付鑫如1,
杨涛1,,,
高旭2,
艾俊强2
1.北京航空航天大学电子信息工程学院 ??北京 ??100191
2.航空工业第一飞机设计研究院 ??西安 ??710089
详细信息
作者简介:赵京城:男,1979年生,讲师,主要研究方向为微波数字信号处理、微波毫米波成像、辐射散射测量
付鑫如:女,1995年生,硕士生,研究方向为微波毫米波成像
杨涛:男,1993年生,硕士生,研究方向为微波毫米波测量及成像、VxWorks系统嵌入式应用-雷达模拟器
高旭:女,1983年生,高级工程师,主要研究方向为飞行器总体及隐身设计
艾俊强:男,1964年生,研究员,主要研究方向为飞机总体与气动设计
通讯作者:杨涛 buaaviptao@163.com
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被引次数:0
出版历程
收稿日期:2018-04-25
修回日期:2018-11-13
网络出版日期:2018-11-19
刊出日期:2019-02-01
Assessment Method for Gaps and Other Surface Defects
Jingcheng ZHAO1,Xinru FU1,
Tao YANG1,,,
Xu GAO2,
Junqiang AI2
1. School of Electronics and Information Engineering, Beihang University, Beijing 100191, China
2. Avic The First Aircraft Institute, Xi’an 710089, China
摘要
摘要:缝隙等表面缺陷类目标对飞行器的隐身性能具有重要影响。根据缝隙等表面缺陷类目标的散射机理,该文提出一种载体背景对消方法,用于评估表面缺陷类目标散射。该方法将载体作为目标背景的一部分,通过矢量场相减的方式对消掉载体的自身散射影响,特别是载体强散射角域的散射影响,从而获得了全角域范围内表面缺陷类目标的散射特性数据,解决了使用常规方法目标受载体影响无法获得完整散射特性的问题。通过数值计算和实验测量的结果对比表明:该方法可以对缺陷类目标的电磁散射特性进行有效评估。对消后载体散射得到了极大程度的降低,有效提高了缺陷类目标的计算或测量精度;同时由于排除载体自身散射的影响,避免了对载体尺寸、超低散射特性的要求,有效降低了载体的加工设计成本。
关键词:雷达散射截面/
矢量对消/
电磁缺陷/
数值计算/
实验测量
Abstract:Surface defects such as gaps have a significant impact on the stealth performance of the aircraft. According to the scattering mechanism of surface defects such as gaps, a method of evaluating the surface defect targets based on vector cancellation is proposed. The carrier is regarded as the target background and is subtracted the scattering effect of the carrier, especially the strong scattering angle of the carrier, and then the scattering characteristic data of the surface defect class target in the whole angle range are obtained, which solves the problem that the complete scattering characteristic can not be obtained using the conventional method. The comparison between the numerical calculation and the experimental results shows that the vector cancellation method can effectively evaluate the electromagnetic scattering characteristics of defective targets. After vector cancellation, the scattering of the carrier is greatly reduced, and the calculation or measurement accuracy of the defective target is effectively improved. At the same time, due to reducing the influence of the scattering of the carrier itself, this method avoids the requirement of the carrier size and ultra-low scattering characteristics, and reduces effectively the processing cost of the carrier.
Key words:Radar Cross Section (RCS)/
Vector cancellation/
Electromagnetic defect/
Numerical calculation/
Experimental measurement
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