王大伟

王大伟

副教授

wangdw9@mail.sysu.edu.cn

通讯地址:广州市番禺区大学城最热门的网赌网址大全十大网赌网址信誉排行榜

浙江大学本科、免试直博,浙江省优秀毕业生,两年的香港理工大学博士科研经历,六年的通信龙头企业慕尼黑研究所海外工作经验,深圳市海外高层次人才,最热门的网赌网址大全“百人计划”引进人才;广东省杰出青年基金获得者,广东省技术发明一等奖获得者,国家级项目/课题负责人;长期从事先进光通信系统与算法研究工作,积极开展光通信与量子通信理论基础和应用基础研究。

0000-0001-8164-2862

课题组招收光学工程、电子信息(光电信息工程) 硕士/博士研究生,共同探讨研究新型光通信与量子通信前沿理论和基础应用,提升批判性思维能力,打磨软硬件技术,完善个人知识体系,面向国家需求输出意义重大的科研成果。

研究生就业情况:
课题组具有丰富的企业合作经验,科研成果与人才得到科技创新型企业的高度认可。研究生毕业去向包括:通信龙头企业、海格通信、壁仞科技、摩尔线程、紫光同创、杰理科技、其他科研院所 (the list goes on)

奖励奖项:
2020年度广东省技术发明一等奖(2/14)《数据中心多维度光互联关键技术及应用》
2022年第六届全国大学生集成电路创新创业大赛华南赛区一等奖 & 全国一等奖“优秀指导教师”

学术经历

2019 至今  最热门的网赌网址大全

2016-2019 慕尼黑研究所

2013-2016 深圳2012实验室

2010-2012 香港理工大学博士联培

2008-2013 浙江大学光电系博士 (博士论文)

2004-2008 浙江大学光电系本科 (浙江省优秀毕业生)

科研项目

国家自然科学基金:

2025-2028  基于共轭多模量子态的量子通信,项目负责人

2023-2027  少模光时域反射仪,校方负责人

国家重点研发计划:

2019-2023  新型空分模分复用光纤通信技术研究,课题负责人

2020-2022  高谱效光纤传输系统关键单元技术研究,校方负责人

广东省自然科学基金:

2024-2027  高速量子通信系统(杰出青年项目),项目负责人

广东省重点领域研发计划:

2020-2022  量子通信示范网络(量子科学与工程专项),校方负责人

最热门的网赌网址大全青年教师培育:

2024-2024  高速一次一密量子安全通信,项目负责人

科研成果

压轴论文:

  1. (Post-Deadline Paper) X. Wang, J. Wang, Y. Chen, Y. Xiao, Z. Li, Z. Chen, Z. Li, and D. Wang, "Field Trial of 7×89λ×256Gb/s C-Band Classical/CVQKD Co-Existence Transmission over 7-Core Fiber," ACP/POEM 2023, ACPPOEM-1007-7.
  2. (Post-Deadline Paper) T. Gui, J. Cao, X. Chen, K. Zheng, S. Yuan, X. Fang, Y. Lei, Q. Zhan, D. Wang, Q. Sui, Z. Li, and L. Li, "Real-time Single-Carrier 800Gb/s DP-64QAM Demonstration using Bi-Directional Self-homodyne Coherent Transceivers with 200krad/s Endless Active Polarization Controller," OECC 2021, T5A.5.

期刊论文:

