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Effects of Single-Cycle Structure on Iterative Decoding for Low-Density Parity-Check Codes

Information Theory 2016-11-17 v1 math.IT

Abstract

We consider communication over the binary erasure channel (BEC) using low-density parity-check (LDPC) codes and belief propagation (BP) decoding. For fixed numbers of BP iterations, the bit error probability approaches a limit as blocklength tends to infinity, and the limit is obtained via density evolution. On the other hand, the difference between the bit error probability of codes with blocklength nn and that in the large blocklength limit is asymptotically α(ϵ,t)/n+Θ(n2)\alpha(\epsilon,t)/n + \Theta(n^{-2}) where α(ϵ,t)\alpha(\epsilon,t) denotes a specific constant determined by the code ensemble considered, the number tt of iterations, and the erasure probability ϵ\epsilon of the BEC. In this paper, we derive a set of recursive formulas which allows evaluation of the constant α(ϵ,t)\alpha(\epsilon,t) for standard irregular ensembles. The dominant difference α(ϵ,t)/n\alpha(\epsilon,t)/n can be considered as effects of cycle-free and single-cycle structures of local graphs. Furthermore, it is confirmed via numerical simulations that estimation of the bit error probability using α(ϵ,t)\alpha(\epsilon,t) is accurate even for small blocklengths.

Keywords

Cite

@article{arxiv.1010.0333,
  title  = {Effects of Single-Cycle Structure on Iterative Decoding for Low-Density Parity-Check Codes},
  author = {Ryuhei Mori and Toshiyuki Tanaka and Kenta Kasai and Kohichi Sakaniwa},
  journal= {arXiv preprint arXiv:1010.0333},
  year   = {2016}
}

Comments

16 pages, 7 figures, submitted to IEEE Transactions on Information Theory

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