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DInSAR与SBAS InSAR是目前常用于矿区地面沉降监测的两种InSAR技术.以山东济南某矿区地面沉降为研究对象,利用DInSAR、SBAS InSAR对覆盖该矿区的28景Sentinel-1A SAR影像进行处理,获取2018年07月至2019年06月期间的矿区地面沉降信息,利用矿区工作面开采信息与同时期水准监测数据,定性和定量地对比、分析和验证了这两种InSAR技术的矿区地面沉降监测精度和能力.研究发现,在沉降边缘区域,DInSAR和SBAS InSAR的监测结果与水准监测结果之间的差异较小,能较好反映矿区沉降的实际情况,而在沉降中心区域,二者的监测结果与水准监测结果有较大差异,监测能力不足.相比较而言,DInSAR技术在矿区沉降中心的快速大形变监测中更可靠,SBAS InSAR技术在矿区周边缓慢微小形变监测中精度更高.DInSAR和SBAS InSAR监测到的沉降值与水准监测结果之间的绝对差值曲线呈现出沉降漏斗边缘小、中心大的特征,这一发现可为后续研究DInSAR和SBAS InSAR监测结果的校正方法提供重要参考. 相似文献
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合成孔径雷达干涉测量(DInSAR)以厘米乃至毫米的精度和很大的空间覆盖范围实现地表形变观测,它是进行地壳形变观测的重要手段,在地震形变研究中发挥着越来越重要的作用。本文首先简要给出了微波雷达测量的特征,阐述了雷达图像数据处理的基本方法,分析了InSAR技术的主要影响因素和观测精度。结合较新的研究成果,分析了雷达遥感图像研究地震形变的方法,讨论了DInSAR在震间、同震和震后形变观测研究中的最新进展。同时讨论了目前我国应用DInSAR研究地震形变中面临的主要问题,最后阐述了应用雷达干涉测量研究地震形变的发展趋势。 相似文献
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冻土的冻结和融化的反复交替会造成地质环境与结构的破坏,从而导致房屋和道路等地面工程建筑物的地基破裂或者塌陷,还会引起山体滑坡、洪水暴发以及冰川移动等.因此,监测冻土形变对确保冻土区工程建筑的稳定性和安全性,同时保证冻土区社会经济可持续发展具有重要的意义.目前,在冻土监测方面并没有能大面积监测冻土形变时间演化情况的有效方法,本文提出将InSAR技术中的小基线集方法(SBAS-InSAR)应用于监测冻土来获取其形变时间序列中.考虑到冻土形变呈现明显的季节性特征,本文提出利用周期形变模型来代替传统SBAS方法中的线性形变模型,从而更好地分离出高程残差和大气误差.利用ENVISAT卫星获取的21景ASAR影像图作为实验数据,采用改进的SBAS技术成功获取了青藏高原从羊八井站至当雄站铁路段冻土区的地表形变时间序列图,揭示了该冻土区从2007年到2010年的季节性形变演化情况.通过与研究地区温度变化的联合分析,发现所得到的地表形变结果与冻土的物理变化规律非常吻合,证明了SBAS-InSAR技术在冻土形变监测中具有良好的发展应用前景. 相似文献
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利用差分合成孔径雷达干涉测量技术(DInSAR)获取长白山地区的形变场.结果显示1995~1998年期间,位于长白山东南侧的间白山火山存在6~12 cm的视线向形变,而长白山天池火山处于平静期,没有明显形变.利用2002~2003年的GPS和水准获取的形变数据,分别采用Mogi单源、双源模型反演了长白山地区火山的岩浆囊参数.其中双源模型拟合效果较为理想,两个点源一个位于长白山天池老火山口下方7.9 km处,另一个位于间白山火山下方5.5 km处.对双源模型反演得到的岩浆囊参数进行适当调整,拟合得到与InSAR形变场基本吻合的结果.上述研究结果表明长白山地区火山活动存在时间上的间歇性和空间上的迁移性,为进一步研究长白山地区火山活动机制提供了参考和依据. 相似文献
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《地球物理学进展》2015,(4)
宽幅InSAR技术在过去10多年已在全球数字高程模型生成与大尺度地壳变形监测等领域起到了重要作用.本文的主要内容包括:(1)概述了宽幅InSAR的基本流程与约束条件;(2)利用宽幅InSAR方法得到了巴姆地震、汶川地震、于田地震、改则地震以及位于板块边缘东非裂谷火山活动形变场;(3)定量分析了Envisat ASAR宽幅与条带模式数据的入射角与方位角变化对InSAR地表形变观测的影响;(4)讨论了该技术的研究热点与亟待解决的问题.近期发射的C波段Sentinel-1与L波段ALOS-2PALSAR传感器具有较短重访周期及优化的轨道控制,可以提高植被和季节性雪覆盖的火山与活动断裂带区域的相干性,将有助于利用宽幅InSAR资料开展上述地区的大尺度、快速地壳形变场监测. 相似文献
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2016年5月22日,在西藏定结县发生四次MW4~5地震,研究本序列地震的发震断层几何和运动特征对于认识周边活动断裂性质具有重要意义.由于发震地区偏远,且观测台网分布稀疏,本研究采用星载雷达干涉测量(DInSAR)技术进行了同震形变场重建,但是定结地震震级较小,单干涉像对获取的形变场受相位噪声影响较大.为了解决这一问题,本研究基于时间序列Sentinel-1A干涉数据生成多期同震与非同震干涉图,并利用叠加平均法对本次定结地震同震形变场进行重建,提取了定结2016年5月22日多次地震产生的同震累计整体形变场.基于InSAR同震形变场和区域地质特征,研究进行了滑动分布反演,确定其主要贡献的发震断层几何参数及滑动分布:断层走向为188°,倾角为43°,平均滑动角为78°,发震断层的运动性质以正断为主兼具少量左旋走滑分量,滑动主要集中在断层垂直深度0~9km处,最大滑动量约为25cm,位于断层倾向深度3km处,反演得到的矩震级为MW5.58.本研究结果表明采用星载InSAR叠加平均技术可以较好地压制相位噪声,有效提取此类中小型浅源地震同震微弱形变场.最后,我们认为本次定结地震与藏南拆离断层与申扎-定结断层的活动密切相关. 相似文献
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GPS技术能以高空间和高时间分辨率监测地表形变.但由于测量原理的不同,GPS监测的地表形变与GRACE存在差异.本文比较了ITRF2008-GPS残差序列与基于CSR的RL05版本的GRACE球谐系数的地表形变序列的差异.结果表明,GPS和GRACE的周年变化在高程方向上具有较好的一致性,但水平方向的差异明显.重点分析了影响GPS/GRACE地表形变差异(尤其是水平方向)的三个因素:不同GPS站时间序列间的不确定性,热弹性形变和区域形变.GPS站地表形变本身的不确定度在一定程度上导致了GPS/GRACE间的差异(特别是水平方向).结合热弹性形变理论指出,由温度变化引起的热弹性形变也是导致GPS/GRACE的南北方向差异的主要原因之一.因此利用GPS数据研究地表质量负载时,必须消除热弹性形变的影响.区域负载对GPS/GRACE水平方向差异的影响也是不可忽略的,特别是对欧洲区域. 相似文献
