Using real-time abnormal hydrology observations to identify a river blockage event resulted from a natural dam

This study proposes an automatic identification approach for landslide dam formation using a real-time abnormal hydrology record and artificial neural network (ANN). In Taiwan, natural dams occur frequently and have the potential to cause significant disasters, especially in the presence of fragile...

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Bibliographic Details
Published in:Landslides 2014-12, Vol.11 (6), p.1007-1017
Main Authors: Lee, S.-P., Chen, Y.-C., Shieh, C.-L., Kuo, Y.-S.
Format: Article
Language:English
Subjects:
Agriculture
Blockage
Civil Engineering
Dam failure
Dams
Debris flow
Earth and Environmental Science
Earth Sciences
Earthquakes
Extreme weather
Failure
Freshwater
Geography
Hydrology
Landslides
Learning theory
Mountains
Natural Hazards
Neural networks
Original Paper
Real time
River basins
Rivers
Seismic activity
Typhoons
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Summary:This study proposes an automatic identification approach for landslide dam formation using a real-time abnormal hydrology record and artificial neural network (ANN). In Taiwan, natural dams occur frequently and have the potential to cause significant disasters, especially in the presence of fragile geological conditions such as steep mountains, earthquakes, intense typhoon, and storm events. During a river blockage event, obtaining immediate real-time information can be difficult or even impossible due to extreme weather conditions, remote locations, and the mountainous terrain of the area. As a result of these issues, there is a strong need for a practical tool that can not only detect the occurrence of this type of natural dam but also estimate the potential real-time risk of dam failure. In order to develop the appropriate safety response, a rapid preliminary assessment of the failure type must be identified, followed by a thorough investigation into the failure process after the event has occurred. In this study, a new method is developed that applies an ANN model (1) to evaluate, in real time, the occurrence of a natural dam and the storage changes behind that dam; (2) to rapidly assess the natural dam failure type and failure process; and (3) to reconstruct the dam height variation during the dam failure process after the event. The proposed methodology is applied to Chi-Shan River Basin located in Kaohsiung, Taiwan, during Typhoon Morakot in 2009. In 3 days, Typhoon Morakot produced 1,911 mm of precipitation. The typhoon event produced a landslide dam and a debris flow that inundated Hsiaolin Village, causing 398 deaths. The tragic results of this case study demonstrate the need for an applicable, accurate, and efficient method to evaluate dam formation and its failure rate.
ISSN:1612-510X
1612-5118
DOI:10.1007/s10346-013-0441-1