顾昌展特别研究员
地址：上海市东川路800号人工智能研究院5-516
电话：86-
邮箱：changzhan@sjtu.edu.cn
研究中心：微波与射频技术研究中心
个人主页：http://changzhan.sjtu.edu.cn

个人简介
顾昌展，上海交通大学特别研究员/长聘教轨副教授，博士生导师，IEEE高级会员。分别于2006年和2008年在浙江大学信息与电子工程系获得学士和硕士学位，2010年获得美国佛罗里达大学电子工程硕士学位，2013年获得美国德克萨斯理工大学电子工程博士学位。2015-2019就职于Google美国硅谷总部，参与Google ATAP（Advanced Technology and Projects）实验室探索下一代自然交互的Project Soli，以及Pixel手机等硬件产品的研发。在加入谷歌前，曾就职于芯片公司Marvell硅谷总部，从事WLAN/BT无线芯片的研发。??

顾博士现任IEEE Transactions on Biomedical Circuits and Systems (TBioCAS)、IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology(J-ERM)，以及IET Microwave, Antenna & Propagation (MAP)等3本国际期刊Associate Editor。2014-2016担任国际期刊International Journal of Electronics and Communications编委。他是IEEE微波理论与技术学会(MTT-S)生物效应和医学应用技术专委会成员。2018起担任微波领域国际顶级会议IEEE International Microwave Symposium (IMS) TPRC member。2016-2018担任Google Faculty Research Awards评审。担任IMS/RWW/IMBioC/APMC/ICMIM等多个IEEE会议的Steering Committee/TPC/Session Chair/Co-Chair等职务。长期担任IEEE T-MTT, T-AP, T-BME, JSSC, MWCL等20多个国际期刊和会议审稿人。出版1本英文专著，3个著作章节，发表60余篇期刊/会议论文，申请12项美国专利（已授权6项），Google Scholar引用1300多次，21 h-index。
研究领域

研究方向
射频/微波/毫米波电路与系统，近距雷达无线感知，无线感知技术及其在人机交互、AR/VR、物联网、生物医学等方面的应用。
获奖情况

1.???? IEEE Sensors Council Early Career Technical Achievement Award，2019。
2.???? 日本大川情报通信基金研究助成奖，2019。

3.???? 上海市“浦江人才计划”，2019。
4.???? 4次获得Google Spot Bonus，2016-2018。
5.???? 7次获得IEEE国际会议最佳/优秀论文奖，2011-2014。

6.???? IEEE Microwave Theory and Techniques Society (MTT-S) Graduate Fellowship, 2013。
7.???? Texas Tech Horn Professors Graduate Achievement Award, 2013。
8.???? 国家优秀自费留学生奖学金，2012。
9.???? University of Florida?Alumni Graduate Fellowship, 2008-2010。

授课
1.? ? ?射频电路设计，本科，2020春
1.?????空时无线信道导论，本科，2019秋
2.? ? ?微波与高速集成电路分析与设计，研究生，2019秋

学术兼职
1.?Associate Editor，IEEE Transactions on Biomedical Circuits and Systems (TBioCAS)，2019.01~present
2.?Associate Editor，IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology (J-ERM)，2019.06~present
3.?Associate Editor，IET Microwave, Antenna & Propagation (MAP), 2018.09~present
4. Senior Member, IEEE, IEEE MTT-S/AP-S/EMB-S
著作及专利
1. C. Gu and J. Lien, “Short-Range Micro-Motion Sensing with Radar Technology,” ISBN：07, Institution of Engineering and Technology (IET), 2019（著作）。
2. Concurrent Detection of Absolute Distance and Relative Movement for Sensing Action Gestures, Patent# US**（美国发明专利）.
3.System,method and apparatus for tracking targets during treatment using a Radar motionsensor, Patent#US** （美国发明专利）.
4.Non-invasivebeam steering, Patent# US**（美国发明专利）.
5.OpticalBridge Between Exterior And Interior Networks, Patent# US**（美国发明专利）.
6.Enhanced Digital Headsets,? Patent# US**（美国发明专利）.
7.Interferometric doppler radar and method forwave and water level measurement, Patent# US**（美国发明专利）.

