纠错算术码的迭代联合源信道译码

Junqing Liu, Tianhao Li
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引用次数: 0

摘要

带有禁止符号的二进制算术码(称为纠错算术码:ECAC)可以建模为有限状态机,并作为变长网格码处理。提出了一种基于网格纠错算法的联合源信道迭代译码算法。与传统的迭代译码算法不同,该算法不需要在编码过程中使用CRC等附加校验码,而是利用蒙特卡罗方法直接检测错误位。此外,外部纠错器不仅可以检测错误位,还可以向内部纠错器提供错误位置的概率,从而加快解码过程。实验结果表明,与传统的译码算法相比,该算法在误码率上有了明显的提高,但增加的计算复杂度是可以接受的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Iterative Joint Source Channel Decoding of Error Correction Arithmetic Codes
Binary arithmetic codes with forbidden symbols (named error correction arithmetic codes: ECAC) can be modeled as finite state machines and treated as variable length trellis codes. In this paper, a novel iterative joint source channel decoding algorithm is proposed for decoding trellis based error correction arithmetic codes. Unlike the conventional iterative decoding algorithm, it is needless to use the additional check codes such as CRC during the encoding, the proposed algorithm utilizes the Monte Carlo methods to detect the error bit directly. Furthermore, the outer error detector can not only detect the error bits but also provide the probability of the error location to the inner error corrector so as to accelerate the decoding process. Experimental results show that the proposed algorithm has some significant performance improvements over some conventional decoding algorithms in terms of the symbol error rate, while the increased computational complexity can be accepted.
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