运动补偿是合成孔径声纳(SAS)成像的关键问题,SAS系统一般利用多接收元回波信号的互相关特性进行运动补偿。
Movement compensation is the key technique in synthetic aperture sonar(SAS) imaging, and it is normally realized in SAS system by the cross correlation of the raw echo data of multiple-receiver.
该文提出了一种新的基于距离向多孔径接收宽测绘带合成孔径雷达(SAR)成像方法。
A new imaging method is proposed for multi-aperture wide-swath Synthetic Aperture Radar (SAR) in this paper.
在深入分析位移相位中心算法的基础上,提出了一种改进的多接收元合成孔径声纳运动补偿算法。
Based on the deep study of displaced phase center algorithm, an improved movement error estimation algorithm for multi-hydrophone SAS was proposed.
从超宽带雷达天线、UHF/VHF波段接收机噪声温度以及最小可检测的信噪比三个方面研究了超宽带合成孔径雷达方程。
Three subjects-UWB radar antenna, UHF/VHF band receiver noise temperature, and the target detection from background, which are main factors in UWB SAR range equation, are studied.
多接收元合成孔径声纳成像是当前研究的热点问题,偏航和侧摆是影响多接收元合成孔径声纳成像质量的关键因素。
The multi-hydrophone synthetic aperture sonar (SAS) may increase mapping rate, and sway and yaw are the key factors which results in image blurring.
多接收元合成孔径声纳成像是当前研究的热点问题,偏航和侧摆是影响多接收元合成孔径声纳成像质量的关键因素。
The multi-hydrophone synthetic aperture sonar (SAS) may increase mapping rate, and sway and yaw are the key factors which results in image blurring.
应用推荐