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雷达诱饵合成场对反辐射导弹测向系统的影响

周伟光 罗积润 王华彬

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. doi: 10.3724/SP.J.1146.2007.02003
引用本文: 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. doi: 10.3724/SP.J.1146.2007.02003
Zhou Wei-guang, Luo Ji-run, 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. doi: 10.3724/SP.J.1146.2007.02003
Citation: Zhou Wei-guang, Luo Ji-run, 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. doi: 10.3724/SP.J.1146.2007.02003

雷达诱饵合成场对反辐射导弹测向系统的影响

doi: 10.3724/SP.J.1146.2007.02003

Effects of the Electromagnetic-Field-Combined Profile of Radar and Decoy on Direction-Finding System of Anti-Radiation Missile

  • 摘要: 该文在同时考虑方向图、极化方式两方面影响的情况下,确立雷达天线、诱饵天线辐射场的数学模型,从四臂平面等角螺旋天线双通道幅相组合测向系统工作原理入手,给出了雷达和诱饵合成场对反辐射导弹测向系统干扰性能的仿真思路、计算公式和模拟结果。数值计算表明,通过合理设置雷达诱饵布阵距离、诱饵辐射功率与雷达副瓣辐射功率的相对大小及诱饵辐射场与雷达辐射场初始相位的相对关系,可以使反辐射导弹跟踪进入雷达和诱饵之间的陷阱区域。
  • Wang Fan, He Rui-long, and Sha Xiang. Anti-ARMtechnique: feature analysis of ARM warning radar [C]. 2001CIE International Conference on Radar, Beijing, China,15-18 Oct. 2001: 293-296.[2]Liu Guo-sui, Gu Hong, and Su Wei-min, et al.. The analysisand design of modern low probability of intercept radar [C].2001 CIE International Conference on Radar, Beijing, China,15-18Oct. 2001: 120-124.[3]Gross F B and Chen K. Comparison of detectability oftraditional pulsed and spread spectrum radar waveforms inclassic passive receivers [J].IEEE Trans. on Aerospace andElectronic Systems.2005, 41(2):746-[4]Li Xia, Yuan Zhi-wei, and Yang Bo. Design of anti-radarmissile decoy system arrange project and decoying effectanalysis [J]. Systems Engineering and Electronics, 2005, 27(3):439-445.[5]Zhao Yi-Nan, Jin Ming, and Wang Jun, et al.. A practicalmethod against passive centroid jamming in monopulse radar[C]. 2006 CIE International Conference on Radar, Shanghai,China, 2006: 1-3.[6]Wang Fan, He Rui-long, and Sha Xiang. Anti-ARMtechnique: distributed general-purpose Decoy series (DGPD)[C]. 2001 CIE international Conference on Radar, Beijing,China, 15-18 Oct. 2001: 306-309.[7]张凯. 有源雷达诱饵分析与设计. [硕士论文], 西北工业大学,2006.Zhang Kai. Analysis and Design of Active Decoy [D].[Masteral Dissertation], Northwestern PolytechnicalUniversity, 2006.[8]Vakin S A and Shustov L N. Principles of Jamming andElectronic Reconnaissance [M]. USA: Clearinghouse, 1969:57-255.[9]司锡才. 反辐射导弹防御技术导论[M]. 哈尔滨: 哈尔滨工程大学出版社, 1997: 119-135.Si Xi-cai. Introduction to Defense Technology forAnti-Radiation Missile [M]. Harbin: Harbin EngineeringUniversity Press, 1997: 119-135.[10]Zhen Shi and Yan Li. Modeling of guidance signal ofanti-radiation missile in the case of multiple sources [C].Proceedings of the 2006 IEEE International Conference onMechatronics and Automation, Luo Yang, China, July 25-28,2006: 2264-2268.[11]Blake V L. Radar Range-Performance Analysis [M]. Norwood:Artch House, 1986: 367-379.[12]王国玉, 汪连栋等. 雷达电子战系统数学仿真与评估[M]. 北京: 国防工业出版社, 2004: 83-87.Wang Guo-yu and Wang Lian-dong, et al.. MathematicalSimulation and Evaluation of Radar Electronic WarfareSystems [M]. Beijing: National Defense Industry Press, 2004:83-87.[13]司锡才, 赵建民. 宽频带反辐射导弹导引头技术基础[M]. 哈尔滨: 哈尔滨工程大学出版社, 1996: 57-77.Si Xi-cai, et al.. Foundation of Passive Radar Seeker forWide-Band Anti-Radiation Missile [M]. Harbin: HarbinEngineering University Press, 1996: 57-77.[14]Cheo B R S, Rumsey V H, and Welch W J. A solution to thefrequency-independent antenna problem [J]. IRE Trans. onAntennas and Propagation, 1961, AP-9(6): 527-534.[15]Mosko J A. An introduction to two-channel direction-findingsystems [J]. Microwave Journal, 1984, 27(2): 91-106.
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出版历程
  • 收稿日期:  2007-12-29
  • 修回日期:  2008-09-15
  • 刊出日期:  2009-04-19

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