针对线性调频(linear frequency modulation,LFM)信号参数估计方法中参数估计范围较小的问题,以旋转求和抽取(rotate add decimate,RAD)测频方法为基础,提出了一种估计LFM信号参数范围的改进方法.该方法在保证线性调频斜率以及频率估计...针对线性调频(linear frequency modulation,LFM)信号参数估计方法中参数估计范围较小的问题,以旋转求和抽取(rotate add decimate,RAD)测频方法为基础,提出了一种估计LFM信号参数范围的改进方法.该方法在保证线性调频斜率以及频率估计精度的前提下,将线性调频斜率估计范围扩展至(-π/2,π/2).给出了用线性迭代预测方法改进LFM信号参数估计范围的基本思想和步骤.最后仿真验证了该方法的有效性.展开更多
This paper proposes a simple method to enlarge the estimation range of conventional carrier frequency offset (CFO) estimation methods based on correlations among the identical parts of the preamble. A novel preamble i...This paper proposes a simple method to enlarge the estimation range of conventional carrier frequency offset (CFO) estimation methods based on correlations among the identical parts of the preamble. A novel preamble is designed, which is composed of one regular OFDM training block with even numbers of identical parts and one irregular OFDM training block with odd numbers of identical parts. The initial estimates obtained over the two training blocks are next exploited to jointly estimate the CFO. By elaborately selecting the numbers of identical parts for the two training blocks, the proposed CFO estimator can estimate frequency offset over tens of the subcarrier spacing. Simulation results showed that the proposed CFO estimator satisfies the estimate range requirement for the practical OFDM systems, while achieving a very good estimate performance.展开更多
文摘针对线性调频(linear frequency modulation,LFM)信号参数估计方法中参数估计范围较小的问题,以旋转求和抽取(rotate add decimate,RAD)测频方法为基础,提出了一种估计LFM信号参数范围的改进方法.该方法在保证线性调频斜率以及频率估计精度的前提下,将线性调频斜率估计范围扩展至(-π/2,π/2).给出了用线性迭代预测方法改进LFM信号参数估计范围的基本思想和步骤.最后仿真验证了该方法的有效性.
基金Project supported by the Hi-Tech Research and Development Pro-gram (863) of China (No. 2003AA12331007) and the National NaturalScience Foundation of China (No. 60572157)
文摘This paper proposes a simple method to enlarge the estimation range of conventional carrier frequency offset (CFO) estimation methods based on correlations among the identical parts of the preamble. A novel preamble is designed, which is composed of one regular OFDM training block with even numbers of identical parts and one irregular OFDM training block with odd numbers of identical parts. The initial estimates obtained over the two training blocks are next exploited to jointly estimate the CFO. By elaborately selecting the numbers of identical parts for the two training blocks, the proposed CFO estimator can estimate frequency offset over tens of the subcarrier spacing. Simulation results showed that the proposed CFO estimator satisfies the estimate range requirement for the practical OFDM systems, while achieving a very good estimate performance.