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Professor
Xinwan Li
 

 

Xinwan LI, Professor
SEIEE Buildings 5-215
Shanghai JiaoTong University
800 Dongchuan Road, Shanghai, 200240, P.R. China
Tel: +86-21-34205140 (Fax: +86-21-34205140)
Mobile Phone: +86-15900809069
Email: lixinwan@sjtu.edu.cn
Personal Website: http://www.ofs2.sjtu.edu.cn/?page_id=113
Biography
2002-2005, Ph.D. Shanghai Jiaotong University (SJTU), shanghai, P. R. China (major in Electronic Science and Technology). Dissertation: "Study of wavelength selective optical switches and key technologies of optical burst switching systems ". Advisor: Prof. Jianping CHEN (Tel:34205140, 13916359436, jpchen62@sjtu.edu.cn) 1990-1993, M.S Shanghai University of Science and Technology, Shanghai, P.R.China (SUST, now renamed as Shanghai University) (major in Electronic Science and Technology), Dissertation: The study of optical controllable microwave switch, Advisor: Prof. Deming XU(Tel:62455846, 13918230566, dmxu@online.sh.cn) 1986-1990, B.S. Soochow University, JiangSu Province, P. R. China (major in Physics Education Science).
AWARDS AND HONORS
  1. 2011, President Award by Shanghai Jiaotong Univ. , Issued date: April 8th,2011
  2. 2008, Excellent Education Award by Shanghai Jiaotong University (Award Ranking: Grade I, 2008)
  3. 2006, ShuGuang (Dawn) Excellent Scholarship by Education Committee of Shanghai Municipal
  4. 2005, New Century Excellent Scholarship program by the Ministry of Education of P. R. China
  5. 2004, Science & Technology Progress Award by Shanghai Municipal People's Government, (Ranking: Grade II award) for the research on Optical Fiber and Guided wave nonlinearity for DWDM optical fiber communication system, Issued No.:2004062085-2-03,Issued date: Dec. 19, 2004
  6. 2004, Annual Excellent Teacher of SJTU by Shanghai Jiaotong University, Issued date: May of 2005.
  7. 2003, Annual Excellent Teacher of SJTU by Shanghai Jiaotong University, Issued date: May of 2004.
  8. 2001, Science & Technology Progress Award of China by Science & Technology Progress Awards Jury of Chinese High Education & Universities (Ranking: Grade II award), Issued No.: 2000-216, Issued date: May 25, 2001
  9. 1999, Science & Technology Progress Award of Shanghai by Science & Technology Progress Awards Jury and Shanghai Municipal People's Government, (Ranking: Grade III award) for the research on optical controllable microwave device theory and Experiments. Issued No.: 993072, Issued date: Nov. 2, 1999
PROFESSIONAL MEMBERSHIPS:
  1. Senior Member of IEEE Lasers and Electro-Optics Society (LEOS), Since 2001
  2. Senior Member of IEEE Communications Society (ComSoc), Since 200
  3. Co-Chairman of IEEE LEOS Shanghai Chapter, 2006-2009
  4. Chairman of IEEE Communications Society (ComSoc) Shanghai Chapter, Since 2008Chairman of IEEE Communications Society (ComSoc) Shanghai Chapter, Since 2008
  5. International Advisory Committee of Opto-Electronics and Communications Conference(OECC), Since 2009
  6. Board of Directors on Optical and Electronic Cable Association of China, from 2007-2012 .
Selected Publications (Recently)
  1. Luo, HM, Li,XW Zou, WWTemperature-Insensitive Micro displacement Sensor Based on Locally Bent Microfiber Taper Modal Interferometer,IEEE PHOTONICS JOURNAL, vol 4, 2012, pp:772-778
  2. Li Xinwan, Intelligent Desert: the key to understand the desert, INTERNATIONAL ACADEMIC DEVELOPMENT,No.1, 2012, pp. 26-27
  3. Hong, Zehua; Zhou, Linjie; Li,Xinwan; Zou, Weiwen; Sun, Xiaomeng; Li, Shuguang; Shen, Jianguo; Luo, Haimei; Chen, Jianping,Design and analysis of a highly efficient coupler between a micro/nano optical fiber and an SOI waveguide,APPLIED OPTICS,vol 51, 2012, pp:3410-5
  4. Li, SG ; Li, XW ; Zou, WW ; Chen, JP Rangeability extension of fiber-optic low-coherence measurement based on cascaded multistage fiber delay line, APPLIED OPTICS,vol 51, 2012, pp:771-775
  5. Luo, HM; Li, XW ; Zou, WW ; Jiang, WN ; Chen, JP Modal Interferometer Based on a C-Shaped Ultrathin Fiber Taper for High-Sensitivity Refractive Index Measurement, APPLIED PHYSICS EXPRESS,vol 5,2012,pp:012502
  6. Zehua Hong , Xinwan Li, LinjieZhou, Weiwen Zou, Xiaomeng Sun, Shuguang Li, Jianguo Shen, Haimei Luo, Jianping Chen,Highly-efficient optical power combiners based on evanescently-coupled micro/nano optical fibers, OPTICS COMMUNICATIONS, vol 285, 2012,pp:3592-3596
  7. Xinwan Li, Zehua Hong, Xiaomeng Sun Photonic nano-device for optical signal processing,FRONT. OPTOELECTRON. CHINA,4(3), pp 254-263, 2011
  8. Li Xinwan, The 19th wireless and optical communication conference, INTERNATIONAL ACADEMIC DEVELOPMENT, No.5, 2011,pp. 48-49
  9. Wu, Guiling; Zhang, Tairan; Chen, Jianping; Li, Xinwan; Qiao, Chunming,An Index-Based Parallel Scheduler for Optical Burst Switching Networks,JOURNAL OF LIGHTWAVE TECHNOLOGY,vol 29, 2011,pp2766-2773
  10. Linjie Zhou, Xiaomeng Sun, Xinwan Li, and Jianping Chen, Miniature Microring Resonator Sensor Based on a Hybrid Plasmonic Waveguide, SENSORS, 2011, 11(7), 6856-6867
  11. Xinwan Li, Review on Display Panel-based Undersea Visual Light Communications,INTERNATIONAL SYMPOSIUM ON EMERGING SHORT RANGE COMMUNICATIONS,June 30, 2011, Room 1-312, FIT Building, Tsinghua University, China (Invited Talk)
  12. Zehua Hong,Xinwan Li, Linjie Zhou, Xiaowei Shen, Jianguo Shen, Shuguang Li and Jianping Chen, Coupling characteristics between two conical micro/nano fibers: simulation and experiment,OPTICS EXPRESS, Vol.19 no.5 , pp. 3854-3861 ,Feb.2011
  13. Shuguang Li, Xinwan Li, Weiwen Zou, Jianguo Shen, Zehua Hong, and Jianping Chen, "High-Resolution Measurement of Fiber Length Change with Optical Low-Coherence Reflectometer Based on a Fiber-Ring Structure",APPLIED PHYSICS EXPRESS 4 (2011) 062501-(1-3)
  14. Xiaowei Shen, Xinwan Li, et al. Highly efficient fiber-to-chip evanescent coupling based on subwavelength-diameter optical fibers,CHINESE OPTICS LETTERS,May 2011
  15. X. M. Sun, L. J. Zhou, X. W. Li, Z. H. Hong and J. P. Chen, "Design and analysis of a phase modulator based on ametal-polymer-silicon hybrid plasmonic waveguide," Applied Optics,Vol. 50 (20), 3428-3434 (2011).
