一种适用于高速移动环境的LDPC译码算法

为了降低译码算法复杂度、提高信道传送质量，提出一种改进型低密度奇偶校验译码算法。该算法是以多径瑞利衰落信道仿真模型作为高速移动环境下的信道模型，采用有理函数逼近的思想，降低每次循环时校验节点的运算量，从而降低信道译码算法复杂度。在MATLAB环境下对该算法进行了仿真验证，结果表明，相对于对数似然比置信传播译码算法，改进后的低密度奇偶校验译码算法具有较好的译码性能，更能有效降低译码的复杂度。因此改进译码算法应用在高速移动环境中，可以提高信道传输的质量和效率。

Abstract

In order to reduce the complexity of algorithm and improve the quality of channel transmission, a modified LDPC decoding algorithm is proposed in this paper. The algorithm is used in high speed mobile environment where multipath Rayleigh fading channel model is chosen considering the frequency selective deterministic scenario. At the same time, Taylor function approximation is adopted to reduce the amount of inspection node in cycling step, as well as the complexity of decoding. Simulation results show that, compared with BP LLR decoding algorithm, the modified LDPC decoding algorithm has better decoding performance, and can effectively reduce the decoding complexity. Therefore, the modified LDPC decoding algorithm can be applied in the high speed mobile environment, which can improve the quality and efficiency of channel transmission.

参考文献

[1] 魏瑞刚,陈晖,邱金蕙,等.高速数据传输中的LDPC码译码算法研究［J］.无线电工程,2011，(3):20-22.

[2] Fossorier M P, Mihal C,Jevic M,et al. Reduced Complexity Iterative Decoding of Low-Density Parity Check Codes based on Belief Propagation ［J］.IEEE Translations on Communications,1999,47(5):673-680.

[3] 易旭,杜昊阳. LDPC码的研究进展和应用展望［J］. 通信技术,2016,(1):251-254.

[4] 苏一栋,陈树新,林诚. 一种LDPC码混合迭代译码算法研究［J］.电视技术,2012,36(1):83-85.

[5] Yuan Jianguo,Liu Feilong,Ye Wenwei,et al. A New Coding Scheme of QC-LDPC Codes for Option Transmission Systems［J］.OPTIK,2014,125(3):1016-1019.

[6] Gallager R G.Low Density Parity Check Codes ［J］. IRE Transactions on Information Theory ,1962,8(1):21-28.

[7] Pandya N, Honary B. Low-Complexity Decoding of LDPC Code ［J］.Electronics Letters,2007,43(18):990-991.

[8] 贺鹤云.LDPC码的基础与应用［M］.北京:人民邮电出版社,2009.

[9] 张佳岩,张士伟,吴玮,等. 快速收敛的EG-LDPC译码算法设计实现［J］. 电视技术,2015,39(8) :96-98，103.

[10] Chen Jinghu,Dholakia A,Eleftheriou E.Reduced-Complexity Decoding of LDPC Codes ［J］. IEEE Transactions on Communications ,2005,53(3):213-225.

[11] 张莹,阴亚芳,杨祎,等. 基于可见光通信的信道模型及编码性能分析［J］. 光通信研究,2015,(6):69-72.

[12] Chen J,Fossorier M P C. Near Optimum Universal Belief Propagation based Decoding of Low Density Parity Check Codes［J］.IEEE Translations on Communications,2002，50(3):406-414.

[13] 袁建国,汪哲,何昌伟,等. 光通信系统中一种改进的LLR-BP译码算法［J］. 半导体光电,2016,(4):532-535，591.

[14] 林雪红,吴伟陵.LDPC码的改进译码算法［J］. 电路与系统学报, 2007,(3):128-130.

[15] 王继强,刘翠海,薛蕾蕾,等. 低密度奇偶校验码译码算法性能分析及仿真［J］. 数字技术与应用, 2016,(5):141-143.

杜乐, 郑娟毅, 李永, 吴玮. 一种适用于高速移动环境的LDPC译码算法[J]. 光通信研究, 2017, 43(4): 66. DU Le, ZHENG Juan-yi, LI Yong, WU Wei. A LDPC Decoding Algorithm for the Mobile Environment of High Speed[J]. Study On Optical Communications, 2017, 43(4): 66.

一种适用于高速移动环境的LDPC译码算法

关于本站 Cookie 的使用提示

全站搜索

一种适用于高速移动环境的LDPC译码算法

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索