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NTIS 바로가기자원환경지질 = Economic and environmental geology, v.44 no.4, 2011년, pp.289 - 302
김지석 (한국전력기술주식회사) , 박혁진 (세종대학교 지구정보공학과) , 이정현 (세종대학교 지구정보공학과)
Since the frequency of the earthquake occurrence in Korean peninsular is continuously increasing, the possibility that massive landslides are triggered by earthquake is also growing in Korea. Previously, the landslide is known to be induced by large magnitude earthquake, whose magnitude is larger th...
Castaldini, D., Genevois, R., Panizza, M., Puccinelli, A. and Simoni, A. (1998) An integrated approach for analysing earthquake induced surface effects: A case study from Northern Apennines, Italy. Journal of Geodynamics, v.26, p.413-441.
Chae, B.G., Kim, W.Y., Na, J.H., Cho, Y.C., Kim, K.S. and Lee, C.O. (2004) A prediction model of landslides in the Tertiary sedimentary rocks and volcanic rocks area. The Journal of Engineering Geology, v.14, p.443-450.
Choi, J.W., Lee, S., Min, K.D. and Woo, I. (2004) Land-slide susceptibility mapping and verification using GIS and Bayesian probability model in Boun. Econ. Envon. Geol., v.37, p.207-223.
Duncan, M. and Wright, S.G. (2005) Soil Strength and Slope Stability. John Wiley and Sons, 297p.
Hadj-Gamou, T. and Kavazanjian, E. Jr. (1985) Seismic stability of gentle infinite slopes. ASCE J. Geotech Engrg., p.681-697.
Harp, E.L. and Wilson, R.C. (1995) Shaking intensity thresholds for rock falls and slides: Evidence from 1987 whittier Narrows and Superstition hills earthquake strong motion records. Bull. Seis. Soc. Am., v.85, p.1739-1757.
Havenith, H., Storm, A., Caceres, F. and Picard, E. (2006) Analysis of alndslide susceptibility in the Suusamyr region, Tien Shan. Landslides, v.3, p.39-53.
Jibson, R.W. and Keefer, D.K. (1993) Analysis of the seismic origin of landslides Examples from the New Madrid seismic zone. Bull. Seis. Soc. Am., v.105, p.421-436.
Jibson, R.W., Harp, E.L. and Michael, J.A. (1998) A method for producing digital probabilistic seismic landslide hazard map. US Geol. Surv. open file.
Jibson, R.W., Harp, E.L. and Michael, J.A. (2000) A method for producing digital probabilistic seismic landslide hazard maps. Engineering Geology, v.58, p.271-289.
Julian, M. and Anthony, E. (1996) Aspect of landslide activity in the Mecantour Massif and the French Rivera, southeastern France. Geomorphology, v.15, p.275-289.
Keefer, D.K. (2000) Statistical analysis f an earthquake-induced landslide distribution-1989 Loma Prieta, California event. Engineering Geology, v.58, p.231-249.
Khanzai, B. and Sitar, N. (2000) Assessment of seismic slope stability using GIS modeling. Geogr. Inf. Sci., v.6, p.121-128.
Kim, K.S., Kim, W.Y., Chae, B.G. and Cho, Y.C. (2000) Engineering geologic characteristics of landslide induced by rainfall. The Journal of Engineering Geology, v.10, p.163-174.
Kim, W.Y. and Chae, B.G. (2009) Characteristics of rainfall, geology and failure geometry of the landslide areas on natural terrains, Korea. The Journal of Engineering Geology, v.19, p.331-344.
Korea Highway Corporation (2009) Road Design Guideline, 472p.
Lee, M.J., Lee, S. and Won, J.S. (2004) Study on landslide using GIS and remote sensing at the Kangneung area (I). Econ. Envon. Geol., v.37, p.425-436.
Lee, S. and Min, K.D. (2000) Landslide analysis of Yongin area using spatial database. Econ. Envon. Geol., v.33, p.321-332.
