李建平
近期热点
资料介绍
个人简历
1982年出生于湖南慈利,分别于西南交通大学和北京邮电大学获得硕士(2007)、博士学位(2012)。先后在怀化学院、暨南大学等高校任职;入选广东省特支计划科技创新青年拔尖人才、广州市珠江科技新星等;2020年起任广东工业大学“百人计划”特聘教授。长期从事高速光纤通信领域研究,主持完成多项国家和省部级科研项目,发表SCI论文60余篇,国际国内特邀报告10余次,授权发明专利10余项。积极参与组织国际学术会议,担任ICOCN’2018、ICICN’2020技术委员会共主席等。欢迎报考本人研究生。 学科领域:科学学位:信息与通信工程专业学位:信息与通信工程教育背景:u 2009.9-2012.6: 北京邮电大学 信息光子学与光通信研究院 物理电子学专业,获工学博士学位;u 2004.9-2007.6: 西南交通大学 信息科学与技术学院 通信与信息系统专业,获工学硕士学位;u 2000.9-2004.7: 吉首大学 物理与电子工程系 电子科学与技术专业,获理学学士学位工作经历:u 2020.04 - 至 今: “百人计划”特聘教授,广东工业大学信息工程学院;u 2012.07-2020.03: 讲师/副研究员/研究员,暨南大学光子技术研究院;u 2016.12-2017.12: 访问学者,南洋理工大学电子电气与信息工程学院;u 2007.07-2009.08: 讲师, 怀化学院物理与信息工程系。 主要荣誉:广东省特支计划科技创新青年拔尖人才、广州市珠江科技新星等。 知识产权:1. 一种微腔耦合系统的制备方法和微波光子滤波器,申请号:201811581230.6。2. 一种光频梳产生方法及其偏振正交单边带调制装置,专利号:ZL201610623556.5。3. 一种基于混合模式复用的光通信系统,专利号:ZL201610623557.X。4. 一种长距离少模光纤特性测量方法及装置,专利号:ZL201610623443.5。5. 基于偏振调制的线性光调制方法及装置,专利号:ZL201511032992.7。6. 多载波光信号产生方法及装置,专利号:ZL201110280966.1。7. 监测光性能参数的装置、方法和光传输系统,专利号:2014800701071。8. Apparatus and method for monitoring optical performance parameter, and optical transmission system,美国专利号:US10484088B2。9. Device and method for monitoring optical performance parameter, and optical transmission system,欧盟专利号:EP3113390B1。10. Apparatus and method for monitoring optical performance parameter, and optical transmission system,日本专利号:JP6325738。11. 正交双偏振差分四相相移键控发射与接收的方法及其系统,专利号:ZL201010226806.4.科研项目:1. 国家重点研发计划子课题:P比特级光传输系统与关键技术研究(2018YFB1800900),经费:161.05万,2019-2023,主持;2. 国家自然科学基金面上项目:面向弹性光网络的高性能光频梳研究(61575082),经费:66万,2016-2019,主持;3. 国家自然科学基金青年项目:光纤Kerr非线性信号的监测和管理机制研究(61307092),经费:24万,2014-2016,主持;4. 国家863计划子课题:100Gb/s光互连光收发模块及系统验证(2015AA017102),经费:45.6万,2015-2017,主持;5. “广东省特支计划”科技创新青年拔尖人才项目,2015TQ01X606,经费:30万,2016-2018,主持;6. “广州市珠江科技新星”项目:面向云数据中心超高速光互连的关键技术研究(201710010051),经费:30万,2017-2020,主持;7. 广东省自然科学基金项目:面向数据中心光互连系统的模式复用关键技术研究(2015A030313328),经费:10万,2015-2018,主持。 教学活动:我的团队:隶属于信息工程学院先进光子技术院,团队专注于新一代光纤通信、通信信号处理、光集成器件等研究。研究领域
""近期论文
[1]. J. Li*, J. Hu, D. Zou, W. Wang, F. Li, Q. Sui, J. Zhou, X. Yi, Z. Li, “Terabit Mode Division Multiplexing Discrete Multitone Signal Transmission over OM2 Multimode Fiber,” IEEE J. Sel. Top. Quantum Electron., Vol. 26, No. 4, pp. 4501308, 2020.[2]. B. Yu, Y. Chen, J. Pan, B., F. Li, L. Wan, X. Guo, J. Li* and Z. Li, “Silica-microsphere-cavity-based microwave photonic notch filter with ultra-narrow bandwidth and high peak rejection,” Opt. Lett., Vol. 44, No. 6, pp. 1411-1414, 2019.[3]. Y. Sun, D. Zou, J. Li*, F. Li, Z Li, “Demonstration of low-cost EML based 240 Gbit/s DFT-spread DMT signal transmission over few-mode fiber with cylindrical vector beam multiplexing,” IEEE Access, Vol. 7, pp. 77786-77791, 2019.[4]. J. Li and Z. Li, “Vector mode based optical direct detection orthogonal frequency division multiplexing transmission in short-reach optical link,” Front. Optoelectron., invited review, s12200-018-0836-7, 2019.[5]. J. Li, J. Zhang, F. Li, X. Huang, S. Gao and Z. Li, “DD-OFDM transmission over few-mode fiber based on direct vector mode multiplexing,” Opt. Express, Vol. 26, No. 14, pp. 18749-18757, 2018.