共查询到20条相似文献,搜索用时 15 毫秒
1.
G. Herrera J.A. Fernndez-Merodo J. Mulas M. Pastor G. Luzi O. Monserrat 《Engineering Geology》2009,105(3-4):220-230
2.
A. Demoulin 《地学学报》2006,18(4):290-298
Although desirable for a reliable hazard assessment, rate estimates of landslide motion rarely combine a good time resolution and a sufficiently long time of observation. Here, both angles are tackled for the Manaihan landslide (East Belgium), dramatically reactivated in September 1998. I monitored the landslide displacements by repeated Global Positioning System (GPS) surveys from 1999 to 2005. Two digital elevation models were also produced, one of the landslide topography in 1999 by GPS and a second by stereophotogrammetry from aerial photographs of 1953. Subtracting one model from the other, I mapped the height changes within the landslide over the 1953–1999 period. All measurements consistently showed that, beyond the sudden ~1.5 m slip of September 1998, the landslide moved at a mean rate of c. 20 cm yr?1 since 1980. Most displacements occurred around the winter's end, when long‐lasting precipitation combined with minimal evaporation and occasional intense daily rainfall. The motions are spatially determined by seepage from a broken sewage pipe inducing local high pore pressures. Terra Nova, 18, 290–298, 2006 相似文献
3.
淌里滑坡是三峡水库区地质灾害防治监测预警工程Ⅱ期专业监测点。监测方法为地表位移监测及滑体深部位移监测,同时开展长期地表宏观变形迹象监测调查。通过3a来监测资料的对比分析,各GPS变形监测点均在水平及垂直方向上有变形。即2007年2月位于滑坡前缘的WS-74、WS-75点水平位移分别达到726.91mm及170.88mm,平均年变形速率分别为340mm和80mm;位于滑体下部的WS-75钻孔滑带位置变形明显。该钻孔在2005年5月由于深部位移变形超出测试量程而无法继续监测。在2003年10月至2005年5月20个月内,该钻孔滑带位置累计位移量达46mm以上,月平均变形率达2.3mm。以此变形速率发展,至2006年12月,滑带累计位移变形量将在100mm左右。滑坡的变形集中在滑坡的前缘地带及次级滑坡,从2003年至今,宝子滩崩滑体附近已有将近20×10^4m^3的崩塌堆积层滑入江中。目前滑坡处于匀速变形阶段,为不稳定状态,滑坡区内的4户18人和宝子滩民用码头的安全受到威胁。 相似文献
4.
Mass movements of different thicknesses and types affect the slope where the Greci and Piscopie villages lie (Lago, Calabria, Italy). The study concerns a moderately urbanized area where the lithological, structural, and hydrogeological conditions have produced a large and complex unstable area. In the study area, a multi-temporal field survey has allowed for detailed landslide inventory mapping and definition of the geometric and kinematic characteristics of mass movements with long-term monitoring. In particular, an integrated monitoring network was progressively put in place, since 1996 to measure superficial and deep displacements (GPS stations and inclinometers). The network dataset shows that the mass movements in the study area are characterized by an extremely slow or very slow rate of displacement. The elements acquired by a long-term monitoring of the deep displacements point out that the landslide bodies are prone to develop new failure surfaces progressively shallower, with a consequent increase of the hazard. Moreover, medium-deep and deep-seated landslides may rapidly accelerate in relation to rainfall conditions and significantly affect structures and infrastructures. The integration of the geological and geomorphological knowledges with the monitoring data allows for distinguishing six different homogeneous sectors on the slope, as well as the relative geometric and kinematic characteristics, and the type of mass movements. In the study area, which is representative of several aspects of other areas, the method proposed and the knowledge acquired by long-term monitoring could be useful to define mass movement mechanisms, geotechnical models, and risk mitigation strategies. 相似文献
5.
GPS在三峡水库区云阳县滑坡监测中的应用 总被引:2,自引:0,他引:2
文章概述了在库区云阳段建立GPS滑坡监测网的观测实践,以黄泥巴蹬坎滑体为例,介绍了GPS相对定位技术在云阳县滑坡的应用现状和进展。在采用GPS监测、深部位移监测、宏观地质巡视的同时,还监测降雨量、地下水位、库水位及不合理的人类工程活动。通过多种监测方法分析,发现在雨季滑坡容易产生变形,非雨季变形缓慢。目前,雨季日变率均小于5mm,而在非雨季平均日变率小于1mm。认为该边坡处于缓慢变形阶段(警惕线)。此外,在巡视过程中,也发现了多条宽1~5mm、长度不等的裂缝和高度不等的局部错台。根据近2年所获得的观测成果分析,深部位移监测、GPS监测和宏观巡视的结果十分吻合,效果令人满意。文章还总结了在滑坡监测中消除GPS测量主要误差的对策。满足方便快捷的同时,在不同时段采集GPS监测数据,适当延长监测时段,每个监测点至少观测2h的要求。多方收集信息,尽量避开潮汐、太阳黑子等活动的时段进行GPS监测。 相似文献
6.
