摘要
针对低信噪比条件下宽带高速跳频信号的参数估计问题,提出一种多通道数据融合跳频信号频率跳变时刻估计算法。该算法利用无盲区数字信道化预处理实现宽带跳频信号的全概率、全盲接收,通过数据融合得到一路包含全部频率跳变信息的参考信号,并利用该参考信号进行最大似然估计得到频率跳变时刻精确估计值。给出了所提出跳变时刻估计算法的Cramer-Rao下界并进行实验仿真。理论推导和仿真结果表明:针对一定的输入信噪比,适当选择信道化数和估计时间可实现较高的估计精度。在0dB信噪比条件下,采用16通道数字信道化处理,估计方差小于10^(-3)。
A new hop timing estimation algorithm for frequency hopping signals based on non-blind zone channelization preprocessing and data fusion is proposed to solve the parameters estimation problem for wide-band high speed frequency hopping signals in low signal-noise-ratio(SNR) circumstances.This algorithm can blindly receive wide-band frequency hopping signals with full probability using non-blind zone channelization preprocessing method,and multi-channel transition signals are obtained,data fusion method is used to generate the reference signal which has the same transition information as the original multi-channel transition signals,then maximum likelihood estimation method is used to estimate hop timing.Theoretic Cramer-Rao lower bound of proposed algorithm is also analyzed. The analysis and simulation results show that the hop timing estimation variance performance depends on signal-noise-ratio condition, channel numbers and hop numbers used.The estimation variance is less than 10" with channel number equals to 16 in OdB SNR circumstances.
出处
《信号处理》
CSCD
北大核心
2011年第11期1664-1670,共7页
Journal of Signal Processing
基金
国家自然科学基金与中国工程物理研究院联合基金资助项目(10766006)
