Title :
Optimization with exit functions of GLDPC-Staircase codes for the BEC
Author :
Mattoussi, Ferdaouss ; Savin, Valentin ; Roca, Vincent ; Sayadi, Bessem
Author_Institution :
IINRIA, France
Abstract :
In a previous work we introduced the Generalized LDPC-Staircase codes for the Binary Erasure Channel, based on LDPC-Staircase codes and Reed Solomon as component codes. In this paper we perform an asymptotic analysis, in terms of EXtrinsic Information Transfer functions and we derive an upper bound of the ML decoding threshold based on the area theorem. We use this analysis to study the impact of the internal LDPC-Staircase code rate on the performance, and show that the proposed Generalized LDPC-Staircase codes closely approach the channel capacity, with only a small number (E = 2, 3) of extra-repair symbols per check node.
Keywords :
Reed-Solomon codes; binary codes; channel capacity; maximum likelihood decoding; optimisation; transfer functions; BEC; GLDPC-staircase codes; ML decoding threshold; Reed Solomon codes; area theorem; asymptotic analysis; binary erasure channel; channel capacity; check node; component codes; exit functions; extra-repair symbols; extrinsic information transfer functions; generalized LDPC-staircase codes; internal LDPC-staircase code rate; optimization; Encoding; Iterative decoding; Maintenance engineering; Maximum likelihood decoding; Upper bound;
Conference_Titel :
Signal Processing Advances in Wireless Communications (SPAWC), 2012 IEEE 13th International Workshop on
Conference_Location :
Cesme
Print_ISBN :
978-1-4673-0970-7
DOI :
10.1109/SPAWC.2012.6292979