位于四川省丹巴县梭坡乡的哑喀则滑坡是一大型松散土质边坡。鉴于该滑坡的严重变形和可能失稳造成严重灾害后果,所以选择进行高精度GPS监测。并且阐述了应用GPS监测滑坡时对监测点位选择、数据处理等方法。2007年至今的GPS监测结果显示主滑坡体上监测点平均位移速率达每年0.6~0.9m,表明该滑坡变形严重。结合地表裂缝和植被等地表特征,发现降雨量和坡脚大渡河的冲刷、浸泡对滑坡今后的发育趋势有着决定作用,建议加强监测做好预警预报工作。本文还特别指出在监测期内监测到的地震(2008年5月12日)和人类工程活动对滑坡造成的影响。 相似文献
7.
Stefano Calcaterra Claudio Cesi Caterina Di Maio Piera Gambino Katia Merli Margherita Vallario Roberto Vassallo 《Natural Hazards》2012,61(1):257-266
This paper reports experimental data on surface and deep displacements evaluated by means of GPS stations and inclinometers
in two rototranslational deep landslides in a clayey slope of the Italian Southern Apennines. The displacements of the landslides
cause continuous damage to buildings and infrastructures. To study these phenomena and control their effects, the local public
administration provided financial support for a geotechnical investigation that started in 2004. Laboratory tests, in situ
pore pressure and inclinometer measurements were carried out. In July 2006, systems of fixed-in-place inclinometer probes
with continuous data acquisition were installed in two of the eleven guide casings, in correspondence to the slip surfaces
detected by previous periodical measurements. In the meanwhile, a GPS network was installed, consisting in six permanent stations
and ten non-permanent ones. Among the latter, five were installed on the top of five inclinometer casings. The experimental
results show that, in the case under study, the surface displacements evaluated by means of the GPS stations are consistent
with the surface displacements evaluated by means of the inclinometer measurements. This implies mutual data validation, availability
of considerable amount of continuous data, as well as monitoring continuity when, for some reason, one of the instruments
goes out of use. 相似文献
8.
滑坡位移的多模态支持向量机模型预测 总被引:1,自引:0,他引:1
将支持向量机(support vector machine,SVM)方法与信号分析中的经验模态分解(empirical mode decomposition, EMD)方法相匹配,提出了一种通过多模态支持向量机函数回归分析建模预测滑坡位移的理论方法。以边坡位移历史观测数据为基础,应用EMD方法获得滑坡形成过程中位移演化的几个特征时间模态,构成了多模态信息统计学习样本,确定了边坡位移演化的自适应多尺度变化信息。对应于每个经验模态的位移变化信息,引入了多模态SVM建模方法,然后合成不同经验模态下边坡位移的计算结果,得到滑坡位移的预测值。以卧龙寺新滑坡和新滩滑坡的监测数据为基础的理论预测结果表明,与采用遗传算法的神经网络方法的预测结果相比,支持向量机经验模态方法具有更强的预测能力,理论预测结果与实际监测值具有很好的一致性 相似文献
9.
10.
三福高速公路K201滑坡病害的应急工程效果与根治工程对策 总被引:1,自引:0,他引:1
三福高速公路尤溪段K201滑坡是在持续暴雨影响下引起前缘老滑坡复活,并牵引扩大发展,形成高速公路路基坡体变形破坏的岩石滑坡;经滑坡后部刷方减载的应急抢险措施有效控制了滑坡变形快速发展的趋势,并通过路面裂缝位移监测评价了应急减载的工程效果;深部位移监测成果确定了滑面的确切位置,监控了滑坡的发展趋势;滑带强度指标的反演分析和滑坡的稳定性计算进一步揭示滑坡经应急减载后虽处于相对稳定状态,但在暴雨期不利工况条件下,仍存在变形恢复和失稳破坏的可能;通过多方案计算比较和论证分析,确定了路肩锚桩加固的根治工程对策,并经过一年的工后坡体深部位移监测证明了该治理方案的合理性和有效性。 相似文献
11.
