胡周翼

个人简介

基本情况

姓  名:

胡周翼

职  务:

高聘副教授

职  称:

高聘副教授

学  历:

博士研究生

学  位:

博士

通信地址:

北京交通大学-科技大厦1011室

邮  编:

办公电话:

电子邮箱:

zyhu@bjtu.edu.cn

个人简介

胡周翼,北京交通大学副教授(硕导),一直致力于光通信系统、光网络物理层、模分复用技术、数字信号处理算法等研究,已主持国家自然科学基金青年科学基金项目等3项。已经在光学权威期刊IEEE/Optica Journal of Lightwave Technology、IEEE/Optica Journal of Optical Communications and Networking、Optics Letters 以及国际光通信顶级会议ECOC、OFC、CLEO 等上以第一或通讯作者发表学术论文30 余篇;研究工作(ECOC’2022, Tu4F.5)被选为国际顶级会议ECOC的Highly Scored Paper;受邀撰写IEEE/Optica JLT 等一作邀请论文2 篇,受邀在ICTON、IEEE SUM、ACP 等重要国际会议上作专题报告5 次,并担任Sensors、Photonics等多个重要期刊的客座编辑,获得了由香港特别行政区政府所授予的Reaching Out Award等荣誉,入选了北京交通大学“青年英才培育计划”。


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我2025年有两个毕设题目,欢迎有主动性的同学积极报名。做得好的话,有机会发表论文

1. "无源光网络物理层混沌加密方案研究"

2. "用于自由空间光通信的大气湍流模拟器研究"


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我2025年有一个硕士名额,欢迎在通信、物理光学、数学、英语等有较好基础,且愿意从事光通信领域研究的同学积极报名。我到时候会倾力指导,要求也会比较严,最好不要想着能混毕业哦o_O。可推荐优秀的学生本校硕转博或去香港、日本、欧洲等地的世界一流高校与科研团队继续深造

教育背景

2016年 - 2020年;香港中文大学信息工程哲学博士 (Ph.D.)

2012年 - 2016年华中科技大学光电信息工程工学学士

工作经历


2024年4月 - 至今北京交通大学电子信息工程学院高聘副教授,硕导 

2023年4月 - 2024年3月Eindhoven University of Technology博后 

2020年12月 - 2023年3月Aston Institute of Photonic Technologies, Aston University博后 

2020年10月 - 2020年11月香港中文大学博后 

2019年7月 - 2020年4月University College London访问学者


研究方向

光通信、光网络、无线光通信、数字信号处理、物理层加密

招生专业

  • 信息与通信工程硕士
  • 通信工程(含宽带网络、移动通信等)硕士

科研项目

主持:

1. 国家自然科学基金“青年基金”项目:免交换数据中心内部网络架构关键技术研究,2025-01~2027-12,30万

2. 北京交通大学人才基金项目:基于多载波调制格式的无源光网络关键技术研究,2024-06~2027-3,30万


参与:

1. 红果园(横): ****光纤激光器***, 2024-5~2027-12 

2. 企业横向: 基于GPU与光引擎板级集成加速卡研发及其基于RoCE协议和交换机的大规模GPU集群研究, 2024-5~2025-10 

3. 北京交通大学基本科研业务费: 光纤通感一体化信道共传及解耦关键技术研究,2024-04~2027-3


教学工作

论文/期刊

部分期刊论文(一作或通讯):


