• DocumentCode
    2647842
  • Title

    Random linear intersession network coding with selective cancelling

  • Author

    Wang, Chih-Chun ; Shroff, Ness B.

  • Author_Institution
    Center of Wireless Syst. & Applic. (CWSA), Purdue Univ., West Lafayette, IN, USA
  • fYear
    2009
  • fDate
    11-16 Oct. 2009
  • Firstpage
    559
  • Lastpage
    563
  • Abstract
    The network coding capacity of a single multicast traffic is characterized by the min-cut/max-flow (mcMF) theorem, which can be achieved by random linear network coding (RLNC). Nonetheless, the graph-theoretic characterization for multiple unicast/multicast traffic remains an open problem. This paper proposes and studies a new class of intersession-network-coding schemes: RLNC with selective cancelling (SC), which inherits the complexity advantage of RLNC once the set of selective cancelling edges is decided. A graph-theoretic characterization is provided for the achievable rates of RLNC with SC for the general multiple multicast setting. The findings contain most existing achievability results as special cases, including the mcMF theorem of the single multicast traffic and the existing characterization of pairwise intersession network coding. One prominent feature of the proposed approach is its focus on the achievability analysis with arbitrary network topology, arbitrary inter-session packet-mixing capability, and arbitrary traffic demands, which distinguishes the results from the special case analysis, capacity outer bound constructions, and the pattern-based (butterfly-based) superposition arguments.
  • Keywords
    graph theory; linear codes; multicast communication; network coding; telecommunication traffic; arbitrary inter-session packet-mixing capability; arbitrary network topology; arbitrary traffic demands; graph-theoretic characterization; min-cut/max-flow theorem; multiple unicast/multicast traffic; network coding capacity; random linear intersession; selective cancelling; Communication networks; Conferences; Information theory; NP-complete problem; Network coding; Network topology; Pattern analysis; Telecommunication traffic; Throughput; Unicast;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Information Theory Workshop, 2009. ITW 2009. IEEE
  • Conference_Location
    Taormina
  • Print_ISBN
    978-1-4244-4982-8
  • Electronic_ISBN
    978-1-4244-4983-5
  • Type

    conf

  • DOI
    10.1109/ITW.2009.5351192
  • Filename
    5351192