摘要
SC-FDMA-IDMA非正交多址接入结合了SC-FDMA和IDMA 2种技术,这种结合使SC-FDMA-IDMA有可能继承这2种技术各自不同的优点,例如容量大、峰平功率比(PAPR)低、多用户信号检测简单等。但由于用户信号采用SC-FDMA这种特殊的单载波调制方式进行传输,当信道的频率选择性比较严重时,系统性能将快速下降。为此推导了适应于SC-FDMA-IDMA系统的迭代分组判决反馈均衡(IB-DFE)算法,以提高系统抗频率选择性衰落的能力。仿真研究表明,采用IB-DFE均衡算法后,相对于采用高阶调制的单用户SC-FDMA系统,在相同的传输效率下采用低阶调制的多用户SC-FDMA-IDMA系统的性能有了很大的提高。
As a new non-orthogonal multiple-access scheme, SC-FDMA-IDMA combines two technologies of SC-FDMA and IDMA together. This combination makes SC-FDMA-IDMA have the probability to inherit different advantages of these two technologies such as large system capacity, low peak-to-average power ratio (PAPR) and simple multiuser detection. However, because SC-FDMA for the transmission of different users' signal is a special form of single carrier modulation, the system performance may degrade quicldy when the frequency selectivity of channel is serious. So the iterative block decision feedback equalization (IB-DFE) algorithm applied to the SC-FDMA-IDMA system is derived in order to enhance the ability of anti:frequency selective fading. Simulation results show that comparing with the sin- gle-user SC-FDMA system with high-order modulation, the multiuser SC-FDMA-IDMA system with low-order modulation has great performance improvement after adopting the IB-DFE algorithm on condition that these two systems have the same transmission efficiency.
出处
《通信学报》
EI
CSCD
北大核心
2014年第8期48-55,共8页
Journal on Communications
基金
国家自然科学基金资助项目(61301157)~~