1) airborne early warning radar
机载预警雷达
1.
Study on three dimensional space-time optimum and suboptimum processing for airborne early warning radar;
机载预警雷达三维空时自适应处理及其降维研究
2.
The jamming to the airborne early warning radar is one of the main task of the ground-to-air radar jamming system.
对机载预警雷达的干扰是地对空雷达干扰系统的主要任务之一。
3.
Based on the clutter model proposed by Klemm R, ground clutter energy distribution are then discussed using space time two dimensional spectrum according to different features of airborne early warning radar and synthetic aperture radar respectively.
Klemm杂波模型的基础上 ,以空时二维功率谱的形式讨论了机载预警雷达和机载合成孔径雷达各自的地杂波能量分布特点 ,并且给出了地杂波在这两种情况下的简化信号模型及其仿真方法 ,具有简便性和实用性。
2) AEW radar
机载预警雷达
1.
A new way is proposed to evaluate the sidelobe requirement of an AEW radar based on analysing the clutter intensity.
在分析地杂波强度的基础上,提出了一种估算机载预警雷达天线副瓣要求的新方法。
2.
There is no uniform measure for dynamic performance of AEW radar detecting area yet.
机载预警雷达的动态探测性能尚无统一的度量标准。
3.
The state of art of foreign AEW radar was first introduced in this paper.
经过几十年的发展,机载预警雷达技术取得了很大进步。
5) airborne early warning station
机载预警雷达站
6) bistatic airborne early warning (AEW) radar
双基地机载预警雷达
1.
This paper studies the applications of spae-time adaptive processing (STAP) to the bistatic airborne early warning (AEW) radar for clutter Suppression.
在简要分析双基地机载预警雷达杂波特性的基础上,研究了两种典型空时二维自适应处理方法,即三路多普勒通道联合自适应处理(3C)法与空时二维Capon法运用于双基地机载预警雷达时的杂波抑制性能,并对不同脉冲重复频率下 3C法与 Capon法对杂波的抑制能力作了比较研究。
2.
This paper sets up a two dimensional space time clutter model for bistatic airborne early warning (AEW) radar.
本文建立了双基地机载预警雷达空时二维杂波模型 ,其中考虑了双基地雷达的几何配置、雷达的系统参数、各种误差及距离模糊等实际因素对杂波谱的影响 。
3.
In this paper,clutter suppression for bistatic airborne early warning (AEW) radar is studied farther by space time adaptive processing (STAP) based on the clutter model presented in .
本文在文献 [1]所建杂波模型的基础上 ,进一步研究空时自适应处理对双基地机载预警雷达杂波的抑制问题 。
补充资料:机载气象雷达(见机载航行雷达)
机载气象雷达(见机载航行雷达)
airborne weather radar
liZai qiXIQng Ieida机载气象雷达(ai rbom。weather radar)见机载航行雷达。
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