微波成像/电磁反演、智能感知、超宽带技术

一、个人简介🃏：
王建平🥓，男，博士🤦🏿‍♀️，准聘教授，博士生导师。出生于1987年5月🤬🤢。
主要从事微波成像/电磁反演👩‍👧‍👧、智能感知、超宽带技术等方面研究工作。入选国家级高层次青年人才计划🛐。曾作为主要科研人员参与欧盟第七框架研究计划、荷兰科学研究组织以及荷兰恩智浦公司资助的多项科研项目🙇🏽‍♂️。在IEEE TGRS、IEEE TSP、IEEE TAP、IEEE TMTT 和 RADAR、EuRAD等领域顶级期刊和旗舰会议发表论文30余篇，其中顶级期刊论文15篇🤺；已发表图书章节1篇（Polarimetric Radar Signal Processing, IET Press）。获2017年IWAGPR最佳学生论文奖提名🚣，2018年国际雷达会议（RADAR）最佳学生论文奖。所指导的2名硕士生获代尔夫特理工大学荣誉学位。担任《Remote Sensing》客座编辑🧜🏼，担任2018年和2023年IET国际雷达会议程序委员会委员和分会主席，并在2017年和2020年欧洲雷达会议做特邀专题报告。此外🧝🏽‍♀️👰🏿‍♂️，担任微波成像与感知、信号处理等领域多个旗舰期刊和会议的审稿人🔬。

二🤾🏻‍♂️、教育背景
2018.04🕵️‍♀️，获博士学位，微波成像与感知，荷兰代尔夫特理工大学
2012.03💇‍♂️🕕，获硕士学位🛖，信息与通信工程，北京尊龙凯时AG娱乐平台招商官方网站
2009.07🟦，获学士学位🥞，电子信息工程，北方工业大学

三、职业经历
2024.04至今，准聘教授💎，北京尊龙凯时AG娱乐平台招商官方网站信息与电子学院
2018.04 -2024.02，博士后🍷、高级研究员，代尔夫特理工大学电子工程、数学与计算机科学学院

四、研究概况🪑🤵🏿：
长期从事高分辨微波成像/电磁反演🏃‍♀️、雷达智能信号处理🙅🏿‍♂️、超宽带技术方向的研究工作。在高分辨微波成像/电磁反演方面，涉及合成孔径雷达、多输入多输出阵列成像算法及其在对地观测、探地🧗🏻‍♀️🫶🏿、安检、无人驾驶等领域的应用；雷达智能信号处理方面↩️，涉及超分辨估计、干扰抑制以及信息优化采集等；在超宽带技术方面🎳，涉及超宽带阵列设计🔰、多频融合高分辨等研究👩‍👩‍👦。

五、职业活动
（1） Remote Sensing期刊 “Radar Remote Sensing for Applications in Intelligent Transportation”专刊客座编辑（2022）
（2） IEEE Member
（3） 国际会议服务工作
l Technical Program Committee Member, IET International Radar Conference (IRC), Nanjing, China, October 2018
l Technical Program Committee Member和Session Chair, IET International Radar Conference (IRC), Chongqing, China, November 2020

(1) 图书章节
[1] J. Wang and A. Yarovoy. UWB short-range polarimetric imaging and its potential for target classification. In A. Aubry, A. Maio, and A. Farina, editors, Polarimetric Radar Signal Processing, pages 219–249. Institution of Engineering and Technology, 2022.

(2)期刊论文
[1] J. Wang, R. Li, X. Zhang, and Y. He. Interference mitigation for automotive FMCW radar based on contrastive learning with dilated convolution. IEEE Transactions on Intelligent Transportation Systems, pages 1–14, 2023.
[2] X. Dong, Z. Zhao, Y. Wang, J. Wang, and C.Hu. Motion-guided global-local aggregation transformer network for precipitation nowcasting. IEEE Transactions on Geoscience and Remote Sensing, 60:1–16, 2022.
[3] J. Wang, R. Li, Y. He, and Y. Yang. Prior-guided deep interference mitigation for fmcw radars. IEEE Transactions on Geoscience and Remote Sensing, 60:1–16, 2022.
[4] T. Zeng, M. Liu, Y. Wang, Z. Ding, L. Li, Z. Wang, Y. Wei, and J. Wang. Tomographic SAR imaging with large elevation aperture: a P-band small UAV demonstration. Science China Information Sciences, 65(3):132303, Feb 2022.
[5] J. Wang, M. Ding, and A. Yarovoy. Interference mitigation for FMCW radar with sparse and low-rank Hankel matrix decomposition. IEEE Transactions on Signal Processing, 70:822–834, 2022.
[6] X. Dong, Z. Zhao, Y. Wang, T. Zeng, J. Wang, and Y. Sui. FMCW radar-based hand gesture recognition using spatiotemporal deformable and context-aware convolutional 5D feature representation. IEEE Transactions on Geoscience and Remote Sensing, 60:1-11, 2022.
[7] J. Wang. CFAR-based interference mitigation for FMCW automotive radar systems. IEEE Transactions on Intelligent Transportation Systems, 23(8):12229–12238, 2022.
[8] J. Wang, M. Ding, and A. Yarovoy. Matrix-pencil approach-based interference mitigation for FMCW radar systems. IEEE Transactions on Microwave Theory and Techniques,69(11):5099–5115, 2021.
[9] Y. He, X. Li, R. Li, J. Wang, and X. Jing. A deep-learning method for radar micro-doppler spectrogram restoration. Sensors, 20(17):5007, 2020.
[10] J. Wang, P. Aubry, and A.Yarovoy. 3-D short-range imaging with irregular MIMO arrays using NUFFT-based range migration algorithm. IEEE Transactions on Geoscience and Remote Sensing, 58(7):4730–4742, July 2020.
[11] J. Wang and A. Yarovoy. Sampling design of synthetic volume arrays for three dimensional microwave imaging. IEEE Transactions on Computational Imaging, 4(4):648–660, Dec 2018.
[12] J. Wang, P. Aubry, and A. Yarovoy. Wavenumber-domain multiband signal fusion with matrix-pencil approach for high-resolution imaging. IEEE Transactions on Geoscience and Remote Sensing, 56(7):4037–4049, July 2018.
[13] J. Wang, P. Aubry, and A. Yarovoy. Efficient implementation of GPR data inversion in case of spatially varying antenna polarizations. IEEE Transactions on Geoscience and Remote Sensing, 56(4):2387–2396, April 2018.
[14] J. Wang, P. Aubry, and A. Yarovoy. A novel rotated antenna array topology for near field 3-D fully polarimetric imaging. IEEE Transactions on Antennas and Propagation, 66(3):1584–1589, March 2018.
[15] J. Wang, P. Aubry, and A. Yarovoy. A novel approach to full-polarimetric short range imaging with copolarized data. IEEE Transactions on Antennas and Propagation, 64(11):4733–4744, Nov 2016.

入选国家高层次青年人才计划（2023）
IWAGPR最佳学生论文奖提名（2017）
国际雷达会议最佳学生论文奖（2018）