飞行器雷达隐身测试评估技术及发展

肖志河; 高超; 白杨; 袁晓峰

doi:10.13700/j.bh.1001-5965.2015.0220

飞行器雷达隐身测试评估技术及发展

doi: 10.13700/j.bh.1001-5965.2015.0220

肖志河^1, ,,
高超^1,2,
白杨^1,2,
袁晓峰¹

1.
电磁散射重点实验室, 北京 100854
2. 中国传媒大学信息工程学院, 北京 100024

详细信息

通讯作者:
肖志河(1966-),男,江西吉安人,研究员,xiaohe66479@vip.sina.com,主要研究方向为电磁散射与特征应用研究.

中图分类号: V221⁺.3;TB553
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- 文章访问数: 1045
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- 被引次数: 0
出版历程
- 收稿日期: 2015-04-10
- 修回日期: 2015-05-14
- 网络出版日期: 2015-10-20

Aircraft radar stealth test and evaluation technology and progress

XIAO Zhihe^{1
, ,},
GAO Chao^1,2,
BAI Yang^1,2,
YUAN Xiaofeng¹

1.
Science and Technology on Electromagnetic Scattering Laboratory, Beijing 100854, China
2. School of Information Engineering, Communication University of China, Beijing 100024, China

摘要

摘要: 武器装备全面隐身化,隐身性能指标成为装备最重要的战技指标之一.隐身测试评估是实现装备隐身性能的关键指标和不可缺少的重要环节,涉及隐身装备从方案设计验证、研制方案筛选、部件和整机隐身效果评估、使用维护检定等全生命周期.综述了飞行器雷达隐身性能试验测试体系和测试评估方法,介绍了国内外典型的测试场及测量技术进展,详细分析了低散射诊断实验测试技术的最新成果,展望了飞行器隐身电磁特性测试技术未来发展趋势.
- 雷达散射截面 /
- 隐身飞行器 /
- 测试评估 /
- 低散射测量 /
- 雷达成像
Abstract: Weapon equipment stealth is comprehensive. Stealth performance becomes one of the most important combat skills. Stealth testing and evaluation is an important indicator and indispensable link to realize the equipment stealth performance, involving stealth equipment from the design verification,design scheme selection, parts and machine maintenance stealth effect evaluation, maintenance and other life-cycle test. Aircraft radar stealth performance measurement system was reviewed and the evaluation method, the typical test range and measurement technology progress at home and abroad were introduced, the latest low scattering diagnostic test technology was studied and the analysis of electromagnetic characteristics testing technology for the future development trend was also forecasting.
- radar cross section /
- stealth aircraft /
- test and evaluation /
- low scattering measurement /
- radar image

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参考文献(22)

