Prediction of liquefaction-induced lateral displacements using Gaussian process regression

M Ahmad, M Amjad, RA Al-Mansob, P Kamiński… - Applied Sciences, 2022 - mdpi.com
Applied Sciences, 2022mdpi.com
During severe earthquakes, liquefaction-induced lateral displacement causes significant
damage to designed structures. As a result, geotechnical specialists must accurately
estimate lateral displacement in liquefaction-prone areas in order to ensure long-term
development. This research proposes a Gaussian Process Regression (GPR) model based
on 247 post liquefaction in-situ free face ground conditions case studies for analyzing
liquefaction-induced lateral displacement. The performance of the GPR model is assessed …
During severe earthquakes, liquefaction-induced lateral displacement causes significant damage to designed structures. As a result, geotechnical specialists must accurately estimate lateral displacement in liquefaction-prone areas in order to ensure long-term development. This research proposes a Gaussian Process Regression (GPR) model based on 247 post liquefaction in-situ free face ground conditions case studies for analyzing liquefaction-induced lateral displacement. The performance of the GPR model is assessed using statistical parameters, including the coefficient of determination, coefficient of correlation, Nash–Sutcliffe efficiency coefficient, root mean square error (RMSE), and ratio of the RMSE to the standard deviation of measured data. The developed GPR model predictive ability is compared to that of three other known models—evolutionary polynomial regression, artificial neural network, and multi-layer regression available in the literature. The results show that the GPR model can accurately learn complicated nonlinear relationships between lateral displacement and its influencing factors. A sensitivity analysis is also presented in this study to assess the effects of input parameters on lateral displacement.
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