2010年1月12日海地 Mw7.0地震InSAR同震形变观测及同震滑动分布反演          下载免费PDF全文

薛莲  孙建宝  沈正康 《地震地质》2011,33(1):157-174

2010年1月12日GMT时间21时53分,在海地境内(72.57°W,18.44°N)发生了Mw7.0地震.文中利用干涉合成孔径雷达(InSAR)方法获得了覆盖整个震区的高精度形变观测资料,用以研究该地震的发震机理.采用ALOs PALSAR数据,分析了轨道、大气等误差源对干涉信号的影响,最终获得了雷达视线向(LOS...  相似文献   

干涉雷达人工角反射器技术          下载免费PDF全文

赵俊娟  李成范  尹京苑  张桂芳  单新建 《地震工程学报》2011,33(4):403-407

人工角反射器是众多雷达目标中的典型散射结构.本文介绍了人工角反射器技术应用在雷达干涉测量(CD-InSAR)的基本概念,描述了其中常用的二面角、三角锥形三面角、正方体三面角和长方体锥形三面角等四种典型的人工角反射器特点和最大雷达散射截面的计算机模拟,最后对人工角反射器制作和布设中的一些注意事项及主要应用领域进行了探讨.  相似文献   

Earthquake source parameters of the 2009 M_W7.8 Fiordland （New Zealand） earthquake from L-band InSAR observations     

Kateline Young 《地震学报(英文版)》2011,(2):199-206

The 2009 M W 7.8 Fiordland (New Zealand) earthquake is the largest to have occurred in New Zealand since the 1931 M W 7.8 Hawke’s Bay earthquake, 1 000 km to the northwest. In this paper two tracks of ALOS PALSAR interferograms (one ascending and one descending) are used to determine fault geometry and slip distribution of this large earthquake. Modeling the event as dislocation in an elastic half-space suggests that the earthquake resulted from slip on a SSW-NNE orientated thrust fault that is associated w...  相似文献   

基于光学立体和InSAR的Grove山地区DEM建立和分析          下载免费PDF全文

万雷  周春霞  鄂栋臣 《极地研究》2015,27(1):83-90

本文分别利用光学立体和In SAR技术生成了东南极Grove山地区15 m分辨率的ASTER DEM和20 m分辨率的In SAR DEM。在利用ASTER立体像对生成DEM的过程中引入ICESat测高数据作为高程控制以减少错误匹配,提高DEM垂直精度;而在利用ERS tandem数据生成DEM后,选取ICESat测高数据对In SAR DEM进行倾斜面纠正,以消除基线不精确估计等带来的影响。通过与未作控制的ICESat测高数据进行比较,评价了两种DEM的精度并对误差进行了分析。同时,比较了两种DEM的差异,并分析了造成这些差异的原因,探讨了两种技术生成南极冰盖DEM的优势和不足。最后结合两DEM的优势,融合生成了Grove山地区高精度的DEM。  相似文献   

InSAR干涉条纹图去噪方法的研究   总被引：7，自引：0，他引：7  

王志勇  张继贤  黄国满 《测绘科学》2004,29(6):31-33

分析了干涉条纹图中相位噪声的来源,介绍了几种专门用于InSAR干涉条纹图噪声滤除的方法,针对干涉条纹图的相位跳跃现象,提出了正余弦变换的方法解决相位跳跃的问题,并在此基础上提出了两种新的相位噪声滤除方法———正余弦均值滤波法和正余弦中值滤波法,最后进行了对比试验,证明了本文提出的方法具有噪声抑制效果好、边缘信息保持能力强、算法简单的特点。  相似文献   

利用CORS数据计算重庆InSAR对流层延迟     

周金国  廖振环  崔书珍 《测绘信息与工程》2010,35(1):13-14

利用了重庆市CORS数据，计算了该地区InSAR对流层延迟，分析了重庆地区对流层延迟对InSAR技术的影响。  相似文献   

Preliminary Study of the Ability of Large-scale Deformation Observed by Lunar Based InSAR—Taking Vertical Displacement of Solid Earth Tide as an Example     

Chenglong Ma  Xiaodong Chen  Liming Jiang  Heping Sun  Jianqiao Xu  Jinglong Dong  Dewei Li 《地球科学进展》2019,34(2):164-174

