文献综述
【摘要】合成孔径雷达(Synthetic Aperture Radar简称SAR), 具有全天候、全天时、强投射性、远距离、高分辨力的特点,在军用和民用领域都具有非常重要的实用价值,对国防技术现代化、国民经济建设和科技的发展具有重大的意义。因此,合成孔径雷达技术也越来越受到国际上先进技术国家的重视,是竞争激烈、发展迅速的技术领域。
条带模式、聚束模式和滑动聚束模式是SAR的3种工作模式,本文针对条带、聚束、滑动聚束的成像模式和工作原理,给出不同模式下作用距离、图像分辨率、图像模糊度等指标计算方法。在此基础上,完成系统兼容性的设计以便在达到一个平台实现多种模式,一个系统多个功能的目的。
【关键词】合成孔径雷达 SAR 雷达系统设计
【Abstract】Synthetic Aperture Radar(SAR) has the characteristics of all-weather, all-weather, strong projectile, long distance and high resolution. SAR) has a very important practical value in both military and civil fields. SAR is of great significance to the modernization of national defense technology, the construction of national economy and the development of science and technology. Therefore, the synthetic aperture radar technology has also been paid more and more attention by the international advanced technology countries, and is the field of fierce competition and rapid development.
Stripmap SAR, Spotlight SAR and sliding cluster SAR are the 3 working modes of SAR. Aiming at the imaging mode and working principle of stripe, bunching and sliding bunching, this paper gives the index calculation method of action distance, image resolution and image blur in different modes. On this basis, the design of system compatibility is completed in order to achieve multiple patterns on a platform and the purpose of multiple functions of a system.
【Keywords】Synthetic Aperture Radar;SAR; Radar system design;
1 引言
合成孔径雷达(Synthetic Aperture Radar简称SAR), 是利用雷达平台和被测目标间的相对运动,在一定的积累时间内,将雷达在不同空间位置上接收的回波信号进行相干处理,合成比雷达真实天线孔径大得多的合成阵列天线,获得目标的方位向高分辨率,结合成熟的距离向高分辨率技术,获得关于被测目标的二维灰度图像。
合成孔径经过半个多世纪的发展,目前已经具有条带模式(Stripmap SAR)、聚束模式(Spotlight SAR)、扫描模式(Scan SAR)、逆合成孔径模式(ISAR)、
