On the De-Ramping of SLC-IW Tops SAR Data and Ocean Circulation Parameters Estimation

IGARSS 2022 - 2022 IEEE International Geoscience and Remote Sensing Symposium Pub Date : 2022-07-17 DOI:10.1109/IGARSS46834.2022.9884331

M. Iqbal, A. Anghel, M. Datcu

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引用次数: 2

Abstract

The spectral characteristics of single-look complex - inter-ferometric wide (SLC-IW) swath, terrain observation by progressive scan (TOPS), are significantly different from those of strip-map (SM). Due to the burst mode and series of sub-swaths, the target area is scanned for a short period of time. Therefore, swath width comes at the expense of azimuth resolution. To eliminate quadratic phase drift and achieve SLC baseband, significant processing is required. De-ramping is a necessary step to compute ocean circulation parameters. In this work, we extract ocean parameters from the complex echo signal based on data driven Doppler centroid $(f_{DC})$ regardless of the OCN product information and geophysical $f_{DC}$ image. The radial surface velocity (RSV) is retrieved from Doppler history, and the significant wave height (SWH) is estimated with an empirical relationship of RSV. The results of ocean circulation parameters are promising when compared with benchmark and in-situ data. This work demonstrates the efficacy and necessity of de-ramping the TOPS data for subsequent use in a variety of ocean remote sensing applications.

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SLC-IW Tops SAR数据的消斜与海洋环流参数估算

逐级扫描(TOPS)地形观测的单目复杂间隔宽(SLC-IW)带的光谱特征与条形图(SM)的光谱特征有显著差异。由于脉冲模式和一系列的子条，目标区域的扫描时间很短。因此，条带宽度是以方位角分辨率为代价的。为了消除二次相位漂移并实现SLC基带，需要进行大量的处理。消斜是计算海洋环流参数的必要步骤。本文在不考虑OCN产品信息和地球物理f_{DC}$图像的情况下，基于数据驱动多普勒质心$(f_{DC})$从复杂回波信号中提取海洋参数。利用多普勒历史反演径向表面速度(RSV)，利用RSV的经验关系估计有效波高(SWH)。与基准数据和现场数据比较，海洋环流参数的结果是令人满意的。这项工作证明了在各种海洋遥感应用中对TOPS数据进行降级处理的有效性和必要性。

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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IGARSS 2022 - 2022 IEEE International Geoscience and Remote Sensing Symposium

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