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光正交频分复用通信的原理、关键技术及其应用 被引量:4

Principle,key technologies and applications of optical orthogonal frequency division multiplexing communication system
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摘要 光正交频分复用技术是一种将电域正交频分复用与光纤通信技术相结合的新型光通信技术,具有高频谱利用率、有效抵抗光纤链路中的色度色散、偏振模色散和非线性效应等优点,在大容量、长距离光纤通信系统和光接入网中有着广阔的应用前景。介绍了光正交频分复用(O-OFDM)系统的工作原理、结构及其关键技术的国内外研究现状,讨论了O-OFDM应用有待深入研究的技术和问题,展望了O-OFDM技术的发展趋势和应用前景。 Optical orthogonal frequency division multiplexing(O-OFDM) technology is a novel optical com- munication technology which combines electrical OFDM technology and optical fiber communication tech- nology. O-OFDM will be widely employed in the large-capacity and long-haul fiber-optic communication systems and optical access networks because of its high frequency efficiency, effective resistance to the chro- matic dispersion, polarization-mode-dispersion and non-linear effects. The principles, structures and key technologies for O-OFDM at home and abroad are introduced. The technologies and theoretical problems to be studied for O-OFDM applications are discussed and moreover, the future development trends and application prospects of O-OFDM technologies are penetrated.
作者 殷洪玺 王一名
机构地区 大连理工大学信息与通信工程学院
出处 《量子电子学报》 CAS CSCD 北大核心 2011年第6期641-647,共7页 Chinese Journal of Quantum Electronics
基金 国家自然科学基金(60772001 61071123) 区域光纤通信网与新型光通信系统国家重点实验室(北京大学)开放基金项目资助
关键词 光通信 光正交频分复用 调制/解调 峰-均功率比 optical communication optical orthogonal frequency division multiplexing modulation anddemodulation peak-average power ratio
分类号 TN919 [电子电信—通信与信息系统]
  • 相关文献

参考文献27

  • 1Shieh W. OFDM for adaptive ultra high-speed optical networks [C]. OFC, 2010, OWO1.
  • 2Wang Yumin. Key Technologies and Applications for OFDM (OFDM/关键技术与应用) [M]. Beijing: China Machine Press, 2006 (in Chinese).
  • 3Shao Yufeng, Huang Bo, et al. A novel subcarrier OFDM-MSK WDM passive optical network [C]. OFC, 2010, OTu04.
  • 4Zhao J, et aI. A novel optical fast OFDM with reduced channel spacing equal to half of the symbol rate per ember [C]. OFC, 2010, OMR1.
  • 5Hillerkuss D, Schellinger T, et al. Single source optical OFDM transmitter and optical FFT receiver demonstrated at line rates of 5.4 and 10.8 Tbit/s [C]. OFC, 2010, PDPC1.
  • 6Liu Xiang, Chandrasekhar S, et al. Transmission of a 448 Gb/s reduced-guard-interval CO-0FDM signal with a 60 GHz optical bandwidth over 2000 km of ULAF and five 80-GHz-Grid ROADMs [C]. OFC, 2010, PDPC2.
  • 7Takahashi Hidenori, et al. Required resolution of digital-analog-converter for optical OFDM [C]. OFC, 2010, JThA4.
  • 8Tang Chao, Chen Hongwei, et al. 200 Gs/s real-time optical-sampling-based orthogonal frequency division mul- tiplexing system [C]. OFC, 2010, OWO5.
  • 9Buchali F, et aI. Realization of a real-time 12.1Gb/s optical OFDM transmitter and its application in a 109Gb/s transmission system with coherent reception [C]. ECOC, 2009, PD2.1.
  • 10谢小芳,童峥嵘,万人玮,杨秀峰,薛玉明.相干光正交频分复用系统定时同步的改进算法[J].光电子.激光,2010,21(6):871-874. 被引量:10

