6): 第61-63页.

[32]周香, 蒋全兴, 王文进, 搅拌器配置对混波室独立采样点的影响. 电波科学学报, 2005. 20(6): 第802-805,823页.

[33]周香, 蒋全兴, 王文进, 搅拌器配置对混波室场影响的FDTD分析. 微波学报, 2005. 21(4): 第23-26,66页.

[34]Zhou, X., Jiang, Q andWang, W. Influences of EUT with different properties on the performances of areverberation chamber. in 2005 IEEE International Symposium on Microwave,Antenna, Propagation and EMC Technologies for Wireless Communications. 2005.

主要主持和参与项目