Generating parity check equations for bounded-distance iterative erasure decoding
Abstract
A generic -erasure correcting set is a collection of vectors in which can be used to generate, for each binary linear code of codimension , a collection of parity check equations that enables iterative decoding of all correctable erasure patterns of size at most . That is to say, the only stopping sets of size at most for the generated parity check equations are the erasure patterns for which there is more than one manner to fill in theerasures to obtain a codeword. We give an explicit construction of generic -erasure correcting sets of cardinality . Using a random-coding-like argument, we show that for fixed , the minimum size of a generic -erasure correcting set is linear in . Keywords: iterative decoding, binary erasure channel, stopping set
Keywords
Cite
@article{arxiv.cs/0606026,
title = {Generating parity check equations for bounded-distance iterative erasure decoding},
author = {Henk D. L. Hollmann and Ludo M. G. M. Tolhuizen},
journal= {arXiv preprint arXiv:cs/0606026},
year = {2007}
}
Comments
Accepted for publication in Proc Int Symposium on Information Theory 2006, ISIT 06