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针对沧州市城市地表形变监测问题,采用SBAS InSAR技术分别处理Sentinel-1A升轨和Sentinel-1B降轨SAR影像,对比分析升、降轨SAR影像监测的沧州市2020年7月至2021年4月地表形变特征;利用MSBAS InSAR技术联合处理升、降轨SAR影像,将沧州市地表形变进行垂向和东西向的二维形变分解,获取沧州市二维形变信息.结果表明,升、降轨SAR影像监测的地表形变位置和分布基本一致,但由于LOS向模糊问题,单独利用升轨或降轨SAR影像监测到的形变区域有所偏移,且无法分离出地表的东西向形变,影响监测结果的精度,MSBAS InSAR技术可以有效解决这一问题,获取更准确的二维形变信息. 相似文献
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Dynamic characteristics of spring sandstorms in 2000 总被引:11,自引:0,他引:11
Systematical analyses of spring sandstorms in 2000 affecting Beijing area are carried out. Results revealed the key dynamic
mechanisms of dust storm during its mobilization, lifting, horizontal advection and deposition processes. It turns out that
in the processes of sandstorms influencing Beijing area in March–April 2000, the dynamic conditions for dust mobilization
are significantly correlated with phenomena, such as cold air-related climatic activities, clay soils area of North China
and surface friction velocity anomaly. The characteristics of sandstorm can be described by composite mode of dust particles
mobilization-lifting-long-range transport. This paper will provide scientific evidences for further studies, prediction and
harness of sandstorms in China. 相似文献
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DInSAR measurements of ground deformation by sinkholes,mining subsidence,and landslides,Ebro River,Spain 总被引:1,自引:0,他引:1
Carmen Castañeda Francisco Gutiérrez Michele Manunta Jorge P. Galve 《地球表面变化过程与地形》2009,34(11):1562-1574
Differential Interferometric Synthetic Aperture Radar (DInSAR) has been applied to detect and measure ground deformation in a stretch of the Ebro River valley (Spain) excavated in salt‐bearing evaporites. The capability of the Small Baseline Subset (SBAS) DInSAR technique to detect ground displacement is analyzed comparing the DInSAR results with the available geomorphological information. The deformation map derived from 27 European Remote Sensing (ERS) satellite images covering more than five years provides sub‐centimeter displacement measurements in zones coinciding with known active sinkholes and landslides. Moreover the map provides the first account of mining subsidence in the area. The measured deformation rates reach 1·68 cm/y for the sinkholes, 0·80 cm/y for the landslides and 1·45 cm/y for the area affected by mining subsidence. The SBAS DInSAR technique provided deformation measurements in a small proportion (5–10%) of the known active sinkholes and landslides. This limitation is mainly due to the lack of coherence in agricultural areas, the spatial resolution of the deformation map (pixel size of 90 m), and the parallelism between the ERS satellite line of sight and the linear escarpment on which most of the landslides occur. Despite this, the interferometric technique provides valuable data that complement traditional geomorphological studies including the quantification of the deformation phenomena, the identification of mining subsidence otherwise only recognizable by geodetic methods, and the detection of creep deformation which might correspond to premonitory indicators of catastrophic sinkholes and landslides capable of causing the loss of lives. Detailed DInSAR studies combined with field data would be required to improve the analysis of each deformation area. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