12.
Abstract: Landslide research at the British Geological Survey (BGS) is carried out through a number of activities, including surveying, database development and real-time monitoring of landslides. Landslide mapping across the UK has been carried out since BGS started geological mapping in 1835. Today, BGS geologists use a combination of remote sensing and ground-based investigations to survey landslides. The development of waterproof tablet computers (BGS·SIGMAmobile), with inbuilt GPS and GIS for field data capture provides an accurate and rapid mapping methodology for field surveys. Regional and national mapping of landslides is carried out in conjunction with site-specific monitoring, using terrestrial LiDAR and differential GPS technologies, which BGS has successfully developed for this application. In addition to surface monitoring, BGS is currently developing geophysical ground-imaging systems for landslide monitoring, which provide real-time information on subsurface changes prior to failure events. BGS’s mapping and monitoring activities directly feed into the BGS National Landslide Database, the most extensive source of information on landslides in Great Britain. It currently holds over 14?000 records of landslide events. By combining BGS’s corporate datasets with expert knowledge, BGS has developed a landslide hazard assessment tool, GeoSure, which provides information on the relative landslide hazard susceptibility at national scale. 相似文献
13.
Establishing a monitoring network for an impoundment-induced landslide in Three Gorges Reservoir Area, China 总被引:2,自引:1,他引:1
A methodology for monitoring system of an impoundment-induced landslide in Three Gorges Reservoir Area, China is introduced.
Currently, based on landslide geological classification, the monitoring regions and methods which include types of monitoring
instruments, placement and calibration precision of instruments, and appropriate periods for instrumental placement is confirmed.
To optimize the monitoring system, sensitivity analysis of displacements and the water table in landslides affected by reservoir
surface fluctuation is completed to determine the layout of the monitoring cross sections and the monitoring points. As a
case study, the behavior of displacements and the potential fluctuation of the water table in the Shiliushubao landslide,
produced by the gradual water impoundment at Three Gorges Reservoir, has been simulated using 3D finite element method analysis.
The sensitivity analysis of Shiliushubao landslide is investigated by the fuzzy set evaluation method. As a result, the monitoring
network of Shiliushubao landslide is established. 相似文献
14.
本文通过在四川丹巴县梭坡乡亚喀则滑坡区布设的GPS监测网的测量,阐述了GPS在滑坡监测时监测点位选择、监测网布设、数据处理的方法。亚喀则滑坡的GPS监测结果表明,其精度达到毫米级,完全满足滑坡监测的精度要求。 相似文献
15.
A major limitation for wide application of Synthetic Aperture Radar (SAR) remote sensing in mapping landslide surface displacements is the intrinsic gap between the ultimate objective of measuring three-dimensional displacements and the limited capability of detecting only one or two-dimensional displacements by repeat-pass SAR observations of identical imaging geometries. Although multi-orbit SAR observations of dissimilar viewing geometries can be jointly analyzed to inverse the three-dimensional displacements, the reliability of inversion results might be highly questionable in case of continuous motion because of the usually asynchronous acquisitions of multi-orbit SAR datasets. Aiming at this problem, we proposed an approach of retrieving time series three-dimensional displacements from multi-angular SAR datasets for step-like landslides in the Three Gorges area in this article. Firstly, time series displacements of a common ground target in the azimuth and line-of-sight (LOS) direction can be estimated using traditional methods of SAR interferometry (InSAR) and SAR pixel offset tracking (POT), respectively. Then, a spline fitting and interpolation procedure was employed to parameterize the displacement history in the sliding/dormant periods of step-like landslides and estimate displacements from multi-angular observations for identical date series. Finally, three-dimensional displacements can be inverted from these synchronized multi-angular measured displacements in traditional ways. As a case study, the proposed method was applied to retrieve the three-dimensional displacements history of the Shuping landslide in the Three Gorges area, China. Comparisons between SAR-measured displacements and measurements of global positioning system (GPS) showed good agreement. Furthermore, temporal correlation analyses suggest that reservoir water level fluctuation and rainfall are the two most important impact factors for the Shuping landslide stability. 相似文献
16.
17.