[6]. J. Li, X. Zhang, Z. Li, X. Zhang, G. Li, C. Lu, “Theoretical studies on the polarization-modulator-based single-side-band modulator used for generation of optical multicarrier,” Opt. Express, Vol. 22, No. 12, pp. 14087-14095, 2014.[7]. J. Li, X. Zhang, F. Tian, L. Xi, “Theoretical and experimental study on generation of stable and high-quality multi-carrier source based on re-circulating frequency shifter used for Tb/s optical transmission,” Opt. Express, Vol. 19, No. 2, pp. 848-860, 2011.[8]. J. Li, X. Li, X. Zhang, F. Tian, L. Xi, “Analysis of the stability and optimizing operation of the single-side-band modulator based on re-circulating frequency shifter used for the T-bit/s optical communication transmission,” Opt. Express, Vol. 18, No. 17, pp. 17597-17609, 2010.[9]. J. Li, C. Yu, Z. Li, “Complementary frequency shifter based on polarization modulator used for generation of a high-quality frequency-locked multicarrier,” Opt. Lett., Vol. 39, No. 16, pp. 1513-1516, 2014.[10]. J. Li, Z. Li, “Frequency-locked multicarrier generator based on a complementary frequency shifter with double recirculating frequency-shifting loops,” Opt. Lett., Vol. 38 No. 3, pp. 359-361, 2013.[11]. J. Li, H. Ma, Z. Li and X. Zhang, “Optical Frequency Comb Generation Based on Dual-Polarization IQ Modulator Shared by Two Polarization-Orthogonal Recirculating Frequency Shifting Loops,” IEEE Photonics J., Vol. 9, No. 5, 7906110, 2017.[12]. J. Zhang, F. Li, J. Li*, Y. Feng and Z. Li, “120 Gbit/s 2 × 2 vector modes division multiplexing DD-OFDM-32QAM free space transmission,” IEEE Photonics J., Vol. 8, No. 3, 7907008, 2016.[13]. J. Luo, J. Li*, Q. Sui, Z. Li and C. Lu, “40Gb/s Mode-division Multiplexed DD-OFDM Transmission over Standard Multi-mode Fiber” IEEE Photonics J., Vol. 8, No. 3, 7905207, 2016.[14]. J. Zhang, F. Li, J. Li*, Y. Feng and Z. Li, “95.16 Gb/s mode-division- multiplexing signal transmission in free-space enabled by effective- conversion of vector beams,” IEEE Photonics J., Vol. 9, No. 4, 7202809, 2017.[15]. J. Li, X. Zhang, L. Xi, “Generation of stable and high-quality frequency-locked carriers based on improved re-circulating frequency shifter,” Opt. Commun., Vol. 285, No. 20, pp. 4072-4075, 2012.[16]. J. Li*, Y. Zhou, Y. Feng and Z. Li, “Modal dispersion characterization of few-mode fiber based on electrical spectral interferometry with optical frequency comb,” Opt. Fiber Technol., Vol. 38, pp. 75-79, 2017.[17]. H. Wang, J. Zhou, W. Liu, J. Li, X. Huang, L. Liu, W. Liang, C. Yu, F. Li, and Z. Li, “BGD-based Adam algorithm for time-domain equalizer in PAM-based optical interconnects,” Opt. Lett., Vol. 45, No. 1, pp. 141-144, 2020. [18]. Z. Li, W. Wang, D. Zou, F. Li, J. Li, Q. Sui, Z. Li, “DFT Spread Spectrally Efficient Frequency Division Multiplexing for IM-DD Transmission in C-band,” J. Lightwave Technol., 2020 (Early Access paper).