Affiliation:
1. Hwh Hsia Institute of Technology
2. Chung Hua University
Abstract
The main rivers in Taiwan present numerous distinct features, such as narrow catchment areas, short main flow paths, fast-flowing rapids, and steep slopes. In Taiwan, typhoon season in summer and fall is the period during which torrential rainfall frequently occurs. Large amounts of rainfall in short periods increase the likelihood of disasters, such as hillside collapses, landslides, and floods. By using a computer simulation to visually present landslide disasters, disaster evacuation can be facilitated and casualties can be reduced. In the present study, we compiled the causes of hillside landslides by employing a remote helicopter equipped with a camera to capture images of landslide-prone rivers and hillsides. ReCap computation was adopted to establish 3D river and hillside models for mesh optimization, which were then imported into the Unity software. Finally, by referencing slope and geographical data, and considering various landside factors such as cause, scale, flow direction, flow speed, and damage, model disaster scenarios were created to perform simulations. The results were uploaded to Web-and mobile-based platforms, providing a reference for assisting the general public in implementing preventive measures, thereby reducing the occurrence of disaster incidents.
Publisher
Trans Tech Publications, Ltd.
Reference5 articles.
1. B.R. Chiang: Taiwan Climate Journal, Taiwan Research Publication, p.220. (1954).
2. The Central Weather Bureau Website (http: /www. cwb. gov. tw/pda/index. htm).
3. National Fire Agency, Ministry of the Interior Web site (http: /www. nfa. gov. tw/main/index. aspx).
4. The Soil and Water Conservation Bureau,. The Soil and Water Conservation Manual, Engineering Methods (1992).
5. Autodesk ReCap 360 Web site (https: /recap360. autodesk. com/signin. aspx).
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