[1]	黄培康.雷达目标特征信号[M].北京:中国宇航出版社,1993:13-14.Huang P K.Radar target characteristic signal[M].Beijing:China Astronautic Publishing House,1993:13-14(in Chinese).
[2]	黄培康,殷红成,许小剑.雷达目标特性[M].北京:电子工业出版社,2005:265-269.Huang P K,Yin H C,Xu X J.Radar target characteristic[M].Beijing:Publishing House of Electronics Industry,2005:265-269(in Chinese).
[3]	桑建华.飞行器隐身技术[M].北京:航空工业出版社,2013:182-196.Sang J H.Low-observable technologies of aircraft[M].Beijing:Aviation Industry Publishing House,2013:182-196(in Chinese).
[4]	陈文.隐身飞机的维修经验[J].国际航空,1990,12(3):58-60.Chen W.Stealth aircraft maintenance international aviation[J].International Aviation,1990,12(3):58-60(in Chinese).
[5]	许占显.隐身飞机的质量探测与维修技术研究[J].航空维修与工程,2012,12(1):68-70.Xu Z X.Quality detection and maintenance technology research for stealth aircraft[J].Aviation Maintenance & Engineering,2012,12(1):68-70(in Chinese).
[6]	杨亮.雷达吸波涂层损伤及修复研究进展[J].新技术新工艺,2009,12(1):97-99.Yang L.The repair technique and the damage of radar absorbing[J].New Technology & New Process,2009,12(1):97-99(in Chinese).
[7]	张卫东,冯小云,孟秀兰.国外隐身材料研究进展[J].宇航材料工艺,2000,30(3):1-4.Zhang W D,Feng X Y,Meng X L.Status and development of foreign study on new stealthy materials[J].Aerospace Materials and Technology,2000,30(3):1-4(in Chinese).
[8]	赵敬,杨雪.等离子体隐身技术浅议[J].航空科学技术,2001(4):34-35.Zhao J,Yang X.Plasma stealth technology[J].Aeronautical Science & Technology,2001(4):34-35(in Chinese).
[9]	张麟兮,李南京,胡楚风,等.雷达目标散射特性测试与成像诊断[M].北京:中国宇航出版社,2009:61-67.Zhang L X,Li N J,Hu C F,et al.Radar target scattering characteristics measurement and image diagnostic[M].Beijing:China Astronautic Publishing House,2009:61-67(in Chinese).
[10]	何国瑜,卢才成,洪家才,等.电磁散射的计算和测量[M].北京:北京航空航天大学出版社,2006:163-167.He G Y,Lu C C,Hong J C,et al.Calculation and measurement of electromagnetic scattering[M].Beijing:Beihang University Press,2006:163-167(in Chinese).
[11]	Obaid Y.Lessons learned from the F/A-22 and F/A-18E/F development programs[M].Santa Monica:the RAND Corporation,2005:29-40.
[12]	余宏明.雷达/电子战中的现代隐身技术[J].现代雷达,2007,29(6):25-27.Yu H M.Modern stealth technique in radar/EW[J].Modern Radar,2007,29(6):25-27(in Chinese).
[13]	Bill S.IDR technology and aerospace editor[J].JSF-Hidden Problems of Stealth,2002,1(31):111-116.
[14]	王瑞凤,杨宪江,张彦朴.解析武器装备的隐身问题[J].探测与控制学报,2008,30(增刊):77-79.Wang R F,Yang X J,Zhang Y P.Analysis on stealth technology of weapon equipment[J].Journal of Detection & Control,2008,30(Supplement):77-79(in Chinese).
[15]	Grant R.The radar game[M].Virginia:IRIS Independent Research,1998:25-27.
[16]	张麟兮,郭静远,魏世京,等.内场RCS测试环境中误差的消减方法研究[J].现代电子技术,2011,34(13):13-15.Zhang L X,Guo J Y,Wei S J,et al.Investigation on reducing environment errors in indoor RCS measurement[J].Modern Electronics Technique,2011,34(13):13-15(in Chinese).
[17]	麻连凤,桑建华,陈颖闻.隐身目标RCS外场测试概述[C]∥2013航空试验测试技术学术交流会论文集.北京:中国航空学会,2013:51-53.Ma L F,Sang J H,Chen Y W.Overview of stealth target test in outdoor range[C]∥The Proceedings of Aviation Testing Technology in 2013.Beijing:Chinese Society of Aeronautics and Astronautics,2013:51-53(in Chinese).
[18]	刘君,马瑶,渠立永,等.微波暗室低散射目标RCS测量方法[J].解放军理工大学学报:自然科学版,2013,14(1):300-303.Liu J,Ma Y,Qu L Y,et al.Research on radar cross section measurement method of low-scattering objects in microwave anechoic chamber[J].Journal of PLA University of Science and Technology:Natural Science Edition,2013,14(1):300-303(in Chinese).
[19]	安大卫,李志平,陈五一.低散射目标支撑金属支架的外形参数优化[J].电讯技术,2015,55(3):333-335.An D W,Li Z P,Chen W Y.Shape optimization of target support low-scattering metal pylons[J].Telecommunication Engineering,2015,55(3):333-335(in Chinese).
[20]	莫锦军,袁乃昌.一套先进的自动测量计算超宽带紧缩场测试系统[J].计算机测量与控制,2002,10(9):573-574.Mo J J,Yuan N C.An advanced automatic measuring computational UWB compact range system[J].Computer Measurement & Control,2002,10(9):573-574(in Chinese).
[21]	肖志河.旋转目标微波成像的滤波-逆投影法[D].北京:航天科工集团207所,1989.Xiao Z H.Research on CBP imaging technique for rotating targets[D].Beijing:CASIC 207 Institute,1989(in Chinese).
[22]	王保平,张麟兮,范九伦,等.新的滤波-逆投影成像算法[J].计算机工程与应用,2009,45(32):16-18.Wang B P,Zhang L X,Fan J L,et al.New filtered back-projection algorithm[J].Computer Engineering and Applications,2009,45(32):16-18(in Chinese).