TY - JOUR
T1 - PERFORMANCE VALIDATION OF THREE-DIMENSINONAL LIMIT EQUILIBRIUM METHOD FOR SHALLOW LANDSLIDES OVER A WIDE AREA
AU - Sugo, D.
AU - Fujita, S.
AU - Dolojan, N.
AU - Tozato, K.
AU - Nomura, Reika
AU - Moriguchi, S.
AU - Terada, Kenjiro
N1 - Publisher Copyright:
© Published under licence by IOP Publishing Ltd.
PY - 2025
Y1 - 2025
N2 - Slope stability analysis based on the limit equilibrium theory has been widely employed in practice. However, the application of the three-dimensional (3D) limit equilibrium method (LEM) for multiple slopes over a large area has not been extensively discussed. In this study, a 3D LEMs-based slope stability analysis was conducted over a large area with actual terrain data under the conditions of shallow failures that occur during heavy rainfall events. The results confirmed that the three different methods have similar trends in receiver operating characteristic (ROC) curves though each evaluated factor of safety is different. In other words, under the conditions of shallow landslides, the Hovland method, which has the lowest computational cost among 3D LEMs, can produce results comparable to those of more advanced methods only by changing the threshold of the factor of safety.
AB - Slope stability analysis based on the limit equilibrium theory has been widely employed in practice. However, the application of the three-dimensional (3D) limit equilibrium method (LEM) for multiple slopes over a large area has not been extensively discussed. In this study, a 3D LEMs-based slope stability analysis was conducted over a large area with actual terrain data under the conditions of shallow failures that occur during heavy rainfall events. The results confirmed that the three different methods have similar trends in receiver operating characteristic (ROC) curves though each evaluated factor of safety is different. In other words, under the conditions of shallow landslides, the Hovland method, which has the lowest computational cost among 3D LEMs, can produce results comparable to those of more advanced methods only by changing the threshold of the factor of safety.
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U2 - 10.1088/1755-1315/1480/1/012039
DO - 10.1088/1755-1315/1480/1/012039
M3 - Conference article
AN - SCOPUS:105003416717
SN - 1755-1307
VL - 1480
JO - IOP Conference Series: Earth and Environmental Science
JF - IOP Conference Series: Earth and Environmental Science
IS - 1
M1 - 012039
T2 - 5th International Symposium on Geomechanics from Micro to Macro, IS-Grenoble 2024
Y2 - 23 September 2024 through 27 September 2024
ER -