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Machine learning predicts the slip duration and friction drop of laboratory earthquakes in sheared granular fault
  • Mengfan WEI,
  • Ke Gao
Mengfan WEI
Southern University of Science and Technology College of Science

Corresponding Author:[email protected]

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Ke Gao
Southern University of Science and Technology
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Abstract

Predicting laboratory earthquakes using machine learning has progressed markedly recently. Previous related studies mainly focus on predicting the occurrence time and shear stress of laboratory earthquakes using acoustic emission signals. Here, based on numerical simulations, we use machine learning to show that statistical features of plate motion signals contain information about the slip duration and friction drop of laboratory earthquakes. We find that the plate motion signals during the initial slip stage contain the precursor information about the slip duration of laboratory earthquakes. While to accurately predict the friction drop, we need to incorporate the plate motion signals during the entire slip stage. The results demonstrate that the high-order moment and variance of plate motion signals are respectively among the best predictors for the slip duration and friction drop of laboratory earthquakes. Our work provides new insights for future investigations into natural earthquake prediction through machine learning.
02 Aug 2024Submitted to ESS Open Archive
05 Aug 2024Published in ESS Open Archive