Multitemporal Sentinel-1SAR Interferometry for Surface Deformation Monitoring near High Dam in Aswan, Egypt

American Journal of Geographic Information System Pub Date : 2019-03-01 DOI:10.5923/j.ajgis.20190802.05

Yehia H. Miky

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引用次数: 2

Abstract

The area in the downstream of Aswan High Dam is subjected to many factors that may cause a deformation on the earth surface. The existence of Lake Naser, the hesitated water table and its bad effect and the tectonic activities increase the possibility of surface elevation changes. In this study, Multitemporal Synthetic Aperture Radar (SAR) images and Differential SAR Interferometry (DinSAR) technique were used to derive terrain deformation measurements over the area near Aswan high dam. The data were processed using SNAP, Sentinel Application Platform and a two-pass interferometry technique with the help of the Shuttle Radar Topography Mission (SRTM) is performed. Based on the results, all interferograms performed have high coherence while the pixels represent water surface had a low coherence value. The surface elevation changes range between -6.5 cm and +2.4 cm in 2017, while in 2018 it ranges between -5.2 cm and +6.6 cm. it is recommended to use a longer observation time period with three-pass interferogram technique to give the independence of the external low-resolution DEM and map the annual rates of movement.

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埃及阿斯旺高坝地表变形监测的多时相Sentinel-1SAR干涉测量

阿斯旺高坝下游地区受到许多因素的影响，这些因素可能导致地表变形。纳赛尔湖的存在、地下水位的犹豫及其不利影响以及构造活动增加了地表高程变化的可能性。在本研究中，利用多时相合成孔径雷达(SAR)图像和差分SAR干涉测量(DinSAR)技术，获得了阿斯旺高坝附近地区的地形变形数据。在航天飞机雷达地形任务(SRTM)的帮助下，利用SNAP、Sentinel应用平台和双通道干涉测量技术对数据进行处理。结果表明，所有干涉图具有高相干性，而代表水面的像元具有低相干性。2017年地表高程变化范围在-6.5 cm到+2.4 cm之间，而2018年则在-5.2 cm到+6.6 cm之间。建议使用较长的观测周期和三次干涉图技术，使外部低分辨率DEM具有独立性，并绘制年移动速率。

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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American Journal of Geographic Information System

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