  16. Xiaomeng Sun, Linjie Zhou, Xinwan Li, Zehua Hong and Jianping Chen,Design and analysis of a phase modulator based on a metal-polymer-silicon hybrid plasmonic waveguide", Applied Optics.
  17. Guiling Wu, Siqi Li, Xinwan Li, and Jianping Chen, 18 wavelengths 83.9Gs/s optical sampling clock for photonic A/D converters, OPTICS EXPRESS, Vol. 18, No. 20,21162, Sept. 2010.
  18. Li-Mei Peng, Xin-Wan Li and Young-Chon Kim, "Investigation on Reliability and Scalability for a FBG-based Hierarchical AOFSN", Journal of Sensors,Vol. 10, No. 4, pp. 2901-2918, March 2010(SCIE)
  19. Li-Mei Peng, Chan-Hyun Youn, Xinwan Li, Wan Tang, "Close-Packing based Sensor Node Deployment Schemes for AOFSN", International Journal of Communication Networks and Distributed Systems (IJCNDS), (EI index)
  20. Yanzhi Wu, Tong Ye, Liang Zhang, Xiaofeng Hu, Xinwan Li, Yikai Su,A cost-effective WDM-PON architecture simultaneously supporting wired, wireless and optical VPN services, Optics communications,2010
  21. Wei Dai, Guiling Wu, Wenjun Qian, Xinwan Li, Member, IEEE, and Jianping Chen,,Offset Time Configuration in Optical Burst Switching Ring Network, IEEE JOURNAL OF LIGHTWAVE TECHNOLOGY, VOL. 27, NO. 24, DECEMBER 15, 2009
  22. Kan Wu, Xinwan Li,* Chong Shao, and Jianping Chen, Theoretical and experimental analysis of the gating performance of a photocathode-gated image tube, using a femtosecond laser, 20 June 2009 / Vol. 48, No. 18 / APPLIED OPTICS 3337
  23. Ming Li, Guiling Wu*, Pan Guo, Xinwan Li, and Jianping Chen, Analysis and compensation of dispersion induced bit loss in a photonic A/D converter using time-wavelength interweaved sampling clock, 28 September 2009 / Vol. 17, No. 20 / OPTICS EXPRESS 17764
  24. Xin Wang, Xinwan Li, Zhigang Du, Xiaoyang Wang, Jianping Chen,Experimental Investigation on Temperature Dependence of the Performance in a Magnetostrictive Fiber-Optic Interferometric Magnetic Field Sensor,IEEE Sensors Journal,9(10), pp 1234-1239, 2009.
  25. Xiaocao Yu,Xinwan Li,Ying Zhang, Linjie Zhou, Wenning Jiang, Jianping Chen Fabrication of Microfiber-Based Bragg Gratings with Ultraviolet-Light Exposure,OFC/NFOEC 2011,Paper OTuC2,Los Angles, California, USA. March 20-24, 2011
  26. G. Wu, T. Zhan, J.Chen, X. Li, and C. Qiao, "Design and Implementation of An Index based Parallel Scheduler for Optical Burst Switching Networks", OFC/NFOEC 2011, Paper JWA054, Los Angeles, CA, March 2011
  27. Haimei Luo, Xinwan Li, Shaoshi Wang, Jianping Chen, Temperature Stabilized Electrically Tunable Long Period Gratings Coated with Nanosized Liquid Crystal Layer, OFC/NFOEC 2009, Paper JThA22,San Diego, California, USA. March 22-26, 2009.
  28. Shuguang Li, Xinwan Li, Jianguo Shen, Zehua Hong and Jianping Chen "SNR of 3-Stage Fiber Delay Lines Based on SOAs in Microwave Photonics Link", 2010 19th Annual Wireless and Optical Communications Conference (WOCC 2010), Shanghai, China, pp: 86-88
  29. Zehua Hong, Xinwan Li, Jianguo Shen, Xiaowei Shen, Xiaocao Yu, Minwen Zhou, Jianping Chen "Transmission-Line Model for Analyzing the Coupling between two Parallel micro/nano- fibers",WOCC2010, 1-3, (2010)
  30. Tairan Zhang, Xinwan Li, Guiling Wu, Jianping Chen,Design and implementation of high-speed BCP processor for OBS core node based on FPGA, WOCC 2010 , p. 89-91(2010)
  31. Li-Mei Peng, Chan-Hyun Youn, Xin-Wan Li, "Efficient Sensor Node Deployment Schemes for AOFSN", Asia-Pacific Conference on Communications (APCC’2010), Oct. 21-Nov.3, 2010, Auckland, New Zealand.
  32. Hong Zehua, Xinwan Li ,Li Shuguang, Shen Jianguo, Luo Haimei, Zhang Tairan, Li Fang, Jianping Chen , On Polarization Characteristic in Fiber Mach-Zehnder Interferometer with Short Different Length of Two Arms, Proceedings of APCC2009, shanghai, Oct. 8-10, 2009
  33. Yahong Yang, Guiling Wu, Xinwan Li, Jianping Chen, Joint Flow Control and Processor Allocation for Task Scheduling in Grid over OBS Networks, Proceedings of APCC2009, shanghai, Oct. 8-10, 2009
  34. Xinwan LI, Jianping CHEN, Can communications and sensors work together in one network?Front. Optoelectron. China 2009, 2(2): 148-152
  35. Shuguang LI, Xinwan LI, Xin WANG, Jianping CH, A new magnetic sensor with Mach-Zehnder/Sagnac optical fiber interferometer, Front. Optoelectron. China 2009, 2(2): 192-194
  36. Haimei Luo,1,2 Xinwan Li,1, Shuguang Li,1 and Jianping Chen1,Analysis of temperature-dependent mode transition in nanosized liquid crystal layer-coated long period gratings, Applied Optics,2009, Vol48, No25, PF95-F100
  37. Xinwan Li, Limei Peng, Jianping Chen, Songbo Wang, Guiling Wu, Jialin Lu, Young-Chon Kim, A Novel Fast Programmable Optical Buffer with Variable Delays Fiber Optic Engineers Conference, OFC/NFOEC 2008.