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利用国内大型风沙物理风洞实验模拟沙尘暴电现象,研究风沙起电机理,结果表 明,不同风速下不同沙粒会产生不同极性的电场强度和电位效应,风沙电随风速增大而增强 ,且随沙粒度增大而减小. 在沙漠区的16m,8m,4m和1m高度上观测到27次不同沙尘暴天气 过程的电场和风速随时间变化. 结果表明, 在晴天4个高度上的电场均为小正电场值,电场 随高度降低而减小,最大电场强度在5kV/m以下,日风速变化对各层电场起伏没有较大影响 . 有沙尘天气,各高度上的电场强度随风速变化而变化. 16m高度上电场均为负值,平均值 为 -20kV/m;中层8m 电场一般为较高正电场值,达到10~40kV/m,与16m高度上电场呈反相 关;下层1m 电场值变化一般很小,在1kV/m以下. 在强沙尘暴天气4个高度上的电场均为负 电值,电场值随高度降低而减小,16m高度上最大平均电场强度达到-200kV/m以上,瞬时值 超过 -2500kV/m,与晴天电场矢量相反. 相似文献
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Fabio Canova Cristiano Tolomei Stefano Salvi Giovanni Toscani Silvio Seno 《地球表面变化过程与地形》2012,37(3):273-286
The paper presents the results of a multi‐temporal, differential interferometric synthetic aperture radar (DInSAR) analysis aiming to identify active surface deformation phenomena in south‐eastern Sicily. The study area has been chosen because of its strong seismicity, high concentration of industrial and agricultural activities, and high density of people living in the coastal area. Furthermore, the morphology, lithology and climatic features of this sector of the Hyblean foreland are suitable for an interferometric analysis, providing a high coherence over the area. The Small BAseline Subset (SBAS) multitemporal DInSAR technique was used to calculate mean ground velocity maps and displacement time series from a large data set of European Remote Sensing Satellites (ERS 1–2) images spanning the time period 1992–2000. The reliability of the DInSAR results was tested calculating the EastSAR and UpSAR values over two permanent global positioning system (GPS) stations in the area, and comparing them with the EastGPS and UpGPS values. The residuals between GPS and DInSAR velocities were 1 and 0.6 mm/yr for the Up and East components, respectively. Four main subsiding areas, previously undetected, have been identified, corresponding with the towns of Augusta, Siracusa, Priolo, and Villasmundo. The observed deformation phenomena are located within coastal structural basins, filled with Pleistocene and Holocence deposits, except the Villasmundo land subsidence, which is located on the Hyblean plateau. The measured deformation rates reach values up to ?18 mm/yr in Augusta, –6 mm/yr in Siracusa, –5 mm/yr in Villasmundo and ?4.5 mm/yr in Priolo. The examination of velocity profiles, time series, and geological data allows us to relate all the detected deformation patterns primarily to groundwater over‐exploitation. A multi‐dimensional interpolation with kriging was performed to obtain a field subsidence map. A first‐order elastic deformation model was used to simulate the peculiar features of the Villasmundo subsidence. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
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《Journal of Volcanology and Geothermal Research》2006,151(4):399-416
