师资队伍

吴龟灵教授

址:上海市东川路800号电信群楼 5-200

话:+86 21 34205358

箱: wuguiling@sjtu.edu.cn

研究中心:光子信号处理器件、系统与应用课题组
个人简介


吴龟灵,博士,上海交通大学电信学院电子工程系“区域光纤通信网与新型光通信系统”国家重点实验室教授;1995年获哈尔滨工业大学光电子专业学士学位,1998、2001年获华中科技大学电子科学与技术专业硕士、博士学位;2011年-2012年,美国南加州大学光通信实验室访问学者;已发表论文100多篇,拥有美国、欧洲,及国家发明专利授权40余项;主要从事微波光子信息处理、光学时间频率传递方面的研究,获得国家自然科学基金(重大科研仪器研制专项、面上)、973子课题、国家863计划、国防重点等项目的支持。


研究领域


光子信息


研究方向

1.  微波光子信号处理
2. 光学时间频率传递

获奖情况


1. 日本大川研究基金奖,日本大川基金会,2012

2. 湖北省自然科学二等奖,湖北省政府,2003


授课

  1. EE347(本科):"光电子学基础",48学时

  2. F034519(研究生):"光纤区域网",32学

科研项目

1.   超长距离高精度光纤时间频率传递技术与设备,国家自然科学基金国家重大科研仪器研制专项,2017-2021,主持

2.  XXX,重大专项,2019-2021,主持

3.  XXX,国防973专题2,2014-2017,主持

4.  超高速高精度光学模数转换技术研究,国家自然科学基金重点项目,2016-2020,参与(排名2)


著作及专利

  1. Wu Guiling, Zhang Hao, Chen Jianping, High-Precision Optical Fiber Time Transmission Bi-Directional Optical Amplification Method and Device, EP 3373065, 2019

  2. Wu Guiling, Hu Liang, Zhang Hao, et al., METHOD AND SYSTEM FOR HIGH-PRECISION TWO-WAY FIBER-OPTIC TIME TRANSFER, US100063315 B2, 2018.

  3. Wu Guiling, Hu Liang, Sheng Jianguo, et al., Encoding and Decoding Methods for High-Precision Time Transfer and Encoding and Decoding Devices Therefor, US 9537576 B2, 2017

  4. Wu Guiling, Chen jianping, Li Xinwan et al., Resilient Optical Burst Ring Failure Protecting Method, Apparatus And Failure Processing Method,EP 1998503, 2012

  5. 王思同、吴龟灵等,频率响应可配置的光模数转换装置,中国,201610783730.22019

  6. 张佳朋、吴龟灵等,高精度主动式光纤微波频率传递系统, 中国,201710657864.4,2019

  7. 金钲韬、吴龟灵等,保偏时间交织光模数转换器,中国,201610591078.42018

  8. 吴龟灵、李洪伟等,高精度分布式光纤频率传递方法,中国,201611041217.22018

  9. 吴龟灵、张浩等,高精度长距离分布式光纤时间传递方法与系统,中国,201610781482.82018

  10. 吴龟灵、张浩、陈建平,高精度光纤时间传递双向光放大方法与装置,中国,ZL201610073321.32018

  11. 张浩、吴龟灵、陈建平,单纤双向时分复用光放大装置,中国,ZL201610216342.62017

  12. 吴龟灵、 胡亮、张浩等,基于环回法的高精度光纤双向时间传递方法与系统,ZL20141082147422017

  13. 吴龟灵、胡亮、张浩等,高精度光纤双向时间比对方法与系统,中国,ZL20141032094702017.

  14. 吴龟灵、胡亮、黄璜等,高精度光纤双向时间比对设备时延不对称性标定方法,中国,ZL201410054129.02017

  15. 胡亮、吴龟灵、沈建国等,高精度分布式光纤时间同步方法,中国,ZL201310374285.02016

  16. 吴龟灵、叶雷、苏斐然等,时间波长交织光模数转换标定与信号重构方法,ZL201410857164.62017

  17. 叶雷、吴龟灵、苏斐然等,高精度长距离光纤延迟线的制作辅助装置及其制作方法,ZL201510024573.22017

  18. 胡亮、吴龟灵、江少平等,高精度分布式光纤时间同步系统,中国,ZL201410060009.12016

  19. 吴龟灵、胡亮、黄璜等,高精度光纤双向时间比对设备时延不对称性标定系统,中国,ZL201410054128.62016

  20. 吴龟灵、李博、苏斐然等,高精度光学模数转换器,中国,ZL201310429079.52016

  21. 吴龟灵、李杏、卢加林等,一种时间波长交织光采样时钟产生装置,国家发明专利,ZL201210327689.X2015

  22. 吴龟灵、邹卫文、卢加林等,一种分布式光纤双向时间同步装置,国防发明专利,ZL201218004887.32015

  23. 吴龟灵、邹卫文、卢加林等,一种分布式光纤双向时间同步方法,国防发明专利,ZL201218004888.82015
     

重要论文

1.   Sitong Wang, Yiwei Sun, Liang Hu, Jianping Chen and Guiling Wu*, High-Speed and Broadband Digital Receiver Based on Optical Sampling Pulse Waveform Matching, Optics Letters 45, no. 6 (2020): 1338-1341.

