An, G. I. (1991). “Application of the fuzzy set theory to analysis of accident progression event trees with phenomenological uncertainty issues.” J. of the Korean Nuclear. Soc., Vol. 23, No. 3, pp. 285-298 (in Korean).An, G. I. (1991). “Application of the fuzzy set theory to analysis of accident progression event trees with phenomenological uncertainty issues.” J. of the Korean Nuclear. Soc., Vol. 23, No. 3, pp. 285-298 (in Korean).

An, G. I., Jin, Y. H., Kim, D. H. and Park, C. K. (1994). “For the containment event tree analysis methodology study.” J. of the Korean Nuclear. Soc., Vol. 26, No. 4, pp. 611-626 (in Korean).An, G. I., Jin, Y. H., Kim, D. H. and Park, C. K. (1994). “For the containment event tree analysis methodology study.” J. of the Korean Nuclear. Soc., Vol. 26, No. 4, pp. 611-626 (in Korean).

An, H. J. (2013). New approach to optimal decision model for planning & design of construction projects based on risk-based utility value criterion, Ph.D. Dissertation, University of Hanyang (in Korean).An, H. J. (2013). New approach to optimal decision model for planning & design of construction projects based on risk-based utility value criterion, Ph.D. Dissertation, University of Hanyang (in Korean).

Baecher, G. B. and Christian, J. T. (2005). Reliability and statistics in geotechnical engineering, John Wiley & Sons, pp. 471-500.Baecher, G. B. and Christian, J. T. (2005). Reliability and statistics in geotechnical engineering, John Wiley & Sons, pp. 471-500.

Beim, G. K. and Hobbs, B. F. (1997). “Event tree analysis of lock closure risks.” J. Water Resour. Plan Manag., ASCE, Vol. 123, pp. 137-198.10.1061/(ASCE)0733-9496(1997)123:3(169)Beim, G. K. and Hobbs, B. F. (1997). “Event tree analysis of lock closure risks.” J. Water Resour. Plan Manag., ASCE, Vol. 123, pp. 137-198.

Bowles, D., Rutherford, M. and Anderson, L. (2011). “Risk assessment of Success Dam, California: Evaluation of operating restrictions as an interim measure to mitigate earthquake risk.” Proc. of GeoRisk, ASCE, Atlanta, Georgia, pp. 586-599.Bowles, D., Rutherford, M. and Anderson, L. (2011). “Risk assessment of Success Dam, California: Evaluation of operating restrictions as an interim measure to mitigate earthquake risk.” Proc. of GeoRisk, ASCE, Atlanta, Georgia, pp. 586-599.

Han, S. H., Kim, T. U. and Park, C. K. (1995) “An approach to develop a PSA Workstation in KAERI.” Proc. of the 10th KAIF/KNS Annual Conference, Korean Nuclear Society, Daejeon, pp. 610-615.Han, S. H., Kim, T. U. and Park, C. K. (1995) “An approach to develop a PSA Workstation in KAERI.” Proc. of the 10th KAIF/KNS Annual Conference, Korean Nuclear Society, Daejeon, pp. 610-615.

Hong, B. M., Kim, H. T., Kang, B. Y. and Yoo, K. C. (2005). “Disaster reduction technique based on the case study on embankment failures.” Proc. of 2005 Geotechnical Joint Workshop, Korean Geotechnical Society, pp. 117-128 (in Korean).Hong, B. M., Kim, H. T., Kang, B. Y. and Yoo, K. C. (2005). “Disaster reduction technique based on the case study on embankment failures.” Proc. of 2005 Geotechnical Joint Workshop, Korean Geotechnical Society, pp. 117-128 (in Korean).

Jang, D. J., Lee, S. J., Lee, T. J., Oh, T. Y., Han, G. H. and Kim, H. B. (2005). “Quantitative analysis of submarine diving safety: Fire Event.” Proc. of the Korean Naval Architect Society, pp. 1163-1169 (in Korean).Jang, D. J., Lee, S. J., Lee, T. J., Oh, T. Y., Han, G. H. and Kim, H. B. (2005). “Quantitative analysis of submarine diving safety: Fire Event.” Proc. of the Korean Naval Architect Society, pp. 1163-1169 (in Korean).