  38. Xinwan Li, Jianping Chen, Can the communications and sensors work together in one network, The First International Conference on Photonics and OptoElectronics Meetings(POEM2008), 24-27th November,2008, Wuhan, China
  39. Xinwan Li, Limei Peng, Songbo Wang, Young-Chon Kim, Jianping Chen, A novel kind of programmable 3n feed-forward optical fiber true delay line based on SOA, OPTICS EXPRESS 15 (25): 16760-16766, December 10 2007
  40. Li, Xinwan; Chen, Jianping; Wu, Guiling; Wang, Hui; Ye, Ailun, An experimental study of an optical burst switching network based on wavelength-selective optical switches, Source: IEEE Communications Magazine, v 43, n 5, May, 2005, p S3-S10
  41. Li, Xinwan;Chen, Jianping; Wu, Guiling; Ye, Ailun, Digitally tunable optical filter based on DWDM thin film filters and semiconductor optical amplifiers, Source: Optics Express, v 13, n 4, February, 2005, p 1346-1350
  42. Li, Xinwan; Chen, Jianping; Wu, Guiling; Lu, Jialin; Ye, Ailun, A novel waveband selective router based on DWDM thin-film filters, Source: Microwave and Optical Technology Letters, v 45, n 1, Apr 5, 2005, p 79-81
  43. Li, Xin-Wan; Du, Peng-Chao; Ye, Ai-Lun, Analysis and simulation on the mode-coupling characteristics of long-period fiber grating, Source: Tien Tzu Hsueh Pao/Acta Electronica Sinica, v 28, n 11, November, 2000, p 68-71
  44. Li, Xinwan;Xu, Deming; Wu, Keqin; Song, Liepu; Wu, Xiangyin, Study of laser controlled semiconductor loaded waveguide switch, Source: Tien Tzu Hsueh Pao/Acta Electronica Sinica, v 22, n 8, Aug, 1994, p 73-76
  45. Li, Xin-Wan;Chen, Jian-Ping; Ye, Ai-Lun; Wu, Gui-Ling; Lu, Jia-Lin, Tunable wavelength selective optical switch based on Fabry-Perot cavity structure, Source: Tien Tzu Hsueh Pao/Acta Electronica Sinica, v 32, n SUPPL., December, 2004, p 57-60
  46. Li, Xinwan;Chen, Jianping; Wu, Gulling; Wang, Hui; Lu, Jialin; Ye, Ailun, The experimental optical burst switching system, Source: Proceedings of SPIE - The International Society for Optical Engineering, v 5626, n PART 1, Network Architectures, Management, and Applications II, 2005, p 436-439
  47. Li, Xinwan; Ye, Ailun; Chen, Jianping; Wu, Guiling,A 2 by 2 wavelength tunable Fabry-Perot filter by using an electro-optic polymer film, Source: Chinese Optics Letters, v 2, n 11, November, 2004, p 624-626
  48. Li, Xinwan; Chen, Jianping; Lu, Jialin; Ye, Ailun, One by N wavelength-selected optical switch based on tunable Fabry-Perot cavity, Source: Proceedings of SPIE - The International Society for Optical Engineering, v 5625, n PART 2, Optical Transmission, Switching, and Subsystems II, 2005, p 804-808
  49. Li, Xinwan;O'Mahony, M.J.; Taza Nakaki, Anna; Guil, Ken, Experimental demonstration of dual-wavelength packet format in photonic packet switching node, Source: Chinese Journal of Electronics, v 8, n 3, Jul, 1999, p 246-249
  50. Li, Xinwan;O'Mahony, M.J. Study of dual-wavelength parallel photonic/electronic packet communication, Source: Chinese Journal of Electronics, v 9, n 3, Jul, 2000, p 313-317
  51. Li, Xinwan;O'Mahony, M.J.; Nakaki, A.T.; Guil, K. , Architecture of parallel photonic/electronic packet switching networks, Source: High Technology Letters, v 5, n 2, Dec, 1999, p 19-24
  52. Li, Xinwan(Shanghai Jiao Tong Univ); Xu, Deming; Yin, Zongmin, New type of fiber-induced optically controllable silicon-loaded millimeter waveguide switch, Source: High Technology Letters, v 2, n 2, Dec, 1996, p 48-50
  53. Li, Xinwan;Yin, Zongmin; Yu, Xiaojian, Analysis of optical conical GRIN ROD by conformal transformation, Source: Shanghai Jiaotong Daxue Xuebao/Journal of Shanghai Jiaotong University, v 29, n 6, Nov, 1995, p 91-95
  54. TLiu TT (Liu, Ting), TChen XT (Chen, Xianfeng), TDi ZT (Di, Ziyun), TZhang JT (Zhang, Junfeng), TLi XT (Li, Xinwan), TChen JT (Chen, Jianping), et al. Tunable magneto-optical wavelength filter of long-period fiber grating with magnetic fluids APPLIED PHYSICS LETTERS 91 (12): Art. No. 121116 SEP 17 2007
  55. T Liu, X Chen, Z Di, J Zhang, X Li, J Chen, Measurement of the magnetic field-dependent refractive index of magnetic fluids in bulk, Chin. Opt. Lett,2008
  56. Li-mei Peng, Won-Hyuk Yang, Xin-wan Li, Young-Chon Kim.The construction of a FBG-based hierarchical AOFSN with high reliability and scalability, Proceedings of SPIE 7136, 71362J (2008).
  57. H Pu, L Liu, W Jiang, X Li, J Chen, Synthesis and Characterization of Styrene/Maleimide Copolymer with 4-[N-ethyl-N-(2-hydroxyethyl),- Journal of Applied Polymer Science, 2008
  58. X Wang, X Li, H Luo, J Chen, Analysis of LPFG Sensitivity to External Refractive Index with Different Cladding Radius and Coupling Mode, Asia Optical Fiber Communication and Optoelectronic (Optical Society of America, 2008), paper SuC4.
