Abstract
Earthquake disasters can cause enormous social and economic damage, and therefore the sustainability of infrastructure requires the mitigation of earthquake consequences. In seismic design of infrastructures, it is essential to estimate the response of the site during earthquake. Geotechnical engineers have developed quantitative methods for analyzing the seismic ground response. This study proposes a multilayer perceptron (MLP) model to evaluate the seismic response of the surface based on the seismic motion at the bedrock (or 100 m level), and compares its performance with that of a conventional model. A total of 6 sites, with 100 earthquake events at each site, were selected from the Kiban Kyoshin Network (KiK-net) and used as datasets. The acceleration response spectra were calculated from the predicted and measured (baseline) acceleration histories and compared. The proposed MLP model predicted the magnitudes of response and the natural periods where the response amplifies closely with the measured ground motions (baseline). The MLP model outperformed the conventional model for seismic ground response analysis. However, the proposed model did not perform as well for earthquakes whose response spectra exceed 2 g due to a deficiency in large earthquake measurements in the training datasets.
Highlights
Earthquake disasters can cause enormous social and economic damage [1,2], and the sustainability of infrastructure requires the mitigation of earthquake consequences
This study proposes a multilayer perceptron (MLP) model to evaluate the seismic response of the surface based on the seismic motion at the bedrock and response of the surface based on the seismic motion at the bedrock and compares its performance with that of a conventional physical model
This study proposes an MLP-based model to evaluate the seismic response of the period between 0.06 and 0.1 s are due to the errors of the site IWTH23, and the errors for the surface based on the ground motion at bedrock level, and compares its period between 0.3 and 0.5 s are due to those of IBRH11
Summary
Earthquake disasters can cause enormous social and economic damage [1,2], and the sustainability of infrastructure requires the mitigation of earthquake consequences. Disaster mitigation should consider the seismic performance of structures in response to earthquakes. Seismic ground response analysis refers to the evaluation of acceleration response on the surface based on the characteristics of the soil deposits and the bedrock motions. Rih-Teng and Mohammad [14] developed a conby modeling the soil-structure interaction. This study proposes a multilayer perceptron (MLP) model to evaluate the seismic response of the surface based on the seismic motion at the bedrock (or 100 m level) and response of the surface based on the seismic motion at the bedrock (or 100 m level) and compares its performance with that of a conventional physical model. [15], and results were seismic response analysis, SHAKE2000 and its results wereitsalso compared withcomthe pared with the results of the MLP model.
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