Xiao ShilinProfessor

Address:上海市东川路800号电信群楼 5-509

Phone:+86 21 34205052


Research Center:

Shilin Xiao received his M. S. degree from the University of Electronic Science and Technology of China, Chengdu, China, in 1988 and ph. D. degree from Shanghai Jiaotong University (SJTU), Shanghai, China, in 2003. From 1988 to 1999, he worked with the Guilin Institute of Optical Communications and obtained the technical titles: senior engineer in 1995 and professor in 1999. Since 2000, he has joined the State Key Laboratory of Advanced Optical Communication Systems and Networks, SJTU. His major research interests include optical communications, especially optical switching and passive optical networks, optical devices and sensors. He has conducted a series of projects, such as optical switching, EDFA, optical wavelength-division multiplexing, coherent optical communication, optical fiber sensors, and all optical communications, and has published more than 90 papers in technical journals and conferences. He is currently a professor at SJTU, and a senior member of the Chinese Institute of Electronics and the Optical Society of China.
Research Areas
1.Optical communication networks
2.Optoelectronic components and sensors
3.The state key lab of advanced optical communication systems and networks: https://loct.sjtu.edu.cn/
4.Future Ready Optical Network Technology Research Group (FRONT): https://front.sjtu.edu.cn/
1.Optical communication networks
2.Optoelectronic components and sensors
1.C034725: ?“Optical Switching and All Optical Communications”, autumn
2.SP072: “Fiber Communication and All Optical Network”, Spring
Selected Publications
1.Shilin Xiao, Zhao Zhou, Meihua Bi, Min Zhu, He Chen. Evolution scenarios for passive optical access networks [Invited], in Proc. IEEE ICICS 2011, pp. 1-5, Dec. 2011
2.Min Zhu, Shilin Xiao, Zhao Zhou, Wei Guo, Lilin Yi, Meihua Bi, Weisheng Hu, and Benoit Geller. An upstream multi-wavelength shared PON based on tunable self-seeding Fabry-Pérot laser diode for upstream capacity upgrade and wavelength multiplexing, OSA Optics Express, 2011, 19(9): 8000-8010
3.He Chen, Shilin Xiao, Lilin Yi, Zhao Zhou, Min Zhu, Jie Shi, Yi Dong, Weisheng Hu. A tunable encoder/decoder based on polarization modulation for the SAC-OCDMA PON, IEEE Photonics Technology Letter, 2011, 23(11):748-750
4.Jie Shi, Shilin Xiao, Lilin Yi, He Chen. Temperature and Strain Discrimination Using Two Parallel Connected Sagnac loops Based on Character-1 Shaped Polarization-Maintaining Fiber, Optics Communications, 2012, 285(4): 418-420
5.He chen, Shilin Xiao, Yi Lilin, Shi Jie, Pei Yang, Dong Yi, Hu Weisheng. A complementary decoder based on polarization modulation for the SAC-OCDMA PON. IEEE Photonics Technology Letter, 2012, 24(5): 335-337
6.Meihua Bi, Shilin Xiao, Li Wang. Joint Subcarrier Channel and Time Slots  Allocation Algorithm in  OFDMA Passive Optical Networks. Optics Communications, 2013, 287: 90-95
7.Shi J., Xiao S., Bi M. In-series singlemode thin-core diameter fibres for simultaneous temperature and strain measurement, ELECTRONICS LETTERS, JAN 2012, 48(2): 93-95
8.Min Zhu, Shilin Xiao, Zhao Zhou, Meihua Bi. Tunable Self-Seeding Fabry-Perot Laser Diode for Upstream Multi-Wavelength Shared EPON, SPIE Optical Engineering, 2011, 50(3): 035003- 1-4
9.Jie Shi, Shilin Xiao et al. Discrimination between strain and temperature by cascading single-mode thin-core diameter fiber, Applied Optics, 2012, 51(14): 2733-2738
10.Haifeng Zheng, Shilin Xiao, Xinbing Wang, Xiaohua Tian. Energy and Latency Analysis for In-network Computation with Compressive Sensing in Wireless Sensor Networks. in Proc. IEEE INFOCOM, pp.2811-2815, March 2012
11.Jie Shi, Shilin Xiao et al. A Sensitivity-enhanced refractive index sensor by using single-mode thin-core fiber incorporating an abrupt taper, Sensors, 2012, 12(4): 4697-4705
12.Haifeng Zheng, Shilin Xiao, Xinbing Wang, Xiaohua Tian. On the Capacity and Delay of Data Gathering with Compressive Sensing in Wireless Sensor Networks. in Proc. IEEE GLOBECOM 2011, Houston, USA , December 2011
13.Min Zhu, Shilin Xiao, Zhao Zhou, Wei Guo, Lilin Yi, Weisheng Hu. Upstream Multi-Wavelength Shared PON with Wavelength-Tunable Self-seeding Fabry-Perot Laser Diode, in Proc. IEEE/OSA OFC 2011, California, March 2011, OThK3
14.Zhixin Liu, Shilin Xiao, Lei Cai, and Zheng Liang. Multi-format receiver for non-return-to-zero binary-phase-shift-keyed and non-return-to-zero amplitude-shit-keyed signals. Optics Express, 2009, 17(4): 2918-2925
15.Zheng Liang and Shilin Xiao. Performance Evaluation of Single-Wavelength Fiber Delay Line Buffer with Finite Waiting Places. IEEE/OSA Journal of Lightwave Technology, 2008, 26(5): 520 – 527
16.Rui Deng, Yujie Zhou,"Improvement to Montgomery Modular Inverse Algorithm",IEEE Transactions on computers,September 2006(Vol.55, No.9), pp. 1207-1210
17.Dandan Zhao, Yujie Zhou, Dayong Wang, Junfa Mao. Effective macroblock layer rate control algorithm for H.264/AVC[J]. Computers and Electrical Engineering. 2011, 37(4):550-558
18.Dandan Zhao, Yujie Zhou, Dayong Wang, Junfa Mao. An efficient intra-frame rate control algorithm for H.264/AVC video coding[J]. Journal of Wu Han University (Science). 2012.
19.Dandan Zhao, Yujie Zhou, Dayong Wang, Junfa Mao. Adaptive current buffer fullness ratio-based intra-frame rate control for H.264/AVC. The Asia Pacific Conference on Postgraduate Research in Microelectronics & Electronics (PrimeAsia2009). 2009, 306-308.
20.Dandan Zhao, Yujie Zhou, Dayong Wang, Junfa Mao. Adaptive cross-diamond search algorithm for fast block motion estimation in H.264. International Conference on Information Science and Engineering (ICISE2009). 2009, 1116-1119.
21.Dandan Zhao, Yujie Zhou, Dayong Wang, Junfa Mao. Variable GOP length rate control algorithm for H.264 based on scene change detection. International Conference on Electric Information and Control Engineering (ICEICE2012).
22.Dayong Wang, Yujie Zhou, Dandan Zhao, Junfa Mao. A wavelet domain fingerprinting for video content identification[J]. Advanced Science Letters. 2012.
23.Dayong Wang, Yujie Zhou, Dandan Zhao, Junfa Mao. Perceptual video content identification based on relative orientation invariant between geometric centroid[J]. International Review on Computers and Software.2011, 6(6):1140-1145.