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A Machine Learning Approach to Developing Ground Motion Models From Simulated Ground Motions

K. Withers, Morgan P. Moschetti, Eric M. Thompson

2020Geophysical Research Letters46 citationsDOI

Abstract

Abstract We use a machine learning approach to build a ground motion model (GMM) from a synthetic database of ground motions extracted from the Southern California CyberShake study. An artificial neural network is used to find the optimal weights that best fit the target data (without overfitting), with input parameters chosen to match that of state‐of‐the‐art GMMs. We validate our synthetic‐based GMM with empirically based GMMs derived from the globally based Next Generation Attenuation West2 data set, finding near‐zero median residuals and similar amplitude and trends (with period) of total variability. Additionally, we find that the artificial neural network GMM has similar bias and variability to empirical GMMs from records of the recent Ridgecrest event, which neither GMM has included in its formulation. As simulations continue to better model broadband ground motions, machine learning provides a way to utilize the vast amount of synthetically generated data and guide future parameterization of GMMs.

Topics & Concepts

OverfittingMixture modelArtificial neural networkComputer scienceArtificial intelligenceSet (abstract data type)Data setPattern recognition (psychology)Machine learningProgramming languageSeismic Performance and Analysisearthquake and tectonic studiesSeismic Waves and Analysis