1. Casea, M.A, and Agostino, V (2008) Comparison between FLO2D and RAMMS in Debris Flow Modeling:A Case Study in the Dolomites. International Conference on Monitoring simulation, prevention and remediation of Dense and Debris flow, Vol. 60, pp. 161-168.
2. Jun, B.H, Jang, C.D, and Kim, N.G (2010) Analysis of Erosion and Deposition by Debris-flow with LiDAR. Journal of Korean Geo-Environmental Society, Korean Geo-Environmental Society, No. 2, Vol. 13, pp. 54-63.
3. Jun, K.W, Jun, B.H, and Jang, C.D (2013) Runoff Analysis of Debris-Flow according to the Install of Reduction Facility. Korean Review of Crisis & Emergency Management, No. 3, Vol. 9, pp. 17-26.
4. Kim, J.H (2013). Experimental Study on Float-Board Screen for Catching Drift Woods and Debris Flows in Urban Areas. master's thesis.
5. Kim, K.S (2008) Characteristics of Basin Topography and Rainfall Triggering Debris Flow. Korea Society of Civil Engineers, pp. 263-271.
6. Kim, N.G (2011). A Study on Transport and Diffusion of Debris Flow with FLO-2D. Master's Thesis.
7. Kim, S.D, and Lee, H.J (2014) Simulation of Debris Flow Considering Erosion and Sedimentation. Korean Review of Crisis & Emergency Management, No. 7, Vol. 10, pp. 149-159.
8. Lee, D.H, Kim, Y.S, and Suh, Y.C (2009) Analysis Possibility of the Landslide Occurrence in Kangwon-Do using a High-resolution LiDAR-derived DEM. Journal of Korea Spatial Information Society, No. 3, Vol. 17, pp. 381-387.
9. Mun, I.J (2014). Debris flow simulation and hazard assessment using FLO-2D. Master's Thesis.
10. Nakatani, K, Wada, T, Satofuka, Y, and Mizuyama, T (2008) Development of :Kanako 2D (Ver.2.00), a User-Friendly One-and Two-Dimensional Debris flow Simulator Equipped with a Graphical user Interface.
International Journal of Erosion Control Engineering, Vol. 1.2, pp. 62-72. 10.13101/ijece.1.62.