万向

发布者:何万源发布时间:2023-10-25浏览次数:5268

基本信息

姓名万向

职称研究员,博导

专业电磁场与微波技术

工作单位779cn太阳集团

公司779cn太阳集团

工作地点九龙湖信息大楼1120室

Email: wan_xiang@seu.edu.cn

个人主页https://seu.teacher.360eol.com/teacherBasic/preview?teacherId=9596

个人简介

万向,779cn太阳集团研究员,博士生导师,IEEE高级会员。2007年和2009年于武汉大学分别获得电磁场与微波技术专业工学学士与工学硕士学位,2014年于779cn太阳集团获得电磁场与微波技术专业工学博士学位,同年入职779cn太阳集团毫米波国家重点实验室。长期从事可编程超表面和新体制电磁系统的理论与应用研究,已授权国家发明专利20余项,已发表SCI收录期刊论文80余篇,包括Science子刊,Nature子刊,IEEE Trans.旗舰期刊,Light Sci. Appl.Adv.   Fun. Mater.,Engineering等,他人引用次数8500余次,H指数34,相关成果曾被国际学术期刊选为封面论文并被国内外科技媒体报道,曾多次入选斯坦福年度影响力全球前2%科学家。主持国家自然科学基金委青年/面上基金项目、国家自然科学基金委国际(地区)合作与交流项目、国家自然科学基金委重大项目子课题、江苏省自然科学青年/面上基金项目、以及多项企事业横向合作项目等,相关研究成果曾获得中国光学重要成果奖、军队科学技术一等奖、华为技术有限公司火花奖等。

教授课程

可编程电磁超表面及其典型应用(研讨课,本科大三春季)

研究方向

1)可编程超表面的理论与设计

2)基于可编程超表面的天线理论与应用

3)基于可编程超表面的通信与感知一体化

欢迎选修主讲课程获取本领域基础知识和前沿信息、欢迎加入课题组进行SRTP科研训练和毕业设计,课题组常年招收博士研究生和硕士研究生。

获奖情况

2024年:华为技术有限公司价值火花奖

2023年:斯坦福年度影响力全球前2%科学家

2022年:电气与电子工程师协会高级会员(IEEE Senior Member)

2022年:Frontiers   in Materials客座编辑

2020、2024年:Springer Nature高下载论文

2018年:779cn太阳集团至善学者

2018年:中国科协优秀论文

2017、2018年:Springer Nature十大高引用论文

2017年:军委科技委技术进步一等奖

2016年:中国光学重要成果奖

部分论文著作

[1]W. H. Wang, J. W. Wang, X. Wan*,   X. J. Wang, J. C. Wan, Y. H. Li, T. Zwick, C. X. Wang, and T. J. Cui, “A   RIS-Aided OFDM-Based Integrated Sensing and Communication System for   Communication, Detection, and Tracking,” IEEE Transactions on Vehicular   Technology, vol. 74, no. 10, Oct 2025.

[2]J. C. Wan, J. W. Wang, X. J. Wang, and X.   Wan*, "Using a Binary Coding Metasurface to Achieve   Polarization-Dependent Full-Duplex and Full-Polarization Receiving," Engineering Reports, vol. 7, no. 3,   Mar 2025.

[3]X. J. Wang, J. W. Wang, W. H. Wang, J.   C. Wan, X. Wan*, and T. J. Cui, "A Low-Profile Binary   Array Antenna for Integrated Beam Control and RCS Reduction," IEEE Antennas and Wireless Propagation   Letters, vol. 23, no. 12, pp. 4733-4737, Dec 2024.

[4]X. Wan, W. H. Wang, J. W. Wang, X. J. Wang,   J. C. Wan, Z. Chen, Y. Quan, and T. J. Cui, "Trackable Electronic   Deception Enabled by Space-Time Coding Metasurface," Advanced Optical Materials, vol. 12,   no. 30, Oct 2024.

[5]X. Wan, Z. A. Huang, J. W. Wang, W. H. Wang,   B. Y. Li, Q. Xiao, X. J. Wang, J. C. Wan, and T. J. Cui, "Information   Metasurface for Electromagnetic Sensing and Wireless Communications," Advanced Materials Technologies, vol. 9, no. 2, Jan 2024.

