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高速相干光通信系统中残留色散均衡器研究 被引量:3

Investigation of Residual Chromatic Dispersion Equalizer in High-speed Optical Coherent Communication Systems
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摘要 在高速相干光通信系统中,完全使用电子色散补偿时会引入均衡增强相位噪声.本文提出在已有10Gbit/s光纤通信链路上使用电子色散补偿来补偿残留色散的混合色散补偿方案,实现了特定通道100Gbit/s以上高速数据传输.使用虚拟光学仪器软件仿真了在112Gbit/s相干光通信系统中,分别采用有限脉冲响应均衡器和重叠频域均衡器对现有光纤信道进行残留色散补偿后的系统性能.仿真结果表明:相同的抽头长度下,有限脉冲响应均衡器相比重叠频域均衡器有更好的残留色散补偿能力,并且有限脉冲响应均衡器均衡性能更稳定而且计算复杂度更低.因而,有限脉冲响应均衡器相较于重叠频域均衡器更适于混合色散补偿. The equalization-enhanced phase noise was introduced when fully using electronic dispersion compensation in high-speed optical coherent communication system. Using electronic dispersion compensation to compensate the residual chromatic dispersion was proposed, to realize the transmission at 100 Gbit/s per specified channel and beyond on the existing 10 Obit/s fiber-optic transmission line were realized. By using VPI, the 112 Gbit/s optical coherent system performance with finite impulse response filter and overlap frequency domain equalization filter were compared, which is used to compensate the residual chromatic dispersion. Simulation results indicate that in the same tap length, FIR has more effective residual chromatic dispersion compensation ability than overlap frequency domain equalization. Also, the finite impulse response filter has more stable equalization performance and lower computation complexity, and it is suitable for the hybrid chromatic dispersion compensation.
作者 张虎 陈健
机构地区 南京邮电大学通信与信息工程学院
出处 《光子学报》 EI CAS CSCD 北大核心 2014年第9期27-31,共5页 Acta Photonica Sinica
基金 国家自然科学基金(No.61271239)资助
关键词 光通信 残留色散补偿 数字滤波器 色散 相干检测 相位调制 相位噪声 Optical communications Residual chromatic dispersion compensation Digital filters Chromaticdispersion Coherent detection Phase modulation Phase noise
分类号 TN929.11 [电子电信—通信与信息系统]
  • 相关文献

参考文献15

  • 1蔡托,桑田,张小伟.色散和非线性效应对高斯脉冲综合影响的理论分析[J].光子学报,2010,39(5):829-833. 被引量:8
  • 2罗雅枝,王彦丹,张帆,李力,朱立新,陈章渊.40 Gbit/s相干偏振复用QPSK传输中基于Manakov方程的非线性补偿(英文)[J].光子学报,2011,40(6):883-887. 被引量:2
  • 3刘武,杨奇.相干光正交频分复用传输系统中的无导频相位纠偏方法[J].光子学报,2011,40(12):1893-1898. 被引量:8
  • 4KIKUCHI K, TSUKAMOTO S. Evaluation of sensitivity ofthe digital coherent receiver [J]. Journal of LightwaveTechology,2008,26(13) :1817-1822.
  • 5SAVORY S J. Digital filters for coherent optical receivers[J].Optics Express ,2008,16(2) :804-817.
  • 6IP E,LAU A P T,BARROS D J , et al. Coherent detection inoptical fiber systems [J]. Optics Express , 2008, 16 ( 2 ) : 753-791.
  • 7IP E. KAHN J M. Feedforward carrier recovery for coherentdetection optical communications [ J ]. Journal of Light-waveTechnology .2007,25(9):2675-2692.
  • 8SHIEH W,HO K P. Equalization-enhanced phase noise forcoherent detection systems using electronic digital signalprocessing[J]. Optics Express , 2008 . 16(20) : 15^18-15727.
  • 9LAU APT, SHEN T S R,SHIEH W,et al. Equalization-enhanced phase noise for lOOGb/s transmission and beyondwith coherent detection [ J]. Optics Express,2010,18(16):17239-17251.
  • 10BULOW H,BUCHALI F, KLEKAMP A. Electronicdispersion compensation [ J ].Journal of LightwaveTechnology ,2008,26(1) : 158-167.

