基于通用复时频分布的进动目标微多普勒提取  被引量:1

Micro-Doppler extraction of precession targets based on generalized complex-time-frequency distribution

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作  者:寇鹏[1,2] 刘永祥[1] 李康乐[1] 霍凯[1] 

机构地区:[1]国防科学技术大学电子科学与工程学院,湖南长沙410073 [2]西安卫星测控中心,陕西西安710043

出  处:《系统工程与电子技术》2011年第7期1462-1467,共6页Systems Engineering and Electronics

基  金:国家自然科学基金(60872134)资助课题

摘  要:首先建立了进动锥体目标的雷达回波模型,推导了目标微多普勒频率与进动参数的定量关系。针对进动目标雷达回波具有的多分量非线性调频特点,提出了通用复时频分布(generalized complex-time-frequency distribution,GCD)的微多普勒提取方法,与线性和二次Cohen类时频分布相比,GCD具备高时频分辨力、低交叉项的优点。同时针对峰值估计微多普勒瞬时频率(instantaeous frequency,IF)方法受信号频率交叉覆盖和噪声干扰严重的问题,提出基于Viterbi算法的微多普勒IF估计方法,有效提高了微多普勒IF估计精度。实验中利用仿真和暗室测量数据验证了GCD-Viterbi方法的性能。The radar signal model of cone targets with precession is provided,which can develop the relationship between micro-Doppler and precession parameters.Due to the characteristics of nonlinear frequency modulated and multi-components in radar signal,generalized complex-time-frequency distribution(GCD) is introduced to analyze the micro-Doppler of targets with precession,which has better concentration and time-frequency resolution compared with that of classical time-frequency distributions.Moreover,the estimation algorithm of micro-Doppler instantaneous frequency based on GCD and Viterbi method is proposed to reduce the effect of cross-term artifacts and noise,as well as improve the estimating precision.The performance of the estimation algorithm is validated with simulated data and radar data.

关 键 词:微多普勒 进动 复时频分布 瞬时频率 

分 类 号:TN95[电子电信—信号与信息处理]

 

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