  59. B Wang, G Wu, J Chen, X Li, Experimental Study on the Impact of Spectrum Slicing on Pulsewidth- Asia Optical Fiber Communication and Optoelectronic(Optical Society of America, 2008), paper FD4
  60. Luo, Haimei; Li, Xinwan; Wang, Shaoshi; Wang, Xiang; Chen, Jianpang, Temperature Dependent Mode Transition in High Refractive Index Coated Long Period Gratings, Asia Optical Fiber Communication and Optoelectronic Exposition and Conference (AOE) 2008 paper: SaE3
  61. Wang, Shaoshi; Li, Xinwan; Luo, Haimei; Chen, Jianping, The Response of High Refractive Index Coated Long Period Fiber Gratings to Temperature Based on Liquid Crystal, Asia Optical Fiber Communication and Optoelectronic Exposition and Conference (AOE) 2008 paper: SaE4
  62. W Dai, G Wu, J Chen, X Li, Y Yang, Network Architecture And Design-Traffic Tree Based Burst Scheduling In Optical Burst Switching, IEEE Communications Letters, 2008
  63. Shang T, Chen JP, Li XW, et al. Numerical comparison of multi-pump Raman amplifiers based on photonic crystal fiber and standard single mode fiber  MODERN PHYSICS LETTERS B 21 (2-3): 115-122 JAN 30 2007
  64. Zhou JH, Chen JP, Jaouen Y, TYi LLT (Yi, Lilin), TLi XWT (Li, Xinwan), TPetit HT (Petit, Herve), TGallion PT (Gallion, Philippe). A new frequency model for the pump-to-signal RIN transfer in Brillouin fiber amplifiers  IEEE PHOTONICS TECHNOLOGY LETTERS 19 (13-16): 978-980 JUL-AUG 2007
  65. Zhou JH, Chen JP, Li XW, et al. Frequency domain model to calculate the pump to signal RIN transfer in multi-pump Raman fiber amplifiers OPTICS EXPRESS 14 (23): 11024-11035 NOV 13 2006
  66. Shi CH, Chen JP, Li XW, et al.,Directivity of the magnetostrictive fiber-optic interferometric transducers,IEEE SENSORS JOURNAL6 (5): 1191-1194 OCT 2006
  67. Wang YP, Wang DN, Jin W, et al., Reflectometry measuring refractive index and thickness of polymer samples simultaneously, JOURNAL OF MODERN OPTICS53 (13): 1845-1851 SEP 10 2006
  68. Zheng FG, Chen JP, Li XW, et al., Morphotropic phase boundary (MPB) effect in Pb (Zr,Ti)O-3 rhombohedral/tetragonal multilayered films, MATERIALS LETTERS 60 (21-22): 2733-2737 SEP 2006
  69. Zhou JH, Chen JP, Li XW, et al., Exact analytical solution for Raman fiber laser , IEEE PHOTONICS TECHNOLOGY LETTERS18 (9-12): 1097-1099 MAY-JUN 2006
  70. Shi CH, Chen JP, Wu GL, et al., Stable dynamic detection scheme for magnetostrictive fiber-optic interferometric sensors, OPTICS EXPRESS 14 (12): 5098-5102 JUN 12 2006
  71. Zhou JH, Chen JP, Li XW, et al., Robust, compact, and flexible neural model for a fiber Raman amplifier,JOURNAL OF LIGHTWAVE TECHNOLOGY 24 (6): 2362-2367 JUN 2006
  72. Zheng FG, Chen JP, Li XW, Improved dielectric and ferroelectric characteristics of highly (111)-oriented Pb(Zr0.52Ti0.48)O-3 films produced by sol-gel method, ACTA PHYSICA SINICA 55 (6): 3067-3072 JUN 2006
  73. Shen H, Chen JP, Li XW, et al., Group delay and dispersion analysis of compound high order microring resonator all-pass filter, OPTICS COMMUNICATIONS 262 (2): 200-205 JUN 15 2006
  74. Zhou JH, Chen JP, Li XW, et al., A novel algorithm for a multi-cavity Raman fiber laser, OPTICS EXPRESS 14 (8): 3427-3432 APR 17 2006
  75. Zheng FG, Chen JP, Li XW, Preparation of transparent ferroelectric Pb0.92La0.08TiO3 thick films on ITO-coated glass substrates by sol-gel route, JOURNAL OF INORGANIC MATERIALS21 (2): 459-465 MAR 2006
  76. Ou F, Cao ZQ, Chen JP, et al.,Analysis of bound-state spectra near the threshold of neutral particle interaction potentials,PHYSICS LETTERS A 352 (1-2): 133-137 MAR 20 2006
  77. Zhou JH, Chen JP, Li XW, et al., Raman induced polarization dependent gain in orthogonally pumped parametric amplifiers,OPTICS EXPRESS 14 (1): 235-242 JAN 9 2006
  78. Jianxun Hong, Jianping Chen, Xinwan Li and Yiping Wang, Effects of the Bias-Controlled Grid on Performance of the Corona Poling System for Electro-Optic Polymers, International Journal of Modern Physics B, Vol. 19, No. 14, pp.2205 -2211, July 2005, 19(14), 2205 -2211 (2005)
  79. Yi-Ping Wang, Jian-Ping Chen, Xin-Wan Li, Xiao-Hong Zhang, Jian-Xun Hong, Ai-Lun Ye, Simultaneous measurement of various optical parameters in multilayer optical waveguide by Michelson precision reflectometer, Optics Letters, Vol. 30, No. 9, pp. 979-981, May 1, 2005, 30(9), 979-981 (2005)
  80. Junhe Zhou, Jianping Chen, Xinwan Li and Wenning Jiang, A Novel Efficient Algorithm for Backward-Pumped Raman Amplifier, Fiber and Integrated Optics, Vol. 24, No. 6, pp.529-535, 2005, 24(6):.529-535, 2005
  81. Changhai Shi, Jianping Chen, Xinwan Li, Ailun Ye, Junhe Zhou, Yi Zhang, Qing Xue, Lin Hong , A Novel Configuration for the Transducer of Magnetostrictive Fiber-Optic Interferometric Sensors, Proc. of SPIE Vol. 6019, pp.1D1-1D7, (2005)
  82. Hao Shen, Jian-Ping Chen, Xin-Wan Li, Yi-Ping Wang, Group Delay and Dispersion Analysis of Compound High Order Microring Resonator All-Pass Filter, Proc. of SPIE Vol. 6019, pp.1M1-1M7, (2005)
  83. Wu, Gui-Ling; Chen, Jian-Ping; Li, Xin-Wan, Performance analysis of optical packet switching employing partially shared buffering and shared wavelength converter,Source: Tien Tzu Hsueh Pao/Acta Electronica Sinica, v 31, n 11, November, 2003, p 1626-1629
  84. Shen, Hao; Li, Xin-Wan; Zhou, Jun-He; Zhang, Xiao-Hong; Wang, Yi-Ping; Chen, Jian-Ping, Filter performance analysis of a tunable Mach-Zehnder interferometer enhanced with a micro-ring resonator array, Source: Guangdianzi Jiguang/Journal of Optoelectronics Laser, v 16, n 6, June, 2005, p 670-673
  85. Shen, Hao; Li, Xin-Wan; Zhou, Jun-He; Zhang, Xiao-Hong; Wang, Yi-Ping; Chen, Jian-Ping, Filter performance analysis of a tunable Mach-Zehnder interferometer enhanced with a micro-ring resonator array, Source: Guangdianzi Jiguang/Journal of Optoelectronics Laser, v 16, n 6, June, 2005, p 670-673
