基于事件前后雷达图像对相干性分析的线性不连续地面变形检测

IF 1.2 Q4 REMOTE SENSING

Journal of Applied Geodesy Pub Date : 2021-12-24 DOI:10.1515/jag-2021-0036

Bartosz Apanowicz

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引用次数: 0

摘要

摘要本文介绍了利用卫星干涉测量技术检测地下开采引起的地表线性不连续变形的方法。根据SAR信号相关系数(相干性)的特性进行了假设。根据这些假设，已经确定了LDGD的地点。两次捕获之间地表发生的变化导致两幅雷达图像之间的相关性变差。这导致相干图中SAR信号相关系数值较低。因此，我们假设LDGD的形成相对于之前的状态会降低相干值。第二个假设是相干性的标准偏差增加，这是衡量可变性的经典方法。因此，表面的任何变化都应该导致相干性的标准偏差比先前的状态增加。欧空局提供的来自哨兵1号卫星的图像被用于分析。该研究是在位于波兰南部上西里西亚煤盆地的两个研究区域的基础上提出的。通过应用适当的卫星图像相干性分析方法，将情况1中可能发生LDGD的区域限制在总面积的6%，在情况2中限制在36%。本文介绍了一种探测地下开采引起的地表塌陷的方法的发展，并对这些问题进行了进一步的研究。

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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Linear discontinuous ground deformation detection based on coherence analysis of pre and post event radar image pairs

Abstract The article presents information on how to use satellite interferometry to detect linear discontinuous ground deformation [LDGD] caused by underground mining. Assumptions were made based on the properties of the SAR signal correlation coefficient (coherence). Places of LDGD have been identified based on these assumptions. Changes taking place on the surface between two acquisitions lead to worse correlation between two radar images. This results in lower values of the SAR signal correlation coefficient in the coherence maps. Therefore, it was assumed that the formation of LDGD could reduce the coherence value compared to the previous state. The second assumption was an increase in the standard deviation of coherence, which is a classic measurement of variability. Therefore any changes in the surface should lead to increasing standard deviation of coherence compared to the previous state. Images from the Sentinel-1 satellite and provided by the ESA were used for analysis. The research is presented on the basis of two research areas located in the Upper Silesian Coal Basin in the south of Poland. The area in which LDGD could occur was limited to 6 % of the total area in case 1 and 36 % in case 2 by applying an appropriate methodology of satellite image coherence analysis. This paper is an introduction to the development of a method of detecting LDGDs caused by underground mining and to study these issues further.

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来源期刊

Journal of Applied Geodesy REMOTE SENSING-

CiteScore

2.30

自引率

7.10%

发文量