1. A Study on the Slope Failure Monitoring of a Model Slope by the Application of a Displacement Sensor
- Author
-
Bibek Tamang, Seungjoo Lee, Sung-Yong Park, Suk-Hyun Chang, Jihuan Jin, Yong-Seong Kim, and Hyun-Taek Lim
- Subjects
010504 meteorology & atmospheric sciences ,Warning system ,Article Subject ,Instrumentation ,Landslide ,Monitoring system ,010502 geochemistry & geophysics ,01 natural sciences ,Displacement (vector) ,Slope failure ,Control and Systems Engineering ,lcsh:Technology (General) ,Early warning system ,lcsh:T1-995 ,Geotechnical engineering ,Electrical and Electronic Engineering ,Geology ,0105 earth and related environmental sciences ,Occurrence time - Abstract
Many causalities and economic losses are caused by natural disasters, such as landslides and slope failures, every year. This suggests that there is a need for an early warning system to mitigate casualties and economic losses. Most of the studies on early warning systems have been carried out by predicting landslide-prone areas, but studies related to the prediction of landslide occurrence time points by the real-time monitoring of slope displacement are still insufficient. In this study, a displacement sensor and an Internet of Things (IoT) monitoring system were combined together, to monitor slope failure through cutting experiments of a real-scale model slope. Real-time monitoring of the slope movement was performed simultaneously via a low-cost, efficient, and easy-to-use IoT system. Based on the obtained displacement data, an inverse displacement analysis was performed. Finally, a slope instrumentation standard was proposed based on the slope of the inverse displacement for early evacuation before slope failure.
- Published
- 2019