一种新颖的全光分组交换节点结构及其性能分析被引量：2

On the Design and Performance Analysis of a Novel All-Optical Packet Switching Node Architecture

下载PDF

导出

摘要本文提出了一种共享波长转换器和光纤延迟线的全光分组交换结构 ,与传统的设计方法和实验报道相比 ,该结构提供了更灵活的冲突解决措施 .为了获得与在交换系统输入级分别为每个波长信道提供波长转换器相等价的性能 ,本文给出了交换结构最多所需的转换器数量 .仿真结果表明 ,本文结构是兼顾交换系统体积、成本和性能等三方面较理想的折衷方案 .研究还表明 ,光纤数与每纤的波长数量之积愈大 ,本文结构所节约的转换器和延迟线数量将愈加可观 . A novel all-optical packet switching node architecture is proposed,which is equipped with a set of fiber delay lines (FDLs) and tunable optical wavelength converters (TOWCs) shared among the input lines.As far as contention resolution is concerned,the developed architecture is more flexible and cost effective than the traditional design and the methods introduced in the literatures.To obtain an equivalent packet loss probability to the method that provides TOWCs for each input wavelength channel,we give the maximum number of converters required by the system.Simulation results show that the developed architecture can guarantee a good tradeoff in terms of system size,cost and performance.We also get the conclusion that with the increase of the product of the number of input/output fibers and the number of wavelengths,the number of TOWCs and FDLs needed will,being different from the traditional design,gradually decrease.

作者张治中雒江涛曾庆济王建新叶通

机构地区上海交通大学区域光纤通信网与新型光通信系统国家重点实验室

出处《电子学报》 EI CAS CSCD 北大核心 2004年第5期713-717,共5页 Acta Electronica Sinica

基金国家自然科学基金 (No .69990 540 ) 国家 863计划资助 (No .863 31 7 2 0 0 1AA1 2 1 0 73)

关键词全光分组交换光缓存波长转换器共享分组丢弃率 all-optical packet switching optical buffering wavelength converter sharing packet loss probability

分类号 TN929.11 [电子电信—通信与信息系统]

引文网络
相关文献

参考文献7

1T S El-Bawab,Jong-Dug Shin.Optical packet switching in core networks:between vision and reality[J].IEEE Communications Magazine,2002,40(9):60-65.
2D K Hunter,M C Chia,I Andonovic.Buffering in optical packet switches[J].IEEE Journal of Lightwave Technology,1998,16(12):2081-2094.
3W D Zhong,R S Tucker.A new wavelength-routed photonic packet buffer combining traveling delay lines with delay-line loops[J].IEEE Journal of Lightwave Technology,2001,19(8):1085-1092.
4S L Danielsen,et al.Optical packet switched network layer without optical buffers[J].IEEE Photonics Technology Letters,1998,10(6):896-898.
5V Eramo,M Listanti, P Pacifici.A comparison study on the number of wavelength converters needed in synchronous and asynchronous all-optical switching architectures[J].IEEE Journal of Lightwave Technology,2003,21(2):340-355.
6K C Lee,et al.Optimization of a WDM optical packet switch with wavelength converters[A].IEEE INFOCOM[C].Boston,1995.2.423-430.
7Zhizhong Zhang,Qingji Zeng.Wavelength converter and fiber delay-line sharing in WDM optical packet switches:dimensioning and performanceissues[A].OptiComm 2003[C].Dallas,TX,Oct.2003.5285.267-277.