[6]Y. Li, L. G. de Oliveira, A. Diewald,   X. Long, E. Bekker, D. Brunner, X. Wan, T. J. Cui, T. Zwick, and B.   Nuss, "User Detection in RIS-Based mmWave JCAS: Concept and   Demonstration," IEEE Transactions   on Wireless Communications, Article vol. 23, no. 8, pp. 9596-9612, Aug 1   2024, doi: 10.1109/twc.2024.3364048.

[7]L. G. de Oliveira, Y. Li, S. Mandelli,   D. Brunner, M. Henninger, X. Wan, T. J. Cui, T. Zwick, and B. Nuss,   "Pilot-Based SFO Estimation for Bistatic Integrated Sensing and   Communication," IEEE Transactions   on Microwave Theory and Techniques, vol. 73, no. 7, pp. 4143-4161, July   2025.

[8]Q. Xiao, W. Gao, Q. Ma, Z. Gu, Y. Zhou,   C. Liu, Z. A. Huang, X. Wan, L. Li, Y. Li, and T. J. Cui,   "Electromagnetic Brain-Computer-Metasurface Holography," ACS Photonics, vol. 10, no. 7, pp.   2249-2256, Jan 2023.

[9]J. W. Wang, Z. A. Huang, X. Wan*,   W. H. Wang, B. Y. Li, J. Li, Q. Xiao, W. H. Li, and T. J. Cui,   "Polarization and direction-of-arrival estimations based on orthogonally   polarized digital programmable metasurfaces," Journal of Physics D-Applied Physics, vol. 56, no. 46, Nov 2023.

[10]X. Wan, B. Y. Li, W. H. Wang, Z. A. Huang, J.   W. Wang, X. J. Wang, Q. Cheng, and T. J. Cui, "Code-Dependent Beam   Shaping and Polarization Control by Binary Transmitarray," IEEE Transactions on Antennas and   Propagation, vol. 71, no. 6, pp. 4834-4842, Jun 2023.

[11]Y. Li, X. Long, L. G. de Oliveira, J.   Eisenbeis, M. B. Alabd, S. Bettinga, X. Wan, T. J. Cui, and T. Zwick,   "Programmable Metasurface Hybrid MIMO Beamforming: Channel Estimation,   Data Transmission, and System Implementations at 28 GHz," IEEE Systems Journal, vol. 17, no. 1,   pp. 1270-1281, Mar 2023.

[12]Y. Li, S. Bettinga, L. G. de Oliveira,   M. B. Alabd, J. Eisenbeis, X. Wan, X. Long, T. Cui, and T. Zwick,   "Predictive tracking implementation for mobile communication using   programmable metasurface," China   Communications, vol. 20, no. 8, pp. 137-152, Aug 2023.

[13]J. W. Wang, Z. A. Huang, Q. Xiao, W. H.   Li, B. Y. Li, X. Wan*, and T. Jun Cui*,   "High-Precision Direction-of-Arrival Estimations Using Digital   Programmable Metasurface," Advanced   Intelligent Systems, vol. 4, no. 4, Apr 2022.

[14]X. Wan, C. Xiao, H. Huang, Q. Xiao, W. Xu, Y.   Li, J. Eisenbeis, J. Wang, Z. Huang, Q. Cheng, S. Jin, T. Zwick, and T. Cui,   "Joint Modulations of Electromagnetic Waves and Digital Signals on a   Single Metasurface Platform to Reach Programmable Wireless Communications,"   Engineering, vol. 8, pp. 86-95, Jan   2022.

[15]X. Wan, J. W. Wang, Z. A. Huang, B. Y. Li, Q.   Xiao, and T. J. Cui, "Space-Time-Frequency Modulation Mechanisms of   Monochromatic and Nonmonochromatic Electromagnetic Waves on a Digital   Programmable Transmission Metasurface," Advanced Functional Materials, vol. 32, no. 13, Mar 2022.