The island of Ischia, located at the northwestern end of the Gulf of Napoli (Italy), is a volcanic area that is historically active (the Arso eruption, in 1302 and the Casamicciola earthquake, in 1883) and has diffuse hydrothermal phenomena. We present in this work a study of the surface deformation occurring in the island, which is based on applying the Differential Synthetic Aperture Radar Interferometry (DInSAR) algorithm referred to as Small BAseline Subset (SBAS) technique. This study is focused on the 1992–2003 time interval and SAR data acquired by the European Remote Sensing (ERS) satellites from ascending and descending orbits have been used, thus allowing us to discriminate the vertical and east–west components of the displacements. A validation of the DInSAR results has been carried out first by comparing the vertical deformations estimated from the SAR data with those measured from the spirit leveling network that is present in the area. In particular, we computed the difference between the mean vertical deformation velocities estimated from the SAR and the corresponding geodetic measurements along three main leveling lines; the maximum value of the root mean square difference is of about 1 mm/yr. The final discussion is dedicated to the interpretation of the detected displacements, benefiting from the overall information extracted from the ascending and descending DInSAR measurements. In particular, DInSAR data relative to the vertical deformation component show that the present-day subsidence of Ischia mainly develops in areas characterized by active landsliding and along faults; moreover, the deflation of the island, which is recorded by the horizontal displacement component, is probably related to the de-pressurization of the hydrothermal system. 相似文献
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The Coherent Pixels Technique (CPT): An Advanced DInSAR Technique for Nonlinear Deformation Monitoring 总被引:3,自引:0,他引:3
Pablo Blanco-Sánchez Jordi J. Mallorquí Sergi Duque Daniel Monells 《Pure and Applied Geophysics》2008,165(6):1167-1193
This paper shows the potential applicability of orbital Synthetic Aperture Radar (SAR) Differential Interferometry (DInSAR)
with multiple images for terrain deformation episodes monitoring. This paper is focused on the Coherent Pixels Technique (CPT) developed at the Remote Sensing Laboratory (RSLab) of the Universitat Politecnica de Catalunya (UPC). CPT is able to
extract from a stack of differential interferograms the deformation evolution over vast areas during wide spans of time. The
former is achieved thanks to the coverage provided by current SAR satellites, like ESA’s ERS or ENVISAT, while the latter
due to the large archive of images acquired since 1992. An interferogram is formed by the complex product of two SAR images
(one complex conjugate) and its phase contains information relative to topography, terrain deformation and atmospheric conditions
among others. The goal of differential interferometric processing is to retrieve and separate the different contributions.