重要论文
1. C. Gu, T. Y. Huang, C. Li and J. Lin, Chapter “Microwave and Millimeter-wave Radars for Vital Sign Monitoring” for Book “Radar for In-Door Monitoring: Detection, Localization, and Assessment,” ISBN: 85, CRC Press, 2017（著作章节）。
2.C. Gu, Y. He, J. Zhu, “Noncontact Vital Sensing With a Miniaturized 2.4 GHz Circularly Polarized Doppler Radar,” IEEE Sensors Letters, Vol. 3 , No. 7 , July 2019.
3.C. Gu, J. Wang, J. Lien, “Motion Sensing Using Radar: Gesture Interaction and Beyond,” IEEE Microwave Magazine, Vol. 20, No. 8, August 2019.
4. C. Gu, and J. Lien, “A Two-Tone Radar Sensor for Concurrent Detection of Absolute Distance and Relative Movement for Gesture Sensing,” IEEE Sensors Letters, Vol. 1, No. 3, June 2017.
5. C. Gu, Z. Peng and C. Li, “High-Precision Motion Detection Using Low-Complexity Doppler Radar with Digital Post-Distortion Technique,” IEEE Transactions on Microwave Theory and Techniques, vol. 64, no. 3, pp. 961-971, March 2016.
6. J.-M. Mun?oz-Ferreras, R. Go?mez-Garci?a, G. Wang, C. Gu, and C. Li, “Isolate the Clutter: Pure and Hybrid Linear-Frequency-Modulated Continuous-Wave (LFMCW) Radars for Indoor Applications,” IEEE Microwave Magazine, vol. 16, no. 4, pp. 40-54, May 2015.
7. S. Guan, J. Rice, C. Li, andC. Gu, “Advanced DC Offset Calibration Strategy for Structural Health Monitoring Based on Portable CW Radar Sensor,” IEEE Transactions on Instrumentation and Measurement, vol. 63, no. 12, pp. 3111-3118, December 2014.
8. C. Gu, W. Xu, G. Wang, T. Inoue, J. Rice, L. Ran, and C. Li, “Noncontact Large-Scale Displacement Tracking: Doppler Radar for Water Level Gauging,” IEEE Microwave and Wireless Components Letters, vol. 24, no. 12, pp. 899-901, November 2014.
9. G. Wang, C. Gu, T. Inoue, and C. Li, “A Hybrid FMCW-Interferometry Radar for Indoor Precise Positioning and Versatile Life Activity Monitoring,” IEEE Transactions on Microwave Theory and Techniques, vol. 62, no. 11, pp. 2812-2822, November 2014.
10. Y. Yang, C. Gu, Y.Li, R. Gale, and C. Li, “Doppler Radar Motion Sensor with CMOS Digital DC-Tuning VGA and Inverter-Based Sigma-Delta Modulator,” IEEE Transactions on Instrumentation and Measurement, vol. 63, no. 11, pp. 2666-2674, November 2014.
11. C. Gu, and C. Li, “From Tumor Targeting to Speech Monitoring: Accurate Respiratory Monitoring Using Medical Continuous-Wave Radar Sensors,” IEEE Microwave Magazine, vol. 15, no. 4, pp. 66-76, June 2014.
12. C. Gu, G. Wang, T. Inoue, and C. Li, “A Hybrid Radar Sensing System with Phase Compensation for Random Body Movement Cancellation in Doppler Vital Sign Detection,” IEEE Transactions on Microwave Theory and Techniques, vol. 61, no. 12, pp. 4678-4688, December 2013.
13. C. Gu, T. Inoue and C. Li, “Analysis and Experiment on the Modulation Sensitivity of Doppler Radar Vibration Measurement,” IEEE Microwave and Wireless Components Letters, Vol. 23, No. 10, pp.566- 568, October 2013.
14. C. Gu and C. Li, “Frequency-Selective Distortion in Continuous-Wave Radar Displacement Sensor,” Electronics Letters, Vol. 48, No. 23, pp.1495-1497, November 2012.
15. C. Gu, R. Li, R. Fung, C. Torres, S. Jiang, and C. Li, “Accurate Respiration Measurement using DC- Coupled Continuous-Wave Radar Sensor for Motion-adaptive Cancer Radiotherapy,” IEEE Transactions on Biomedical Engineering, Vol.59, No.11, pp.3117-3123, Nov. 2012.
16. C. Gu, C. Li, J. Long, J. Lin, and L. Ran, “Instrument-Based Non-Contact Doppler Radar Vital Sign Detection System Using Heterodyne Digital Quadrature Demodulation Architecture,” IEEE Transactions on Instrumentation and Measurement, Vol.59, No.6, pp.1580-1588, June 2010.