  1. J. Wang, J. Liao, Z. Chen, X. Guo, Z. Li, and D. Wang, "Remote Preparation of Bright Squeezed Light via Field-Deployed Multi-Core Fibers," J. Lightwave Technol., Early Access, 2024
  2. Z. Li, Y. Xu, Q. Sui, Z. Li, and D. Wang, "Polarization Scrambling Models Based on Cascaded Extrinsic and Intrinsic Rotation," J. Lightwave Technol., Early Access, 2024
  3. M. Qiao, Y. Wang, Z. Li, Y. Xiao, Y. Chen, Z. Li, and D. Wang, "Novel Dispersion and Timing Estimation for Weakly-Coupled OAM Fiber Transmission Systems," IEEE Photonics Technol. Lett., 36(14), 913-916, Jun. 2024 [点击浏览]
  4. K. Lian, Z. Xu, M. Qiao, Z. Li, J. Wang, J. Liu, and D. Wang, "Optical Multi-Path Interference Mitigation for PAM4-IMDD Systems Using Balanced Coding," J. Lightwave Technol., 42(17), 5918-5927, May 2024 [点击浏览]
  5. Z. Li, R. Gan, Y. Xu, B. Chen, X. Zhou, J. Liu, L. Liu, Z. Li, D. Wang, and C. Guo, "High-Speed Polarization Tracking Using Thin Film Lithium Niobate Integrated Dynamic Polarization Controller," Optics Express, 31(24), 39369-39378, Nov. 2023 [点击浏览]
  6. Z. Su, J. Wang, D. Cai, X. Guo, D. Wang, and Z. Li, "Experimental Demonstration of Phase-Sensitive Multimode Continuous Variable Quantum Key Distribution with Improved Secure Key Rate," Photonics Research, 11(11), 1861-1869, Nov. 2023 [点击浏览]
  7. Y. Chen, Y. Xiao, S. Chen, F. Xie, Z. Liu, D. Wang, X. Yi, C. Lu, and Z. Li, "Field Trials of Communication and Sensing System in Space Division Multiplexing Optical Fiber Cable," IEEE Communications Magazine, 23(8), 182-188, Aug. 2023
  8. M. Qiao, Y. Chen, D. Wang, and Z. Li, "Multi-Parameter Estimation Resistant to Random Polarization Effect for Coherent Optical Receivers," Optics Express, 31(11), 18454-18467, May 2023 [点击浏览]
  9. K. Lai, Y. Yu, Q. Sui, D. Wang, and Z. Li, "Jacobian Methods for Dynamic Polarization Control in Optical Applications," Optics Express, 31(8), 12175-12188, Apr. 2023 [点击浏览]
  10. D. Wang, M. Qiao, K. Lian, and Z. Li, "CD and PMD Effect on Cyclostationarity-Based Timing Recovery for Optical Coherent Receivers," J. Lightwave Technol., 41(8), 2405-2412, Apr. 2023 [点击浏览]
  11. T. Lei, C. Zhou, D. Wang, Z. Xie, B. Cai, S. Gao, Y. Xie, L. Du, Z. Li, A. V. Zayats, and X. Yuan, "On-Chip High-Speed Coherent Optical Signal Detection Based on Photonic Spin-Hall Effect," Laser Photon. Rev., 2100669, Jul. 2022
  12. (Editor's Pick) Z. Su, D. Cai, H. Jiang, J. Wang, D. Wang, X. Guo, and Z. Li, "Optical Injection Locking Based Local Oscillator Regeneration for Continuous Variable Quantum Key Distribution," Optics Letters, 47(5), 1287-1290, Feb. 2022 [点击浏览]
  13. (Invited Paper) D. Wang, H. Jiang, G. Liang, Q. Zhan, Y. Mo, Q. Sui, and Z. Li, "Optical Performance Monitoring of Multiple Parameters in Future Optical Networks," J. Lightwave Technol., 39(12), 3792-3800, Jun. 2021 [点击浏览]
  14. D. Wang, H. Jiang, G. Liang, Q. Zhan, Z. Su, and Z. Li, "Chromatic Dispersion Equalization FIR Filter Design Based on Discrete Least-Squares Approximation," Optics Express, 29(13), 20387-20394, Jun. 2021 [点击浏览]
  15. D. Wang, Z. Su, H. Jiang, G. Liang, Q. Zhan, and Z. Li, "Modified Square Timing Error Detector with Large Chromatic Dispersion Tolerance for Optical Coherent Receivers," Optics Express, 29(13), 19759-19766, Jun. 2021 [点击浏览]
  16. D. Wang, Q. Sui, and Z. Li, "Toward Universal Optical Performance Monitoring for Intelligent Optical Fiber Communication Networks," IEEE Communications Magazine, 58(9), 54-59, Sep. 2020 [点击浏览]
  17. (PTL Best Paper Award) F. Karinou, H. H. Brunner, C. H. F. Fung, L. C. Comandar, S. Bettelli, D. Hillerkuss, M. Kuschnerov, S. Mikroulis, D. Wang, C. Xie, M. Peev, A. Poppe, "Toward the Integration of CV Quantum Key Distribution in Deployed Optical Networks," IEEE Photonics Technol. Lett., 30(7), 650-653, Apr. 2018

授权专利:

  1. Dawei Wang; David Hillerkuss; Gerhard Humer; Transmitter and receiver for transmitting and receiving a quantum key, 2022-05-24, US11343086B2
  2. Dawei Wang; Fred Chi Hang Fung; Quantum key distribution system and method, 2021-08-31, US11108551B2
  3. Dawei Wang; Optical signal measurement method and network device, 2020-10-20, US10812182B2
  4. 王大伟;雷宇;赖开琴;李朝晖;一种光偏振无限跟踪控制方法及其系统,2022-12-06,ZL202110352114.2
  5. 王大伟;詹前鑫;赖开琴;李朝晖;一种激光器频率差控制方法及系统,2022-09-16,ZL202111016950.X
  6. 王大伟;莫遥;梁国伟;李朝晖;一种光信噪比监测方法及其系统,2022-07-29,ZL202110317745.0
  7. 王大伟;梁国伟;苏梓康;李朝晖;一种色散容忍的时钟恢复方法及系统,2022-04-07,ZL202210359718.4
  8. 王大伟;哈米德·麦赫瓦;一种路由以及波长分配方法及装置,2020-02-14,ZL201510666794.X
  9. 王大伟;光信号检测的方法及其网络设备,2020-02-14,ZL201510628417.7

特邀报告:

  1. 王大伟;偏振动力学调控,2024 ICCSN,宁波,2024-10-19
  2. 王大伟;高速连续变量量子通信,2024 ICOCN,哈尔滨,2024-7-28
  3. (Keynote) 王大伟;经典通信-量子通信融合技术与发展,2024 量子信息与量子计算机理论中的前沿问题,广州,2024-1-14
  4. 王大伟;面向智能光网络的多参数光性能监测,2023 IEEE Photonics Global Conference,斯德哥尔摩,2023-8-21
  5. 王大伟;未来光通信系统算法设计:趋势与挑战,2021年中国光学学会学术大会,深圳,2021-9-18