应用Sntinel-1雷达干涉图像监测受非潮汐大气载荷影响的地表垂直位移

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS
K.R. Tretyak, D.V. Kukhtar
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引用次数: 1

摘要

利用卫星雷达干涉测量数据,分析了非潮汐大气载荷(NTAL)对地表垂直运动的影响。从雷达干涉测量数据得到的变形图数据与永久站GNSS时间序列之间建立了明确的关系。研究对象为布赫赫(Buchach)、霍洛多克(GORD)、切尔诺夫茨(Chernivtsi) GNSS站周围地区。输入数据为指定区域的四对雷达干涉图像。雷达卫星图像由哨兵- 1a航天器获得。数据类型- SLC(单视复合)与垂直极化。采集方式-宽带干涉IW(干涉宽带)。数据采用SNAP (Sentinel Application Platform)软件处理。处理后得到了由非潮汐大气载荷影响引起的地表位移的特定区域的垂直位移图。在垂直位移图的基础上得到的数值与GNSS永久站高度位置变化时间序列的结果具有较高的一致性。所得结果对研究大面积非潮汐大气负荷的影响具有重要的科学意义和实际意义。实际意义在于提高大地测量数据处理的精度,特别是高精度水准测量的精度。研究数据允许对受非潮汐大气荷载(NTAL)影响的短周期位移的调平结果进行校正。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of Sntinel-1 radar interferometric images for the monitoring of vertical displacements of the earth’s surface affected by non-tidal atmospheric loading
The vertical movements of the Earth’s surface affected by non-tidal atmospheric loading (NTAL) are analyzed using satellite radar interferometry data. A clear relationship between deformation maps data derived from radar interferometry data and the GNSS time series of permanent stations has been established. The object of the study was the areas around the GNSS stations BYCH (Buchach), GORD (Horodok), CRNT (Chernivtsi). The input data were four pairs of radar interferometric images for the specified areas.Radar satellite images were obtained from the Sentinel-1A spacecraft. Data type — SLC (Single Look Complex) with vertical polarization. Acquisition mode — wideband interferometric IW (Interferometric Wide Swath). Data were processed using SNAP (Sentinel Application Platform) software. The processing yileded maps of vertical displacement of the specified territories where the earth’s surface displacement caused by influence of non-tidal atmospheric loading had taken place. The values obtained on the basis of vertical displacement maps have a high agreement with the results of time series of changes in the altitude position of permanent GNSS stations. The results obtained in the article are of both scientific and practical importance for studying the impact of non-tidal atmospheric loading in large areas. The practical significance is in improving the accuracy of terrestrial geodetic measurements’ processing, in particular high-precision levelling. The research data allow to make corrections of the results of levelling for short-period displacements affected by the influence of non-tidal atmospheric loading (NTAL).
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来源期刊
Geofizicheskiy Zhurnal-Geophysical Journal
Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-
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60.00%
发文量
50
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