基于列表的 LDPC 代码近端解码优化

arXiv - MATH - Information Theory Pub Date : 2024-09-11 DOI:arxiv-2409.07278

Andreas Tsouchlos, Holger Jäkel, Laurent Schmalen

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引用次数: 0

摘要

本文在加性白高斯噪声（AWGN）信道的背景下考虑了近似解码算法。对算法收敛行为的分析表明，近端解码在迭代一定次数后，估计值本身会产生振荡行为。由于这种振荡，解码过程中出现的帧错误往往只能归因于剩余的几个错误解码位位置。在这封信中，我们提出了一种近似解码算法的改进方法，即增加一个步骤，尝试纠正这些错误位置。我们提出了一个经验规则，通过该规则可以确定最有可能需要修正的部分。利用这一洞察力，并执行后续的 "列表中ML "解码，与传统的近端解码相比，根据解码器参数和代码的不同，可实现高达 1 dB 的增益。

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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List-based Optimization of Proximal Decoding for LDPC Codes

In this paper, the proximal decoding algorithm is considered within the context of additive white Gaussian noise (AWGN) channels. An analysis of the convergence behavior of the algorithm shows that proximal decoding inherently enters an oscillating behavior of the estimate after a certain number of iterations. Due to this oscillation, frame errors arising during decoding can often be attributed to only a few remaining wrongly decoded bit positions. In this letter, an improvement of the proximal decoding algorithm is proposed by establishing an additional step, in which these erroneous positions are attempted to be corrected. We suggest an empirical rule with which the components most likely needing correction can be determined. Using this insight and performing a subsequent ``ML-in-the-list'' decoding, a gain of up to 1 dB is achieved compared to conventional proximal decoding, depending on the decoder parameters and the code.

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arXiv - MATH - Information Theory

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