{"title":"Geodetic monitoring of earth-filled flood embankment subjected to variable loads","authors":"P. Kuras, Ł. Ortyl, T. Owerko, A. Borecka","doi":"10.2478/rgg-2018-0009","DOIUrl":null,"url":null,"abstract":"Abstract The article presents an example of supplementing geotechnical monitoring with geodetic observations. The experimental flood embankment built within the ISMOP project (Information Technology System of Levee Monitoring) was subjected to continuous monitoring based on built-in measuring sensors. The results of geodetic monitoring used for observation of earth-filled flood embankment subjected to external loads are presented in the paper. The tests were carried out on an experimental food embankment forming a closed artificial water reservoir. The observations were carried out for two purposes. The first was long-term monitoring, which was aimed to determine the behaviour of the newly built embankment. The second purpose was to check the reaction of the levee to the simulated flood wave, caused by filling and draining the reservoir. In order to monitor the displacements of the earth-filled embankment, it was necessary to develop the proper methodology. For the needs of research works, an appropriate network of 5 reference points and 48 survey markers has been designed and established. The periodic measurements were carried out using precise robotic total station. The stability of the reference frame was each time checked and displacements of survey markers were determined based on it. The final results allow to reveal the reaction of levee to external loads. The displacement values were referred to the course of the filling and draining experiment to indicate the relationship between them. In the field of long-term monitoring the results clearly imply the dominance of displacements outside the reservoir for points located on the embankment, in contrast to points on the crest and foreground, which do not show significant movements. On the other hand, in the field of testing the embankment reaction to the flood wave, obtaining reliable results was possible thanks to high-accuracy geodetic measurements. Small displacement values, often at the level of their determination errors, were averaged for groups of points with the same height of foundation. A sizable number of points allows to perceive some tendencies and the relation between embankment soaking, hence its movement directions can be noticed. During periods when the levee was still saturated with water, slight movements outside the reservoir were revealed. On the other hand, the following period of drying caused movement in the opposite direction.","PeriodicalId":42010,"journal":{"name":"Reports on Geodesy and Geoinformatics","volume":null,"pages":null},"PeriodicalIF":0.3000,"publicationDate":"2018-11-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Reports on Geodesy and Geoinformatics","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2478/rgg-2018-0009","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"REMOTE SENSING","Score":null,"Total":0}
引用次数: 1
Abstract
Abstract The article presents an example of supplementing geotechnical monitoring with geodetic observations. The experimental flood embankment built within the ISMOP project (Information Technology System of Levee Monitoring) was subjected to continuous monitoring based on built-in measuring sensors. The results of geodetic monitoring used for observation of earth-filled flood embankment subjected to external loads are presented in the paper. The tests were carried out on an experimental food embankment forming a closed artificial water reservoir. The observations were carried out for two purposes. The first was long-term monitoring, which was aimed to determine the behaviour of the newly built embankment. The second purpose was to check the reaction of the levee to the simulated flood wave, caused by filling and draining the reservoir. In order to monitor the displacements of the earth-filled embankment, it was necessary to develop the proper methodology. For the needs of research works, an appropriate network of 5 reference points and 48 survey markers has been designed and established. The periodic measurements were carried out using precise robotic total station. The stability of the reference frame was each time checked and displacements of survey markers were determined based on it. The final results allow to reveal the reaction of levee to external loads. The displacement values were referred to the course of the filling and draining experiment to indicate the relationship between them. In the field of long-term monitoring the results clearly imply the dominance of displacements outside the reservoir for points located on the embankment, in contrast to points on the crest and foreground, which do not show significant movements. On the other hand, in the field of testing the embankment reaction to the flood wave, obtaining reliable results was possible thanks to high-accuracy geodetic measurements. Small displacement values, often at the level of their determination errors, were averaged for groups of points with the same height of foundation. A sizable number of points allows to perceive some tendencies and the relation between embankment soaking, hence its movement directions can be noticed. During periods when the levee was still saturated with water, slight movements outside the reservoir were revealed. On the other hand, the following period of drying caused movement in the opposite direction.
摘要本文介绍了一个用大地测量观测补充岩土监测的实例。在ISMOP (Information Technology System of堤防监测信息技术系统)项目中,对实验堤防进行了基于内置测量传感器的连续监测。本文介绍了外荷载作用下填土防洪堤的大地测量监测结果。试验是在一个形成封闭人工水库的试验性食品堤上进行的。进行这些观察有两个目的。第一个是长期监测,目的是确定新建堤防的行为。第二个目的是检查堤防对由水库蓄水和排水引起的模拟洪波的反应。为了监测填土路堤的位移,有必要制定适当的方法。根据研究工作的需要,设计并建立了一个由5个参考点和48个调查标记组成的适当网络。采用精密机器人全站仪进行周期性测量。每次检查参考系的稳定性,并在此基础上确定测量标记的位移。最后的结果揭示了堤防对外部荷载的反应。位移值参考了充填和排水试验过程,以表明它们之间的关系。在长期监测领域,结果清楚地表明,水库外的位移对位于堤岸上的点起主导作用,而波峰和前景上的点则不表现出明显的运动。另一方面,在测试堤防对洪波的反应方面,由于高精度的大地测量,可以获得可靠的结果。对于具有相同基础高度的点组,通常在其确定误差的水平上取小位移值的平均值。相当数量的点可以感知一些趋势和堤防浸泡之间的关系,从而可以注意到其运动方向。在堤防仍被水饱和的时期,水库外的轻微运动显露出来。另一方面,随后一段时间的干燥引起了相反方向的运动。