  86. Shi, Changhai; Chen, Jianping; Li, Xinwan;Ye, Ailun; Zhou, Junhe; Zhang, Yi; Xue, Qing; Hong, Lin , A novel configuration for the transducer of magnetostrictive fiber-optic interferometric sensors, Source: Proceedings of SPIE - The International Society for Optical Engineering, v 6019 I, Passive Components and Fiber-based Devices II, 2005
  87. AlSabbagh, Haider M.; Chen, Jianping; Wu, Gulling; Li, Xinwan, Time delay analysis in Wavelength Router Optical Burst Switching (WR-OBS) networks, Source: Journal of Optical Communications, v 26, n 5, October, 2005, p 238-243
  88. Zhou, Junhe; Chen, Jianping; Li, Xinwan, A novel method to optimize optical-fiber Raman amplifiers using equally spaced low-power laser diode pumps, Source: Microwave and Optical Technology Letters, v 40, n 2, Jan 20, 2004, p 124-127
  89. Zhou, Junhe; Chen, Jianping; Li, Xinwan; Jiang, Wenning; Wang, Yiping, A novel pump adjustment method for WDM pumped optical Raman amplifier, Source: Optics Communications, v 248, n 4-6, Apr 15, 2005, p 407-413
  90. Wang Yi-Ping, Chen Jian-Ping; Li Xin-Wan, Zhou Jun-He, Shen Hao, Zhang Xiao-Hong, Ye Ai-Lun, Electro-optic polymer waveguide grating with fast tuning capability, Source: Applied Optics, v 44, n 17, Jun 10, 2005, p 3442-3447
  91. Shi, Changhai; Chen, Jianping; Li, Xinwan; Ye, Ailun; Zhou, Junhe; Zhang, Yi; Xue, Qing; Hong, Lin,Visibility in magnetostrictive fiber-optic interferometric sensors and its dependence on the input SOP, Source: Chinese Optics Letters, v 4, n 1, January, 2006, p 15-17
  92. Wang, Yi-Ping; Chen, Jian-Ping; Li, Xin-Wan; Zhou, Jun-He; Shen, Hao; Shi, Chang-Hai; Zhang, Xiao-Hong; Hong, Jian-Xun; Ye, Ai-Lun, Fast tunable electro-optic polymer waveguide gratings, Source: Wuli Xuebao/Acta Physica Sinica, v 54, n 10, October, 2005, p 4782-4788
  93. Wu, Guiling; Li, Xinwan; Chen, Junfeng; Chen, Jianping, Performance analysis of edge routers for optical burst switching networking, Source: Guangzi Xuebao/Acta Photonica Sinica, v 34, n 3, March, 2005, p 412-415
  94. Zuo, Yu; Wu, Guiling; Guo, Hongtao; Li, Xinwan; Chen, Jianping, Performance of TCP and UDP over optical burst switched networks Source: Gaojishu Tongxin/Chinese High Technology Letters, v 15, n 6, June, 2005, p 10-13
  95. Zheng, FenGang; Chen, JianPing; Li, XinWan; Shen, MingRong, Preparation of transparent ferroelectric PbB0.92BLa B0.08BTiB0.96BOB3B thick films on ITO-coated glass substrates by a sol-gel route, Source: Materials Letters, v 59, n 27, November, 2005, p 3498-3502.
  96. Zhou, Junhe; Chen, Jianping; Li, Xinwan; Wu, Guiling; Jiang, Wenning; Shi, Changhai; Wang, Yiping, A novel algorithm for a multi-cavity Raman fiber laser, Source: Optics Express,v 14, n 8, Apr 17, 2006, p 3427-3432
  97. Hong, Jian-Xun; Chen, Jian-Ping; Li, Xin-Wan; Wang, Yi-Ping; Shi, Chang-Hai, Performance improvement on the measurement of electro-optic coefficients of poled polymers using the optical fiber Mach-Zehdner interferometer, Source: Zhongguo Jiguang/Chinese Journal of Lasers, v 32, n 9, September, 2005, p 1271-1274
  98. Hong, Jianxun; Chen, Jianping; Wang, Yiping; Li, Xinwan, A simplified fiber-optic in-line method to measure the electro-optic coefficient of corona poled polymers, Source: Journal of Polymer Research, v 12, n 2, June, 2005, p 89-92
  99. Wang, Yi-Ping; Chen, Jian-Ping; Li, Xin-Wan; Hong, Jian-Xun; Zhang, Xiao-Hong; Zhou, Jun-He; Ye, Ai-Lun, Measuring electro-optic coefficients of poled polymers using fiber-optic Mach-Zehnder interferometer, Source: Applied Physics Letters, v 85, n 21, November/December, 2004, p 5102-5103
  100. Shen, Hao; Chen, Jian-Ping; Li, Xin-Wan; Wang, Yi-Ping, Group delay and dispersion analysis of compound high order microring resonator all-pass filter, Source: Proceedings of SPIE - The International Society for Optical Engineering, v 6019 I, Passive Components and Fiber-based Devices II, 2005
  101. Wang, Yi-Ping; Chen, Jian-Ping; Li, Xin-Wan; Hong, Jian-Xun; Ye, Ai-Lun, Fiber-optic Mach-Zehnder interferometer measuring electro-optic coefficients of poled polymers, Source: Proceedings of SPIE - The International Society for Optical Engineering, v 5624, Semiconductor and Organic Optoelectronic Materials and Devices, 2004, p 166-171
  102. Hong, Jian-Xun; Chen, Jian-Ping; Li, Xin-Wan; Wang, Yi-Ping, Measurement of linear electro-optic coefficients of poled polymers by an optical fiber M-Z interferometer, Source: Guangdianzi Jiguang/Journal of Optoelectronics Laser, v 16, n 4, April, 2005, p 462-465
  103. Wang, YipingH; Chen, Jianping; Li, Xinwan; Hong, Jianxun; Zhang, Xiaohong; Zhou, Junhe; Ye, Ailun, Testing electro-optic coefficients of poled polymers by fiber-optic Mach-Zehnder interferometer, Source: Guangxue Xuebao/Acta Optica Sinica, v 25, n 10, October, 2005, p 1339-1342
  104. You, ShanhongH; Hao, Sujun; Yin, Zongmin; Li, Xinwan, Analysis and test of bend loss in single-mode fiber, Source: Guangzi Xuebao/Acta Photonica Sinica, v 32, n 4, April, 2003, p 409
  105. You, Shanhong; Li, Xinwan;Yin, Zongmin; Cui, Huaijun; Jiang, Yongjun, CWDM module fabricated by FBT technology, Source: High Technology Letters, v 10, n 3, September, 2004, p 1-5
  106. Zhou, Junhe; Chen, Jianping; Li, Xinwan;Wu, Guiling; Wang, Yiping Polarization effect in parametric amplifier, Source: Chinese Optics Letters, v 3, n 9, September, 2005, p 500-502
  107. Song, Hao; Li, Xinwan; Wu, Guiling; Ye, Ailun; Chen, Jianping, Simulation and analysis on optical burst switched network based on Manhattan street network, Source: Gaojishu Tongxin/High Technology Letters, v 13, n 6, June, 2003, p 9
