期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

40 Gbps OFDM-PON系统采用偏振复用技术实现上行链路传输(英文) 被引量:3

40 Gbps OFDM-PON System Using Polarization Division Multiplexing for Upstream Transmission
下载PDF
导出
摘要 为了提高PM-CO-OFDM-PON系统中上行数据的传输速率,提出采用偏振复用结构与相干检测技术相结合,通过光载波源方式实现上行链路光网络单元无色化传输的技术方案.利用光学软件VPI和Matlab,搭建了基于偏振复用技术的40Gb/s PM-CO-OFDM-PON系统仿真平台,结果表明:该方案可有效提高PM-CO-OFDM-PON系统中上行数据传输速率,并实现光网络单元无色化;利用相干检测比直接检测可以更高地提高接收端的灵敏度. A polarization multiplexing scheme for polarization division multiplexing orthogonal frequency division multiple with coherent detected-based passive optical networks was proposed, in which polarization multiplexing was used at the Optical Network Unit(ONU) for the upstream transmission to increase the transmission data rates and double the spectral efficiency. ONU colorless was realized by optical carrier way. VPI and MATLAB were used for the PM-CO-OFDM-PON simulation platform. The results show that the proposed PM-CO-OFDM-PON architecture is scalable, improves the data rates in the upstream of PM-CO-OFDM-PON, and ONU colorless is realized effectively. Moreover, with coherent detected,the receiver sensitivty is improved.
作者 张娜娜 周娴 施浚飞 夏莉敏 严冬 吴小云
机构地区 北京科技大学融合网络与泛在业务工程技术研究中心
出处 《光子学报》 EI CAS CSCD 北大核心 2014年第7期123-126,共4页 Acta Photonica Sinica
基金 The National Key Basic Research and Development Program of China(No.2012CB315905) the National Natural Science Foundation of China(Nos.61172050,61172048)
关键词 正交频分复用 无源光网络 偏振复用 ONU无色化 相干检测 Orthogonal Frequency Division Multiple Optical network unit colorless Polarization division multiplexing Coherent detection
分类号 TP915.31 [自动化与计算机技术]
  • 相关文献

参考文献15

  • 1ARMSTRONG J.OFDM for optical communications[J].Journal of lightwave technology,2009,27(3):189-204.
  • 2LOWERY A,Du L,Armstrong J.Orthogonal frequency division multiplexing for adaptive dispersion compensation in long haul wdm systems[C].The National Fiber Optic Engineer Conference,2006.
  • 3DJORDJEVIC I,VASIC B.Orthogonal frequency division multiplexing for high-speed optical transmission[J].Optical Express,2006,14(9):3767-3775.
  • 4SHIEH W,Athaudage C.Coherent optical orthogonal frequency division multiplexing[J].Electronic Letters,2006,42(10):587-589.
  • 5SHIEH W,Chen W,Tucker R.Polarization mode dispersion mitigation in coherent optical orthogonal frequency division multiplexed syslerns[J].Electronic Letters,2006,42(17):996-997.
  • 6QIAN D,HU,J,YU J.Experimental demonstration of a novel OFDM-A based 10 Gb/s PON architecture[C].Optical Communication On Optical Conference,2007.
  • 7HAN Y,LI G,Coherent optical communication using polarization multiple input-multiple-output[J].Optical Express,13(9):7527-7534,2005.
  • 8JANSEN S,Morita I,Tanaka H.16 _ 52.5-Gb/s,50-GHz spaced,POLMUX-COOFDM transmission over 4,160 km of SSMF enabled by MIMO processing[C].European Conference on Optical Communication,2007.
  • 9SHIEH W,Yi X,Ma Y,et al.Theoretical and experimental study on PMD-supported transmission using polarization diversity in coherent optical OFDM systems[J].Optical Express,2007,15:9936-9947.
  • 10HAN Yan,LI Gui-fan.Coherent optical communication using polarization multiple input-multiple-output[C].Optical Society of America,2005.

同被引文献19

  • 1GIULIO C, FOGGI T. Impact of phase noise and compensation techniques in coherentoptical systems E J~. Journal of Lightwave Technology, 2011, "19(18) : 2790-2801.
  • 2SANDER L J, ITSURO M, TIM C, et al. Coherent optical 25. 9-Gb/s OFDM transmission over 4160-km SSMF[J]. Journal of Lightwave Technology, 2008,26(1), 6-15.
  • 3CHO Y J, NO J S, SHIN D J. A new low-complexity PTS scheme based on successive local search using sequencesEJ]. IEEE Communications Letters, 2012, 16(9) : 1470-1473.
  • 4SILVA J A L, CARTAXO A V T, SEGATTO M E V. A PAPR reduction technique based on a constant envelope OFDM approach for fiber nonlinearity mitigation in optical direct- detection systemsI-J~. Journal of Optical Communications and Networking, 2012, 4(4) :296-303.
  • 5LINFOOT S L. A study of different wavelets in orthogonal wavelet division multiplexfor DVB-TEJ~. IEEE Transactions on Consumer Electronics, 2008, 54(3) : 1042-1048.
  • 6LI A, SHIEH W, TUCKER R S. Wavelet packet transform- based OFDM for optical, communications [J]. Journal of Lightwave Technology, 2010, 28(24) : 3519-3619.
  • 7BEN-EZRA Y, BRODESKI D, ZADOK A. 1 Tbps transmission system based on hierarchical approach to Wavelet Packet Transform OFDM[-C]. Transparent Optical Networks (ICTON), 2011 13th International Conference on. IEEE, 2011: 1-4.
  • 8DAOUD O. Performance improvement of wavelet packet transform over fast Fourier transform in multiple-input multiple-output orthogonal frequency division multiplexing systems[J]. IET Communications, 2010,6(7) : 765-773.
  • 9ZHANG Hong-bo, Yi Xing-wen , CHEN Lei, etal. Waveletpacket transform-based optical orthogonal {requency-division multiplexing transmission using direct detectionEJ3. Optical Engineering, 2012,51(10) : 105004.
  • 10ZHAO Chun-xu, CHEN Yuan-xiang, LI Ju-hao. Experimental demonstration of 1.08 Tb/s PDM CO-SCFDM transmission over 3170 km SSMFEJ3. Optics Express, 2012, 20(2) : 787-793.

引证文献3

二级引证文献28

光子学报
2014年 第7期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部