Investigating the combined use of differential SAR tomography and PSI for spatio-temporal inversion

2015 Joint Urban Remote Sensing Event (JURSE) Pub Date : 2015-03-01 DOI:10.1109/JURSE.2015.7120504

M. A. Siddique, I. Hajnsek, German Aersospace, U. Wegmüller, O. Frey

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引用次数: 6

Abstract

Persistent Scatterer Interferometry (PSI) inherently assumes a single temporally coherent scatterer inside a range-azimuth resolution cell. This restriction leads to the rejection of numerous persistent scatterer (PS) candidates, particularly in urban areas where layovers occur frequently. Moreover, in case of high-rise buildings, it is necessary to compensate the phase associated with thermal expansion in an iterative way. It is worthwhile to approach tomographic techniques to address these concerns. SAR tomography has the potential to separate scatterers in elevation, thus resolving layover. Differential SAR tomography additionally allows retrieval of deformation parameters, including a possible thermal expansion term. In this paper, we investigate the combined use of SAR tomographic approaches and PSI for elevation and deformation estimation. Results are presented for an interferometric time-series of 50 TerraSAR-X stripmap images acquired over Barcelona city. Spatio-temporal inversion of scatterers along the façade of a high-rise building is presented as a special case.

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研究差分SAR层析成像和PSI在时空反演中的联合应用

持续散射体干涉法(PSI)固有地假设在距离-方位分辨率单元内存在单个时间相干散射体。这种限制导致许多持久性散射体候选者被拒绝，特别是在经常发生中途停留的城市地区。此外，对于高层建筑，需要以迭代的方式补偿与热膨胀相关的相位。采用层析成像技术来解决这些问题是值得的。SAR层析成像具有分离高程散射体的潜力，从而解决了中途停留问题。差分SAR层析成像还允许检索变形参数，包括可能的热膨胀项。在本文中，我们研究了结合使用SAR层析成像方法和PSI进行高程和变形估计。本文介绍了在巴塞罗那市获得的50幅TerraSAR-X条纹图图像的干涉时间序列的结果。本文以高层建筑立面散射体的时空反演为例。

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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2015 Joint Urban Remote Sensing Event (JURSE)

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