摘要
对单脉冲跟踪雷达在交叉眼干扰环境下所接收信号模型及所测目标视角进行了较严格的数学分析和初步仿真计算。结果表明:1)单脉冲跟踪雷达所接收信号中的干扰信号分量与目标回波信号分量间存在多普勒频差,多普勒频差随雷达与目标间距离的减少而增大;2)当目标回波信号功率相对于单个干扰信号的功率不是足够小时,目标回波信号可能导致诱偏方向失控;3)尽管当两干扰信号功率完全相等,相位正好相反时,交叉眼干扰对单脉冲跟踪雷达的诱偏能力最强,但如此设置干扰参数并不能达到预期干扰效果。
A rigorous mathematical analysis of cross-eye jamming in a radar system scenario and an expression for the induced angular error due to the cross-eye jammer are presented. The simulation results show that there is a Doppler difference between jamming and target return. The Doppler difference increases with the decrease of the distance between the monopulse radar and the platform protected by cross-eye jammer. When the power of target return is not small enough with respect to the power of jamming transmitted by one of the two sources, maybe the sign of the indicated angle is uncontrollable. The simulation results also show that although the cross-eye gain is maximized if two jamming signals are equal amplitude and antiphase. Though the cross-eye gain is maximized if two jamming signals are equal anplitude and antiphase, this condition shouldn't be satisfied in practice.
出处
《现代雷达》
CSCD
北大核心
2013年第6期69-72,共4页
Modern Radar
关键词
交叉眼干扰
单脉冲跟踪雷达
角度欺骗
cross-eye jamming
monopulse tracking radar
angle deception
