Multi-dimensional airborne holographic SAR tomography reconstruction for glaciers at L-/P-band

2016 IEEE International Geoscience and Remote Sensing Symposium (IGARSS) Pub Date : 2016-07-10 DOI:10.1109/IGARSS.2016.7728993

Octavio Ponce, R. Scheiber, P. Prats, I. Hajnsek, A. Reigber

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引用次数: 1

Abstract

This paper presents a study of the processing chain for ice and glacier structures in the holographic SAR tomography (HoloSAR) mode. The algorithm is mainly based on the fast factorized back-projection (FFBP) to solve a three-dimensional space using fully polarimetric data. The motivation of HoloSAR in the cryosphere is mainly driven by recent investigations that have shown the capabilities of this mode to obtain 3-D imaging reconstructions of volumes over 360 ° at very high resolution. In this regard, a HoloSAR campaign was conducted at L-/P-band by DLR's F-SAR sensor in K-Transect, Greenland. The first experimental results of this study show a polarimetric analysis of the resulting images of a single circular flight, where the arc- and circular patterns of the 2-D images in the (x, y) plane already indicate significant wave penetration. The second part presents 3-D images obtained by the combination of the circular and vertical synthetic apertures, which enable an estimation of the vertical profile of the glacier. This mode potentially allows for a more accurate estimation of the vertical profile of ice sheets and bedrock.

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L-/ p波段冰川航空全息SAR层析成像重建

本文研究了全息SAR层析成像(HoloSAR)模式下冰和冰川结构的处理链。该算法主要基于快速分解反投影(FFBP)，利用全极化数据求解三维空间。最近的研究表明，HoloSAR模式能够以非常高的分辨率获得360°以上体积的三维成像重建，这主要推动了HoloSAR在冰冻圈的发展。在这方面，DLR的F-SAR传感器在格陵兰k -样带进行了L-/ p波段的HoloSAR运动。本研究的第一个实验结果显示了对单次圆形飞行所得图像的偏振分析，其中(x, y)平面上二维图像的弧形和圆形图案已经表明了明显的波穿透。第二部分是由圆形和垂直合成孔径组合获得的三维图像，可以估计冰川的垂直剖面。这种模式有可能对冰盖和基岩的垂直剖面进行更精确的估计。

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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2016 IEEE International Geoscience and Remote Sensing Symposium (IGARSS)

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