• DocumentCode
    82873
  • Title

    Coded Collaborative Spectrum Sensing With Joint Channel Decoding and Decision Fusion

  • Author

    Azmi, Marwan Hadri ; Leib, Harry

  • Author_Institution
    Dept. of Electr. & Comput. Eng., McGill Univ., Montreal, QC, Canada
  • Volume
    14
  • Issue
    4
  • fYear
    2015
  • fDate
    Apr-15
  • Firstpage
    2017
  • Lastpage
    2031
  • Abstract
    This paper considers the integration of channel decoding with fusion based decision, for coded collaborative spectrum sensing (CSS) employing local Neyman-Pearson (NP) testing at each sensor. We derive a belief-propagation (BP) algorithm for joint channel decoding and decision fusion (JCDDF), based on a factor graph model for coded CSS schemes. Using the Lloyd-Max method, we also propose a new methodology for the local sensor to quantize its observation. The design of the quantizer embeds the binary NP test outcome in the quantization bits. Using the JCDDF algorithm, we show that coded CSS paired even with a short (8,4) extended Hamming code outperforms not only uncoded CSS, but also schemes where channel decoding and decision fusion are executed separately. Then, we consider the design of good channel codes for such CSS schemes. We demonstrate that the JCDDF algorithm employing unequal error protection (UEP) coding improves performance and outperforms equal error protection coding. Furthermore, we present a simple code search algorithm for identifying short UEP codes. Using such UEP codes, we finally show that a performance improvement over uncoded CSS can be attained also without bandwidth expansion using higher order modulations.
  • Keywords
    Hamming codes; channel coding; graph theory; radio spectrum management; signal detection; BP algorithm; Hamming code; JCDDF algorithm; Lloyd-Max method; Neyman-Pearson testing; UEP coding; belief-propagation algorithm; binary NP test; channel codes; code search algorithm; coded CSS schemes; coded collaborative spectrum sensing; factor graph model; joint channel decoding and decision fusion; unequal error protection coding; Cascading style sheets; Decoding; Encoding; Joints; Sensors; Tin; Wireless communication; Lloyd-Max quantization; Neyman-Pearson test; Spectrum sensing; belief propagation; cognitive radio; unequal error protection; unequal error protection (UEP);
  • fLanguage
    English
  • Journal_Title
    Wireless Communications, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1536-1276
  • Type

    jour

  • DOI
    10.1109/TWC.2014.2378789
  • Filename
    6979241