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合成孔径雷达差分干涉测量(DInSAR)可用于监测厘米级或更微小的地表形变,以揭示许多物理现象,如地震形变、火山运动、大气变化、冰川漂移、地面沉降以及山体滑坡等。DInSAR作为一种新型的空间对地观测技术,具有不受时间和空间的限制、对地物具有一定的穿透性等传统测量所不可比拟的优势,已得到较为广泛的应用。简要介绍DInSAR技术的基本原理及其处理流程,以Barn地震为例提取Bam地震的同震形变场。 相似文献
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短基线集差分干涉测量(SBAS-InSAR)技术是在传统DInSAR技术基础上发展起来的一种更高精度的长时序变形监测方法,可有效地克服传统DInSAR在微小形变监测中受时空去相干以及大气效应等因素的影响,已成为当前InSAR技术的研究热点.本文利用ENVISAT ASAR传感器获取的22幅C波段影像数据,基于短基线集差分干涉测量技术对北京地区地表沉降进行监测,获取每个观测时刻的形变累积量,得到研究区的形变序列图,进而分析了该区域地表沉降特征,结合地质环境监测成果,初步讨论了2003至2010年间北京地区区域地表沉降成因. 相似文献
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合成孔径雷达差分干涉测量(Differential interferometry synthetic aperture radar,D-InSAR)技术在矿区地面沉降监测领域具有独特的优势和巨大的发展潜力。为分析并掌握济宁某矿区地面沉降的变化状况,选取具备高穿透植被能力的L波段的ALOS PALSAR数据,基于双轨D-InSAR技术对采煤塌陷进行动态监测,获取矿区的形变信息,并与水准数据进行对比分析,进而为有效的进行矿山地质环境保护与治理恢复提供一定的理论依据和技术支持。 相似文献
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王寅珂 《测绘与空间地理信息》2020,(4):209-213
永久散射体合成孔径雷达测量技术(PSInSAR)具有全天候、大范围、高精度监测地表形变的优点,是形变灾害监测领域一种新的经济的空间对地观测新技术。本文介绍了PSInSAR技术,并使用我国某地区的卫星SAR影像数据,运用PSInSAR技术完成了地面沉降监测的相关处理流程,并将结果与常规水准测量的结果进行了对比,证实了PSInSAR技术用于大范围地面沉降监测的有效性。 相似文献
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针对合成孔径雷达干涉测量(D-InSAR)技术由于受时间、空间失相干和大气延迟两大因素的影响,不能在地面沉降灾害监测方面得到较好应用的问题,该文对合成孔径雷达干涉测量小基线集(SBAS-InSAR)技术在地表形变监测中的适用性进行了研究。利用22景ALOS雷达影像开展了西安市地面沉降监测试验,并通过时间序列分析的方法获取了2007年1月到2011年2月时间段内西安市的高精度地表形变成果。实验结果表明,该成果与同时间内GPS、水准结果吻合较好。因此,该技术可广泛应用于城市地表形变监测,为相关部门决策提供科学可靠的数据参考。 相似文献
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阐述了基于双轨道D-InSAR技术的基本原理及技术流程,利用研究区域2017-02-17、2017-03-11、2017-04-02三景雷达影像,获取该区域在此期间的沉降情况.结果表明D-InSAR技术用于矿区沉降监测日趋成熟,是一种监测矿区地面沉降的可靠方法. 相似文献
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Md Soyeb Alam Dheeraj Kumar R. S. Chatterjee Vijay Upreti 《Journal of the Indian Society of Remote Sensing》2018,46(10):1569-1580
Differential interferometric synthetic aperture radar (DInSAR) is a novel remote sensing technique to measure earth surface deformation. It is capable of obtaining dense information related to the deformation of a large area efficiently, economically and effectively. Therefore, DInSAR is a promising technology for monitoring the earth surface deformation related to some natural hazardous events, such as earthquake, volcano eruption, land subsidence, landslide. In present study, Conventional DInSAR technique have been applied to a mineral rich zone, coming under the Khetri copper belt, a part of Northern Aravali range of hillocks in India, predominant with mining activities since late 1960’s to address the possibility of deformation phenomena due to hard rock underground metal mining. Four interferometric SAR data sets of Radarsat-2 was used for the study area to address the subsidence/uplift phenomena. Further, results obtained from conventional DInSAR technique using Radarsat-2 data sets compared with results obtained from ground based observation technique for its validity. In both the techniques, deformation results obtained in terms of average subsidence rate in mm (quarterly basis) of points under study within mining zone of Mine-A has well agreed to each other. Further, it has been observed that average subsidence rate in mm (quarterly basis) obtained from space based observation and ground based observation are 5.6 and 6.67, respectively over the points under study in mining zone of Mine-A. 相似文献
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合成孔径雷达差分干涉测量(Differential Interferometric Synthetic Aperture Radar,DInSAR)在低相关区由于受时间空间去相关的影响,无法得到有效应用。角反射器DInSAR方法能在长时间段内保持幅度和相位稳定性,可以最大程度地减小去相关的影响。但由于反射器在空间上一般形成不规则稀疏网络分布,在平地相位、高程相位计算及相位展开方法上都带来新的挑战。研究三角反射器的DInSAR技术,重点分析基于不规则离散点的最小费用流相位展开算法。对费用流算法权重的选择,通过分析残差的产生来源,提出以弧所穿越的边长度倒数作为弧费用的权重设置方法,解决费用流算法中具有相同费用路径的选择问题。最后将角反射器DInSAR技术应用于滑坡移动的监测,通过对140d时间段的监测,得到与实测值具有较好一致性的结果。 相似文献