Lee, S., Lee, M.J. and Won, J.S. (2005) Landslide susceptibility and verification using artificial neural network in the Kangneung area. Econ. Envon. Geol., v.38, p.33-43.
Lin, M. and Tung, C. (2003) A GIS based potential analysis f the landslides induced by the Chi-Chi earthquake. Engineering Geology, v.71, p.63-77.
Malamud, B.D., Turcotte, D.L. Guzzetti, F. and Reichenbach, P. (2004) Landslide inventories and their statistical properties. Earth Surf. Processes Landform, v.29, p.687-711.
Miles, S.B. and Ho, C.L. (1999) Rigorous landslide hazard zonation using Newmark's method and stochastic ground motion simulation. Soil Dyn. Earth Eng., v.18, p.305-323.
Murphy, W. (1995) Earthquake triggered landslide at the Brunssummerheide, Limburg. the Netherlands. Quaterly Journal of Engineering Geology, v.28, p.61-74.
Newmark, N.M. (1965) Effects of earthquakes on dams and embankents. Geotechnique, p.139-160.
Oh, H.J. (2010) Landslide detection and landslide susceptibility mapping using aerial photos and artificial neural networks, Korean J. of Remote Sensing, v.26, p.47-57.
Park, N.W., Chi, K.H., Chung, C.J., and Kwon, B.D. (2005) Application of GIS based probabilistic empirical and parametric models for landslide susceptibility analysis. Econ. Envon. Geol., v.38, p.45-55.
Parise, M. and Jibson, R.W. (2000) A seismic landslide susceptibility rating of geologic units based on analysis of characteristic of landslides triggered by the 17 Jan. 1994 Northridge, California earthquake. Engineering Geology, v.58, p.251-270.
Refice, A. and Capolongo, D. (2002) Probabilistic modeling of uncertatinties in earthquake-induced landslide hazard assessment. Computers and Geosciences, v.28, p.735-740.
Rodriguez, C.E., Bommer, J.J. and Chandler, R.J. (1999) Earthquake induced landslide:1980-1997. Soil Dynamics and Earthquake engineering, v.18, p.325-346.
Ryu, J.H., Lee, S., and Won, J.S. (2002) Weight determination of landslide factors using artificial neural networks. Econ. Envon. Geol., v.35, p.67-74.
Seed, H.B. (1967) Slope stability during earthquakes. ASCE, J. Soil Mech. Found. Div., p.299-323.
Song, Y.S. and Hong, W.P. (2007) A case study on the analysis of cause and characteristics of a landslide at the sedimentary rock area, The Journal of Engineering Geology, v.17, p.101-113.
Tibaldi, A., Ferrari, L. and Pasquare, G. (1995) Landslide triggered by earthquakes and their relations with faults and mountain slope geometry: an example from Ecudor. Geomorphology, v.11. p.215-226.
Van Westen. (1993) Geographic Information systems in slope Instability Zonation, ITC, Publication, 15, p.245.
Wang, H. (2008) Probabilistic modeling of seismically triggered landslides using Monte Carlo simulations. Landslide, 5, p.389-391.
Wieczorek, G.F., Wilson, R.C. and Harp, E.L. (1985) Map showing slope stability during earthquakes of San Mateo county, California. US Geol. Surv. Misc. Geol. Investig. map I-1257e, scale 1:62500.
Wilson, R.C. and Keefer, D.K. (1983) Dynamic analysis of a slope failure from the 6 August 1979 Coyote lake, California earthquake. Bull. Seis. Soc. Am., v.73, n.3, p.863-877.
Wilson, R. C. and Keefer, D. K. (1985) Predicting areal limits of earthquake induced landsliding. In: Ziony, J. I. (Ed.), Evaluating Earthquake Hazards in the Los Angeles Region. An Earth-science Perspective. US Geol. Surv. Prof., Paper 1360, p.316-345.
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