彭宏利，上海交通大学电子工程系副教授、硕士生导师，国家部级重点实验室特聘研究员。IEEE高级会员，中国电子学会（CIE）高级会员。

彭宏利博士是CIE移动通信天线专业委员会委员，中国天线产业联盟特聘理事，NSF申请项目评审专家，上海市科委“高新技术企业认定”和“创新企业认定”评审专家。

彭宏利博士近年来多次担任/EDAPS/IMBioC/APMC/ICMIM等多个IEEE会议以及中国微波年会（NCMMW）的/TPC/Session Chair/Co-Chair等职务。长期担任IEEE T-MTT, T-AP, T-CPMT、T-COM、AWPL、MWCL、INT J NUMER MODEL EL，J ELECTROMAGNET WAVE，CCIS等20多个国际以及国内“微波学报”、“西安电子科技大学学报”、“上海交通大学学报”等期刊和会议审稿人。

1. 教育经历：

2019/06-09，美国university of illinois at urbana- champaign (UIUC)，高级访问学者

2017/09-2018/03，美国Tennessee Technological University（TTU），高级访问学者

2016/06-09，加拿大University of Montreal，高级访问学者

1999/09–2005/04，西安电子科技大学，电子工程学院，博士

1988/09–1991/03，西安电子科技大学，电子工程学院，硕士

1984/09–1988/07，西安电子科技大学，电子工程学院，本科

2. 研究工作经历：

2008/10–至今，上海交通大学，电信学院电子工程系；

1999/07–2008/09，中兴通讯，三级主任高工、新技术研究总监6年；

1994/03–1999/06，中国*工业部*研究所破格高级工程师、部级重点型号项目副总设计师兼任中国**遥测技术中心副主任；

1.微波/THz新型电路、天线及其阵列、无线信道；

2.电磁目标探测与成像系统

1.新型高性能天线理论与设计技术；

2.新一代无线通信信道的理论及特性建模；

3.新型微波/毫米波/THz电路的设计与计算方法；

4.近感探测系统、4D成像雷达的新理论与新技术。

在国内外发表论文80余篇，包括IEEE Transactions、IEE Proc.、Electronics Letters等国际著名期刊；

出版1本专著；

获50多项国内、国际发明专利授权（其中3项授权专利写入国际通信标准）。

2020年，获MMWCS2020优秀论文奖（本人为通信作者）

2018年，获日本情报通信大川基金会研究促成奖；

2017年，获中国探测与控制学会优秀论文奖（本人为独立作者）；

2014年，获华为公司优秀合作贡献奖；

2012年，获MMWCS2012优秀论文奖（本人为通信作者）；

2010年，获获国家科学技术学术著作出版基金奖；

1.   秋季本科课程，微波技术与天线（2009.01-至今）；

2.   秋季研究生课程，现代微波技术与天线测量（2008.09-至今）；

3.  秋季本科课程，空时信道导论（2017.09-2019.09）

主持国家纵向项目：

国家自然科学基金（NSF）面上项目1项（2018.01-2022.12）、

科技部国家重点研发项目子课题1项（2020.01-2014.12）；

国家部级预研及基金项目4个（2012.01-2020.12）；

国家03重大专项子课题4项（2012-2018）；

教育部国际合作子课题1项 (2013-2016)；

主持工业界横向项目12个；

1. 国际学术期刊特约审稿专家，包括

2013-至今，IEEE Trans on Microwave Theory and Techniques 、IEEE Trans on Antenna and Propagtion、International Journal of Numerical Modeling、 Electronic Networks, Devices and Fields、Journal of Electromagnetic Waves and Applications、Progress In Electromagnetics Research、Journal of Wireless Communications编委、IEEE Trans on Wireless communications、IEEE Wireless communications Letter

2. 国际学术会议

2020 ICMMT TCP member，and Antenna and channel section chair；

2017 中国天线年会TCP成员；

2017 IEEE EDAPS TCP member，and Antenna and channel section chair；

2015 IEEE MTT IMWS-Bio(IEEE MTT 2015 射频/无线技术在生物医学/健康保护领域应用国际会议) Technical Program Committee member 兼 Antenna Section Chair；

3. 国内学术机构和刊物

2012-至今，中国“****重点实验室”特聘研究员；

2011-至今，中国电子学会通信天线委员会委员；

2011-至今，中国天线系统产业联盟特聘理事；

2010-至今，“微波学报”特约审稿专家；

2009-至今，“西安电子科技大学学报”特约审稿专家；

2009-至今，“上海交通大学学报”特约审稿专家；

专著：典型室内环境中的MIMO若干关键技术

已申请发明专利49项，其中，已授权专利16项，有9项授权专利已写入国际第3代、第4代移动通信标准。

(1)Journal papers (since 2010)

