李建平
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李建平

 

副研究员 硕士生导师 广东省特支计划青年拔尖人才 广州市珠江科技新星

研究方向:光通信技术 

电    话:020-85222046

邮    箱:jpli@live.cn

地    址:暨南大学曾宪梓科学馆四楼414-2室

 

       李建平,男,1982年出生,副研究员,硕士生导师。

       2007年于西南交通大学信息科学技术学院获得通信与信息系统硕士学位,2012年于北京邮电大学信息光子学与光通信研究院获物理电子学博士学位。2012年7月加入暨南大学光子技术研究所,任讲师;2014年10月晋升为副研究员。

       主要从事高速光通信技术、光频梳技术等方面研究工作。目前共主持各类科研项目10项,其中国家自然科学基金项目2项、国家863计划项目1项及省部级项目3项;以核心人员参与国家自然科学基金重点项目、国家863计划项目等多项。发表SCI检索论文30余篇,申请发明专利7项,获授权专利2项。

       2015年入选“广东省特支计划”科技创新青年拔尖人才、2017年入选广州市“珠江科技新星”人才专项

 

科研项目:

 

1. 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
    批准号:61575082,78.6万,2016-2019,项目负责人;
2. 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
    批准号:
61307092,24万,2014-2016,项目负责人
3. 
国家863计划项目:100Gb/s光互连光收发模块及系统验证
    批准号:2015AA017102,45.6万,2015-2017,项目负责人;
4. “广东省特支计划”科技创新青年拔尖人才项目
    批准号:2015TQ01X606,30万,2016-2018,项目负责人; 
5.  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
    批准号:2015A030313328,10万,2015-2018,项目负责人;
6.  教育部博士点新教师基金项目:光纤传输系统中的非线性信号损伤的管理机制研究

    批准号:20134401120007,4万,2013-2015,项目负责人;
7.  暨南大学科研培育创新基金-跃升计划:基于模式复用的短距光互连系统的关键技术研究

    批准号:21615450,12万,2015-2016,项目负责人;
8. 国家自然科学基金重点项目:新一代光网络中的调制码型识别及多参数分析

    批准号:61435006,362万,2015-2019,主要参与者。

 

 期刊论文:
 

1. J. Zhang, F. Li, J. Li (通信作者), Y. Feng and Z. Li,
“120 Gbit/s 2 × 2 vector modes division multiplexing DD-OFDM-32QAM free space transmission,”
IEEE Photonics Journal, Vol. 8, No. 3, 7905207, 2016.

2. J. Luo, J. Li (通信作者), Q. Sui, Z. Li and C. Lu,
“40Gb/s Mode-division Multiplexed DD-OFDM Transmission over Standard Multi-mode Fiber”
IEEE Photonics Journal, Vol. 8, No. 3, 7905207, 2016.

3. X. Li, J. Li (通信作者) and Z. Li,
“Performance analysis of the dual-parallel polarization modulator based optical single-sideband modulator/frequency shifter,”
Optical Engineering, Vol. 55, No. 6, 066116, 2016.

4. J. Li, C. Yu, Z. Li,
“Complementary frequency shifter based on polarization modulator used for generation of a high-quality frequency-locked multicarrier,”
Optics Letters, Vol. 39, No. 16, pp. 1513-1516, Feb 30, 2014.

5. 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,”
Optics Express, Vol. 22, No. 12, pp. 14087-14095, June 17, 2014.

6. J. Li, Z. Li,
“Frequency-locked multicarrier generator based on a complementary frequency shifter with double recirculating frequency-shifting loops,”
Optics Letters, Vol. 38 No. 3, pp. 359-361, Feb 1, 2013.

7. J. Li, X. Zhang, Z. Li,
“Optical frequency comb generation by utilizing the three-branch waveguide interferometer-based single-sideband modulator with recirculating frequency shifting loop,”
Optical Engineering, Vol. 53, No. 12, pp. 122606, Special Section On Optical Frequency Combs, August 27, 2014.

