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In view of the serious impact of various active jamming styles on angle measurement,target detection and recognition,various active jamming styles,such as typical active blanket jamming and active deception jamming,are considered comprehensively.Meanwhile,based on the principle of polarimetric interference suppression,an improved algorithm on polarimetric angle joint estimation is proposed.The performance of interference suppression,key factors and degree of influence are compared and analyzed by simulation.The results shows that a higher polarization purity of interference(greater than 0.99) corresponds to a lower interference-to-signal ratio(ISR)(less than 30 dB) and a reduced cross-polarization component in the echo signal(less than-10 dB),consequently improving the target measurement accuracy.The reference is provided to carry out further research on algorithm adaptability in traditional information dimensions such as time domain,frequency domain and polarization domain.
[1]蔡天一,李丹,赵源,等.从美国电子战反导技术新动向看导引头抗干扰技术发展趋势[J].控制与制导,2018,406(10):79-84.
[2]宋灿,谢佑波,朱智.无人船在海战场电子对抗中的应用研究[J].舰船电子工程,2020,40(3):11-44.
[3]唐宏.美国海军电子战系统现状及发展趋势[J].舰船电子对抗,2018,41(5):1-5.
[4]吴雪峰.智能化电子对抗装备内涵与发展途径探究[J].舰船电子对抗,2020,43(2):1-4.
[5]李硕,李祯静,朱松,等.美军电磁频谱战发展分析及启[J].中国电子科学研究院学报,2020,15(8):721-724.
[6]马佳智,施龙飞,李永祯,等.主瓣干扰下混合极化系统单脉冲角度估计[J].系统工程与电子技术,2016,38(12):2692-2699.
[7]王建路,戴幻尧,周波,等.主瓣干扰条件下双极化单脉冲角度估计方法[J].航天对抗,2018,34(1):9-11.
[8]王建路,戴幻尧,李金梁,等.双极化单脉冲雷达两点源干扰目标角度测量方法[J].电波科学学报,2019,34(6):732-740.
[9]施龙飞,王雪松,肖顺平.转发式假目标干扰的极化鉴别[J].中国科学,2009,39(4):468-475.
[10]李万鹏,张磊.基于单脉冲雷达的多目标检测技术研究[J].中国新通信,2017,19(10):151.
[11]熊辉.极化抗有源干扰方法[J].电子信息对抗技术,2020,35(5):57-60.
[12]魏毅寅,杨文华.海战场典型干扰对抗场景及反舰导弹应对策略研究[J].战术导弹技术,2020(5):1-8.
[13]蒋琪,张冬青.当代反舰导弹面临的电子对抗挑战[J].航天电子对抗,2010,26(6):4-8.
[14]宫健,赵强,原慧.雷达主瓣有源复合干扰建模及效果仿真分析[J].舰船电子对抗,2019,42(1):19-22.
[15]梁子尧,于勇,张彬,等.一种基于诱导脉冲的极化对消抗欺骗干扰方法[J].遥测遥控,2021,42(1):64-69.
[16]程翔.美国舰载机空面导弹发展特点及趋势研究[J].舰船电子对抗,2021,44(3):1-10.
[17]刘箴,张宁,吴馨远,等.多模复合制导技术的发展现状与分析[J].飞航导弹,2019,418(10):90-96.
[18]崔国龙,余显祥,魏文强,等.认知智能雷达抗干扰技术综述与展望[J].雷达学报,2022,11(6):974-1002.
[19] Kou N,Yu S,Ding Z,et al.Monopulse transmitarray antenna fed by aperture-coupled microstrip structure[J].Frontiers of Information Technology&Electronic Engineering,2022,23(3):502-510.
[20] Ma X,Wu P,Wu Y,et al.A review on recent developments in fully polarimetric SAR image despeckling[J].IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing,2018,11(3):743-758.
[21]何良,赵英海,王磊.基于环状可变形卷积神经网络的相参雷达目标检测算法[J].战术导弹技术,2019(4):93-99.
[22]王俊博,董受全.“分布式海上作战”背景下美军新型反舰导弹技术特性分析[J].战术导弹技术,2023(5):39-47.
[23]吴俊娴,黄春蓉,雷瑢,等.智能化技术在精确作战中的应用研究[J].战术导弹技术,2021(6):105-110.
Basic Information:
DOI:10.16358/j.issn.1009-1300.20230189
China Classification Code:TN972
Citation Information:
[1]Guo Xinbao,Guo Shenglong,Liu Shiyang ,et al.Research on polarization against active jamming technology in typical environments[J].Tactical Missile Technology,2025,No.230(02):139-146.DOI:10.16358/j.issn.1009-1300.20230189.
2025-04-15
2025-04-15