Validation of the accuracy of geodetic automated measurement system based on GNSS platform for continuous monitoring of surface movements in post-mining areas

IF 0.3 Q4 REMOTE SENSING
Violetta Sokoła-Szewioła, Z. Siejka
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引用次数: 1

Abstract

Abstract The problem involving the monitoring of surface ground movements in post-mining areas is particularly important during the period of mine closures. During or after flooding of a mine, mechanical properties of the rock mass may be impaired, and this may trigger subsidence, surface landslides, uplift, sinkholes or seismic activity. It is, therefore, important to examine and select updating methods and plans for long-term monitoring of post-mining areas to mitigate seismic hazards or surface deformation during and after mine closure. The research assumed the implementation of continuous monitoring of surface movements using the Global Navigation Satellite System (GNSS) in the area of a closed hard coal mine ‘Kazimierz-Juliusz’, located in Poland. In order to ensure displacement measurement results with the accuracy of several millimetres, the accuracy of multi-GNSS observations carried out in real time as a combination of four global navigation systems, Global Positioning System (GPS), Globalnaja Navigacionnaja Sputnikova Sistema (GLONASS), Galileo and BeiDou, was determined. The article presents the results of empirical research conducted at four reference points. The test observations were made in variants comprising measurements based on: GPS, GPS and GLONASS systems, GPS, GLONASS and Galileo systems, GPS, GLONASS, Galileo and BeiDou systems. For each adopted solution, daily measurement sessions were performed using the RTK technique. The test results were subjected to accuracy analyses. Based on the obtained results, it was found that GNSS measurements should be carried out with the use of three navigation systems (GPS, GLONASS, Galileo), as an optimal solution for the needs of continuous geodetic monitoring in the area of the study.
基于GNSS平台的采后地表移动连续监测大地测量系统精度验证
在矿山闭坑期间,对采后矿区地表运动的监测问题显得尤为重要。在矿井淹水期间或之后,岩体的力学特性可能会受到损害,这可能会引发沉陷、地表滑坡、隆起、天坑或地震活动。因此,研究和选择更新后矿区长期监测的方法和计划,以减轻矿山关闭期间和之后的地震危害或地表变形是很重要的。该研究假设使用全球导航卫星系统(GNSS)在位于波兰的卡齐米兹-朱利乌斯(Kazimierz-Juliusz)的封闭硬煤矿地区对地表运动进行持续监测。为了确保精度达到几毫米的位移测量结果,确定了全球定位系统(GPS)、全球导航系统(GLONASS)、伽利略和北斗四种全球导航系统组合实时进行的多gnss观测精度。本文介绍了在四个参考点上进行的实证研究结果。测试观测采用多种测量方法,包括基于GPS、GPS和GLONASS系统、GPS、GLONASS和伽利略系统、GPS、GLONASS、伽利略和北斗系统的测量。对于每个采用的解决方案,使用RTK技术进行每日测量。对试验结果进行了准确性分析。根据获得的结果,GNSS测量应使用三种导航系统(GPS, GLONASS, Galileo)进行,这是满足研究区域连续大地测量监测需求的最佳解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
自引率
28.60%
发文量
5
审稿时长
12 weeks
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