8. J. Li, X. Zhang, L. Xi,
“Generation of stable and high-quality frequency-locked carriers based on improved re-circulating frequency shifter,”
Optics Communications, Vol. 285, No. 20, pp. 4072-4075, Sep 15, 2012

9. 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,”
Optics Express, Vol. 19, No. 2, pp. 848-860, Jan 17, 2011.

10. 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,”
Optics Express, Vol. 18, No. 17, pp. 17597-17609, Aug 16, 2010.

11. 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,”
Optics Express, Vol. 24, No. 15, pp. 17159-17167, Aug 16, 2016.

12. 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 Journal, Vol. 8, No. 3, 2016.

13. 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 Journal, Vol. 8, No. 2, 2016.

14. 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: Science & Applications, Vol. 4, 2015.

15. 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,”
Optics Express, Vol. 23, No. 4, pp. 5277-5284, Feb 2, 2015.

16. X. Xu, E. Zhou, N. Liu, T. Zuo, Q. Zhong, L. Zhang, Y. Bao, X. Zhang, J. Li, Z. Li,
“Advanced modulation formats for 400-Gbps short-reach optical inter-connection,”
Optics Express, Vol. 23, No. 1, pp. 492-500, Jan 9, 2015 (Invited paper).

17. X. Zhang, J. Li, C. Li, M. Luo, H. Li, Z. He, Q. Yang, C. Lu, Z Li,
“Pilot-based blind phase estimation for coherent optical OFDM system,”
Optics Express, Vol. 22, No. 19, pp. 22888-22894, January 9, 2014

18. X. Zhang, Z. Li, J. Li, C. Yu, Alan P. Lau, C Lu,
“Low-cost coherent receiver for long-reach optical access network using single-ended detection,”
Optics Letters, Vol. 39, No. 18, pp. 5248-5250, September 15, 2014.

19. J. Lin, L. Xi, J. Li, J. Li, X. Tang, L. Sun, X. Zhang,
“High-quality frequency-locked optical frequency comb source for terabits optical communication system,”
Optical Engineering, Vol. 53, No. 12, pp. 122608, Special Section On Optical Frequency Combs, September 18, 2014.

20. Q. Chen, C. Jin, Y. Bao, Z. Li, J. Li, C. Lu, L. Yang, G. Li,
“A distributed fiber vibration sensor utilizing dispersion induced walk-off effect in a unidirectional Mach-Zehnder interferometer,”
Optics Express, Vol. 22, No. 3, pp. 2167-2173, February 10, 2014.

21.  Y. Bao, Z. Li, J. Li, X. Feng, B. Guan, G. Li,
“Nonlinearity mitigation for high-speed optical OFDM transmitters using digital pre-distortion,”
Optics Express, Vol. 21, No. 6, pp. 7354-7361, March 25, 2013.

22. C. Jin, Y. Bao, Z. Li, T. Gui, H. Shang, X. Feng, J. Li, X. Yi, C. Yu, G. Li, C. Lu,
“High-resolution optical spectrum characterization using optical channel estimation and spectrum stitching technique,”
Optics Letters, Vol. 38 No. 13, pp. 2314-2316, July 1, 2013.

23.  B. Guo, T. Gui, Z. Li, Y. Bao, X. Yi, J. Li, X. Feng, S. Liu,
“Characterization of passive optical components with ultra-fast speed and high-resolution based on DD-OFDM,”
Optics Express, Vol. 20, No. 20, pp. 22079-22086, Sep 24, 2012.

24. 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,”
Journal of Lightwave Technology, Vol. 29, No. 8, pp. 1085-1091, Apr 15, 2011.

 

发明专利:

 

1. 一种基于混合模式复用的光通信系统,申请号:201610623557.X。
2. 一种长距离少模光纤特性测量方法及装置,申请号:201610623443.5。
3. 一种光频梳产生方法及其偏振正交单边带调制装置,申请号:201610623556.5。
4. 基于偏振调制的线性光调制方法及装置,申请号:2015110329927。
5. 监测光性能参数的装置、方法和光传输系统,申请号:PCT/CN2014/074184。
6.多载波光信号产生方法及装置,专利号:ZL 201110280966.1。
7.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:ZL 2010 1 0226806.4

 

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