Title :
Improved Nearly-MDS Expander Codes
Author :
Roth, Ron M. ; Skachek, Vitaly
Author_Institution :
Dept. of Comput. Sci., Technion-Israel Inst. of Technol., Haifa
Abstract :
A construction of expander codes is presented with the following three properties: i) the codes lie close to the Singleton bound, ii) they can be encoded in time complexity that is linear in their code length, and iii) they have a linear-time bounded-distance decoder. By using a version of the decoder that corrects also erasures, the codes can replace maximum-distance separable (MDS) outer codes in concatenated constructions, thus resulting in linear-time encodable and decodable codes that approach the Zyablov bound or the capacity of memoryless channels. The presented construction improves on an earlier result by Guruswami and Indyk in that any rate and relative minimum distance that lies below the Singleton bound is attainable for a significantly smaller alphabet size
Keywords :
channel capacity; channel coding; computational complexity; concatenated codes; decoding; error correction codes; graph theory; linear codes; MDS-expander code; Zyablov bound; concatenated code; error-correction code; linear-time decoding; linear-time encoding; maximum-distance separable code; memoryless channel capacity; singleton bound; time complexity; Channel capacity; Computer science; Concatenated codes; Error correction; Error correction codes; Graph theory; Information theory; Iterative decoding; Materials science and technology; Memoryless systems; Concatenated codes; expander codes; graph codes; iterative decoding; linear-time decoding; linear-time encoding; maximum-distance separable (MDS) codes;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2006.878232
