An inverse polar format algorithm for turntable spotlight ISAR imaging systems using stepped frequency waveforms

S.D. Fisher, M. Richards, G. Showman
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引用次数: 5

Abstract

Basic turntable spotlight inverse synthetic aperture radar (ISAR) systems that employ stepped frequency waveforms implement image formation algorithms based on the premise that data collection over uniform frequency and angle steps results in a rectangular sampling of the image spatial frequency (k-space) domain. As a result, a simple image formation algorithm implementing only a computationally efficient inverse 2D discrete Fourier transform (DFT) may be realized. However, this approach imposes limitations on resolution and/or scene size since the conventional data collection procedure actually results in a polar sampling of k-space, invalidating the rectangular grid assumption. This paper introduces a new data collection scheme using stepped frequency waveforms that are nonuniformly stepped in time and frequency so as to collect sample points according to the desired k-space shape. This procedure allows the use of a single inverse 2D DFT as the image formation algorithm, thereby reducing traditional constraints on resolution and scene size while maintaining good image focus and reducing computational complexity.
采用阶跃频率波形的转台聚光灯ISAR成像系统的反极坐标格式算法
采用阶跃频率波形的基本转台聚光灯反合成孔径雷达(ISAR)系统实现图像形成算法的前提是,在均匀频率和角度阶跃上收集数据会导致图像空间频率(k空间)域的矩形采样。因此,可以实现一种简单的图像生成算法,该算法仅实现计算效率高的二维离散傅里叶反变换(DFT)。然而,这种方法对分辨率和/或场景大小施加了限制,因为传统的数据收集过程实际上导致k空间的极坐标采样,使矩形网格假设无效。本文介绍了一种新的数据采集方案,采用时间和频率不均匀阶跃的阶跃频率波形,根据所需的k空间形状采集采样点。该程序允许使用单个逆2D DFT作为图像形成算法,从而减少了传统的分辨率和场景大小限制,同时保持良好的图像焦点并降低计算复杂度。
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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