共引文献1

1唐建国.浅析数据库安全及其防范措施[J].数字技术与应用,2011,29(10):142-143. 被引量：5

同被引文献17

1K V Shrikhande,et al.HORNET:A packet-over-WDM multiple access metropolitan area ring network[J].IEEE J on Selected Areas in Commun.2000,18(10):2004-2016.
2K Bengi,et al.QoS support and faimess control in a slotted packet-switched WDM metro ring network[A].GLOBECOM'01.IEEE[C].San Antonio,Texas,2001.1494-1499.
3M Jiang,et al.Medium access control protocol in metro optical ring[A].Network Architectures,Management,and Applications,Proc.of SPIE,Vol.5282[C].2003.70-80.
4T Battestilli,et al.An introduction to optical burst switching[J].IEEE Commun.Mag.,2003,41(8):510-515.
5Y Arakawa,et al.Performance of optical burst switched WDM ring network with TTFR system[A].Proc.1st IFIP Optical Networks & Tech.Conf.(OpNeTec)[C].Toulouse,France,22-27 August 2004.95-102.
6L Xu,et al.A simulation study of optical burst switching and access protocols for WDM ring networks[J].Computer Networks 2003,41:143-160.
7Y-L Hsueh,et al.Traffic grooming on WDM rings using optical burst transport[J].IEEE J.Lightwave Tech.,2006,24(1):44-53.
8J Cai.Lightring:an integrated WDM ring network solution for optical metropolitan area networks[D].University of Texas at Dallas,2001.
9A Fumagalli,et al.A low-latency and bandwidth-efficient distributed optical burst switching architecture for metro ring[A].Proc.IEEE Int.Conf.,Commun.,ICC'03.Vol.2[C].Anchorage,Alaska,USA,2003.1340-1344.
10M Neuts,et al.Performance analysis of optical composite burst switching[J].IEEE Commun.Letters,2002,6(8):346-348.

引证文献2

1姚明旿,文爱军,刘增基,鲍民权,宁波,毋丹芳.VS-OBR:一种无冲突虚同步光突发环网[J].电子学报,2010,38(7):1511-1516. 被引量：2
2李杰.有限波长变换器对光分组交换节点性能影响分析[J].光通信技术,2016,40(6):59-62. 被引量：1

二级引证文献3

1管爱红,王波云,傅洪亮.E-OBS网络中一种基于窗口的资源预留机制[J].光电子．激光,2011,22(7):1007-1012. 被引量：4
2管爱红,王波云,张元,傅洪亮.OBS网络中基于优先级与参数可调的偏射路由算法[J].电子学报,2011,39(7):1668-1672. 被引量：3
3黄春华.卫星激光通信中大误差测距数据识别方法[J].激光杂志,2018,39(9):171-174.

1张正线.全光网络中的全光分组交换技术[J].电讯技术,1999,39(6):82-87. 被引量：2
2宋俊峰,李齐良,陈心.基于微环谐振腔的全光分组交换研究[J].杭州电子科技大学学报（自然科学版）,2016,36(6):1-4.
3Sprint和北电网络携手跃居行业领先地位[J].中国电信建设,2003,15(6):43-44.
4郭传雄,郑少仁.宽带网络技术讲座第3讲因特网服务质量(QoS)保障关键技术及体系结构[J].中国数据通信,2001,3(11):63-69.
5郭恒毅.快速晶闸管关断时间与通态压降关系的折衷方案[J].电力电子技术,1993,27(3):60-62.
6姜久超,马文华,田文树.解决ATM网络拥塞的一种控制方法[J].河北工程技术高等专科学校学报,2004(4):4-7.
7张治中,雒江涛,曾庆济,刘华,王建新,赵焕东.波长转换器和光纤延迟线在WDM光分组交换中的结构设计和性能研究(英文)[J].光子学报,2004,33(12):1465-1468. 被引量：3
8陈远,李乐民.一种兼顾信道条件和公平性的无线分组丢弃算法[J].通信学报,2005,26(6):11-17.
9郑勉,陈涛,李伟勤,孙晓玲.SPN波长转换竞争解决的研究[J].半导体光电,2011,32(3):405-409. 被引量：1
10陈正宇.一种基于NS的网络视频QoS分析方法[J].现代电子技术,2008,31(12):138-140. 被引量：2

电子学报

2004年第5期

浏览历史

内容加载中请稍等...

一种新颖的全光分组交换节点结构及其性能分析被引量：2

参考文献7

共引文献1

同被引文献17

引证文献2

二级引证文献3

相关作者

相关机构

相关主题

浏览历史

一种新颖的全光分组交换节点结构及其性能分析 被引量：2

参考文献7

共引文献1

同被引文献17

引证文献2

二级引证文献3

相关作者

相关机构

相关主题

浏览历史

一种新颖的全光分组交换节点结构及其性能分析被引量：2