Title :
Limited-trial Chase decoding
Author :
Aricò, Giampiero ; Weber, Jos H.
Author_Institution :
Cascina Costa di Samarate, AgustaWestland, Varese, Italy
Abstract :
Chase decoders permit flexible use of reliability information in algebraic decoding algorithms for error-correcting block codes of Hamming distance d. The least complex version of the original Chase algorithms uses roughly d/2 trials of a conventional binary decoder, after which the best decoding result is selected as the final output. On certain channels, this approach achieves asymptotically the same performance as maximum-likelihood (ML) decoding. In this correspondence, the performance of Chase-like decoders with even less trials is studied. Most strikingly, it turns out that asymptotically optimal performance can be achieved by a version which uses only about d/4 trials.
Keywords :
Hamming codes; algebraic codes; binary codes; channel coding; decoding; error correction codes; optimisation; Chase decoders; Chase-like decoders; Hamming distance; algebraic decoding algorithms; asymptotically optimal performance; binary decoder; error-correcting block codes; limited-trial Chase decoding; reliability information; Algorithm design and analysis; Block codes; Demodulation; Hamming distance; Linear code; Maximum likelihood decoding; Maximum likelihood detection; Maximum likelihood estimation;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2003.818397
