The Ultra-WideBand Orthogonal Frequency Division Multiplexing (UWB-OFDM) approach is a promising physical-layer technique for short-range, high data-rate wireless networks. As the occupied band-width increases, howeve...The Ultra-WideBand Orthogonal Frequency Division Multiplexing (UWB-OFDM) approach is a promising physical-layer technique for short-range, high data-rate wireless networks. As the occupied band-width increases, however, its implementation becomes more and more difficult. In order to make it easier to achieve a UWB-OFDM system, a complexity-reduced Frequency diversity (F-diversity) scheme, Fre-quency-Time Block Code (FTBC), is presented in this paper. The FTBC halves the sampling rate required by other F-diversity techniques so as to cut down the cost of UWB-OFDM systems with F-diversity to a certain extent.展开更多
针对多频带正交频分复用超宽带(MB-OFDM UWB)接收机中由于IQ不平衡导致系统性能恶化的问题,提出了一种时频域联合的IQ不平衡参数估计和补偿方法。首先接收机利用前导符号在时域进行IQ不平衡估计完成数据预补偿,然后接收机利用设计的...针对多频带正交频分复用超宽带(MB-OFDM UWB)接收机中由于IQ不平衡导致系统性能恶化的问题,提出了一种时频域联合的IQ不平衡参数估计和补偿方法。首先接收机利用前导符号在时域进行IQ不平衡估计完成数据预补偿,然后接收机利用设计的交织导频在频域进行残余IQ不平衡的逐段估计和补偿。仿真结果表明,在频率相关的IQ不平衡情况下,信噪比高于8 d B时,时频域联合的参数估计和补偿方法在接收性能上优于单一时域估计。实验结果表明,该算法可以有效克服超宽带系统中普遍存在的IQ支路不一致性问题,性能提升效果显著。展开更多
文摘The Ultra-WideBand Orthogonal Frequency Division Multiplexing (UWB-OFDM) approach is a promising physical-layer technique for short-range, high data-rate wireless networks. As the occupied band-width increases, however, its implementation becomes more and more difficult. In order to make it easier to achieve a UWB-OFDM system, a complexity-reduced Frequency diversity (F-diversity) scheme, Fre-quency-Time Block Code (FTBC), is presented in this paper. The FTBC halves the sampling rate required by other F-diversity techniques so as to cut down the cost of UWB-OFDM systems with F-diversity to a certain extent.
文摘针对多频带正交频分复用超宽带(MB-OFDM UWB)接收机中由于IQ不平衡导致系统性能恶化的问题,提出了一种时频域联合的IQ不平衡参数估计和补偿方法。首先接收机利用前导符号在时域进行IQ不平衡估计完成数据预补偿,然后接收机利用设计的交织导频在频域进行残余IQ不平衡的逐段估计和补偿。仿真结果表明,在频率相关的IQ不平衡情况下,信噪比高于8 d B时,时频域联合的参数估计和补偿方法在接收性能上优于单一时域估计。实验结果表明,该算法可以有效克服超宽带系统中普遍存在的IQ支路不一致性问题,性能提升效果显著。