Journal Papers published

[1] G. H Xu, H. L Peng, Z. J. Shao, L. Zhou , Y. P Zhang, and Wen-Yan Yin，“Dual-band differential microstrip grid array antenna with two parasitic patches,”IEEE Trans. on Antennas & Propag., vol. 68, no.14, pp. 2434-2439,Mar. 2020

[2] G. H. Xu, L.X. Yang, Z.X. Huang, H. L. Peng, and W. Y. Yin，“Liquid crystal-based beam switchable three element microstrip parasitic array”, IET Microwaves, Antennas & Propag.,vol. 14, no.14, pp. 1857 –1861,Nov. 2020.

[3] G. H. Xu, H. L. Peng, Y. P. Zhang, W. Y. Yin, and J. F. Mao, “Cavity model analysis of differential dual-polarized annular-ring patch antenna,” IET Microwave Antennas & Propag., vol. 13, no. 9, pp. 1389-1393, Jul. 2019.

[4] G. H. Xu, H. L. Peng, Z. J. Shao, L. Zhou, Y. P. Zhang, and W. Y. Yin, “Dual-band differential microstrip grid array antenna with two parasitic patches,” IEEE Transactions on Antennas Propagation, DOI:10.1109/TAP.2019.2943409

[5] J. Shu, G.H. Xu, H. L. Peng, and J. F. Mao, “An electrically steerable parasitic array radiator in package based on liquid crystal,” IEEE Antennas and Wireless Propagation Letters, 10.1109/ LAWP.2019.2933458.

[6] G.H Xu, H.L. Peng, C.L Sun, J.G Lu, Y.P Zhang, W.Y YIN,“Differential probe fed liquid crystal-based frequency tunable circular ring patch antenna,”IEEE ACCESS,2018, vol.6:3051-3058.

[7] L. Zhou, X. Chen, H. L Peng, W. Y. Yin, J. F. Mao“Experiments and comparisons of power to failure for SiGe-based low-noise amplifiers under high-power microwave pulses,” IEEE Transactions on Electromagnetic Compatibility，vol.16, pp.1-9, Nov. 2017.

[8] M. L Zhai, H. L. Peng, D. M. Li, D. W. Wang, H. Xie, W.Y.Yin, “Characterization of tunable graphene metasurfaces over an ultra wide terahertz band using a 1‐step leapfrog hybrid implicit‐explicit FDTD method,” International Journal of Numerical Modelling: Electronic Networks, Devices and Fields, April,2017.

[9] J.W. Dai, H.L. Peng, Y.P. Zhang, J.F. Mao，”A novel tunable microstrip patch antenna using liquid crystal,” Progress In Electromagnetics Research C,2017，VOL. 71: 101-109.

[10] H. L. Peng, Z. Tang, Y. P. Zhang, J. F. Mao, “cavity model analysis of a dual-probe-feed circular microstrip patch antenna,” IEEE Antennas Wireless Propag. Lett., vol. 15, pp.44-47, June

[11] S.W Ren, L. S. Wu, H.L. Peng, J. F Mao, “Synthesis of wideband elliptic bandstop filter with cross coupling,” IEEE Microwave and Wireless Compon. Lett., vol. 25, no.. 6, June 2015.

[12] S.W Ren, L.S. Wu, H.L. Peng, J.F Mao, “Quasi-elliptic wideband bandstop filter using stepped-impedance coupled line,” IEEE Microwave and Wireless Compon.,Lett., vol. 25, no. 6, pp.364-366, June 2015.

[13] M.L. Zhai, H.L. Peng, X.H. Wang, X. Wang, Z.Z Chen, W.Y. YIN, “The conformal HIE-FDTD method for simulating tunable graphene-based couplers for Terahertz (THz) applications,”IEEE Trans. Terahertz  Sci. Tech., vol. 5, no. 3, pp. 368-376, May 2015

[14] M.L. Zhai, H.L. Peng, Z.Z Chen, and W.Y. Yin, “The implementation of convolutional perfectly matched layer (CPML) for the one-step leapfrog HIE-FDTD method,”IEEE Antennas Wireless Propag. Lett., vol.14,  pp.1694-1697, Apr., 2015.