  108. Wang, Yi-Ping (Haoran Building); Chen, Jian-Ping; Li, Xin-Wan; Ye, Ai-Lun; Zhang, Xiao-Hong; Zhou, Jun-He, Fast tunable electro-optic polymer waveguide gratings, Source: Proceedings of SPIE - The International Society for Optical Engineering, v 5623, n PART 2, Passive Components and Fiber-based Devices, 2004, p 587-593
  109. Wang, Yi-Ping; Chen, Jian-Ping; Li, Xin-Wan; Zhang, Xiao-Hong; Hong, Jian-Xun; Ye, Ai-Lun, Simultaneous measurement of various optical parameters in a multilayer optical waveguide by a Michelson precision reflectometer, Source: Optics Letters, v 30, n 9, May 1, 2005, p 979-981
  110. Wang, Hui; Chen, Jianping; Wu, Guiling; Li, Xinwan; Lu, Jialin; Li, Zhe; Zhang, Ruibo, Novel assembly algorithm for OBS edge routers, Source: Gaojishu Tongxin/High Technology Letters, v 14, n 9, September, 2004, p 7
  111. Zhou, Jun-He; Chen, Jian-Ping; Li, Xin-Wan, Algorithm to analyze backwardly pumped Raman amplifiers, Source: Shanghai Jiaotong Daxue Xuebao/Journal of Shanghai Jiaotong University, v 38, n 11, November, 2004, p 1854-1856
  112. Wang, Yi-Ping; Chen, Jian-Ping; Li, Xin-Wan; Hong, Jian-Xun; Zhang, Xiao-Hong; Zhou, Jun-He; Ye, Ai-Lun, Measuring electro-optic coefficients of poled polymers using fiber-optic Mach-Zehnder interferometer, Source: NIST Special Publication, NIST Special Publication - Technical Digest: Symposium on Optical Fiber Measurements, 2004, 2004, p 59-61
  113. Pu, Hong-Ting; Jiang, Wei-Chun; Li, Xin-Wan;Chen, Jian-Ping; Qin, Lu-Ping, Studies on tunable F-P cavity based on doped unsaturated polyester, Source: Gongneng Cailiao/Journal of Functional Materials, v 36, n 1, January, 2005, p 118-120
  114. Zhou, Junhe; Chen, Jianping; Li, Xinwan; Wu, Guling; Wang, Yiping; Jiang, Wenning, Raman induced polarization dependent gain in orthogonally pumped parametric amplifiers, Source: Optics Express, v 14, n 1, Jan 9, 2006, p 235-242
  115. You, Shanhong; Li, Xinwan; Wu, Jianhong; Yin, Zongmin; Tang, Minxue, Tunability of nonuniform reflection holographic filter, Source: Chinese Optics Letters, v 1, n 2, February, 2003, p 71-73
  116. You, Shanhong; Li, Xinwan;Chen, Jianping; Yin, Zongmin; Ye, Ailun, A novel all-optical switch based on Fabry-Perot cavity, Source: Proceedings of SPIE - The International Society for Optical Engineering, v 5280 I, APOC 2003: Asia-Pacific Optical and Wireless Communications: Materials, Active Devices, and Optical Amplifiers, 2003, p 382-388
  117. Zhou, Junhe; Chen, Jianping; Li, Xinwan, Novel fast algorithm for backward-pumped Raman amplifier, Source: Proceedings of SPIE - The International Society for Optical Engineering, v 5623, n PART 2, Passive Components and Fiber-based Devices, 2004, p 711-718
  118. Jiang, Wen-Ning; Chen, Jian-Ping; Li, Xin-Wan; Shang, Tao, Theoretical analysis on double Rayleigh backscattering noise in optical fibre Raman amplifiers and its suppression, Source: Chinese Physics, v 13, n 9, Sep 1, 2004, p 1460-1463
  119. Hong, Jianxun; Chen, Jianping; Li, Xinwan; Wang, Yiping; Zhou, Junhe, Effects of the bias-controlled grid on performance of the corona poling system for electro-optic polymers, Source: Gaojishu Tongxin/High Technology Letters, v 14, n 10, October, 2004, p 7
  120. You, Shanhong; Li, Xinwan; Ge, Wenping; Ye, Ailun; Yin Z., ZongminSimulation study of optical burst switching nodes, Source: Proceedings of SPIE - The International Society for Optical Engineering, v 4907, 2002, p 331-336
  121. He, Shuo; Li, Xin-Wan; Ye, Ai-Lun; He, Wan-Xun; Song, Hao, Fabrication of all-fiber broadband-rejection filters based on asymmetric fiber deformation, Source: Guangdianzi Jiguang/Journal of Optoelectronics Laser, v 13, n 2, February, 2002, p 155-158
  122. He, Shuo; Li, Xinwan; Ye, Ailun; He, Wanxun; Song, Hao, Novel method for fabrication long period fiber grating, Source: Chinese Journal of Lasers B (English Edition), v 11, n 2, April, 2002, p 117-120
  123. You, Shanhong; Li, Xinwan; Yin, Zongmin; Zeng, Qingji; Cui, Huaijun; Jiang, Yongjun,CWDM passive components fabricated by FBT technology, Source: Proceedings of SPIE - The International Society for Optical Engineering, v 4870, 2002, p 540-547
  124. You, Shan-Hong; Li, Xin-Wan; Wu, Jian-Hong; Yin, Zong-Min; Tang, Min-Xue,Tunability of non-uniform reflection holographic filter, Source: Guangdianzi Jiguang/Journal of Optoelectronics Laser, v 13, n 9, September, 2002, p 893-896
  125. Liu, Qing; Li, Xinwan; Ye, Ailun; Du, Pengchao,Cladding mode field distribution and coupling coefficients in long-period fiber grating, Source: Shanghai Jiaotong Daxue Xuebao/Journal of Shanghai Jiaotong University, v 34, n 2, Feb, 2000, p 201-204, 208
  126. Yin, Zongmin; Li, Xinwan;Yu, Xiaojian, Fiber-optic filtering under-radiation, Source: Shanghai Jiaotong Daxue Xuebao/Journal of Shanghai Jiaotong University, v 29, n 6, Nov, 1995, p 88-90
  127. Wu, Keqin; Zhou, Jiong; Xu, Deming; Li, Xinwan; Song, Liepu; Bao, Jiashan, Generation and detection of ultrafast electromagnetic pulses radiation, Source: Tien Tzu Hsueh Pao/Acta Electronica Sinica, v 25, n 9, 1997, p 60-63
Issued Patents
  1. Lower loss polarization insensitive micro/nano fiber fabrication method, Chinese Patent Application No: 201010177844.5, inventor of application: Hong Z.H., Li X.W, et al.
  2. The shelf structure of II, Chinese Patent Application No: 200910120063.X, inventor of application: Wu K., Li X.W.
  3. Mechanically precisely tunable fiber delay structure, Chinese Patent Application No: 200910050780.X, inventor of application: Li M., Guo P., Wu G.L., Li X.W, Chen J.P.
  4. Multiple space division Photonic ADC, Chinese Patent Application No: 200910312504.6, inventor of application: Wu G.L.,Li M., Guo P., Li X.W, Chen J.P.
