Limited-trial Chase decoding

IEEE Trans. Inf. Theory Pub Date : 2003-11-01 DOI:10.1109/TIT.2003.818397
G. Arico, J. Weber
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引用次数: 13

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.
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有限试用Chase解码
Chase解码器允许在汉明距离d的纠错分组码的代数解码算法中灵活地使用可靠性信息。原始Chase算法的最简单版本对传统二进制解码器进行大约d/2次试验,之后选择最佳解码结果作为最终输出。在某些信道上,这种方法可以获得与最大似然(ML)解码相同的性能。在这种通信中,研究了更少试验的类追逐解码器的性能。最引人注目的是,事实证明,一个只使用大约d/4次试验的版本可以实现渐近最优性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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IEEE Trans. Inf. Theory
IEEE Trans. Inf. Theory
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