二级参考文献31

  • 1桑志文,罗开基,柔明煌,王永祥.三阶色散对光纤中高斯型脉冲传输特性的影响[J].量子电子学报,2005,22(6):946-950. 被引量:24
  • 2靳婉玲,杨小来,曹文华.非线性掺铒光纤环镜中超短光孤子串的产生及放大[J].光子学报,2007,36(3):448-451. 被引量:3
  • 3HASEGAWA H,KODAMA Y.Solitons in optical communication[M].New york:Oxford University Press,1996,87-108.
  • 4HASEGAWA A.Soliton effects in optical waveguides[J].Rep Prog Phys,2002,(65):999-1024.
  • 5AGRAWAL Govind P.Nonlinear fiber optics & applications of nonelinear fiber optics[M].Elscvier Science (USA),2002,114-115,26-39.
  • 6DAVYDOVA T A,Z ALIZNYAK Y A.Schr(o)dinger ordinary solitons and chirped solitons:fourth-order dispersive effects and cubic-quintic nonlinearity[J].Physica D,2001,156(3-4):260-282.
  • 7KNOX F M,FORSVYSAK W,DORAN N J.10 Gbit/s soliton communication over standard fiber at 1.55 μm and the use of dispersion compensation[J].Lightwave Trchnol,1995,(13):1955-1963.
  • 8汪仲清,万鹏,赖昌.孤子色散管理传输及其在常规光纤通信中的可行性研究[J].光子学报,2007,36(B06):127-131. 被引量:2
  • 9SHIEH W, YI X, MA Y, etal. Coherent optical OFDM: has its time come? [J]. Journal of Optical Networking, 2008, 7 (3) : 234-255.
  • 10SHIEH W, YANG Q, MA Y. 107 Gb/s coherent optical OFDM transmission over 1 000 km SSMF fiber using orthogonal band multiplexing[J]. Optics Express, 2008, 16 (9) : 6378-6386.

共引文献20

同被引文献23

  • 1ONOHARA K, SUGIHARA T, MIYATA Y, et al. Soft- decision forward error correction for 100 Gb/s digital coherent systems [J]. Optical Fiber Technology, 2011, 17(5): 455- 455.
  • 2STEVEN S, SORIN T. Experimental study of cross-phase modulation reduction in hybrid systems with co-propagating 100G PM-QPSK and 100-OOK [J]. Optics Express, 2013, 21 (25): 31483-31491.
  • 3HASAN S Z M, KALAVALLY V, PARTHIBAN R, et al. Economic and system impact of hybrid Raman-EDFA amplification in a 40 × 40Gbps optical transmission network with DPSK modulation [J]. Optical Fiber Technology, 2013, 19(1) : 10-15.
  • 4PERRIER P, FEVRIER H, XIA T J, et al. Unrepeatered 100G transmission over 520.6 km of G. 652 fiber and 556.7 km of G. 654 fiber with commercial raman DWDM system and enhanced ROPA [J]. Journal of Lightwave Technology, 2015, 33(3); 631-638.
  • 5PECHENKIN V, FAIR I J. On four-wave mixing suppression in dispersion-managed fiber-optic OFDM systems with an optical phase conjugation module [J]. Journal of Lightwa'oe Technology, 2011, 29(11): 1678-1691.
  • 6XIA T J, PETERSON D L, WELLBROCK G A, etal. 557- km unrepeatered 100G transmission with commercial raman DWDM system, enhanced ROPA, and cabled large Aeff ultra- low loss fiber in OSP environment [C]. Optical Fiber Communication Conference, 2014, ThSA. 7 : 1-3.
  • 7ZHU B Y, BOREL P, CARLSON K, et al. Unrepeatered transmission of 6.3 Tb/s (63 × 128Gb/s) over 402-km fiber link [J]. Photonics Technology Letters, 2014, 2fi (17): 1711-1714.
  • 8DOWNIE J D, HURLEY J, ROUDAS I, et al. Unrepeatered 256 Gb/s PM-16QAM transmission over up to 304 km with simple system configurations [J]. Optics Express, 2014, 22(9): 10256-10261.
  • 9FARALLI S, BOLOGNINI G, ANDRADE M A, et al.Unrepeated WDM transmission systems based on advanced first-order and higher order raman-copumping technology [J]. Journal of Lightwave Technology, 2007, 25 ( 11 ) : 3519-3527.
  • 10GOVIND P A. Nonlinear fiber opties[M]. New York: U. S. Academic press, 2006 : 6.

引证文献3

二级引证文献14

光子学报
2014年 第9期

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