Jeon, E. M., Choi, J. H. and Hong, W. H. (2010). “Probabilistic evacuation safety assessment of high-rise building through event tree analysis.” Proc. of Annual Conf. of the Architectural Institute of Korea, pp. 399-401 (in Korean).Jeon, E. M., Choi, J. H. and Hong, W. H. (2010). “Probabilistic evacuation safety assessment of high-rise building through event tree analysis.” Proc. of Annual Conf. of the Architectural Institute of Korea, pp. 399-401 (in Korean).

Kim, D. H., Jeong, C. G. and Je, M. S. (1997). “DYLAM-3 appendix operation using a core part of the evaluation frequency of exposure incidents.” Proc. ‘97 Fall Conf. of the Korean Nuclear Soc., pp. 444-449 (in Korean).Kim, D. H., Jeong, C. G. and Je, M. S. (1997). “DYLAM-3 appendix operation using a core part of the evaluation frequency of exposure incidents.” Proc. ‘97 Fall Conf. of the Korean Nuclear Soc., pp. 444-449 (in Korean).

Korea Infrastructure Safety Corporation (KISC) (2010). Yedang reservoir agricultural infrastructure precise safety diagnostics report (in Korean).Korea Infrastructure Safety Corporation (KISC) (2010). Yedang reservoir agricultural infrastructure precise safety diagnostics report (in Korean).

Lim, S. S. and Lim, H. D. (2008). “Statistical analysis of the causes of the embankment dam incidents and the importance of piping.” KSCE Magazine, Vol. 56, No. 7, pp. 73-79 (in Korean).Lim, S. S. and Lim, H. D. (2008). “Statistical analysis of the causes of the embankment dam incidents and the importance of piping.” KSCE Magazine, Vol. 56, No. 7, pp. 73-79 (in Korean).

Ministry of Construction and Transportation (MCT) (1997). A study on the seismic design code, Korean Geotechnical Society (in Korean).Ministry of Construction and Transportation (MCT) (1997). A study on the seismic design code, Korean Geotechnical Society (in Korean).

Noh, K. L. (2014). Risk assessment for geotechnical failure of reservoir using event tree analysis, Ph.D. Dissertation, Kyung Hee University.Noh, K. L. (2014). Risk assessment for geotechnical failure of reservoir using event tree analysis, Ph.D. Dissertation, Kyung Hee University.

Samlim Engineering (2008). Go-Sam reservoir agricultural infrastructure precise safety diagnostics report (in Korean).Samlim Engineering (2008). Go-Sam reservoir agricultural infrastructure precise safety diagnostics report (in Korean).

Srivastava, A. (2008). Generalized event tree algorithm and software for dam safety risk assessment, Master’s Thesis, Utah State university, Logan, Utah.Srivastava, A. (2008). Generalized event tree algorithm and software for dam safety risk assessment, Master’s Thesis, Utah State university, Logan, Utah.

Srivastava, A., Bowles, D. S. and Chauhan, S. S. (2009). “Improvements to DAMRAE: A Tool for Dam Safety Risk Analysis Modelling.” Proc. ASDSO Conf. on Dams, ASDSO, Hollywood, Florida.Srivastava, A., Bowles, D. S. and Chauhan, S. S. (2009). “Improvements to DAMRAE: A Tool for Dam Safety Risk Analysis Modelling.” Proc. ASDSO Conf. on Dams, ASDSO, Hollywood, Florida.

Swaisgood, J. R. (2003). “Embankment dam deformations caused by earthquakes.” Proc. 2003 Pacific conference on earthquake engineering, pp.14-21.Swaisgood, J. R. (2003). “Embankment dam deformations caused by earthquakes.” Proc. 2003 Pacific conference on earthquake engineering, pp.14-21.

US Army Corps of Engineers (USACE) (2009). Internal erosion toolbox.US Army Corps of Engineers (USACE) (2009). Internal erosion toolbox.

US Nuclear Regulatory Commision (1975). Reactor safety study: An Assessment of Accident Risks in U.S. Commercial Nuclear Power Plants, WASH-1400, Nuclear Regulatory Commission, Washington, DC, U.S.US Nuclear Regulatory Commision (1975). Reactor safety study: An Assessment of Accident Risks in U.S. Commercial Nuclear Power Plants, WASH-1400, Nuclear Regulatory Commission, Washington, DC, U.S.