Increasing the effective bandwidth of an SF-CW SAR using frequency agility

IEEE International Radar Conference, 2005. Pub Date : 2005-05-09 DOI:10.1109/RADAR.2005.1435819

K. Morrison

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引用次数: 3

Abstract

The use of a frequency-agile waveform is proposed as a way of providing significantly increased bandwidth for a stepped frequency continuous wave (SF-CW) SAR, than is provided by traditional imaging schemes. The range resolution is set by the bandwidth of the transmitted waveform, and is built up as a set of monotonically increasing stepped frequencies. As these frequencies are sampled sequentially, a constraint with SF-CW waveforms is the time restriction available to build up the bandwidth, imposed by the spatial sampling requirements along the aperture to avoid grating-lobe effects. To address this problem, an approach is outlined which allows the frequency spectrum to be greatly under-sampled to provide a greater effective bandwidth. It was found that randomizing the set of frequencies omitted from sweep to sweep allowed significant thinning before the appearance of significant unwanted image artifacts due to the under-sampling. This scheme allows great flexibility in the choice of bandwidths that can be realized for a particular imaging scenario. Their application is considered from the point of view of operation from UAV SAR platforms.

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利用频率敏捷性提高SF-CW SAR的有效带宽

与传统成像方案相比，提出了使用频率敏捷波形为阶跃频率连续波(SF-CW) SAR提供显著增加带宽的方法。距离分辨率由传输波形的带宽决定，并由一组单调递增的阶跃频率组成。由于这些频率是按顺序采样的，因此SF-CW波形的约束是建立带宽可用的时间限制，这是由沿孔径的空间采样要求施加的，以避免光栅瓣效应。为了解决这个问题，概述了一种方法，该方法允许频谱大大欠采样以提供更大的有效带宽。研究发现，在由于采样不足而出现严重的不需要的图像伪影之前，将从扫描到扫描的频率集随机化可以实现显著的细化。这种方案在选择带宽方面具有很大的灵活性，可以实现特定的成像场景。从无人机SAR平台操作的角度考虑其应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE International Radar Conference, 2005.

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