[15] H. L. Peng, W. Y. Yin, and J. F. Mao,“A novel compact dual-band antenna array with high isolations realized using the neutralization technique,”IEEE Trans. Antennas Propag,vol. 61, no.4, pp.1956-1962, Apr., 2013.

[16] H. L. Peng, W. Y. Yin, and J. F. Mao, “Development of tunable microstrip fractal bandpassfilters,” IEEE Trans. Compon. Packag. Manufact.Tech.,vol. 3, no. 3, pp. 391-400, Mar. 2013.

[17] Siwei Ren, Hongli Peng, Junfa Mao, and Anming Gao, "Compact quasi-elliptic wideband band-pass filter using cross-coupled multiple-mode resonator,"IEEE Microwave and Wireless Components Letters, vol.22, 397-399, 2012.

[18]L. S. Wu, X. L. Zhou, W. Y. Yin, C. T. Liu, L. Zhou, J. F. Mao, and H. L. Peng, “A new type of periodically loaded half-mode substrate integrated waveguide and its applications,” IEEE Trans. Microw. Theory Tech., vol. 58, no. 4, pp. 882–893, Apr. 2010.

[19] H. L. Peng,W. Y. Yin, and J. F. Mao, “A compact single/dual-polarized broadband antenna with SUM and Difference beam capabilities,” IEEE Antennas Wireless Propag. Lett., vol. 9, pp. 990–993, 2010.

[20] A.-M. Gao, Q. H. Xu, H.-L. Peng, W. Jiang, and Y. Jiang, “Performance evaluation of UWB ON-Body communicationunder WIMAX Off-body EMI existence,”Progress In Electromagnetics Research,vol.132, pp 479-498, 2012.

[21] Wenxin Zhang, Jian Wang, Rui Tao, Hongli Peng, Gan Guo, and Junfa Mao, “A simplified model of specific absorption rate calculation near proximity to human torso,”Journal of Electromagnetic Waves and Applications, vol.26, pp757-769, 2012.

[22]H.L. Peng,W.-Y. Yin, J.-F. Mao, D. Huo,and L. Zhou, “A compact dual-polarized broadband antenna with hybrid beamforming capabilities,” Progress In Electromagnetics Research, Vol. 118, pp.253-271, 2011.

Papers under review

[23] G．H. Xu, H.L Peng, Y.P Zhang, and W.Y. Yin,“Cavity model analysis of differential dual-polarized annular-ring patch antenna”, The Institution of Engineering and Technology.

[24] C.Y.XU, H.L Peng, D.Huo, and J.F.Mao, “A novel approach to filter synthesis with frequency-dependent couplings,” IEEE Trans. Microw. Theory Tech.,(Submitted 2018.01, under review).

[25] H. L. Peng, W. Y. Yin, and J. F. Mao, “A low profile wideband dual-polarized antenna realized using feeding technique of reflection neutralization,” IEEE Trans. Antennas Propag., (Submitted 2017.12, under review).

[26] H. L. Peng,W. Y. Yin, and J. F. Mao, “A low profile dual-polarized antenna with wideband and dual-mode radiation capabilities,” IEEE Trans. Antennas Propag., (Submitted 2018.01, underreview).

[27] H. L. Peng, Y. Ye, J. Li, A. Duzdar, J. F. Mao, “A ultra low-profile FM/DAB/DMB active antenna for automotive applications,” IEEE Trans. Antennas Propag, submitted, 2017.

Conference papers

[28] M. M. Li, H. L. Peng, Y. B. Li, C. Chen, Q. M. Wan, “A novel structure of bondwire and microstrip lines for chip-to-chip inter-connection up to 130GHz”, IEEE Electrical Design of Advanced Packaging & Systems Symposium, 2020.

[29] Y. B. Li, H. L. Peng, M. M. Li, W. H. Li, C. Chen “A miniaturized 35GHz FMCW radar with high frequency response for short range”, IEEE Electrical Design of Advanced Packaging & Systems Symposium, 2020.

[30] C. Chen, H. L. Peng, S. Y. Sun, M. M. Li, Y. B. Li, Q. M. Wan, “A new high performance miniaturization antenna for VHF/UHF/GPS maritime application”, IEEE Electrical Design of Advanced Packaging & Systems Symposium, 2020.

[31] M. M. Li, Z. X. Guan, H. L. Peng, Y. B. Li ,W. H. Li, J. F. Mao “Low profile high gain and compact planar antenna array for 60 GHz radars”, International Conference on Materials and Manufacturing Technologies (ICMMT2020).