  5. Multiple cascaded optical time division multiplexing based on 3, Chinese Patent Application No: 200810038845.4, CN101296051,inventor of application: Li Xinwan, Chen Jianping
  6. Multiple cascaded optical time division multiplexing based on 3, Chinese Patent Application No: 200810038845.4, CN101296051, inventor of application: Li Xinwan, Chen Jianping, et. al, Application date: 2008
  7. Wu Guiling,Chen Jianping,Li Xinwan,Qian Wenjun,Liu Yue,Resilient Optical Burst Ring Failure Protecting Method, Apparatus And Failure Processing Method,Application number: EP20060817964 20061207,Publication number: EP1998503 (A1),Publication date: 2008-12-03,European Patent
  8. Measurement method of multiple optical parameters in optical waveguide simultaneously, Chinese Patent Application No: 200410084314.0, inventor of application: Wang Yiping , Chen Jianping, Li Xinwan, issued date: May 09, 2007
  9. A method of measuring polymer film refractive index and depth with precision reflectometor, Chinese Patent Application No: 200410084315.5, inventor of application: Wang Yiping , Chen Jianping, Li Xinwan, issued date: June 06, 2007
  10. Tunable wavelength selective and locking DWDM Mutiplexer/demultiplexer, Chinese Patent No: ZL 2004100544007, inventors: Li Xinwan, Chen Jianping, Ye Ailun, Issued date:Feb.22, 2006
  11. A implementation method of optical burst switching connection control, Chinese Patent No: 200410053484, inventors: Wu Guiling, Chen Jianping, Li Xinwan, Issued date: Aug. 23,2006
  12. Adaptive channel reservation and searching method in optical burst switching, Chinese Patent No: 200410053661.7,2, inventor: Wu Guiling, Chen Jianping, Li Xinwan, Issued date: Aug. 23,2006
  13. Optical controllable wavelength selective optical switch, Chinese Patent, No: ZL03 1 50471.X , inventor: You Shanhong, Li Xinwan,Ye Ailun, Yon Zongmin, Chen Jianping,issued date: June 22,2005
  14. Fast tunable wavelength selective optical switch, US Patent No: US6,868,199 B2, inventor: Li Xinwan, Ye Ailun, Chen Jianping, issued date: March 15, 2005
  15. Magnetostrictive optical fiber Mach-Zehnder interferometer magnetic field sensor, Chinese Patent Application No: 200510029291.8, inventor of application: Shi Changhai, Li Xinwan, Chen Jianping, Ye ailun, Application date: 2005
  16. Tunable wavelength selective 2 by 2 optical switch, Chinese Patent, No: ZL 02 1 37254.3 , inventor: Li Xinwan, Ye Ailun, Chen Jianping, issued date: November. 17, 2004
  17. Long period optical fiber grating wide band rejection filter, Chinese Patent, No: ZL00115738.8, inventor: Ye Ailun, Li Xinwan, issued date: April 18,2004
  18. Wideband single mode 4X4 optical switch matrix, Chinese Patent, No: ZL99 1 25743.X , inventor: Li Xinwan, Ye Ailun, issued date: March 17,2003
Books
  1. Xinwan Li,<Information Materials>,National ninth-five plan key books,[21st century new materials series], General editor:Gan Fuxi,Contribution: in Section 4 of Chapter 5, topic: optical fiber materials
  2. Xinwan LI, IEEE Senior member, Jianping CHEN, Zehua HONG,Shuguang LI , Digitally Fast Programmable Optical Signal Processing Devices,one chapter of book: Optical fiber, new development, In-tech Inc. 2010, 27 printed pages, ISBN 978 953 7619 50 3
As Project Principal
  1. "The sand dust monitor and desert information detection in hinterland of desert", International Cooperation of Science & Technology Program, Ministry of Science and Technology(MOST), ID:2011DFA11780, 2012-2014, RMB 4750,000, Project Principal
  2. "Design of PLC splitter", Shanghai HONGHUI Optical Device and Materials Company, 2011-2012, RMB970,000, Project Principal
  3. "The simplified II", The Fluid Mechanics and Physics Institute, CAE, 2010-2011, RMB 120,000, Project Principal
  4. "The precise measurement method with laser length measurement", No.6354 Institute of China Ship Group Company, RMB280,000, 2010,Project Principal
  5. "The novel structure of digital wavelength selective optical switch and modulator", National Science Fund of CHINA ID No: 60877012, 2009-2011, RMB350,000, Project Principal
  6. "Optical signal processor for xxx application", XXX, 2009-2010,RMB200,000, Project Principal
  7. "Fiber Image Device", XXX, 2006-2011, ID: JPPT- xxx, RMB 2,250,000, Project Principal
  8. "Plasma optical surface wave ", National Key Lab Fund, 2007-2010, RMB500,000, Project Principal
  9. "Digitally wavelength optical switching and optical signal processing", National High Technology Program(863), ID No.: 2006AA01Z242, 2006-2008, RMB600,000, Project Principal
  10. "Digitally optical signal processing", ShuGuang (Dawn) Excellent Scholarship by Shanghai Municipal Education Committee, 2007-2008, RMB 120,000, Project Principal
  11. "Optical fiber delay lines", XXX, 2006-2008, RMB 200,000, Project Principal
  12. "Fast wavelength tunable selective optical switch", National Science Fund of CHINA, ID No.: 60377013, 2004-2006, RMB 230,000, Project Principal
  13. "Study of fast wavelength selective optical switch", Science & Technology Committee of Shanghai Municipal, Fund No.: 036105009,2004-2005, RMB200,000, Project Principal
  14. "Optical burst switching Technology based on wavelength variable bandpass thin film filter", National High Technology Program(863),ID No.:2001AA122074,2001-2003, RMB300,000, Project Principal
  15. "OBS experiment and key technology", Science & Technology Committee of Shanghai Municipal, Fund No.: 022261001, 2002-2004,RMB400,000, Project Principal
  16. "Study on Optical burst switching Technology based on wavelength variable bandpass thin film filter", Science & Technology Committee of Shanghai Municipal, Fund No. :012261022, 2001-2004, RMB300,000, Project Principal
  17. "1*N mechanical optical switch", Science & Technology Committee of Shanghai Municipal, Fund No. : 005115032, 2000-2001, RMB500,000, Project Principal
  18. "MZ interferometer magnetic field sensor mathematical model ", part of The National Basic Research Program (also called 973 Program) in China, 2004, RMB 46,000, Project Principal of sub branch in the project
  19. "Optical switch Matrix and its application in LAN", National xxx Project, 1996-2000, RMB 250,000, Project Branch Principal
  20. "Optical ATM network", Shanghai Jiaotong University Fund, 1999-2000, RMB 10,000, Project Principal
  21. "Bank display system for China Construction Bank in Pudong Branch", China Construction Bank in Pudong Branch, 1995-1996, RMB 146,000, Project Principal on Duty
