English

Design and Analysis of E2RC Codes

Information Theory 2009-04-30 v2 Discrete Mathematics math.IT

Abstract

We consider the design and analysis of the efficiently-encodable rate-compatible (E2RCE^2RC) irregular LDPC codes proposed in previous work. In this work we introduce semi-structured E2RCE^2RC-like codes and protograph E2RCE^2RC codes. EXIT chart based methods are developed for the design of semi-structured E2RCE^2RC-like codes that allow us to determine near-optimal degree distributions for the systematic part of the code while taking into account the structure of the deterministic parity part, thus resolving one of the open issues in the original construction. We develop a fast EXIT function computation method that does not rely on Monte-Carlo simulations and can be used in other scenarios as well. Our approach allows us to jointly optimize code performance across the range of rates under puncturing. We then consider protograph E2RCE^2RC codes (that have a protograph representation) and propose rules for designing a family of rate-compatible punctured protographs with low thresholds. For both the semi-structured and protograph E2RCE^2RC families we obtain codes whose gap to capacity is at most 0.3 dB across the range of rates when the maximum variable node degree is twenty.

Cite

@article{arxiv.0903.2315,
  title  = {Design and Analysis of E2RC Codes},
  author = {Cuizhu Shi and Aditya Ramamoorthy},
  journal= {arXiv preprint arXiv:0903.2315},
  year   = {2009}
}

Comments

To appear in IEEE Journal on Selected Areas in Communications, special issue on Capacity Approaching Codes, 2009

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