[32] C. Chen, H. Gan, H. L. Peng, C. Peng, G. H. Xu, J. F. Mao “High performance V2X antennas designed in integrated shark-fin environment”, International Conference on Materials and Manufacturing Technologies (ICMMT2020).

[33] C. Xu, H. Gan, H. L. Peng, C. H. Jiang, Q. H. Xu, “Far-field modeling for non-planar array based on spherical wave expansion”, International Conference on Materials and Manufacturing Technologies (ICMMT2020).

[34] Y. B. Li, F. Su, H. L. Peng, M. M. Li, W. H. Li, “A miniaturized 60 GHz FMCW radar for short range and high precision detection”, International Conference on Materials and Manufacturing Technologies (ICMMT2020).

[35] F. F. Zhan, H. L. Peng, G. H. Xu, “A quick algorithm implementation method for ARM-FPGA Integrated SDR platform”, Cross Strait Quad-Regional Radio Science and Wireless Technology  Conference, 2019.

[36] G. Xu, H. L. Peng, Y. Zhang, W. Yin and J. F. Mao, “Liquid crystal-based polarization reconfigurable cross-slot fed patch antenna,” 2019 IEEE International Conference on Computational Electromagnetics (ICCEM), Shanghai, 2019.

[37] C. Peng, H. L. Peng, G. H. Xu, “An unequal mushroom-based negative first order resonance antenna with bandwidth enhancement and size reduction”, 2019 IEEE APEMC.

[38] D. D. Wang, D. Y. Chen, H. S. Luan, H. L. Peng, “A new method for transcranial vortex microwave beam imaging,” International Conference on Microwave and Millimeter Wave Technology 2018, Chendu, China.

[39] G. H. Xu, H. S. Luan, H. L. Peng, Y. P. Zhang, W. Y. Yin, “A microstrip grid array antenna for dual band applications,” IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Conference,2018.

[40] X. S. Rong, Q. M. Wan, H. L. Peng, Y. P. Zhang, J. F. Mao, “A graphene loaded THz patch antenna with tunable frequency”, Proceedings of 2018 IEEE World Symposium on Communication Engineering (WSCE).

[41] G. H. Xu, H. S. Luan, H. L. Peng, Y. P. Zhang and W. Y. Yin, “A dual polarized pattern reconfigurable antenna array using liquid crystal phase shifter”, 2018 International Symposium on Antennas and Propagation (ISAP).

[42] B. B. Xu, H. L. Peng, Y. P. Zhang and J. F. Mao ,  “A graphene THz ultra wideband planar rectangular monopole antenna with band-notched characteristics at 0.122 THz”, 2018 International Conference on Microwave and Millimeter Wave Technology, ICMMT 2018 – Proceedings.

[43] W. Wu, H. L. Peng, J. F. Mao, “A new compact dual-polarized co-axial full-band antenna for 2G/3G/LTE base station applications,” IEEE Electrical Design of Advanced Packaging & Systems Symposium, 2017.

[44] G. J. Li, H. S. Luan, H. L. Peng, “A new hilbert structure based meta-surface for improving isolation between two antenna elements,” IEEE Electrical Design of Advanced Packaging & Systems Symposium, 2017.

[45] C. Li, D. D. Wang, H. L. Peng, “Intracranial focusing and strong scattering effects of transcranial vortex microwave beam,” IEEE Electrical Design of Advanced Packaging & Systems Symposium, 2017.

[46] D. D. Wang, H. L. Peng, B. X. Gu, “The strong scattering effect of transcranial vortex microwave beam and its application in intracranial hemorrhage high quality imaging,” IEEE Electrical Design of Advanced Packaging & Systems Symposium, 2017.

[47] Z. Tang, H. L. Peng, B. Q. Zong, Z. Yu, “A novel antenna array for stroke enhanced detection application,” in Asia-Pacific Microwave Conference, APMC, Nanjing, China,2015.

[48] H. L. Peng, Z. Tang, B. Q. Zong, Z. Yu, “2GHz near-field in-head path-loss model for stroke detection,” IEEE International Conference on Computational Electromagnetics(ICCEM 2015).

[49] D. Huang, H. L. Peng, X. Li, Y. zhong, and J. F. Mao, “A near-field spherical layered human head modelfor stroke detections,” in Asia-Pacific Microwave Conference, APMC, Nanjing, China, 2015.

[50] M. L. Zhai, H. L. Peng, J. F. Mao, and W. Y. Yin, “Modeling tunable graphene-based filters using leapfrog ADI-FDTD method,” 2015 IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications(IMWS-AMP 2015).

