Ground moving target indicator (GMTI) using space based sparse array is attractive.
天基稀疏阵实现地面运动目标指示具有很大吸引力。
Basic design constraints of the distributed small satellite based GMTI radar are derived from the clutter rank.
最后从杂波自由度得到分布式小卫星雷达实现地面运动目标指示的基本设计约束条件。
The Parametric Adaptive Matched Filter (PAMF) is a good method for the Ground Moving Target Indication (GMTI) of bistatic airborne radars.
在双基机载雷达的地面动目标检测中,参数自适应匹配滤波器(PAMF)方法是一种很有效的方法。
As to the non-fluctuation targets in the clutters, MIMO radar can acquire higher improvement factor to targets moving at arbitrarily Angle after the processing of GMTI.
针对杂波环境中的非起伏目标,MIMO雷达经过GMTI处理之后,对以任意角度运动的目标均可获得较高的改善因子。
This paper briefly analyses the principle and shortage of conventional CSI firstly. Then making dual-channel GMTI as an example, puts forward an improved CSI processing method.
本文分析了传统CSI的处理原理及不足之处,接着以双通道GMTI为例,给出了一种改进CSI的数学分析和处理方法。
Aiming at channel errors and motion errors appearing in the tri-channel SAR-GMTI, a method of detection and positioning for the moving ground targets is presented based on the error calibration.
针对机载三通道SAR-GMTI存在通道误差、运动误差等情况,提出了一种基于误差校正的SAR图像域动目标检测和定位方法。
Ground moving targets indication (GMTI) is an important application of spaceborne distributed radar. Distributed sparse array in space can improve the MTI performance with increased virtual aperture.
地面动目标检测(GMTI)是星载分布式雷达的重要应用之一,利用星载稀疏阵可增加系统虚拟孔径,以改善动目标检测性能。
Ground moving targets indication (GMTI) is an important application of spaceborne distributed radar. Distributed sparse array in space can improve the MTI performance with increased virtual aperture.
地面动目标检测(GMTI)是星载分布式雷达的重要应用之一,利用星载稀疏阵可增加系统虚拟孔径,以改善动目标检测性能。
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