2.   Zhengtao Jin, Guiling Wu*, et al., Noise Characterization for Time Interleaved Photonic Analog to Digital Converters, Journal of Lightwave Technology, Vol. 38, Issue 6, pp.1230-1242, MARCH 15, 2020.


3. Rongrong Xu, Faxing Zuo, Liang Hu, Jianping Chen and Guiling Wu*, High-Precision Time Transfer over a Local Ring Fiber Link, Optics Communications 466, (2020): 6.

4.   Min Ding, Zhengtao Jin, Jianping Chen and Guiling Wu*, Photonic Network Analyzer Based on Optical Sampling, IEEE Photonics Technology Letters, vol. 32, pp. 212-215, 2020.

5.   Yiwei Sun, Guiling Wu*, et al., An Optical Pulse Shaping Scheme for Simultaneous Photonic Filtering and Digitizing Systems, IEEE Photonics Journal, (2020): 1-1.

6.   Hanhuang Cheng, Guiling Wu*, et al., Time transfer through the optical supervisory channel in wavelength division multiplexing systems, Optics Letters, 44(21), 5206-5209, 2019.  

7.   Sitong Wang, Guiling Wu*, Yiwei Sun, and Jianping Chen, Photonic compressive receiver for multiple microwave frequency measurement, Optics Express, 27(18): 25364-25374, 2019.

8.   Sitong Wang, Guiling Wu*, Yiwei Sun, et al., Principle of integrated filtering and digitizing based on periodic signal multiplying, Opt. Lett. 44(7), 1766-1769, 2019.

9.   Zhengtao Jin, Guiling Wu*, Fengfeng Shi, et al., Equalization based inter symbol interference mitigation for time-interleaved photonic analog-to-digital converters, Optics Express, Vol. 26, Issue 26, pp. 34373, 2018.

10. Zhengtao Jin, Guiling Wu*, Cheng Wang, et al., Mismatches analysis based on channel response and an amplitude correction method for time interleaved photonic analog-to-digital converters, Optics Express, Vol. 26, Issue 14, pp. 17859-17871, 2018.

11. Sitong Wang , Guiling Wu*, Feiran Su, et al., Simultaneous Microwave Photonic Analog-to-Digital Conversion and Digital Filtering, IEEE Photonics Technology Letters, vol. 30, no. 4, pp. 343-346, Feb.15, 15 2018.

12. Huanwu Hu, Guiling Wu*, Xuan Ding, et al., SFSW Time Transfer over Branching Fiber-optic Networks with Synchronous TDMA, IEEE Communications Letters, Volume 22 , Issue 9, Pages: 1802 -1805, 2018.

13. Jiapeng Zhang, Guiling Wu*, Tiancheng Lin, et al, Fiber-optic radio frequency transfer based on active phase noise compensation using a carrier suppressed double-sideband signal, Optics Letters, 42(23), 5042-5045, 2017.

14. Hao Zhang, Guiling Wu*, Xinwan Li, et al., Optical Amplification for BTDM-SFSW based Time Transfer, Journal of Lightwave Technology, 35(19), 4337-4343, 2017.

15. Hao Zhang, Guiling Wu*, Xinwan Li, et al., Uncertainty analysis of BTDM-SFSW based fiber-optic time transfer, Metrologia, Volume 54, Number 1, 2017.

16. Hongwei Li, Guiling Wu*, Jiapeng Zhang, et al., Multi-access fiber-optic radio frequency transfer with passive phase noise compensation, Opt. Lett. 41(24), 5672-5675, 2016.

17. Hao Zhang, Guiling Wu*, Li Hongwei,et al., High-Precision Ultra-long-Distance Time Transfer Using Single-Fiber Bidirectional-Transmission Unidirectional Optical Amplifiers, IEEE Photonics Journal 8(5) 7804408:1-8, 2016.

18.  Feiran Su, Guiling Wu*, and Jianping Chen, Photonic analog-to-digital conversion with equivalent analog prefiltering by shaping sampling pulses, Opt. Lett. 41, 2779-2782, 2016.

19. Rui Huang, Guiling Wu*, Hongwei Li, et al., Fiber-optic radio frequency transfer based on passive phase noise compensation with frequency dividing and filtering, Opt. Lett. 41, 626-629, 2016. 

20. Feiran Su, Guiling Wu*, et al., Effects of the photonic sampling pulse width and the photodetection bandwidth on the channel response of photonic ADCs, Opt Express 24(2): 924, 2016.

21.  Hao Zhang, Guiling Wu*, et al., High-Precision Time Transfer Over 2000-km Fiber Link, IEEE Photonics Journal 7(6): 1-9, 2015.

上海市闵行区东川路800号上海交通大学电院群楼

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