WLAN系统QC-LDPC解码算法分析

2010 International Conference on Intelligent Computation Technology and Automation Pub Date : 2010-05-11 DOI:10.1109/ICICTA.2010.820

Lu Xin, Z. Shaobin, Xu Jiong

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引用次数: 2

摘要

下一代无线系统，如IEEE802.11n和802.16e，需要更高的纠错能力来实现高数据速率传输。因此，采用低密度校验码(LDPC码)作为FEC码。准循环LDPC码(QC-LDPC)是LDPC码研究的一个重要分支。IEEE 802.16e提出了一种具有准循环字符的奇偶校验矩阵，使得编码非常简单。本文介绍了LDPC的编码过程和几种译码算法，包括Log-BP算法、最小和算法和改进最小和算法。在下一代无线局域网系统下的仿真结果表明，在AWGN信道上，高速码率的MS比Log-BP算法损失约0.5dB，而复杂度相对较低的归一化MS和行权匹配MS算法的性能与Log-BP算法几乎相同。

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Analysis on QC-LDPC Decoding Algorithms for WLAN Systems

Next generation wireless systems, such as IEEE802.11n and 802.16e, need high error-correction capacity to achieve high data rate transmission. Therefore, a low-density parity-check code(LDPC code) is adopted as a FEC code. Quasi-cyclic LDPC code(QC-LDPC) code is an important branch of LDPC code research. IEEE 802.16e proposes a parity-check matrix with quasi–cyclic character which makes the encoding very simply. This paper introduces the encoding process and several decoding algorithms for LDPC including Log-BP algorithm, Min-Sum(MS) algorithm and modified MS algorithm. Simulations results under a next generation wireless LAN system show that MS comparing with the Log-BP performance has approximately 0.5dB loss for high-speed rates codes over AWGN channel, however the performance of normalized MS and row weight matched MS with relatively low complexity is nearly the same as that of Log-BP algorithm.

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2010 International Conference on Intelligent Computation Technology and Automation

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