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边坡监测的最新进展 (Slope Monitoring)

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1. 引言

边坡监测 (Slope Monitoring)【滑坡监测(Slope Movement Monitoring)】是边坡风险管理的一个重要手段,SSIM 2023【采矿边坡稳定性---未来的边坡(Slopes of the Future)】呈现了13篇与之相关的论文,基于这些尚未发表的论文题目,发展出13个相应数据集。

(1) Rockfalls strain indicators slope failure

(2) slope failure using time-lapse seismic velocity changes

(3) Rocks approach to radar slope monitoring

(4) Savage River mine

(5) Stabilisation of open pit wall movements

(6) Satellite monitoring supporting mining pipeline integrity

(7) Investigating potential long-term geotechnical risks with slow movement analysis

(8) terrestrial photogrammetric monitoring system highly hazardous areas

(9) utilising velocity ratio slope stability radar

(10) pit wall failure detection monitoring, geotechnical analysis

(11) total vector displacement in slope monitoring open pit mine

(12) monitoring data into risk assessment for geological engineering projects 
(13) probability of failure large open pit


3. 边坡参数

[1] Rockfalls as pre-cursory strain indicators leading to a large slope failure ('Leo Failure') at the Bingham Canyon Mine, USA(落石作为预应变指标---美国宾厄姆峡谷矿发生大型边坡破坏 (“Leo 破坏”)【力拓宾汉峡谷铜矿'Leo'滑坡机理

[2] Observing the anatomy of slope failure using time-lapse seismic velocity changes (使用时移地震速度变化观察边坡破坏)【堤坝地震变形(Seismic Deformations of Tail ings Dam)的分析指南

[3] Rocks around the clock: a 24/7 approach to radar slope monitoring (全天候岩石:24/7 的雷达边坡监测方法)【边坡位移监测及其点云处理

[4] Unconventional remote prism installation using a modified heavy payload release drone at Savage River mine (在萨维奇河矿使用改进的重载释放无人机进行非常规远程棱镜安装)【Update: 萨瓦奇河铁矿(Savage River Mine)
[5] Stabilisation of open pit wall movements detected by InSAR using horizontal drains (使用水平排水沟稳定 InSAR 检测到的露天矿坑壁移动)【视频 | 机器学习和人工智能时代的岩土工程】

[6] Satellite monitoring supporting mining pipeline integrity (卫星监测支持采矿管线完整性)【边坡位移监测及其点云处理

[7] Investigating potential long-term geotechnical risks with slow movement analysis (通过慢速运动分析调查潜在的长期岩土风险)【岩土工程风险---大数据和机器学习(Geotechnical Risk)

[8] A low-cost terrestrial stereo-pair photogrammetric monitoring system for highly hazardous areas (用于高危险区域的低成本地面立体对摄影测量监测系统)【地面激光扫描仪TLS在岩土工程中的应用(2)---节理粗糙度JRC】

[9] A proactive approach to slope failure alarming by utilising velocity ratio as a parameter to deal with line-of-sight concerns for a slope stability radar (利用速度比作为参数来处理边坡稳定性雷达的视线问题的主动边坡失稳报警方法)【滑坡监测(Slope Movement Monitoring)

[10] Preventing a pit wall failure through early detection monitoring, geotechnical analysis and execution of a toe-stabilisation buttress (通过早期检测监测、岩土工程分析和脚趾稳定支撑的执行来防止坑壁破坏)【在海平面下采矿---神奇的Island Copper露天矿】

[11] Line-of-sight and total vector displacement discussion in slope monitoring: a case study at an open pit mine (边坡监测中的视线和总矢量位移讨论:露天矿的案例研究)【滑坡监测(Slope Movement Monitoring)

[12] Integrating monitoring data into risk assessment and management for geological engineering projects (将监测数据融入地质工程项目风险评估和管理)【Griffiths | 岩土工程中的定量风险评估

[13] Using observations and measurements to establish a relation between modelled movement and probability of failure in a large open pit (使用观察和测量来建立大型露天矿坑的模拟移动与破坏概率之间的关系)【概率有限元边坡稳定性分析(Probabilistic FEM Slope Stability Analysis)

来源:计算岩土力学
Deform岩土人工智能无人机
著作权归作者所有,欢迎分享,未经许可,不得转载
首次发布时间:2023-10-11
最近编辑:1年前
计算岩土力学
传播岩土工程教育理念、工程分析...
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