针对实际工程应用中的里德-所罗门(Reed-Solomon,RS)编码识别问题,根据国际空间数据系统咨询委员会(Consultative Committee for Space Data Systems,CCSDS)标准,提出了基于软信息的低复杂度缩短交织RS编码识别算法。利用码字同步算法...针对实际工程应用中的里德-所罗门(Reed-Solomon,RS)编码识别问题,根据国际空间数据系统咨询委员会(Consultative Committee for Space Data Systems,CCSDS)标准,提出了基于软信息的低复杂度缩短交织RS编码识别算法。利用码字同步算法对码字起点和缩短长度进行识别,利用接收到的RS码字计算基于校正子后验概率对数似然比平均值的编码识别特征,对码字的交织深度进行识别;进而利用识别所得的RS码交织深度和缩短长度对接收码字进行解交织和码字填充,识别RS码生成多项式。仿真结果表明,所提算法在信噪比为6.1 dB时正确识别概率即可大于90%,相较传统硬判决识别算法和基于伽罗华域快速傅里叶变换(Galois Field Fourier Transform,GFFT)的谱累积量算法均有显著的性能提升。展开更多
The application of the orthogonal time frequency space(OTFS)modulation in multiple-antenna systems is investigated.The diversity and/or the multiplexing gain can be achieved by deploying various multiple-antenna techn...The application of the orthogonal time frequency space(OTFS)modulation in multiple-antenna systems is investigated.The diversity and/or the multiplexing gain can be achieved by deploying various multiple-antenna techniques,and thus the reliability and/or the spectral efficiency are improved correspondingly.We provide two classes of OTFSbased multiple-antenna approaches for both the open-loop and the closed-loop systems.Spe⁃cifically,in the open-loop system,a transmitting diversity approach,which resembles the space-time coding technique,is proposed by allocating the information symbols appropriate⁃ly in the delay-Doppler domain.In the closed-loop system,we adopt the Tomlinson-Harashi⁃ma precoding in our derived delay-Doppler equivalent transmission model.Numerical evalu⁃ations demonstrate the advantages of applying the multiple-antenna techniques to the OTFS.At last,several challenges and opportunities are presented.展开更多
文摘针对实际工程应用中的里德-所罗门(Reed-Solomon,RS)编码识别问题,根据国际空间数据系统咨询委员会(Consultative Committee for Space Data Systems,CCSDS)标准,提出了基于软信息的低复杂度缩短交织RS编码识别算法。利用码字同步算法对码字起点和缩短长度进行识别,利用接收到的RS码字计算基于校正子后验概率对数似然比平均值的编码识别特征,对码字的交织深度进行识别;进而利用识别所得的RS码交织深度和缩短长度对接收码字进行解交织和码字填充,识别RS码生成多项式。仿真结果表明,所提算法在信噪比为6.1 dB时正确识别概率即可大于90%,相较传统硬判决识别算法和基于伽罗华域快速傅里叶变换(Galois Field Fourier Transform,GFFT)的谱累积量算法均有显著的性能提升。
基金supported in part by the Fundamental Research Funds for the Central Universities under Grant Nos.2020JBM081 and 2020JBZD005in part by the National Key R&D Program of China under Grant 2020YFB1806903in part by the National Natural Science Foundation under Grant No.U1834210.
文摘The application of the orthogonal time frequency space(OTFS)modulation in multiple-antenna systems is investigated.The diversity and/or the multiplexing gain can be achieved by deploying various multiple-antenna techniques,and thus the reliability and/or the spectral efficiency are improved correspondingly.We provide two classes of OTFSbased multiple-antenna approaches for both the open-loop and the closed-loop systems.Spe⁃cifically,in the open-loop system,a transmitting diversity approach,which resembles the space-time coding technique,is proposed by allocating the information symbols appropriate⁃ly in the delay-Doppler domain.In the closed-loop system,we adopt the Tomlinson-Harashi⁃ma precoding in our derived delay-Doppler equivalent transmission model.Numerical evalu⁃ations demonstrate the advantages of applying the multiple-antenna techniques to the OTFS.At last,several challenges and opportunities are presented.