Wavenumber domain focusing of squinted SAR data with a curved orbit geometry

2008 42nd Asilomar Conference on Signals, Systems and Computers Pub Date : 2008-12-04 DOI:10.1109/ACSSC.2008.5074454

T. Michel, S. Hensley

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引用次数: 1

Abstract

Synthetic Aperture Radar systems provide raw data that need focusing to achieve full-resolution imaging. Current SAR applications, including interferometry, require accurate, phase-preserving, and precisely co-registered coherent images over large ground swaths with the highest achievable resolution. In addition to these challenges, stripmap SAR data may be acquired with an off-broadside (squinted) geometry, either by design or through platform motion. The precise batch focusing of these large aperture and wide bandwidth data sets is known to require a 2D frequency processing approach. The standard wave domain focusing algorithm, however, is only exact for data acquired on a rectilinear trajectory. We investigate a generalization of the standard omega-k focusing formulation that allows curved data acquisition tracks. The new formulation can be used in conjunction with a known extension for conical, squinted imaging grids. The approximations necessary to allow the generalized geometry are analysed to determines the range of applicability of the proposed algorithm. The theory is validated using data simulated with parameters similar to the UAVSAR L-band SAR system.

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弯曲轨道几何条件下斜视SAR数据的波数域聚焦

合成孔径雷达系统提供需要聚焦的原始数据，以实现全分辨率成像。目前的SAR应用，包括干涉测量，需要在大的地面上以最高的分辨率精确地保持相位和精确地共配相干图像。除了这些挑战之外，条带图SAR数据也可以通过设计或通过平台运动来获取。已知这些大孔径和宽带数据集的精确批量聚焦需要二维频率处理方法。然而，标准波域聚焦算法仅适用于在直线轨迹上获取的数据。我们研究了标准ω -k聚焦公式的泛化，该公式允许弯曲的数据采集轨迹。新配方可以与已知的圆锥，斜视成像网格的扩展结合使用。分析了允许广义几何所需的近似，以确定所提出算法的适用范围。利用与UAVSAR l波段SAR系统参数相似的仿真数据对理论进行了验证。

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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2008 42nd Asilomar Conference on Signals, Systems and Computers

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