[19]. Y. Zhu, L. Wan, Z. Chen, Z. Yang, D. Xia, P. Zeng, J. Song, J. Pan, Y. Feng, M. Zhang, W. Liu, J. Li, B. Zhang, Z. Li, “Effects of Shallow Suspension in Low-loss Waveguide-integrated Chalcogenide Microdisk Resonators,” J. Lightwave Technol., 2020 (Early Access paper).[20]. Z. Chen, L. Wan, J. Song, J. Pan, Y. Zhu, Z. Yang, W. Liu, J. Li, S. Gao, Y. Liu, B. Zhang and Z. Li, “Optical, mechanical and thermal characterizations of suspended chalcogenide glass microdisk membrane,” Opt. Express, Vol. 27, No. 11, pp. 15918-15925, 2019.[21]. Z. Lin, Z. Chen, B. Zhang, F. Li, J. Li, X. Guo, and Z. Li, “Wideband and low-error microwave frequency measurement using degenerate four-wave mixing-based nonlinear interferometer,” Opt. Lett., Vol. 44, No. 7, pp. 1848-1851, 2019. [22]. J. Tu, Z. Liu, S. Gao, Z. Wang, J. Zhang, B. Zhang, J. Li, W. Liu, H. Tam, Z. Li, Changyuan Yu, and Chao Lu, “Ring-core fiber with negative curvature structure supporting orbital angular momentum modes,” Opt. Express, Vol. 27, No. 15, pp. 20358-20372, 2019.[23]. J. Zhou, H. Wang, J. Wei, L. Liu, X. Huang, S. Gao, W. Liu, J. Li, C. Yu, and Z. Li, C. Yu, and C. Lu, “Adaptive moment estimation for polynomial nonlinear equalizer in PAM8-based optical interconnects,” Opt. Express, Vol. 27, No. 22, pp. 32210-32216, 2019.[24]. D. Zou, Y. Chen, Z. Li, F. Li, L. Ding, Y. Sun, J. Li, Q. Sui, X. Yi, and Z. Li, “Comparison of null-subcarriers reservation and adaptive notch filter for narrowband interference cancellation in intra-data center interconnect with DMT signal transmission,” Opt. Express, Vol. 27, No. 4, pp. 5696-5702, 2019.[25]. D. Zou, Y. Chen, F. Li, Z. Li, Y. Sun, L. Ding, J. Li, X. Yi, L. Li, Z. Li, “Comparison of Bit-Loading DMT and Pre-Equalized DFT-Spread DMT for 2-km Optical Interconnect System,” J. Lightwave Technol., Vol. 37, No. 10, pp. 2194-2200, 2019. [26]. Z. Li, F. Li, S. Qi, J. Li, J. Zhou, X. Yi, Z. Li, “Beyond 100 Gb/s SEFDM signal IM/DD transmission utilizing TDE with 20% bandwidth compression,” IEEE Communications Letters, Vol. 23, No. 11, pp. 2017-2021, 2019.[27]. Y. Bao, X. Yi, Z. Li, Q. Chen, J. Li, X. Fan and X. Zhang, “A digitally generated ultrafine optical frequency comb for spectral measurements with 0.01-pm resolution and 0.7-mu s response time,” Light-Sci. Appl., Vol. 4, 2015.[28]. Y. Zeng, G. Liang, B. Qiang, B. Meng, H. Liang, S. Mansha, J. Li, Z. Li, L. Li, A. Davies, E. Linfield, Ying Zhang, Y. Chong and Q. Wang, “Terahertz emission from localized modes in one-dimensional disordered systems,” Photonics Res., Vol. 6, No. 2, pp. 117-122, 2018.[29]. Z. Liang, J. Pan, S. Gao, Q. Sui, Y. Feng, F. Li, J. Li, W. Liu and Z. Li, “Spatial resolution improvement of single-shot digital optical frequency comb-based Brillouin optical time domain analysis utilizing multiple pump pulses,” Opt. Lett., Vol. 43, No. 15, pp. 3534-3537, 2018.[30]. Z. Liu, S. Liu, W. Xiao, J. Yang, X. Huang, Y. Feng, J. Li, W. Liu and Z. Li, “Measuring high-order optical orbital angular momentum with a hyperbolic gradually-changing-period pure-phase grating” Opt. Lett., Vol. 43, No. 13, pp. 3076-3079, 2018.