Based on the principle of InSAR (Interferometirc Synthetic Aperture Radar) characterized by large-scale, continuity, permanency and dynamic, we took vertical displacement of solid Earth tide as an example to simulate the large-scale deformation observed by lunar based InSAR for the first time in the study and the observation ability was analyzed. Solid Earth tide has a feature of a large-space distribution range and the lunar based InSAR exhibits a feature of an ultra-wide swath imaging. According to these features, a simplified observation geometry model was established and a mid-low latitudes area with 50 degrees span in both longitude and latitude was selected as the simulation area. Then the revisit time intervals of the lunar based SAR for the selected area and the tidal vertical displacements at the points scanned by the radar were calculated. The time differentials were further computed to get the relative vertical deformation of the solid Earth tide. The simulation results show that the revisit period of the lunar based radar is about 24.8 hours and the maximum vertical displacement in 30 days is up to 30 cm. Since the designed accuracy of the lunar based InSAR reaches several centimeters, the observing of the vertical displacement of the solid Earth tide by using the lunar based InSAR is feasible in theory as the maximum magnitude of the vertical displacement is 1 order of magnitude larger than the designed accuracy. Theoretically ,solid Earth tide is observable by using lunar based InSAR in a sizable area.We can also use the observation data to study the temporal and spatial variation characteristics when observation time lasts two revisit periods or more. On the other hand,the result of the study also provides references for the parameter designing of other observations using the lunar based InSAR, especially for observing large-scale geodynamic phenomena.  相似文献   

玉树地震地表变形InSAR观测及初步分析   总被引：3，自引：2，他引：1  

姚鑫  张永双  杨农  熊探宇 《地质力学学报》2010,16(2):129-136

采用玉树M_S7.1级地震前后两期PALSAR雷达数据(震前2010年1月15日, 震后4月17日)进行了“两轨+DEM”的InSAR处理, 获得了高质量的差分干涉雷达条纹图像和同震变形场。参考该区的基本构造格局, 根据干涉图像的变形范围、变形量和变形梯度可以初步判断:(1)玉树地震诱发了总体上NWW走向, 全长约70km地表陡变带, 陡变带南段位错及陡变梯度较大, 会在地表产生地表破裂;而西北部4段位错及陡变梯度较小, 不易在地表诱发破裂, 但可能在地下一定层位产生了隐伏破裂带;(2)陡变带两侧的雷达视线向运动方向预示发震断裂以左旋走滑运动为主;(3)宏观震中位于玉树县城西北约16km的地表陡变带上。D-InSAR解译结果与中国地震台网中心震源机制解、野外发震断裂调查结果及地貌特征吻合较好, 证明了干涉雷达解译成果的可靠性, 可以为准确定位玉树地震发震断裂地表行迹和快速评定震害损失提供有力的技术支持。   相似文献   

基于GPS和大气传输模型的InSAR大气改正方法研究   总被引：2，自引：1，他引：1       下载免费PDF全文

宋小刚  李德仁  单新建  廖明生  程亮 《地球物理学报》2009,52(5):1156-1164

利用GPS数据改正InSAR大气影响中,GPS站网的低空间密度是限制改正精度的一个主要因素.文中引入大气传输模型（ATM）来考虑大气状态在时间上的演化,并兼顾了风向的估计,把GPS-ZWD（GPS湿延迟）时间序列观测值转换为空间上分布比较稠密的GPS-ZWD网络,然后利用该稠密网络在空间上内插产生水汽延迟图,来更好地模拟InSAR影像获取时刻的水汽场,提高大气改正精度.实验结果表明,在研究地区有限的数据条件下（即只有6个GPS点的情况下）,GPS+ATM算法在重现大气信号能力方面比单纯的使用影像获取时刻的GPS-ZWD数据要强,并且其对长波的大气误差去除更明显;用来做实验的三幅差分干涉图中,GPS+ATM算法对两幅以长波信号为主的干涉图中的大气影响分别降低了21.7%和22.6%,比仅使用SAR过境时刻GPS-ZWD数据时的结果分别改进了4.5%和8.7%.而对以短波信号为主的干涉图没有明显提高.  相似文献   

InSAR analysis of a blind thrust rupture and related active folding: the 1999 Ain Temouchent earthquake (M w 5.7, Algeria) case study     

Samir Belabbès  Mustapha Meghraoui  Ziyadin Çakir  Youcef Bouhadad 《Journal of Seismology》2009,13(4):421-432

We study the surface deformation associated with the 22 December 1999 earthquake, a moderate sized but damaging event at Ain Temouchent (northwestern Algeria) using Interferometric Satellite Aperture Radar images (InSAR). The mainshock focal mechanism solution indicates reverse faulting with a NE–SW trending rupture comparable to other major seismic events of this section of the Africa–Eurasia plate boundary. Previously, the earthquake fault parameters were, however, poorly known because no aftershocks were precisely determined and no coseismic surface ruptures were observed in the field. Using a pair of ERS data with small baseline and short temporal separation in the ascending orbit we obtained an interferogram that shows the coseismic surface displacement field despite poor coherence. The interferogram measures four fringes and displays an ellipse-shaped lobe with ∼11 cm peak line-of-sight displacement. The elastic modeling using a boundary element method (Poly3Dinv) indicate coseismic slip reaching up to 1 m at 5 km depth on the N 57° E trending, dipping 32° NW Tafna thrust fault. The geodetic estimate of seismic moment is 4.7 × 10¹⁷ N m. (Mw 5.7) in is good agreement with seismological results. The elliptical shape of the surface displacement field coincides with the NE–SW trending Berdani fault-related fold. The consistency between the geological observations and InSAR solution shed light on the precise earthquake location and related Tafna fault parameters.  相似文献