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http://dx.doi.org/10.14400/JDC.2018.16.7.047

A study on the Sediment Disaster Response System in Japan  

Lee, Woo-Jin (Division of Police, Baekseok University)
Publication Information
Journal of Digital Convergence / v.16, no.7, 2018 , pp. 47-54 More about this Journal
Abstract
Sediment disaster happen frequently in our country every year, and a lot of lives and the properties have been lost because of them. Non-structural measures for prevention of sediment disaster have been introduced by prefectures based on the Sediment-related Disaster Prevention Law established after the devastating rainstorm damage in Hiroshima in 1999. They include formulation of sediment disaster warning and evacuation standard rainfall and designation of sediment disaster warning zones and sediment disaster special warning zones. As a practical example, this research focused on the case of "TEC-FORCE" of "MLIT of Japan" as a method of utilizing professional workforce and the sediment disaster warning information delivery system in Kagoshima. In the future, it will be called for prevention and reduction of damages by utilizing professional workforce and sediment disaster response system such as Japan.
Keywords
Sediment disaster; Sediment-related Disaster Prevention Law; TEC-FORCE; Sediment disaster warning zone; Sediment disaster special warning zone;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Disaster Report 2016. (2016). Sejong : MOIS.
2 B. S. Kim. (2013). Climate Change and Sediment Disaster. Magazine of KOSHAM, 13(4), 44-51.
3 S. Y. Shin. (2016). A Study on the Present Status and Future Directions of Legal System Related to Sediment Disasters in Urban Area. Magazine of KOSHAM, 16(4), 60-67.
4 KALGS. (2008). A Comparative Study on Disaster Safety Management System of the Major Advanced Countries. Seoul : MOIS.
5 O. B. Sim. (2013. Nov. 18), A Study on the Land Use System for Disaster Prevention through the Analysis of Disaster Vulnerabilities. KRIHS Policy Brief, 442, 1-8.
6 T. Tamotsu. (2005), Soil Erosion and Countermeasures. Seoul : CIR.
7 Development of the Integrated Management Technology for the Prediction, Evaluation and Management of Soil Disasters Considering Urban Characteristics. (2017). Sejong : MOLIT.
8 The Revision and Countermeasures of the Sediment Disaster Prevention Act. (2015). Tokyo : MLIT.
9 K. Takahashi, K. Kouchi, H. Kondo & S. Nakamura. (2008). A Study on the Sediment Disaster Warning System and Response in Kagoshima Prefecture during Typhoon No. 14 in 2005. Journal of JSNDS, 26(4), 343-353.
10 H. Ikeya. (2014). Saving Lives from Sediment Disasters. Tokyo : Gogatsshobo.
11 MLIT. (2018). Overview of the Sediment Disaster Prevention Act. MLIT. http://www.mlit.go.jp/river/sabo/sinpoupdf/gaiyou.pdf
12 MLIT. (2018). Overview of the TEC-FORCE, MLIT. http://www.mlit.go.jp/river/bousai/pch-tec/index.html
13 MLIT. (2014). Disaster and Countermeasures in 2014. Tokyo : MLIT.
14 MLIT. (2014). Sent to Hiroshima Sediment Disaster in August 2014, MLIT. http://www.mlit.go.jp/river/bousai/pch-tec/pdf/TECFORCE2-9.pdf
15 KISTEC. (2014). The Development Of Advanced Pre-Emptive Maneuver and Safety Technology on Soli Disast. Sejong : MOLIT.
16 S. G. Lee. (2014, Jul). The Present Situation and Improvement of landslides - Korean Parliamentary Debate. The Role of Technology for National Disaster Preparation and National Safety. (pp. 31-92). Seoul : Association for Research and Development.
17 K. B. Kim, G. M. Geum & C. B. Jang. (2017). Research on the Convergence of CCTV Video Information with Disaster Recognition and Real-time Crisis Response System. Journal of the Korea Convergence Society, 8(3), 15-22. DOI : 10.15207/JKCS.2017.8.3.015   DOI