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两种新型的OBS网络数据信道调度算法

袁巍 洪佩林 李津生 孙卫强 马明

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文章导航 > 电子与信息学报  > 2004 >  26(2): 272-277
袁巍, 洪佩林, 李津生, 孙卫强, 马明. 两种新型的OBS网络数据信道调度算法[J]. 电子与信息学报, 2004, 26(2): 272-277.
引用本文: 袁巍, 洪佩林, 李津生, 孙卫强, 马明. 两种新型的OBS网络数据信道调度算法[J]. 电子与信息学报, 2004, 26(2): 272-277.
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Yuan Wei, Hong Pei-lin, Li Jin-sheng, Sun Wei-qiang, Ma Ming. New Data Channel Scheduling Algorithms in OBS Networks[J]. Journal of Electronics & Information Technology, 2004, 26(2): 272-277.
Citation: Yuan Wei, Hong Pei-lin, Li Jin-sheng, Sun Wei-qiang, Ma Ming. New Data Channel Scheduling Algorithms in OBS Networks[J]. Journal of Electronics & Information Technology, 2004, 26(2): 272-277.
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两种新型的OBS网络数据信道调度算法

New Data Channel Scheduling Algorithms in OBS Networks

    摘要
  • 摘要: 光突发交换(OBS)是实现IP/DWDM网络的一种极有前途的方案。该文提出了两种新型的OBS网络数据信道调度算法:最少波长转换(MWCT)调度算法和区分服务(SD)调度算法。通过仿真,证明了这两种算法在减少OBS网络中的光信号的波长转换和保证高优先级数据可靠传输方面比已有的FF和LAUC调度算法具有更好的性能。
    Abstract: Optical Burst Switching (OBS) is a promising solution for realizing IP/DWDM. In this paper, two new data channel scheduling algorithms in OBS networks, Minimum Wavelength Conversion Times (MWCT) algorithm and Service Differentiation (SD) algorithm, are proposed. Computer simulation has demonstrated that MWCT algorithm leads to much fewer wavelength conversion times and the SD algorithm can provide better transmission reliability in OBS networks for high priority data comparing with the existing FF and LAUC algorithms.
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    • 参考文献(1)
  • Yoo M, Qiao C, Ravikanth R. The effect of limited fiber delay lines on QoS performance of optical burst switched WDM networks. IEEE ICC2000, New Orleans, USA, 2000, 2: 974-979.[2]Cankaya H C, Xiong Y, Vandenhoute M. Design issues of optical IP routers for Internet backbone applications. IEEE Communications Magazine, 1999, 37(12): 124-128.[3]Xiong Y, Cankaya C. Control architecture in optical burst-switched WDM network[J].IEEE J. on Selected Areas in Communications.2000, 18(10):1838-1851[4]Tancevski L, Yegnanarayanan S, Castanon G, Tamil L, Masetti F, McDermott T. Optical routing of asynchronous, variable length packets[J].IEEE J. on Selected Areas in Communications.2000,18(10):2084-2093[5]Verma S, Chaskar H, Ravikanth R. Optical burst switching: a viable solution for terabit IP backbone. IEEE Network, 2000, 14(6): 48-53.[6]Yoo M, Qiao C, Dixit S. Optical burst switching for service differentiation in the next-generation optical internet. IEEE Communications Magazine, 2001, 39(2): 98-104.[7]Ge A, Callegati F, Tamil L S. On optical burst switching and self-similar traffic[J].IEEE Communications Letters.2000, 4(3):98-100
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出版历程
  • 收稿日期:  2002-08-14
  • 修回日期:  2003-03-17
  • 刊出日期:  2004-02-19

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