针对步进线性调频信号(stepped frequency-linear frequency modulation,SF-LFM)体制雷达对抗问题,提出了一种基于子脉冲间歇采样的干扰方法。通过对截获SF-LFM信号的子脉冲进行交替采样与转发,在雷达成像处理后可形成沿距离向延拓的逼...针对步进线性调频信号(stepped frequency-linear frequency modulation,SF-LFM)体制雷达对抗问题,提出了一种基于子脉冲间歇采样的干扰方法。通过对截获SF-LFM信号的子脉冲进行交替采样与转发,在雷达成像处理后可形成沿距离向延拓的逼真假目标。在此基础上对其干扰特性与参数设计问题进行了讨论,并分别通过一维理想散射点仿真与某型飞机二维成像数据仿真实验验证了所提方法有效性。展开更多
A discrete model is set up for High Resolution Range Profile (HRRP) of an extended target and the model of echo from an extended target for a Stepped Chirp Radar (SCR) is proposed. The effect of target motion on a ran...A discrete model is set up for High Resolution Range Profile (HRRP) of an extended target and the model of echo from an extended target for a Stepped Chirp Radar (SCR) is proposed. The effect of target motion on a range profile is thoroughly analyzed, and based on which precision re- quirement is developed for motion compensation. By studying the time domain correlation and the rule based on the least burst error, a motion compensation algorithm which satisfies the project requirement is presented, and the cyber-emulation confirms the conclusion. At last the processor is designed by using DSP devices to realize motion compensation and target recognition.展开更多
文摘针对步进线性调频信号(stepped frequency-linear frequency modulation,SF-LFM)体制雷达对抗问题,提出了一种基于子脉冲间歇采样的干扰方法。通过对截获SF-LFM信号的子脉冲进行交替采样与转发,在雷达成像处理后可形成沿距离向延拓的逼真假目标。在此基础上对其干扰特性与参数设计问题进行了讨论,并分别通过一维理想散射点仿真与某型飞机二维成像数据仿真实验验证了所提方法有效性。
基金Supported by National Natural Science Foundation of China (No.60402032).
文摘A discrete model is set up for High Resolution Range Profile (HRRP) of an extended target and the model of echo from an extended target for a Stepped Chirp Radar (SCR) is proposed. The effect of target motion on a range profile is thoroughly analyzed, and based on which precision re- quirement is developed for motion compensation. By studying the time domain correlation and the rule based on the least burst error, a motion compensation algorithm which satisfies the project requirement is presented, and the cyber-emulation confirms the conclusion. At last the processor is designed by using DSP devices to realize motion compensation and target recognition.