  22. "Bank display system and interconnection for China Construction Bank in Pudong Qili Branch", China Construction Bank in Pudong, 1996-1997, about RMB 60,000, Project Principal
  23. "Multimedia Searching system for bank mortgage in Pudong Branch", China Construction Bank in Pudong,1996-1997, RMB 46,000, Project Principal
  24. "Display system for XinJiang Airline", XinJiang Airline, 1996-1997, RMB 60,000, Project Principal
Invited Discussant
  1. Xinwan Li, The Fourth International Workshop on Optical Burst Switching (WOBS), Discussion topic: The optical burst switching test-bed based on wavelength selective optical switches", 29 May 2005, Chongqing, China
Invited Talks
  1. Xinwan Li, Review on Display Panel-based Undersea Visual Light Communications,International Symposium on Emerging Short Range Communications, June 30, 2011, Room 1-312, FIT Building, Tsinghua University, China
  2. Xinwan Li, Intelligent desert: the key to understand of desert, together with the introduction of the project on sand dust monitoring and desert information detecting in hinterland of desert by International S&T Cooperation Program in China (ISTCP) (2011DFA11780), Dec.4, 2011, Xi An Jiaotong Univ
  3. Xinwan Li, Intelligent desert: the key to understand of desert, together with the introduction of the project on sand dust monitoring and desert information detecting in hinterland of desert by International S&T Cooperation Program in China (ISTCP) (2011DFA11780), Dec.5, 2011, Lanzhou Univ
  4. Guiling Wu, Ming Li, Pan Guo, Xinwan Li, Member, IEEE and Jianping Chen, Multi-wavelength Space Multiplexing Photonic A/D Converters, APCC2010, Oct 14-16, 2010, shanghai
  5. Jianping Chen, Xiaowei Shen, Zehua Hong, Xinwan Li, Nanostructure optical-fiber-based devices for optical signal processing, OECC2010, July 8, 2010, Japan
  6. Xinwan Li, Jianping Chen, Can the communications and sensors work together in one network?, The First International Conference on Photonics and OptoElectronics Meetings(POEM2008), 24-27th November,2008, Wuhan, China
  7. Xinwan Li, Jianping Chen, Guiling Wu, The optical burst switching test-bed based on wavelength selective optical switches, The Fourth International Conference on Optical Internet (COIN 2005), 29 May - 2 June 2005, Chongqing, China
Conference Chairs
  1. General co-chair of the 2nd International Workshop on Future Intelligent desert (FIT2012), be hold on Oct. 26th-28th, 2012, Shanghai(QianXuesen Lib. Of Shanghai Jiaotong Univ.), China, http://www.ofs2.sjtu.edu.cn/fit2012.html , IET sponsor.
  2. TPC member of 18th Asia-Pacific Communication Conference (APCC2012),be hold on October 15th-17th, 2012,Jeju island, Korea,http://apcc2012.org/main/ , IEEE sponsor
  3. TPC member of IEEE Sensors 2012, Oct. 28th-31st, 2012, Taibei, China, http://ieee-sensors2012.org/ , IEEE sponsor.
  4. TPC member of Asia Conference on Phonics (ACP 2012), 7th-10th November, 2012, Guangzhou,http://www.acp-conf.org/ , IEEE sponsor
  5. General co-chair of the 1st International Workshop on Future Intelligent desert (FIT2011), August 14th-16th, 2011, Yinchuan, China, http://www.ofs2.sjtu.edu.cn/fit2011.html, IEEE sponsor
  6. Technical Program Committee(TPC) Co-Chair of 19th Wireless and Optical Communications Conference (WOCC2010), May 14th -15th, 2010, in Zhangjiang, Pudong, Shanghai, http://www.wocc2010.sjtu.edu.cn/, IEEE IES sponsor
  7. Track Chair of Optical communications for 16th Asia-Pacific Communication Conference (APCC2010), Oct. 31st -Nov. 3rd, 2010, in Auckland, New Zealand, http://ciri.org.nz/ sense/apcc2010/committees.html, IEEE sponsor
  8. Track Chair of Optical communications for 15th Asia-Pacific Communication Conference (APCC2009), Oct. 8th -10th, 2009, in Shanghai, http://www.apcc2009.sjtu.edu.cn/, IEEE sponsor
As Project Main Attendant
  1. "Silicon based photonics devices", The Key fundamental project of Shanghai Science and Technology Committee, ID:10DJ1400402,2010-2013, RMB 750,000, key researcher
  2. "Photonic signal processing chip", 973 Project of Ministry of Science and Technology(MOST), ID:2011CB301700,2011-2015, RMB 3280,000(for the period of 2011-2012), key researcher
  3. "OBS experiment and key technology", National High Technology Program(863), No.: 2002AA122022, 2002-2004, RMB500,000
  4. "Wideband Raman optical fiber amplifier", Science & Technology Committee of Shanghai Municipal, Fund No.: 012261009, 2001-2003, RMB600,000
  5. "IP oriented OBS protocol and key technologies", National Science Fund of CHINA, No.: 90204006,2003-2005, RMB300,000
  6. "MZ interferometer magnetic field sensor ", part of The National Basic Research Program (also called 973 Program) in China, 2004, RMB 98,000
  7. "Optical fiber transmission system for picture, voice, and data in 6000 sea depth", National High Technology Program(863),2002-2003, RMB 80,000
  8. "Long period fiber grating", Science & Technology Committee of Shanghai Municipal, 1999-2001, RMB 100,000
  9. "Optical amplifier and Transmission in WDM system", Science & Technology Committee of Shanghai Municipal, Fund No.: 00JC14026, 2000-2002, RMB 300,000
  10. "All optical network analysis and software design key technologies", Science & Technology Committee of Shanghai Municipal, 1997-1999, RMB 150,000
  11. "Intelligent Display technology", Science & Technology Committee of Shanghai Municipal,1995-1997, RMB 78,000
  12. "Optical Fiber Channel Coupling for FengYun Meteorological Satelliate (02,Standard) ", Shanghai Applied Physics Institute, CAS, 1996-1999, RMB 150,000
  13. "Optical Fiber Channel Coupling for FengYun Meteorological Satelliate (02,Basic) ", Shanghai Applied Physics Institute, CAS,1993-1996, RMB 98,000
  14. "Development of Optical fiber coupler manufacture", Jiangsu ZhongTian Optical Cable Co., 1999-2000, RMB 250,000
Referee of Journals for
  1. IEEE/OSA Journal of Lightwave Technology (SCI source)
  2. OSA Journal of Optical Networking (EI source)
  3. Journal of Photonic Technology Letter (SCI source)
  4. Chinese Optics Letters (EI source)
  5. Tien Tzu Hsueh Pao/Acta Electronic Sinica (SCI-E source)
  6. Guangxue Xuebao/Acta Optic Sinica (EI source)
  7. Gaojishu Tongxin/High Technology Letters (EI source)
  8. Frontiers of Optoelectronics in China

 

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