The processing scheme is composed of three main steps: firstly, the generation of the best interferogram set among all the
available images of the zone under study; secondly, the selection of the pixels with reliable phase within the employed interferograms
and, thirdly, their phase analysis to calculate, as the main result, their deformation time series within the observation
period. In this paper, the Coherent Pixels Technique (CPT) is presented in detail as well as the result of its application in different scenarios. Results reveal its practical
utility for detecting and reproducing deformation episodes, providing a valuable tool to the scientific community for the
understanding of considerable geological process and to monitor the impact of underground human activity. 相似文献
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Mariarosaria Manzo Yuri Fialko Francesco Casu Antonio Pepe Riccardo Lanari 《Pure and Applied Geophysics》2012,169(8):1463-1482
We investigate the capabilities and limitations of the Differential Interferometric Synthetic Aperture Radar (DInSAR) techniques, in particular of the Small BAseline Subset (SBAS) approach, to measure surface deformation in active seismogenetic areas. The DInSAR analysis of low-amplitude, long-wavelength deformation, such as that due to interseismic strain accumulation, is limited by intrinsic trade-offs between deformation signals and orbital uncertainties of SAR platforms in their contributions to the interferometric phases, the latter being typically well approximated by phase ramps. Such trade-offs can be substantially reduced by employing auxiliary measurements of the long-wavelength velocity field. We use continuous Global Positioning System (GPS) measurements from a properly distributed set of stations to perform a pre-filtering operation of the available DInSAR interferograms. In particular, the GPS measurements are used to estimate the secular velocity signal, approximated by a spatial ramp within the azimuth-range radar imaging plane; the phase ramps derived from the GPS data are then subtracted from the available set of DInSAR interferograms. This pre-filtering step allows us to compensate for the major component of the long-wavelength range change that, within the SBAS procedure, might be wrongly interpreted and filtered out as orbital phase ramps. With this correction, the final results are obtained by simply adding the pre-filtered long-wavelength deformation signal to the SBAS retrieved time series. The proposed approach has been applied to a set of ERS-1/2 SAR data acquired during the 1992–2006 time interval over a 200?×?200?km area around the Coachella Valley section of the San Andreas Fault in Southern California, USA. We present results of the comparison between the SBAS and the Line Of Sight (LOS)—projected GPS time series of the USGC/PBO network, as well as the mean LOS velocity fields derived using SBAS, GPS and stacking techniques. Our analysis demonstrates the effectiveness of the presented approach and provides a quantitative assessment of the accuracy of DInSAR measurements of interseismic deformation in a tectonically active area. 相似文献
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永久散射体干涉测量技术可以克服常规干涉方法在区域地表形变测量中的雷达信号失相关和大气延迟影响. 本文对基于永久散射体的干涉处理全过程进行了分析, 基于差分相位的两个主要特性: 沉降信号时序相关、地形相位与空间基线成比例, 提出构建PS网络, 并采用间接观测平差法估计沉降速度网和高程修正网的全局最优解. 实验选取上海地区近10年间的ERS-1/2卫星C波段SAR数据进行干涉处理, 在永久散射体上分离形变信号、高程修正和大气分量, 并最终提取上海地区高分辨率地面沉降速度场, PS结果与地面精密观测成果吻合较好. 相似文献