摘要
由于高速多径环境下频率色散现象严重破坏正交频分复用(OFDM)系统子载波正交性,为解决高速多径环境下的频率色散问题,正交时频空调制技术技术(OTFS)应运而生;而多输入多输出技术(MIMO)具有可以有效提升信道容量和系统可靠性的特点,文章采用了MIMO技术与OTFS技术结合的方法,推导了MIMO-OTFS系统中最大比合并信号检测算法(MRC)理论并加以仿真;针对MIMO-OTFS系统中MRC信号检测算法复杂度过高的情况,提出了一种低复杂度信号检测算法;该算法的基本思想是利用最大比合并方法对时延-多普勒网格中传输符号的接收多径分量进行提取和相干合并,以提高合并信号的信噪比,同时利用Cholesky矩阵分解理论,对信道增益矩阵进行求逆运算的优化,降低了算法复杂度,为MIMO-OTFS系统的实际应用做出贡献。
Frequency dispersion phenomenon has significantly influenced the subcarriers'orthogonality of an orthogonal frequency division multiplexing(OFDM)system under high-speed multipath circumstance.To solve this problem,a multiplexing orthogonal time frequency space(OTFS)modulation technology has emerged.The application of multiple-input multiple-output technology(MIMO)and OTFS technology is named a MIMO-OTFS system,which takes both advantage of the channel capacity and reliability benefits of MIMO and the robustness of OTFS in multipath dispersion.The theory and simulation of maximum ratio merging detection algorithm are derived and finished in the the MIMO-OTFS system.Aimed at the high complexity of the MRC signal detection in the MIMO-OTFS system,a low-complexity MRC estimation algorithm is proposed to reduce the computational cost.The basic idea is the extraction and coherent combination of received multipath components of transmitted signals in delay-Doppler grid by using maximum ratio combining method.To enhance the signal-to-noise ratio of the signal in the observation space,the Cholesky decomposition is used to optimally invert the signal channel gain matrix,and decrease the complexity of the algorithm,which provides the actual application in the MIMO-OTFS system.
作者
韩飞
纪金伟
刘成朋
吴涵
HAN Fei;JI Jinwei;LIU Chengpeng;WU Han(The 54th Research Institute of China Electronics Technology Corporation,Shijiazhuang 050081,China)
出处
《计算机测量与控制》
2023年第2期190-195,203,共7页
Computer Measurement &Control
