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http://dx.doi.org/10.11627/jkise.2014.38.1.118

Study on Measurement of Flood Risk and Forecasting Model  

Kwon, S.H. (Department of Statistics, Hannam University)
Oh, H.S. (Department of Industrial and Management Engineering, Hannam University)
Publication Information
Journal of Korean Society of Industrial and Systems Engineering / v.38, no.1, 2015 , pp. 118-123 More about this Journal
Abstract
There have been various studies on measurements of flood risk and forecasting models. For river and dam region, PDF and FVI has been proposed for measurement of flood risk and regression models have been applied for forecasting model. For Bo region unlikely river or dam region, flood risk would unexpectedly increase due to outgoing water to keep water amount under the designated risk level even the drain system could hardly manage the water amount. GFI and general linear model was proposed for flood risk measurement and forecasting model. In this paper, FVI with the consideration of duration on GFI was proposed for flood risk measurement at Bo region. General linear model was applied to the empirical data from Bo region of Nadong river to derive the forecasting model of FVI at three different values of Base High Level, 2m, 2.5m and 3m. The significant predictor variables on the target variable, FVI were as follows: ground water level based on sea level with negative effect, difference between ground altitude of ground water and river level with negative effect, and difference between ground water level and river level after Bo water being filled with positive sign for quantitative variables. And for qualitative variable, effective soil depth and ground soil type were significant for FVI.
Keywords
Base High Level; Bo region; Flood Risk Measurement; FVI; MDS;
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Times Cited By KSCI : 3  (Citation Analysis)
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1 Anderson, T. and Darling, D., Asymptotic theory of certain goodness-of-fit criteria based on stochastic processes. Annals of Mathematical Statistics, 1952, Vol. 23, pp. 193-212.   DOI
2 Box, G. and Cox, D.R., An analysis of transformations. Journal of the Royal Statistical Society, Series B, 1964, Vol. 26, No. 2, pp. 211-252.
3 Cox, T.F. and Cox, M.A.A.. Multidimensional Scaling. Chapman and Hall, 2000.
4 Jang, O.J. and Kim, Y.O., Flood Risk Estimation Using Regional Regression Analysis, Journal of Korean Society of Hazard Mitigation, 2009, Vol. 9, No. 4, pp. 1-10.
5 Kwon, S.H. and Oh, H.S., Forecasting Model for Flood Risk at Bo Region. Journal of Society of Korea Industrial and Systems Engineering, 2014, Vol. 37, No. 1, pp. 1-6.   DOI
6 Kwon, S.H. and Oh, H.S., Construction of Observational Locations for Measuring Water Quality in River Area. Journal of Society of Korea Industrial and Systems Engineering, 2012, Vol. 35, No. 3, pp. 187-191.
7 McCullagh, P. and Nelder, J., Generalized Linear Model, 2nd edition, Chapman and Hall/LRC, 1989.
8 Ministry of Agriculture, Food and Riral Affaires, National Academy of Agricultural Science, Detailed Soil Map, 2013.
9 Ministry of Environment, Environmental Geographic Information Service, http://egis.me.go.kr.
10 Ministry of Land, Infrastructure and Transport, Longterm Comprehensive Planning of Water Resources of 2006-2020, Report of 2006.
11 Sommer, T. and Ullrich, L., Influence of Flood Event 2002 on Ground-water. Research Report(in German). Environmental Office, City of Dresden, 2005, p. 68.
12 Song, J.H., et al., Estimation of flood index for the Nakdong River Watershed. JKWRA, 2013, Vol. 46, No. 1, pp. 35-45.