航空学报 > 2019, Vol. 40 Issue (8): 322755-322755   doi: 10.7527/S1000-6893.2019.22755

反向交叉眼对单脉冲雷达干扰效果分析及仿真验证

周亮, 孟进, 吴灏, 刘永才, 刘伟   

  1. 海军工程大学 舰船综合电力技术国防科技重点实验室, 武汉 430033
  • 收稿日期:2018-10-24 修回日期:2018-11-26 出版日期:2019-08-15 发布日期:2019-02-26
  • 通讯作者: 吴灏 E-mail:wowhow@163.com
  • 基金资助:
    国家自然科学基金(71801220,61801502)

Analysis and simulation verification of retrodirective cross-eye against monopulse radar

ZHOU Liang, MENG Jin, WU Hao, LIU Yongcai, LIU Wei   

  1. National Key Laboratory for Vessel Integrated Power System Technology, Naval University of Engineering, Wuhan 430033, China
  • Received:2018-10-24 Revised:2018-11-26 Online:2019-08-15 Published:2019-02-26
  • Supported by:
    National Natural Science Foundation of China(71801220,61801502)

摘要: 交叉眼干扰被认为是对单脉冲雷达干扰最有效的方式之一。基于雷达方程建立了隔离平台回波下的两点源反向交叉眼干扰模型,推导了交叉眼干扰欺骗角一般性公式,研究了干扰机发射天线间距、干扰平台旋转角和干扰机相对雷达之间距离等参数变化对角度欺骗效果的影响,并依据单脉冲雷达接收机获取角度的信息处理流程,建立了单脉冲雷达接收机仿真模型,对交叉眼数学模型的正确性和局限性进行了分析。研究结果表明:单脉冲雷达越靠近两点源交叉眼干扰机中心线、干扰机两发射天线间距越大、与干扰机距离越近时,角度欺骗效果越好;单脉冲雷达的欺骗角度随着与干扰机距离的接近呈指数式增大;数学模型和仿真模型计算的单脉冲雷达角度误差最大值随干扰机天线与雷达天线中心连线的夹角的增大呈指数化增长。研究可为交叉眼干扰工程设计作参考。

关键词: 单脉冲雷达, 反向交叉眼, 干扰机, 角度欺骗, 仿真

Abstract: Cross-eye jamming is considered to be one of the most effective methods for monopulse radar. Based on the radar equation, a two point source retrodirective cross-eye mathematical model under isolated platform echoes is established, and a general formula of indicate angle is derived. The influences of the parameters such as the distance between the jammer and the radar, the distance between the transmitting antenna, and the rotation angle of the jamming platform on the angle deception effect are studied. A simulation model of monopulse radar receiver is established in reference to the processing flow of the angle obtained by the monopulse radar. The correctness and limitation of the mathematical model are analyzed. The results show that the closer the monopulse radar is to the central line of the jammer, the larger the distance between the two transmitting antennas, and the smaller the distance between the monopulse radar and the jammer, the better the effect of angle deception. The deception angle of the monopulse radar increases exponentially with the decrease of the range. The maximal difference between the monopulse radar angle calculated by the mathematical model and by the simulation model increases exponentially with the increase of the angle between the jammer antenna and the center of radar antenna. This paper is implicational for designing cross-eye jammer engineering.

Key words: monopulse radar, retrodirective cross-eye, jamming, angle deception, simulation

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