Enabling technologies and challenges for transmission of 400 Gb/s signals in 50 GHz channel grid
参考文献38
-
1Camera M, Olsson B E, Bruno G. Beyond 100 Gbit/s: System implications towards 400 G and 1 T. In: Proceedings of the 36th European Conference and Exhibition on Optical Communication 2010 Symposium toward 1 Tb/s. 2010, 1-28.
-
2Cole C. Is 1 Tb/s ready for prime time? Engineering reality check. In: IEEE Photonics Society Summer Topical, Montreal, Canada, 2011. Terabit Optical Ethernet, WC 1. 1.
-
3Yu J, Zhou X, Huang M-F, Qian D, Ji P N, Wang T, Magill P. 400 Gb/s (4 × 100 Gb/s) orthogonal PDM-RZ-QPSK DWDM signal transmission over 1040 km SMF-28. Optics Express, 2009, 20(17): 17928 -17933.
-
4Liu X, Chandrasekhar S, Zhu B, Winzer P J, Gnauck A H, Peckham D W. Transmission of a 448-Gb/s reduced-guard-interval CO- OFDM signal with a 60-GHz optical bandwidth over 2000 km of ULAF and five 80-GHz-Grid ROADMs. In: Proceedings of conference on Optical Fiber Communication-National Fiber Optic Engineers Conference. 2010, PDPC2.
-
5Chandrasekhar S, Liu X, Zhu B, Peckham D W. Transmission of a 1.2-Tb/s 24-carrier no-guard-interval coherent OFDM superchannel over 7200-kin of ultra-large-area fiber. In: Proceedings of the 35th European Conference on Optical Communication. 2009, PDP 2.6.
-
6Winzer P J, Gnauck A H, Chandrasekhar S, Draying S, Evangelista J, Zhu B. Generation and 1200-km transmission of448-Gb/s ETDM 56-Gbaud PDM 16-QAM using a single I/Q modulator. In: Proceedings of 36th European Conference and Exhibition on Optical Communication. 2010, PDP 2.2.
-
7Gnauck A H, Winzer P J, Chandrasekhar S, Liu X, Zhu B, Peckham D W. 10 × 224-Gb/s WDM transmission of 28-Gbaud PDM 16- QAM on a 50-GHz grid over 1200 km of fiber. In: Proceedings of conference on Optical Fiber Communication-National Fiber Optic Engineers Conference. 2010, PDPB8.
-
8Huang Y K, Ip E, Huang M, Zhu B, Ji P N, Shao Y, Peckham D W, Lingle R, Aono Y, Tajima T, Wang T. 10×456 Gb/s DP-16QAM Transmission over 8 × 100 km of ULAF using Coherent Detection with a 30-GHz Analog-to-Digital Converter. In: Proceedings of the 15th OptoeElectronics and Communications Conference. 2010, PDP3.
-
9Takahashi H, Takeshima K, Morita I, Tanaka H. 400-Gbit/s Optical OFDM Transmission over 80 km in 50-GHz Frequency Grid. In: Proceedings of European Conference on Optical Communication. 2010, Tu.3.C.1.
-
10Zhou X, Nelson L E, Magill P, Isaac R, Zhu B, Peckham D W, Borel P, Carlson K. 8×450Gb/s, 50 GHz-spaced, PDM-32QAM trans- mission over 400 km and one 50 GHz-grid ROADM. In: Proceed- ings of conference on Optical Fiber Communication-National Fiber Optic Engineers Conference. 2011, PDPB3.
-
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-
2温燕红.A Design for the Node of ATMMAN[J].High Technology Letters,1998,4(2):57-63.
-
3陈云志.城域光网络及其组网技术[J].光通信,2003(12):50-53.
-
4HU Ting,QIU Chen,YU Ping,YANG LongZhi,WANG WanJun,JIANG XiaoQing,YANG Mei,ZHANG Lei,YANG JianYi.Silicon photonic network-on-chip and enabling components[J].Chinese Science Bulletin,2013,58(7):543-553. 被引量:2
-
5Tian Feng,Cheng Shilun,Yang Zhen (Communication Engineering Institute,Nanjing University of Posts and Telecommunications,Nanjing 210003,China).Wireless Regional Area Networks and Cognitive Radio(1)[J].ZTE Communications,2006,4(3):55-60.
-
6Tian Feng, Cheng Shilun, Yang Zhen(Communication Engineering Institute, Nanjing University of Posts and Telecommunications, Nanjing 210003, China).Wireless Regional Area Networks and Cognitive Radio 2[J].ZTE Communications,2006,4(4):56-60.
-
7初海彬,张乃通,顾学迈.New Regional Satellite Positioning Constellation Scheme Discussion[J].Journal of Beijing Institute of Technology,2005,14(4):471-476. 被引量:1
-
8YUAN Yifei ZHU Longming.Application Scenarios and Enabling Technologies of 5G[J].China Communications,2014,11(11):69-79. 被引量:13
-
9Call for Papers—Feature Topic,Vol.13,No.6,2016[J].China Communications,2015,12(S2).
-
10Jianjun Yu,Junwen Zhang.Recent progress on high-speed optical transmission[J].Digital Communications and Networks,2016,2(2):65-76. 被引量:2
