雷达配置诱饵对抗反辐射导弹的仿真

周伟光; 罗积润; 贾玉贵; 王华彬

doi:10.3724/SP.J.1146.2009.00227

雷达配置诱饵对抗反辐射导弹的仿真

doi: 10.3724/SP.J.1146.2009.00227

周伟光^{①②;罗积润,},
罗积润,
贾玉贵,
王华彬

计量
- 文章访问数: 4063
- HTML全文浏览量: 155
- PDF下载量: 926
- 被引次数: 0
出版历程
- 收稿日期: 2009-02-24
- 修回日期: 2010-04-08
- 刊出日期: 2010-06-19

Simulation of Radar Equipped with Decoys for Counteracting Anti-radiation Missile

Zhou Wei-guang^{①②;罗积润
,},
Luo Ji-run,
JiaYu-gui,
Wang Hua-bin

摘要

摘要: 该文在考虑4臂平面等角螺旋天线双通道幅相组合测向系统工作原理的基础上，确立了测向系统在雷达诱饵合成场中导引信号形成模型，给出了一种简化的反辐射导弹运动模型，获得了分析诱偏效果的计算公式、动态仿真方法及模拟结果。数值计算表明，对于雷达诱饵之间距离为250 m到300 m的情况，通过合理设置诱饵电平可以使雷达及诱饵获得较高的生存概率，而诱饵辐射场初始相位对雷达诱饵生存概率影响相对较小。
- 反辐射导弹; 诱饵; 方向图; 诱偏效果
Abstract: Considering the mechanism of two-channel direction-finding systems with four-arm spiral antenna, guidance signal generation model related to the superposed field radiated by the antennae of radar and decoy is presented. A simple and practical movement model of Anti-Radiation Missile(ARM) is introduced. The dynamic simulation methods and formulae for analyzing deception effect are proposed. The simulation results show that high survival probability of the radar and the decoy can be achieved if the decoy level is set to some appropriate values when the distance between the radar and the decoy is set to 250-300 m, and the initial phase of the decoy radiation field has relatively less effect on the survival probability.

HTML全文

参考文献(1)

王星. 航空电子对抗原理. 北京: 国防工业出版社，2008: 35-47.[2]Wang X. Principle of Aeronautics Electronic Countermeasure. Beijing: National Defense Industry Press, 2008: 35-47.[3]Gross F B and Chen K. Comparison of detectability of traditional pulsed and spread spectrum radar waveforms in classic passive receivers[J].IEEE Transactions on Aerospace and Electronic Systems.2005, 41(2):746-[4]柳书高. 抗反辐射导弹技术研究及仿真. [硕士论文]，哈尔滨工程大学，2007.[5]Liu S G. Research and Simulation on the Technology of Confronting Anti-Radiation Missile. [MA dissertation], Harbin Engineering University, 2007.[6]丛敏，姜雪红. 俄罗斯研制对付哈姆反辐射导弹的诱饵系统. 飞航导弹，2006, 7(1): 1-2.[7]Cong M and Jiang X H. The decoy systems against the HARM anti-radiation missile researched in Russia. Cruise Missile, 2006, (7): 1-2.[8]Shi Zhen, Li Yan, and Yuan Wenliang. Modeling of guidance signal of anti-radiation missile in the case of multiple sources. Proceedings of the 2006 IEEE International Conference on Mechatronics and Automation, Luoyang, China, MAIC, 2006: 2264-2268.[9]Vakin S A and Shustov L N. Principles of Jamming and Electronic Reconnaissance. USA, Clearinghouse, 1969: 5-123.[10]肖涛，汤子跃，季金祥. 相干有源诱偏系统抗ARM分析. 现代雷达，2007，29(3): 9-11, 27.Xiao Tao, Tang Zi-yue, and Ji Jin-xiang. Analysis of coherent active decoying system for Anti-ARM. Modern Radar, 2007, 29(3): 9-11, 27.[11]李振卿. 抗ARM诱饵配置分析和系统安全间距计算. 电子工程，2003, 26(3): 20-25.Li Z Q. Analysis of the layout topology of the decoys and calculation of the safe distance for counteracting the ARM. Electronics Engineer, 2003, 26(3): 20-25.[12]姜铁华，王国玉，苏东林，谭帆. 反辐射导弹技术参数对诱偏系统性能的影响研究. 航空学报，2007, 28(z1): 146-151.Jiang Tie-hua, Wang Guo-yu, Su Dong-lin, and Tan Fan. Study on effects of ARM technical property on decoying performances of active decoying system. Acta Aeronautica et Astronautica Sinica, 2007, 28(z1): 146-151.[13]周伟光，罗积润，王华彬. 雷达诱饵合成场对反辐射导弹测向系统的影响[J].电子与信息学报.2009, 31(4):981-984浏览Zhou Wei-guang, Luo Ji-run, and Wang Hua-bin. Effects of the electromagnetic-field-combined profile of radar and decoy on direction-finding system of anti-radiation missile[J].Journal of Electronics Information Technology.2009, 31(4):981-984[14]贾玉贵, 张莉芳, 沈齐, 潘健. 对空情报雷达配置诱饵抗反辐射导弹的仿真. 第八届全国雷达学术年会论文集, 合肥, 2002: 134-138.[15]Jia Y G, Zhang L F, Shen Q, and Pan J. Simulation of air surveillance radar equipping decoys for resisting ARM. 8th National Conference Symposium on Radar, Hefei, 2002: 134-138.[16]王华彬，周伟光，罗积润. 雷达抗反辐射导弹诱饵布阵仿真研究. 现代雷达, 2009, 31(7): 1402-1417.Wang Hua-bin, Zhou Wei-guang, and Luo Ji-run. Simulation of radar equipped with decoys for counteracting anti-radiation missile. Modern Radar, 2009, 31(7): 1402-1417.[17]Young M. Microwave Passive Direction Finding. Mill Valley, USA: SciTech Publishing, Inc., 2004, Chapter 2.[18]Blake L V. Radar Rang-Performance Analysis. Norwood: Academic Press, 1986: 367-379.[19]Mclendon R and Turner C. Broadband sensors for lethal defense suppression. Microwave Journal, September 1983: 85-101.

施引文献

资源附件(0)

访问统计