• DocumentCode
    1454243
  • Title

    The turbo decoding algorithm and its phase trajectories

  • Author

    Agrawal, Dakshi ; Vardy, Alexander

  • Author_Institution
    IBM Thomas J. Watson Res. Center, Hawthorne, NY, USA
  • Volume
    47
  • Issue
    2
  • fYear
    2001
  • fDate
    2/1/2001 12:00:00 AM
  • Firstpage
    699
  • Lastpage
    722
  • Abstract
    This paper analyzes phase trajectories and fixed points of the turbo decoding algorithm as a function of the signal-to-noise ratio (SNR). By exploiting the large length of turbo codes, the turbo decoding algorithm is treated as a single-parameter dynamical system, parameterized (approximately) by the SNR. This parameterization, along “with” extensive simulations at practical SNRs and asymptotic analysis as SNR goes to zero and infinity, is used to subdivide the entire SNR range into three regions with the “waterfall region” in the middle. The turbo decoding algorithm has distinctive phase trajectories and convergence properties in these three SNR regions. This paper also investigates existence and properties of fixed points in these SNR regions. The main fixed points of the turbo decoding algorithm are classified into two categories. In a wide range of SNRs (corresponding to bit-error rates less than 10-1 ), the decoding algorithm has “unequivocal” fixed points which correspond to mostly correct decisions on the information bits. Within this range, toward the lower values of SNR, there is another fixed point which corresponds to many erroneous decision on the information bits. Fixed points of this type are referred to as “indecisive” fixed points. It turns out that the indecisive fixed points bifurcate and disappear for SNRs in the waterfall region. This paper associates the qualitative transition of phase trajectories in the waterfall region to the bifurcation of indecisive fixed points. These bifurcations also explain empirically observed quasi-periodic and periodic phase trajectories of the turbo decoding algorithm
  • Keywords
    convergence of numerical methods; decoding; error statistics; noise; turbo codes; BER; SNR; asymptotic analysis; bifurcations; bit-error rates; convergence properties; decoding algorithm; indecisive fixed points; information bits; periodic phase trajectories; quasi-periodic phase trajectories; signal-to-noise ratio; simulations; single-parameter dynamical system; turbo code length; turbo decoding algorithm; waterfall region; Algorithm design and analysis; Analytical models; Bifurcation; Bit error rate; Convergence; Decoding; H infinity control; Signal analysis; Signal to noise ratio; Turbo codes;
  • fLanguage
    English
  • Journal_Title
    Information Theory, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9448
  • Type

    jour

  • DOI
    10.1109/18.910583
  • Filename
    910583