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Fariba Mohammadimanesh Bahram Salehi Masoud Mahdianpari Jerry English Joseph Chamberland Pierre-Jean Alasset 《地理信息系统科学与遥感》2019,56(4):485-510
Permafrost-induced deformation of ground features is threating infrastructure in northern communities. An understanding of permafrost distribution is therefore critical for sustainable adaptation planning and infrastructure maintenance. Considering the large area underlain by permafrost in the Yukon Territory, there is a need for baseline information to characterize the permafrost in this region. In this study, the Differential Interferometric Synthetic Aperture Radar (DInSAR) technique was used to identify areas of ground movement likely caused by changes in permafrost. The DInSAR technique was applied to a series of repeat-pass C-band RADARSAT-2 observations collected in 2015 over the Village of Mayo, in central Yukon Territory, Canada. The conventional DInSAR technique demonstrated that ground deformation could be detected in this area, but the resulting deformation maps contained errors due to a loss of coherence from changes in vegetation and atmospheric phase delay. To address these limitations, the Small BAseline Subset (SBAS) InSAR technique was applied to reduce phase error, thus improving the deformation maps. To understand the relationship between the deformation maps and land cover types, an object-based Random Forest classification was developed to classify the study area into different land cover types. Integration of the InSAR results and the classification map revealed that the built-up class (e.g., airport) was affected by subsidence on the order of ?2 to ?4 cm. The spatial extent of the surface displacement map obtained using the SBAS InSAR technique was then correlated with the surficial geology map. This revealed that much of the main infrastructure in the Village of Mayo is underlain by interbedded glaciofluvial and glaciolacustrine sediments, the latter of which caused the most damage to human made structures. This study provides a method for permafrost monitoring that builds upon the synergistic use of the SBAS InSAR technique, object-based image analysis, and surficial geology data. 相似文献
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Leonardo Cascini Gianfranco Fornaro Dario Peduto 《ISPRS Journal of Photogrammetry and Remote Sensing》2009,64(6):598-611
Landslide studies over large areas call for multidisciplinary analyses supported by accurate ground displacement measurements. At present, conventional techniques can be valuably complemented by innovative satellite techniques such as Differential SAR Interferometry (DInSAR), furnishing huge amounts of data at competitively affordable costs. This work investigates the remote sensed data potential in landslide studies starting from the awareness of the present constraints of the technique. To this end, with reference to a sample area–within the territory of the National Basin Authority of Liri-Garigliano and Volturno rivers (Central-Southern Italy)–for which detailed base and thematic maps are available, quantitative examples of DInSAR data coverage on both different land-uses and landslide-affected areas are shown. Then, an original tool for “a priori DInSAR landslide visibility zoning” is proposed to address the choice of the most suitable image datasets. Finally, referring to the visible zones, the outcomes of DInSAR data for checking/updating landslide inventory maps at 1:25,000 scale highlight appealing perspectives, also holding the promise of obtaining relevant information in the landslide hazard evaluation. 相似文献
