English

Rate $(n-1)/n$ Systematic MDS Convolutional Codes over $GF(2^m)$

Information Theory 2017-05-30 v1 math.IT

Abstract

A systematic convolutional encoder of rate (n1)/n(n-1)/n and maximum degree DD generates a code of free distance at most D=D+2{\cal D} = D+2 and, at best, a column distance profile (CDP) of [2,3,,D][2,3,\ldots,{\cal D}]. A code is \emph{Maximum Distance Separable} (MDS) if it possesses this CDP. Applied on a communication channel over which packets are transmitted sequentially and which loses (erases) packets randomly, such a code allows the recovery from any pattern of jj erasures in the first jj nn-packet blocks for j<Dj<{\cal D}, with a delay of at most jj blocks counting from the first erasure. This paper addresses the problem of finding the largest D{\cal D} for which a systematic rate (n1)/n(n-1)/n code over GF(2m)GF(2^m) exists, for given nn and mm. In particular, constructions for rates (2m1)/2m(2^m-1)/2^m and (2m11)/2m1(2^{m-1}-1)/2^{m-1} are presented which provide optimum values of D{\cal D} equal to 3 and 4, respectively. A search algorithm is also developed, which produces new codes for D{\cal D} for field sizes 2m2142^m \leq 2^{14}. Using a complete search version of the algorithm, the maximum value of D{\cal D}, and codes that achieve it, are determined for all code rates 1/2\geq 1/2 and every field size GF(2m)GF(2^m) for m5m\leq 5 (and for some rates for m=6m=6).

Keywords

Cite

@article{arxiv.1705.10091,
  title  = {Rate $(n-1)/n$ Systematic MDS Convolutional Codes over $GF(2^m)$},
  author = {Ángela Barbero and Øyvind Ytrehus},
  journal= {arXiv preprint arXiv:1705.10091},
  year   = {2017}
}
R2 v1 2026-06-22T20:01:57.981Z