钻孔倾斜仪监测在塘角村1^#滑坡预警监测中的作用 总被引:2,自引:0,他引:2
塘角村1^#滑坡是三峡库区地质灾害防治监测预警工程Ⅲ期专业监测点。监测方法为滑体深部位移监测、地表位移监测,同时开展地表宏观变形调查。2007年4月滑坡开始出现变形;其中滑体深部位移由钻孔倾斜仪监测,最早发现滑体变形,随后地表位移GPS监测滑体出现变形,同时滑体地表出现裂缝,滑体局部产生溜滑现象;文章通过滑体深部位移实测监测数据纵向分析,结合与其它监测方法(GPS)监测数据进行横向对比分析印证,判断钻孔倾斜仪监测数据的有效性、准确性;阐述钻孔倾斜仪监测在塘角村1号滑坡预警监测中的重要作用。 相似文献
18.
激光扫描仪对同一目标两次采集的点并不重合,无法通过点云的直接比较快速确定滑坡位移。考虑到单个点云位置的不确定性和区域点云密度的稳定性,将点云的密度作为滑坡表面变形的表征,提出了基于点云密度特征的滑坡位移监测方法。将离散的三维点云转化为二维的密度图像,再利用粒子图像测速技术分析位移前后两幅点云密度图像的相关性,从而计算栅格图像中各子集的相对位移值;当各子集的位移全部计算完成后,得到目标区域的平面位移场。室内块体移动试验表明该方法的计算精度受变形梯度的影响,在地表变化剧烈处会产生一定程度的误差,且子集相关性系数无法达到1。在黄藏寺滑坡的位移监测中,利用本方法识别出了边坡的变动区域,计算出了滑坡的平面位移场,直观地反映了滑坡表面变形状况,验证了该方法的实用性。 相似文献
19.
基于表面位移的公路滑坡监测预警研究 总被引:1,自引:0,他引:1
公路滑坡是常见的地质灾害,但对运营期公路边坡进行长期监测并成功预警的实例却很少。主要原因是公路边坡点多、线长、规模小、缺乏详细的地质勘探资料、监测费用高、预警难度大。利用拉索触发式位移计对滑坡表面位移进行监测,精度可达1 mm,通过电信的GPRS公网实时传送到远程监控中心,全程自动化,且费用低。同时,利用有限元商用软件 PLAXIS的强度折减模块和塑性分析模块对不同参数组合进行计算,在缺乏滑坡岩土体强度参数、渗透系数、土-水特征曲线等资料的情况下,建立滑坡安全系数与表面监测位移的关系, 从而通过表面位移量的变化进行阶段式预警,并制定相应的预防措施。提出的方法已在湘西某高速公路滑坡获得应用。 相似文献
20.
Differential single-frequency GPS monitoring of the La Valette landslide (French Alps) 总被引:6,自引:0,他引:6
Recently, Global Positioning System (GPS) surveying techniques have been increasingly employed to monitor landslide movement. Here we present an application of GPS to monitor the La Valette landslide, located in the Ubaye Valley in the southern French Alps. This complex landslide is composed by an upper rotational part, a central part with generally translational movement and a lower part, which occasionally transforms into mud flows during intense rainfall events. Displacement rates average a few centimeters per month, with velocity peaks of some centimeters per day during periods of strong activity. GPS data presented in this study were acquired with two single-frequency GPS receivers Magellan connected to multipath-resistant antennas. The data were processed with the Magellan software MSTAR. Nine points have been set in the studied area, seven of them in the moving area, one in a stable area near the landslide and one on the facing slope, which is used as reference point. For each observation, one GPS receiver is placed on the reference point for the whole day and the second one is placed on each monitored point for 1-h sessions. The distance between the base and monitored point ranges from 480 to 1660 m. Eight survey campaigns were made between October 2000 and October 2002, to follow the evolution of the surface displacements. The maximum cumulative 3-D displacement observed in the area was about 21 m during the period in the center part of the landslide, corresponding to an average rate of movement of about 3 cm/day. The accuracy achieved during the GPS measurements has been evaluated to be about 2.4 cm in E–W direction, about 11 cm in N–S direction and about 7.4 cm in elevation in the worst case. The GPS results have been compared with traditional surveying techniques (EDM) carried out on the same site by RTM Service (Restauration des Terrains en Montagne). The velocities obtained by the two methods are similar. The advantage of the GPS technique is the collection of data for the three spatial coordinates (x, y, z) of each point, which allow to calculate the 3-D displacement vector. These measurements have been combined with SAR interferometric data in order to analyse the temporal evolution of the different landslide sectors. 相似文献