Probing Slow Earthquakes With Deep Learning

Slow earthquakes may trigger failure on neighboring locked faults that are stressed sufficiently to break, and slow slip patterns may evolve before a nearby great earthquake. However, even in the clearest cases such as Cascadia, slow earthquakes and associated tremor have only been observed in inter...

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Autores principales: Rouet‐Leduc, Bertrand, Hulbert, Claudia, McBrearty, Ian W., Johnson, Paul A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2020
Materias:
Research Letters
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7375133/
https://www.ncbi.nlm.nih.gov/pubmed/32713978
http://dx.doi.org/10.1029/2019GL085870
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author Rouet‐Leduc, Bertrand
Hulbert, Claudia
McBrearty, Ian W.
Johnson, Paul A.
author_facet Rouet‐Leduc, Bertrand
Hulbert, Claudia
McBrearty, Ian W.
Johnson, Paul A.
author_sort Rouet‐Leduc, Bertrand
collection PubMed
description Slow earthquakes may trigger failure on neighboring locked faults that are stressed sufficiently to break, and slow slip patterns may evolve before a nearby great earthquake. However, even in the clearest cases such as Cascadia, slow earthquakes and associated tremor have only been observed in intermittent and discrete bursts. By training a convolutional neural network to detect known tremor on a single seismic station in Cascadia, we isolate and identify tremor and slip preceding and following known larger slow events. The deep neural network can be used for the detection of quasi‐continuous tremor, providing a proxy that quantifies the slow slip rate. Furthermore, the model trained in Cascadia recognizes tremor in other subduction zones and also along the San Andreas Fault at Parkfield, suggesting a universality of waveform characteristics and source processes, as posited from experiments and theory.
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spelling pubmed-73751332020-07-23 Probing Slow Earthquakes With Deep Learning Rouet‐Leduc, Bertrand Hulbert, Claudia McBrearty, Ian W. Johnson, Paul A. Geophys Res Lett Research Letters Slow earthquakes may trigger failure on neighboring locked faults that are stressed sufficiently to break, and slow slip patterns may evolve before a nearby great earthquake. However, even in the clearest cases such as Cascadia, slow earthquakes and associated tremor have only been observed in intermittent and discrete bursts. By training a convolutional neural network to detect known tremor on a single seismic station in Cascadia, we isolate and identify tremor and slip preceding and following known larger slow events. The deep neural network can be used for the detection of quasi‐continuous tremor, providing a proxy that quantifies the slow slip rate. Furthermore, the model trained in Cascadia recognizes tremor in other subduction zones and also along the San Andreas Fault at Parkfield, suggesting a universality of waveform characteristics and source processes, as posited from experiments and theory. John Wiley and Sons Inc. 2020-02-24 2020-02-28 /pmc/articles/PMC7375133/ /pubmed/32713978 http://dx.doi.org/10.1029/2019GL085870 Text en ©2020. The Authors. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Letters
Rouet‐Leduc, Bertrand
Hulbert, Claudia
McBrearty, Ian W.
Johnson, Paul A.
Probing Slow Earthquakes With Deep Learning
title Probing Slow Earthquakes With Deep Learning
title_full Probing Slow Earthquakes With Deep Learning
title_fullStr Probing Slow Earthquakes With Deep Learning
title_full_unstemmed Probing Slow Earthquakes With Deep Learning
title_short Probing Slow Earthquakes With Deep Learning
title_sort probing slow earthquakes with deep learning
topic Research Letters
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7375133/
https://www.ncbi.nlm.nih.gov/pubmed/32713978
http://dx.doi.org/10.1029/2019GL085870
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