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Interference channel with binary fading: Effect of delayed network state information
A. Vahid, M.A. Maddah-Ali, A.S. Avestimehr

Citation
A. Vahid, M.A. Maddah-Ali, A.S. Avestimehr. "Interference channel with binary fading: Effect of delayed network state information". 49th Annual Allerton Converence on Communication, Control, and COmputing, pp.894-901, 28, September, 2011.

Abstract
We investigate the fundamental limits of communication over binary interference channels with finite states and with delayed network state information at the transmitters. Our results include a novel achievability strategy that systematically utilizes the stale network state information available at the nodes. We also derive new bounds on the capacity region of such networks.

Electronic downloads

Citation formats  
  • HTML
    A. Vahid, M.A. Maddah-Ali, A.S. Avestimehr. <a
    href="http://www.truststc.org/pubs/870.html"
    >Interference channel with binary fading: Effect of
    delayed network state information</a>, 49th Annual
    Allerton Converence on Communication, Control, and
    COmputing, pp.894-901, 28, September, 2011.
  • Plain text
    A. Vahid, M.A. Maddah-Ali, A.S. Avestimehr.
    "Interference channel with binary fading: Effect of
    delayed network state information". 49th Annual
    Allerton Converence on Communication, Control, and
    COmputing, pp.894-901, 28, September, 2011.
  • BibTeX
    @inproceedings{VahidMaddahAliAvestimehr11_InterferenceChannelWithBinaryFadingEffectOfDelayedNetwork,
        author = {A. Vahid and M.A. Maddah-Ali and A.S. Avestimehr},
        title = {Interference channel with binary fading: Effect of
                  delayed network state information},
        booktitle = {49th Annual Allerton Converence on Communication,
                  Control, and COmputing},
        pages = {pp.894-901},
        day = {28},
        month = {September},
        year = {2011},
        abstract = {We investigate the fundamental limits of
                  communication over binary interference channels
                  with finite states and with delayed network state
                  information at the transmitters. Our results
                  include a novel achievability strategy that
                  systematically utilizes the stale network state
                  information available at the nodes. We also derive
                  new bounds on the capacity region of such
                  networks. },
        URL = {http://www.truststc.org/pubs/870.html}
    }
    

Posted by Mary Stewart on 4 Apr 2012.
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