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Machine Learning Predicts Laboratory Earthquakes

Bertrand Rouet‐LeducDepartment of Materials Science and Metallurgy University of Cambridge Cambridge UKClaudia HulbertTheoretical Division and CNLS Los Alamos National Laboratory Los Alamos NM USANicholas LubbersDepartment of Physics Boston University Boston MA USAKipton BarrosTheoretical Division and CNLS Los Alamos National Laboratory Los Alamos NM USAColin J. HumphreysDepartment of Materials Science and Metallurgy University of Cambridge Cambridge UKPaul A. JohnsonGeophysics Group Los Alamos National Laboratory Los Alamos NM USA
2017en
ABI

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Abstract We apply machine learning to data sets from shear laboratory experiments, with the goal of identifying hidden signals that precede earthquakes. Here we show that by listening to the acoustic signal emitted by a laboratory fault, machine learning can predict the time remaining before it fails with great accuracy. These predictions are based solely on the instantaneous physical characteristics of the acoustical signal and do not make use of its history. Surprisingly, machine learning identifies a signal emitted from the fault zone previously thought to be low‐amplitude noise that enables failure forecasting throughout the laboratory quake cycle. We infer that this signal originates from continuous grain motions of the fault gouge as the fault blocks displace. We posit that applying this approach to continuous seismic data may lead to significant advances in identifying currently unknown signals, in providing new insights into fault physics, and in placing bounds on fault failure times.

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