  1. P. Song, Y. Liu, Z. Hu*, C. Gao, L. Pei, C. K. Chan, "Toward Secure and High-Speed OFDM-PONs Leveraging Variable Multi-Band Chaotic Non-Orthogonal Matrices," IEEE/Optica Journal of Lightwave Technology, 2024 (Early Access).
  2. S. Xia, Z. Hu*, M. Rombouts, H. Santanam, Y. Wang, A. Rasoulzadehzali, O. Raz, N. Calabretta, “Photonic WDM Switches Architecture for Multi-band Optical Networks,” IEEE/Optica Journal of Optical Communications and Networking, Vol. 16, No. 8, D18-D28, 2024.
  3. P. Song, Z. Hu*, Y. Liu, Y. Dai, C. Gao, C. K. Chan, “Adaptive Multi-band Modulation for Robust and Low-complexity Faster-than-Nyquist Non-Orthogonal FDM IM-DD Systems,” Optics Express,, vol. 32, no. 13, pp. 23204-23214, 2024.
  4.  Z.Y. Hu, S.Y Xia*, H. Santanam, M. Rombouts, B. Shi, N. Calabretta, “Architecture for Low-cost and Highly Flexible Metro-access Networks using SOA-based OADM Nodes and Digital Subcarrier Multiplexing with Power Loading,” Optics Letters, vol. 49, no. 8, pp. 1904-1907, 2024.
  5. P.J. Song, Z.Y. Hu*, H.Y. Chen, C. K. Chan, “Squared and rectangular QAM compatible decoder for spectrally efficient frequency division multiplexing optical systems,” Optics & Laser Technology, vol. 167, 109776, December 2023.
  6. P.J. Song, Z.Y. Hu*, C. K. Chan, “Nonlinear distortion mitigation of DML-based OFDM optical systems with non-orthogonal DFT-precoding,” Optics Letters 48 (17), pp. 4613-4616, Sep. 2023.
  7. Z.Y. Hu, Y.M. Li, Z.Z. Chen, D.M. Benton, A.A.I Ali, M. Patel, M.P.J Lavery, A.D. Ellis*, Aiming for high-capacity multi-modal free-space optical transmission leveraging complete modal basis sets,” Optics Communications, Vol. 541, 15 August 2023, 129531 (Invited).
  8. P.J. Song, Z.Y. Hu*, C. K. Chan, “Multi-band chaotic non-orthogonal matrix-based encryption for the physical-layer security enhancement in OFDM-PONs,” IEEE OSA Journal of Optical Communications and Networking, Vol. 15, No. 7, C120 - C128, July 2023.
  9. Z.Y. Hu, Z.Z. Chen*, Y.M. Li*, D.M. Benton, A.A.I Ali, M. Patel, M.P.J Lavery, A.D. Ellis, “Adaptive Transceiver Design for High-capacity Multi-modal Free-space Optical Communications with Commercial Devices and Atmospheric Turbulence,” IEEE OSA Journal of Lightwave Technology, vol. 41, no. 11, pp. 3397-3406, June 2023 (Invited).
  10. Z.Y. Hu, Y.M. Li*, D.M. Benton, A.A.I Ali, M.P. Patel, A.D. Ellis, “Single-wavelength transmission at 1.1-Tbit/s net data rate over a multi-modal free-space optical link using commercial devices,” Optics Letters, vol. 47, no. 14, pp. 3495-3498, 2022.
  11. Y.M. Li, Z.Y. Hu*, D.M. Benton, A. Ali, M.P. Patel, A.D. Ellis, “Demonstration of 10 channel mode- and polarization-division multiplexed free-space optical transmission with successive interference cancellation DSP,” Optics Letters, vol. 47, no. 11, pp. 2742-2745, 2022.
  12. Z.Y. Hu, P.J. Song, C.K. Chan*, “Chaotic Non-Orthogonal Matrix-Based Encryption for Secure OFDM-PONs,” IEEE Photonics Technology Letters, vol. 33, no. 20, pp. 1127 - 1130, Oct. 2021.
  13.  Z.Y. Hu*, Z.C Zhou, C.K. Chan, Z.X Liu*, “Equalizer State Caching for Fast Data Recovery in Optically-Switched Data Center Networks,” IEEE OSA Journal of Lightwave Technology, vol. 39, no. 17, pp. 5362 - 5370, Sep. 2021.
  14.  Z.Y. Hu, Y. Qiu, W.T. Li, C.K. Chan*, “Experimental Demonstration of Direct Re-modulation for an IM/DD OFDM-WDM-PON with Symmetrical Bi-directional Transmission,” Optics Communications, Vol. 460, 1 April 2020, 125123.
  15.  Z.Y. Hu and C.K. Chan*, “A Novel Baseband Faster-than-Nyquist Non-Orthogonal FDM IM/DD System with Block Segmented Soft-Decision Decoder,” IEEE OSA Journal of Lightwave Technology, vol. 38, no. 3, pp. 632 - 641, Feb. 2020.
  16.  Z.Y. Hu, Y. Shao, X. Ouyang, Y. Tong, J. Zhao, H.K. Tsang, P. Townsend, C.K. Chan*, “Experimental Demonstration of 111.1-Gb/s Net Information Rate using IM/DD Probabilistically Shaped Orthogonal Chirp-Division Multiplexing with a 10-GHz-class Modulator,” Optics Express, vol. 27, no. 23, pp. 33789 - 33798, Nov. 2019.
  17.  Z.Y. Hu, C.K. Chan*, “A Real-valued Chaotic Orthogonal Matrix Transform based Encryption for OFDM-PON,” IEEE Photonics Technology Letters, vol. 30, no. 16, pp. 1455-1458, Aug. 2018.
  18.  Z.Y. Hu, C.K. Chan*, “A 7-D Hyperchaotic System Based Encryption Scheme for Secure Fast-OFDM-PON,” IEEE OSA Journal of Lightwave Technology, vol. 36, no. 16, pp. 3373-3381, Aug. 2018.