[31]. B. Guo, T. Gui, Z. Li, Y. Bao, X. Yi, J. Li, X. Feng and S. Liu, “Characterization of passive optical components with ultra-fast speed and high-resolution based on DD-OFDM,” Opt. Express, Vol. 20, No. 20, pp. 22079-22086, 2012.[32]. Y. Bao, Z. Li, J. Li, X. Feng, B. Guan and G. Li, “Nonlinearity mitigation for high-speed optical OFDM transmitters using digital pre-distortion,” Opt. Express, Vol. 21, No. 6, pp. 7354-7361, 2013.[33]. X. Zhang, J. Li, C. Li, M. Luo, H. Li, Z. He, Q. Yang, C. Lu and Z. Li, “Pilot-based blind phase estimation for coherent optical OFDM system,” Opt. Express, Vol. 22, No. 19, pp. 22888-22894, 2014.[34]. Q. Chen, C. Jin, Y. Bao, Z. Li, J. Li, C. Lu, L. Yang and G. Li, “A distributed fiber vibration sensor utilizing dispersion induced walk-off effect in a unidirectional Mach-Zehnder interferometer,” Opt. Express, Vol. 22, No. 3, pp. 2167-2173, 2014.[35]. F. Li, D. Zou, L. Ding, Y. Sun, J. Li, Q. Sui, L. Li, X. Yi and Z. Li, “100 Gbit/s PAM4 signal transmission and reception for 2-km interconnect with adaptive notch filter for narrowband interference” Opt. Express, Vol. 26, No. 18, pp. 24066-24074, 2018.[36]. Y. Feng, X. Lu, L. Song, X. Guo, Y. Wang, L. Zhu, Q. Sui, J. Li, K. Shi and Z. Li, “Optical digital coherent detection technology enabled flexible and ultra-fast quantitative phase imaging,” Opt. Express, Vol. 24, No. 15, pp. 17159-17167, 2016.[37]. X. Zhang, Z. Li, J. Li, C. Yu, Alan P. Lau and C Lu, “Low-cost coherent receiver for long-reach optical access network using single-ended detection,” Opt. Lett., Vol. 39, No. 18, pp. 5248-5250, 2014.[38]. C. Jin, Y. Bao, Z. Li, T. Gui, H. Shang, X. Feng, J. Li, X. Yi, C. Yu, G. Li and C. Lu, “High-resolution optical spectrum characterization using optical channel estimation and spectrum stitching technique,” Opt. Lett., Vol. 38 No. 13, pp. 2314-2316, 2013.[39]. C. Jin, N. Guo, Y. Feng, L. Wang, H. Liang, J. Li, Z. Li, C. Yu and C. Lu, “Scanning-free BOTDA based on ultra-fine digital optical frequency comb,” Opt. Express, Vol. 23, No. 4, pp. 5277-5284, 2015.[40]. X. Xu, E. Zhou, N. Liu, T. Zuo, Q. Zhong, L. Zhang, Y. Bao, X. Zhang, J. Li, and Z. Li, “Advanced modulation formats for 400-Gbps short-reach optical inter-connection,” Opt. Express, Vol. 23, No. 1, pp. 492-500, 2015 (Invited paper).[41]. F. Tian, X. Zhang, J. Li, L. Xi, “Generation of 50 stable frequency-locked optical carriers for Tb/s multicarrier optical transmission using a recirculating frequency shifter,” J. Lightwave Technol., Vol. 29, No. 8, pp. 1085-1091, 2011.[42]. X. Tang, Z. Fang, Y. Zhai, X. Jiao, N. Gao, X. Zhang, L. Xi, J. Li, W. Zhang, “A Reconfigurable Optical Logic Gate with up to 25 Logic Functions Based on Polarization Modulation with Direct Detection” IEEE Photonics J., Vol. 9, No. 2, 7802011, 2017.[43]. Y. Li, J. Deng, J. Li, and Z. Li, “Sensitive Orbital Angular Momentum (OAM) Monitoring by Using Gradually Changing-Period Phase Grating in OAM-Multiplexing Optical Communication Systems,” IEEE Photonics J., Vol. 8, No. 2, 7902306, 2016.