[51] M. L. Zhai, H. L. Peng, Z. Z. Chen, and W. Y. Yin, “HIE-FDTD method for simulating tunable terahertz graphene absorber,” 2015 IEEE AP-S Symposium on Antennas and Propagation

[52] J. Li, H. L. Peng, B. Q. Zong, Z. Yu, “A dual-polarized impulse radiation antenna for cerebral hemorrhage detection,” IEEE International Microwave Workshop on RF and Wireless Technologies for Biomedical and Healthcare Applications (IMWS-Bio 2014), London, UK, Dec.8-10, 2014.

[53] G. H. Shen, H. L. Peng, X. C. Hong, B. Q. Zong, Y. zhong, J. F. Mao, “An novel integrated antenna switch for DCS/UMTSapplication,” in Asia-Pacific Microwave Conference, APMC, Sendai, Japan, 2014.

[54] H. L. Peng, and J. F. Mao, “Time-frequency domain properties on a compact multi-port IR-UWB antenna,” IEEE International Microwave Symposium, IMS 2014.

[55] Q. H. Xu, A. M. Gao, H. L. Peng, J. Zu, “Path-loss modelingforOn-body UWB and Off-body WiMax combined-channel,” IEEE International Microwave Workshop on RF and Wireless Technologies for Biomedical and Healthcare Applications (IMWS-Bio 2013), Singapore, Dec.9-11, 2013.

[56] H. L. Peng, B. Q. Zong, “A compact dual-polarized dual-wide band patch antenna with multi-functional capabilities,” IEEE International Microwave Symposium(IMS, 2012), June 17-22, 2012, Montreal Canada.

[57] Z. Zhu, H. L. Peng, Z. Yu, G. Guo, and B. Zong, "A hybrid FEM-UTD method for the radiation pattern prediction of antennas on an electrically large platform," IEEE International Conference on Cloud Computing and Intelligence Systems (CCIS2012), Hangzhou, China, October 2012.

[58] A. Gao, H. L. Peng, J. Zou, and Z. Cao, "Performance of WBAN UWB system based on the measured on-body channel model," IEEE International Conference on Cloud Computing and Intelligence Systems (CCIS2012), Hangzhou, China, October 2012.

[59] A. Gao, H. L. Peng, and J. Zou, "Investigation of dual-mode and dual-link UE system performance under its local interference existence," IEEE International Conference on Cloud Computing and Intelligence Systems (CCIS2012), Hangzhou, China, October 2012.

[60] A. Gao, H. L. Peng, J. f. Mao, and R. Li, "Investigation on UWB transmission performance under WiMax EMI existence," IEEE International Conference on Microwave and Millimeter Wave Circuits and System Technology (MMWCST2012), Chengdu, China, April 2012.

[61] Y. Jiang, A. Gao, H. L. Peng, R. Li and J. f. Mao, "Predicting dual-mode and dual-link UE BER performance based on its local realistic MIMO antenna," IEEE International Conference on Microwave and Millimeter Wave Circuits and System Technology(MMWCST2012), Chengdu, China, April 2012 (Best Paper Award) .

[62] L. Zhang, L. Zhou, W. Jiang, W. Y. Yin, J. f. Mao, and H. L. Peng, "A multilayer dual-band coupler based on composite right/left-handed folded substrate integrated waveguide," IEEE International Conference on Microwave and Millimeter Wave Technology, (ICMMT), Shenzhen, China, September 2012.

[63] R. Tao, H. L. Peng, W. X. Zhang, and J. F. Mao, “A simplified human calculation model for SAR simulations,” in IEEE Electrical Design of Advanced Packaging & Systems (EDAPS), Hangzhou，2011.

[64] H. L. Peng, G. Guo, J. L. Zou, J. f. Mao, “Evaluation of dual-mode UE MIMO antenna system performance under UE local interference existence,” in Asia-Pacific Microwave Conference, APMC, Melbourne,Australia, 2011.

[65] H. L. Peng, J. F. Mao, and W. Y. Yin, “Effect of mutual coupling between UE transmitted antennas on WCDMA STOB MIMO system performance,” in Asia-Pacific Microwave Conference, 2010.

[66] X. C. Hong, H. L. Peng, and J. F. Mao, “An antenna switch module for GSM application using LTCC technology,” in International Conference on Microwave and Millimeter Wave Technology (ICMMT), Chengdu, May 2010, pp. 1457–1460.

[67] H. L. Peng, J. F. Mao, and W. Y. Yin, “A miniaturized broadband four-port antenna for directional finding,” in International Symposium on Signals, Systems and Electronics, 2010.