• DocumentCode
    2780219
  • Title

    A buffering architecture based-on traffic load selection scheduling for optical packet switching networks

  • Author

    Liu, Huanlin ; Pang, Junyu

  • Author_Institution
    Coll. of Commun. & Inf. Eng., Chongqing Univ. of Posts & Telecommun., Chongqing, China
  • fYear
    2009
  • fDate
    6-8 Nov. 2009
  • Firstpage
    513
  • Lastpage
    516
  • Abstract
    An optical buffering architecture based-on traffic load selection was put forward for optical packet switching networks in the paper. For improving the limited fiber delay lines utilization, the segment shared buffering mechanism be used to configure the output fiber delay lines and the output/feedback shared buffer module configuration using degenerate model. When the traffic load is larger than threshold value, the output/feedback buffer module is worked on the feedback buffer mode. Otherwise, the output/feedback module is worked on the output buffer mode. So, the buffer mode can be selected flexible according to the traffic load. The analysis and simulation results show that this buffer architecture can decrease packet loss probability effectively and achieve reasonable average packet delay.
  • Keywords
    optical fibre networks; optical switches; packet switching; probability; scheduling; telecommunication traffic; buffering architecture; fiber delay line utilization; optical packet switching networks; output-feedback shared buffer module configuration; packet loss probability; traffic load selection scheduling; Delay lines; Optical buffering; Optical feedback; Optical losses; Optical packet switching; Optical wavelength conversion; Output feedback; Packet switching; Switches; Telecommunication traffic; Average delay; Optical delay line; Optical packet switching; Packet loss probability; Segment shared buffering architecture;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Network Infrastructure and Digital Content, 2009. IC-NIDC 2009. IEEE International Conference on
  • Conference_Location
    Beijing
  • Print_ISBN
    978-1-4244-4898-2
  • Electronic_ISBN
    978-1-4244-4900-6
  • Type

    conf

  • DOI
    10.1109/ICNIDC.2009.5360784
  • Filename
    5360784