Title :
Low-rate non-binary hybrid LDPC codes
Author :
Sassatelli, Lucile ; Declercq, David ; Poulliat, Charly
Author_Institution :
ETIS ENSEA/UCP/CNRS, Cergy
Abstract :
In this paper, we use the class of non-binary hybrid LDPC codes to design very efficient low rate codes. To this end, we consider both asymptotic and finite length designs. First, we present an asymptotic analysis to design hybrid LDPC codes distributions and we explicit the cases when it is useful to use it. Then, by optimizing the algebraic properties of some topologies related to the Tanner graph, we design finite length codes. These codes show significant performance improvements both in the waterfall and in the error floor regions, in comparison with existing state-of-the-art low rate coding schemes, like turbo Hadamard or parallel concatenated Zigzag Hadamard codes, and with no increase of complexity. In particular, the minimum distance of low rate hybrid LDPC codes is by far greater than the ones of previously mentioned codes.
Keywords :
Hadamard codes; concatenated codes; graph theory; parity check codes; turbo codes; Tanner graph; algebraic properties; asymptotic analysis; error floor region; finite length codes; hybrid LDPC codes distribution; low rate code; nonbinary hybrid LDPC codes; parallel concatenated zigzag Hadamard codes; turbo Hadamard code; Concatenated codes; Decoding; Design optimization; Error correction; Error correction codes; Multiaccess communication; Parity check codes; Performance loss; Topology; Turbo codes;
Conference_Titel :
Turbo Codes and Related Topics, 2008 5th International Symposium on
Conference_Location :
Lausanne
Print_ISBN :
978-1-4244-2862-5
Electronic_ISBN :
978-1-4244-2863-2
DOI :
10.1109/TURBOCODING.2008.4658702
