Advanced techniques for extending synthetic aperture radar (SAR) depth of focus under arbitrary aircraft maneuvers

Proceedings of the 1988 IEEE National Radar Conference Pub Date : 1988-04-20 DOI:10.1109/NRC.1988.10936

F. Weindling

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引用次数: 1

Abstract

Ground mapping by synthetic-aperture radar (SAR) is sensitive to the motion of the airborne radar platform. Current methods for compensation use motion compensation (i.e. correction of the phases of all radar return signals by the phase of the map reference point (MRP) echoes) estimated from inertial sensor outputs, and a variable pulse repetition frequency (PRF). These common approaches are shown to be equivalent to a special case of bifocal mapping: a mapping in which at least two points in space are in sharp focus. A method is presented which generalizes this process to a trifocal process where the use of an additional degree of freedom in the signal design permits specifying three independent focal points in the region to be mapped. The plane defined by these three foci, which need not be a horizontal plane, contains a region of improved map sharpness. The trifocal method is implemented by using inertial sensor outputs, in real time, to modify parameters of the radar signals generated by the radar exciter receiver. The subsequent processing is conventional. Results are presented and compared with performance predictions based on existing analyses.<>

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在飞机任意机动情况下扩展合成孔径雷达(SAR)聚焦深度的先进技术

合成孔径雷达(SAR)地面成图对机载雷达平台的运动非常敏感。目前的补偿方法使用从惯性传感器输出估计的运动补偿(即通过地图参考点(MRP)回波的相位校正所有雷达返回信号的相位)和可变脉冲重复频率(PRF)。这些常见的方法被证明等同于双焦点映射的一种特殊情况:空间中至少有两个点处于尖锐焦点上的映射。提出了一种方法，将这一过程推广到三焦点过程，其中在信号设计中使用额外的自由度允许在要映射的区域中指定三个独立的焦点。这三个焦点所定义的平面不必是水平面，它包含了一个提高地图清晰度的区域。三焦法是利用惯性传感器输出实时修改雷达激振接收机产生的雷达信号的参数来实现的。随后的处理是常规的。给出了结果，并与基于现有分析的性能预测进行了比较

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Proceedings of the 1988 IEEE National Radar Conference

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