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North China Plain (Huabei Plain) is one of the most densely populated regions on earth. Due to excessive underground water extraction, the North China Plain has been experiencing severe ground deformation over the last three decades. Therefore, for the purpose of hazard mitigation, it is necessary to monitor the ground displacement occurred in this region. As an extension of the differential radar interferometry (DInSAR) technique, advanced DInSAR techniques involving multiple images have demonstrated the potential to effectively map ground displacement. Such techniques are able to measure the temporal evolution of ground deformation with millimetre-level accuracy by using a stack of differential interferograms. In this study, the ALOS PALSAR data acquired over the North China Plain, which cover an area of approximately 16,000 km $^2$ , were processed based on the concept of advanced DInSAR techniques. Because of the large size of the PALSAR images, a targeted processing strategy was designed. This strategy is able to reduce required disk storage space and I/O operations, leading to the improvement of the computational efficiency. The resulting mean deformation velocity map demonstrates that a large portion of the area covered by the data was affected by various degrees of ground deformation between January 2007 and April 2010. The ground deformation is mostly distributed in rural areas, while the downtown areas are generally stable. 相似文献
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本文针对2010年4月14日玉树地震引起的地表形变,使用日本ALOS卫星PALSAR L波段雷达影像数据,应用两轨雷达差分干涉(DInSAR)处理得到了以玉树为中心11 000km2范围内的同震形变场,空间分辨率为8m,并在此基础上对玉树地震的震源机制和发震机理进行了分析。研究结果表明L波段雷达数据适合在地形起伏较大的地区进行DInSAR形变探测。该同震形变场信息可为玉树地震的同震形变反演提供参考数据。该研究进一步证实DInSAR技术在大规模地表形变探测和地学研究领域具有广阔的应用前景。 相似文献
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基于差分雷达干涉测量的矿区地面沉降监测研究 总被引:4,自引:0,他引:4
收集了1992年12月至1998年6月JERS-1L波段雷达数据,利用差分雷达干涉测量技术进行地面沉降监测研究。通过"二轨法"进行差分处理,选择其中的6景差分雷达干涉图进行分析。在研究区内发现了4个沉降区域,并按照时间序列通过对地面形变图进行分析,获取其中两个沉降区最大的垂直沉降量。 相似文献
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Ground deformation measurements have contributed to a better understanding of the processes and mechanisms involved in natural hazards. Those include landslides, subsidence, earthquakes and volcanic eruptions. Spaceborne Differential Interferometric Synthetic Aperture RADAR (DInSAR) is a well studied technique for measuring ground deformation. Quality of deformation measurements, however, is often degraded by decorrelation. With the advent of fully polarimetric SAR satellite sensors, polarimetric optimization techniques exploiting polarimetric diversity improve the phase quality of interferograms. In this paper, we analyzed three polarimetric optimization methods to determine the optimal one for application in an arid natural environment. We considered coherence decomposition in single and double phase center scenarios. Coherence estimation bias associated with each optimization method has been analyzed. We compared the derived displacement values with terrestrial GPS measurements. The study shows that polarimetric optimization increases the number of coherent pixels by upto 6.89% as compared with a single polarization channel. The study concludes that polarimetric optimization coupled with DInSAR analysis yields more reliable deformation results in a low coherence region. 相似文献
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