[16]X. Wan, Z. A. Huang, J. W. Wang, B. Y. Li, W.   H. Wang, Q. Cheng, and T. J. Cui, "Joint Radar and Communication   Empowered by Digital Programmable Metasurface," Advanced Intelligent Systems, vol. 4, no. 9, Sep 2022.

[17]Z. A. Huang, J. W. Wang, Q. Xiao, B. Y.   Li, W. H. Wang, X. Wan*, Q. Cheng, and T. J. Cui*,   "A Single Metasurface Can Perform Range-Velocity Detection and Target   Imaging Simultaneously at Single Frequency," Advanced Optical Materials, vol. 10, no. 21, Nov 2022.

[18]Q. Xiao, Q. Ma, T. Yan, L. W. Wu, C.   Liu, Z. X. Wang, X. Wan, Q. Cheng, and T. J. Cui,   "Orbital-Angular-Momentum-Encrypted Holography Based on Coding   Information Metasurface," Advanced   Optical Materials, vol. 9, no. 11, Jun 2021.

[19]Q. Xiao, Q. Ma, L. W. Wu, Y. Gou, J. W.   Wang, W. H. Li, R. Z. Jiang, X. Wan, and T. J. Cui, "Broadband   digital coding metasurface holography," Journal of Applied Physics, vol. 130, no. 23, Dec 2021.

[20]H. Wu, X. Gao, S. Liu, Q. Ma, H. C.   Zhang, X. Wan, and T. J. Cui, "Robust Spin-Momentum Coupling   Induced by Parity-Time Symmetric Spatiotemporal Metasurface," Advanced Optical Materials, vol. 9,   no. 22, Nov 2021.

[21]X. Wan, Q. Xiao, Y. Z. Zhang, Y. Li, J.   Eisenbeis, J. W. Wang, Z. A. Huang, H. X. Liu, T. Zwick, and T. J. Cui,   "Reconfigurable Sum and Difference Beams Based on a Binary Programmable   Metasurface," IEEE Antennas and   Wireless Propagation Letters, vol. 20, no. 3, pp. 381-385, Mar 2021.

[22]X. Wan, C. K. Xiao, H. Huang, Q. Xiao, W. Xu,   J. W. Wang, Z. A. Huang, Q. Cheng, S. Jin, and T. J. Cui, "User Tracking   and Wireless Digital Transmission through a Programmable Metasurface," Advanced Materials Technologies, vol.   6, no. 7, Jul 2021.

[23]M. Lin, M. Xu, X. Wan, H. Liu,   Z. Wu, J. Liu, B. Deng, D. Guan, and S. Zha, "Single Sensor to Estimate   DOA With Programmable Metasurface," IEEE   Internet of Things Journal, vol. 8, no. 12, pp. 10187-10197, Jun 2021.

[24]Y. Li, J. Eisenbeis, X. Wan, S.   Bettinga, X. Long, M. B. Alabd, J. Kowalewski, T. Cui, and T. Zwick, "A   Programmable-Metasurface-Based TDMA Fast Beam Switching Communication System   at 28 GHz," IEEE Antennas and   Wireless Propagation Letters, vol. 20, no. 5, pp. 658-662, May 2021.

[25]Y. Li, S. Bettinga, J. Eisenbeis, J.   Kowalewski, X. Wan, X. Long, T. Li, A. Jauch, T. Cui, and T. Zwick,   "Beamsteering for 5G Mobile Communication Using Programmable   Metasurface," IEEE Wireless   Communications Letters, vol. 10, no. 7, pp. 1542-1546, Jul 2021.

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科研项目

项目名称

项目来源

项目金额

连续立体空间无线电信道基础研究

国家自然科学重大项目课题一(子课题)

100

**

西安电子科技大公司际合作项目

95

基于可编程超表面的雷达通信一体化信号设计与处理算法研究

国家自然科学基金委面上项目

56

基于可编程超表面的一体化信号传输与波束赋形技术

江苏省自然科学基金委面上项目

10

**

科技部国防创新特区项目

100

高增益超表面天线

华为技术有限公司合作项目

80.34

基于可编程超表面的混合自适应波束赋形系统

国家自然科学基金委国际(地区)合作与交流项目

180