[44]. Y. Feng, J. Luo, Y. Li, J. Li, and Z. Li, “Mode Multiplexing and High Efficient Switching in Few-Mode Fiber Based on Modeled Blazed Grating,” IEEE Photonics J., Vol. 8, No. 3, 2016.[45]. J. Yuan, L. Xi, D. Zhao, H. Xu, X. Tang, W. Zhang, J. Li and X. Zhang, “OSNR monitoring in presence of fiber nonlinearities for coherent Nyquist-WDM system,” Opt. Commun., Vol. 380, pp. 10-14, 2016.[46]. Z. Li, H. Shang, J. Li, C. Yu, X. Feng, B. Guan and C. Lu, “Broadband and linear photonic RF phase shifter based on DBR fiber lasers and polarization sensitive optical phase modulator,” Opt. Commun., Vol. 297, pp. 55-58, 2013.[47]. P. Zhang, L. Xi, J. Yuan, X. Tang, W. Zhang, J. Li, and X. Zhang, “Fiber nonlinearity-insensitive OSNR monitoring for coherent PM-QPSK-Nyquist-WDM system,” Opt. Fiber Technol., Vol. 36, pp. 215-221, 2017.[48]. Z. Li, H. Shang, X. Feng, J. Li, D. Feng and B. Guan, “Large-Range Switchable Microwave and Millimeter-Wave Signal Generator Based on a Triple-Wavelength Fiber Laser,” IEICE T. Electron., Vol. E96.C, No. 2, pp. 197-200, 2013.[49]. J. Zhang, X. Wu, L. Lu, J. Li*, J. Tu, Z. Li and C. Lu, “1.12 Tb it /s fiber vector eigenmode multiplexing transmission over 5 km FMF with Kramers Kronig receiver,” 2020 Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference (OFC/NFOEC 2020), paper. W1D.5, 2020.[50]. D. Zou, Z. Zhang, F. Li, Q. Sui, J. Li, X. Yi, and Z. Li, “Single λ 500-Gbit/s PAM signal transmission for Data Center Interconnects utilizing Mode Division Multiplexing,” 2020 Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference (OFC/NFOEC 2020), paper. W1D.6, 2020.[51]. F. Li, Z. Li, Q. Sui, J. Li, X. Yi. L. Li, and Z. Li, “200 Gbit/s (68.25 Gbaud) PAM8 Signal Transmission and Reception for Intra-Data Center Interconnect,” 2019 Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference (OFC/NFOEC 2019), paper. W4I.3, 2019.[52]. F. Li, D. Zou, Q. Sui, J. Li, X. Yi. L. Li, and Z. Li, “Optical Amplifier-free 100 Gbit/s/lamda PAM-N Transmission and Reception in O-band over 40-km SMF with 10-G Class DML,” 2019 Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference (OFC/NFOEC 2019), paper. Tu2F.4, 2019.[53]. J. Zhou, M. Guo, Y. Qiao, H. Wang, L. Liu, W. Liu, C. Yu, J. Li and Z. Li, “Digital Signal Processing for Faster-than-Nyquist Non-Orthogonal Systems: An Overview,” 26th International Conference on Telecommunications (ICT 2019), paper. OW4H.4, 2019.[54]. J. Zhang, F. Li, J. Li*, Z. Li, “228 Gb/s vector-mode-division-multiplexing signal transmission in free-space based on optical frequency comb,” 16th International Conference on Optical Communications and Networks (ICOCN 2017), 2017.[55]. J. Luo, J. Li*, Q. Sui, Z. Li, “30 Gb/s 2×2 MDM-DD-OFDM Transmission over 200m Conventional MMF Link without MIMO Compensation,” Asia Communications and Photonics Conference 2015 (ACP 2015), paper. AS4D.2, 2015.u IEEE会员、美国光学学会(OSA)会员;u International Conference on Information, Communication and Networks (ICICN 2020): Track Co-chairs分会共主席 相关热点