A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Vulnerability Assessment for Earthquake Liquefaction–Induced Settlements of an Embankment Using Gaussian Processes
The major cause of earthquake damage to an embankment is the liquefaction of the soil foundation that induces ground-level deformations. The aim of this paper is to assess numerically the effect of the liquefaction-induced settlement of the soil foundation on a levee due to real earthquakes. The seismic vulnerability is evaluated in terms of analytical fragility curves constructed on the basis of nonlinear dynamic finite-element (FE) analysis. However, FE analysis can be expensive because of the very large number of simulations needed for an accurate assessment of the system failure behavior. This problem is addressed by building a Gaussian process (GP) emulator to represent the output of the expensive FE model. A comparison with the FE reference results suggests that the proposed GP model works well and can be successfully used as a predictive tool to compute the induced damage on the levee. Findings also illustrate clearly the importance and the advantages of an adequate definition of the input parameters to build the GP model.
Vulnerability Assessment for Earthquake Liquefaction–Induced Settlements of an Embankment Using Gaussian Processes
The major cause of earthquake damage to an embankment is the liquefaction of the soil foundation that induces ground-level deformations. The aim of this paper is to assess numerically the effect of the liquefaction-induced settlement of the soil foundation on a levee due to real earthquakes. The seismic vulnerability is evaluated in terms of analytical fragility curves constructed on the basis of nonlinear dynamic finite-element (FE) analysis. However, FE analysis can be expensive because of the very large number of simulations needed for an accurate assessment of the system failure behavior. This problem is addressed by building a Gaussian process (GP) emulator to represent the output of the expensive FE model. A comparison with the FE reference results suggests that the proposed GP model works well and can be successfully used as a predictive tool to compute the induced damage on the levee. Findings also illustrate clearly the importance and the advantages of an adequate definition of the input parameters to build the GP model.
Vulnerability Assessment for Earthquake Liquefaction–Induced Settlements of an Embankment Using Gaussian Processes
Lopez-Caballero, Fernando (author) / Khalil, Christina (author)
2018-02-14
Article (Journal)
Electronic Resource
Unknown
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