二级参考文献37

  • 1郭中梅,殷洪玺,徐安士,王子宇.一种用于高速DWDM系统的色散补偿新方案[J].光电子.激光,2005,16(3):307-309. 被引量:3
  • 2张霁宇,陈明华,张琦.40 Gb/s CSRZ码系统下的自适应PMD补偿实验[J].光电子.激光,2006,17(9):1092-1095. 被引量:4
  • 3李岩,章锦,于晋龙,张以谟,井文才,周革,贾大功.一种40Gbit/s光纤通信系统中的动态色度色散补偿技术[J].光电子.激光,2006,17(10):1216-1219. 被引量:8
  • 4Lowery A J, Du L, Armstrong J. Orthogonal frequency division multiplexing for adaptive dispersion compensation in long haul WDM systems [A]. OFC 2006 [C]. Anaheim, CA:OSA,2006.
  • 5Kobayashi T, Sano A, Yamada E, et al. Electro-optically multiplexed 110 Gbit/s optical OFDM signal transmission over 80 km SMF without dispersion compensation [J]. Electronics Letters, 2008,44(3) :225 - 226.
  • 6Ma Y, Shieh W, Yi X. Characterisation of nonlinearity performance for coherent optical OFDM signals under influence of PMD [J]. Electronics Letters, 2007, 43(17) :943 - 945.
  • 7Pizzinat Anna, Urvoas Pierre, Charbonnier Benoit. 1.92 Gbit/s MB-OFDM ultra wide band radio transmission over low bandwidth multimode fiber [A]. OFC 2007[C]. Anaheim, California: OSA, 2007. OThM6 in Technical Digest.
  • 8Lin Yu-Min. Demonstration and design of high spectral efficiency 4 Gb/s OFDM system in passive optical networks[A]. OFC 2007 [C]. Anaheim, California: OSA, 2007. OThD7 in Technical Digest.
  • 9Jansen Sander L , Morita Itsuro , Tanaka Hideaki . 16×52. 5-Gb/s,50-GHz spaced, POLMUX-CO- OFDM transmission over 4 160 km of SSMF enabled by MIMO processing [A]. OFC/NFOEC 2008 [C]. San Diego, CA, USA:OSA, 2008. PD1.3 in Technical Digest.
  • 10Qian Dayou , Hu Junqiang , Ji Philip Nan , et al . 10 Gb/sOFDMA-PON for Delivery of Heterogeneous Serviees [A]. OFC/NFOEC 2008[C]. San Diego,CA, USA:OSA, 2008. OWH4 in Technical Digest.

共引文献19

同被引文献36

  • 1张显全,祝英俊,孙容海,刘潘梅.基于位平面的彩色图像大容量信息隐藏方法[J].光电子.激光,2009,20(8):1092-1095. 被引量:10
  • 2王桂艳,马社祥,赵朝霞.基于整数小波变换和纠错编码的信息隐藏算法[J].光电子.激光,2007,18(10):1248-1251. 被引量:4
  • 3LOWERY A J, DU L, ARMST RONG J. Orthogonal frequency divi- sion multiplexing for adaptive dispersion com- pensation in long haul WDM systems [A]. OFC 2006 [C]. Anaheim, CA :OSA ,2006.
  • 4KOBAYASHI T, SANO A, YAMADA E, et al. Electrooptically multi- plexed 110 Gbit/s optical OFDM signal transmission over 80km SMF with-out dispersion compensation[J].Electronics Letters, 2008,44(3):225-226.
  • 5MA Y, SHIEH W, YI X. Characterisation of nonlinearity performance for coherent optical OFDM signals under influenceofPMD [J].Electron- ies-Letters,2007,43( 17):943-945.
  • 6PIZZINAT Anna, URVOAS Pierre, CHARBONNIER Benoit. 1.92 Gbiff s MB-OFDM ultra wide band radiot, transmission over low bandwidth mul- timode fiber[A]. OFC 2007[C]. Anaheim, California : OSA, 2007. OThM6 in Technical Digest.
  • 7LIN Yu-Min. Demonstration and design of high spectral efficiency 4Gb/s OFDM system in passive optical networks [A]. OFC 2007 [C]. Anaheim ,California :OSA, 2007. OThD7 in Technical Digest.
  • 8SHIEH W, BAO H, T1NG Y. Coherent optical OFDM: theory and de- sign [J]. Optical Express, 2008, 16(2): 841-859.
  • 9SHAO Yufeng, HUANG Bo, NAN Chi ,et al.A novel subcarrier OFDM- MSK WDM passive optical network[C]. OFC, 2010, OTuO4.
  • 10HILLERKUSS D,SCHELL1NGER T,SCHMOGROW R,et al.Single source optical OFDM transmitter and optical FFT receiver demonstrated at line rates of 5.4 and 10.8Tbit/s[C].OFC.2010. PDPC 1.

引证文献4

二级引证文献7

量子电子学报
2011年 第6期

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