  

部分会议论文(一作或通讯


  1. Z. Hu*, V. van Vliet; M. Freire-Hermelo; S. Xia; M. van den Hout; C. Okonkwo, N. Calabretta, "Experimental Demonstration of 291 Gb/s/λ DSCMWDM Metro-access Networks Leveraging SOAbased OADM Nodes,"  European Conference on Optical Communications (ECOC’2024), Paper. Th1D.3, Frankfurt, Germany, September 2024.
  2. Z.Y. Hu*, S.Y. Xia, H. Santana, M. Rombouts, B. Shi, N. Calabretta, “Flexible Optical Metro-access Networks leveraging SOA-based OADM Nodes and DSCM with Power Loading,” Optical Fiber Communication Conference (OFC)Paper. W2A.17, San Diego, California, USA, Mar. 2024.
  3. Z.Y. Hu, Z.Z. Chen, Y.M. Li, D.M. Benton, A.A.I Ali, M. Patel, M.P.J Lavery, A.D. Ellis*, “Advanced digital signal processing for high-capacity mode-division multiplexed free-space optical communications,” International Conference on Transparent Optical Networks (ICTON’ 2023), Paper. We.B1.2, Bucharest, Romania, July 2023 (Invited Paper).
  4. P.J. Song, Z.Y. Hu*, Y.Z. Dai, C.K. Chan, “Nonlinear Distortion Mitigation with Non-Orthogonal DFT-precoding for DML-Based OFDM Optical Systems,” IEEE/OSA Optical Fiber Communication Conference (OFC), Paper W2A.30, San Diego, California, USA, Mar. 2023.
  5. Z.Y. Hu, Y.M. Li*, David M. Benton, Abdallah Ali, Mohammed Patel, A.D. Ellis, “Single-Wavelength Terabit Multi-Modal Free Space Optical Transmission with Commercial Transponder,” European Conference on Optical Communications (ECOC’2022), Paper. Tu4F.5, Basel, Switzerland, September 2022 (Highly Scored Paper).
  6. P.J. Song, Z.Y. Hu*, C.K. Chan, “An Experimental Demonstration of Secure OFDM-PONs Using Multi-band Chaotic Non-Orthogonal Matrix-Based Encryption,” European Conference on Optical Communications (ECOC’2022), Paper. Tu3B.4, Basel, Switzerland, September 2022.
  7. Z.Y. Hu*, Y.J. Shao, Y. Hong, C.K. Chan, “Hybrid PAM/2D-PAM Fast-OFDM with Multi-Band Real-Valued Orthogonal Circulant Matrix Transform Precoding,” in Proc. OECC, Paper. VP55, Taipei, Taiwan, China, Oct. 2020.
  8. Z.Y. Hu and C.K. Chan*, “Non-Orthogonal Matrix Precoding based Faster-than-Nyquist Signaling over Optical Wireless Communications,” IEEE/OSA Optical Fiber Communication Conference (OFC), Paper M1J.5, San Diego, USA, Mar. 2020.
  9. Z.Y. Hu*, X. Ouyang, J. Zhao, P. Townsend, C.K. Chan, “Investigation of a Low-Complexity Transceiver for Orthogonal Chirp Division Multiplexing based IM/DD OWC Systems,” Opto-Electronics Communication Conference/International Conference on Photonics in Switching (OECC/PS) , Paper MB2-3, Fukuoka, Japan, Jul. 2019.
  10. Z.Y. Hu*, S. Gao, Y. Shao, L.K. Chen, C.K. Chan, “A Robust Channel Processor for Faster-than-Nyquist Non-Orthogonal FDM Visible Light Communication Systems,” European Conference on Optical Communications (ECOC), Paper Th2.18, Rome, Italy, Sep. 2018.
  11. Z.Y. Hu*, C.K. Chan, “A Modified Fractional DFT based FTN-NOFDM Technique for IM/DD Optical Systems,” Opto-Electronic Communication Conference (OECC), Paper 3B1-4, Jeju, Korea, Jul. 2018.
  12. Z.Y. Hu*, J. Zhao, Y. Hong, S. Gao, C.K. Chan, L.K. Chen, “Set-Partitioned QAM Fast-OFDM with Real-Valued Orthogonal Circulant Matrix Transform Pre-Coding,” IEEE Conference on Lasers and Electro-Optics (CLEO), San Jose, California, USA, May. 2018.
  13.  Z.Y. Hu*, T.W. Bo, C.K. Chan, “Investigation of Duo-Binary Coded PAM Signal Formats for Optical Transmission,” International Conference on Optics & Photonics Taiwan (OPTIC TAIWAN), Kaohsiung, Taiwan, China, Dec. 2017.




*通讯作者

专著/译著

专利

软件著作权

获奖与荣誉

入选北京交通大学“青年英才培育计划”,2024年

ECOC highly-scored paper (一作), 2022年

Reaching Out Award,香港特别行政区政府,2020年

社会兼职

受邀担任本领域重要期刊Sensors、Photonics等的客座编辑(Guest Editor)

国际电气与电子工程师协会(IEEE)会员