Design and Deployment of an IoT-based Landslide Early Warning System

2022 International Conference and Utility Exhibition on Energy, Environment and Climate Change (ICUE) Pub Date : 2022-10-26 DOI:10.1109/ICUE55325.2022.10113491

Y. Liu, H. Hazarika, H. Kanaya, Osamu Takiguchi, Masanori Murai, Muhammad N. Hidayat, Y. Kochi

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Abstract

The occurrence of rainfall-induced landslides is observed worldwide. National and local government authorities have implemented monitoring systems to mitigate landslide disasters. However, most of these systems use complex devices that are high-cost and require a constant power source to transmit data to the servers. This research designed and deployed an IoT-based landslide early warning system (EWS). The architecture is divided into three layers― Data collection, Data transmission and Data display and analysis. For the tier of data collection, an off-the-grid solar energy-powered integrated platform with various portable and low-cost sensors was built; For the tier of data transmission, mobile routers were used to support the sensor platform; In terms of data display and analysis, research provided an open architecture to analysis data and proposed a method for predicting landslides with multiple indicators. The framework is tested, extended and tuned by the model test. Results presented accurate predictions, all warning times are before the occurrence of the landslide. Then the proposed EWS was put into an embankment slope in Fukuoka, Japan by considering geological conditions and sensor suitability. This research qualitatively guarantees the accuracy of landslide predictions while operating in a low-cost, sustainable manner. It presents how IoT-based EWS can generate a positive impact on disaster mitigation work.

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基于物联网的滑坡预警系统设计与部署

降雨引起的滑坡在世界各地都有发生。国家和地方政府当局已经实施了监测系统，以减轻滑坡灾害。然而，这些系统大多使用复杂的设备，成本高，并且需要恒定的电源将数据传输到服务器。本文设计并部署了基于物联网的滑坡预警系统(EWS)。该体系结构分为三层:数据采集、数据传输和数据显示与分析。在数据采集层，搭建了一个集多种便携式低成本传感器于一体的离网太阳能集成平台;在数据传输层，采用移动路由器支持传感器平台;在数据显示和分析方面，研究提供了一个开放的数据分析架构，提出了一种多指标的滑坡预测方法。通过模型测试对框架进行测试、扩展和调优。结果预测准确，所有预警时间均在滑坡发生前。通过对地质条件和传感器适用性的综合考虑，将所提出的EWS应用于日本福冈某路堤边坡。本研究定性地保证了滑坡预测的准确性，同时以低成本、可持续的方式运作。它介绍了基于物联网的EWS如何对减灾工作产生积极影响。

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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2022 International Conference and Utility Exhibition on Energy, Environment and Climate Change (ICUE)

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