Slow slip detection with deep learning in multi-station raw geodetic time series validated against tremors in Cascadia - Observatoire des Sciences de la Terre, de l'Univers et de l'Environnement de Grenoble Accéder directement au contenu
Pré-Publication, Document De Travail Année : 2023

Slow slip detection with deep learning in multi-station raw geodetic time series validated against tremors in Cascadia

Résumé

Slow slip events (SSEs) originate from a slow slippage on faults that lasts from a few days to years. A systematic and complete mapping of SSEs is key to characterizing the slip spectrum and understanding its link with coeval seismological signals. Yet, SSE catalogues are sparse and usually remain limited to the largest events, because the deformation transients are often concealed in the noise of the geodetic data. Here we present the first multi-station deep learning SSE detector applied blindly to multiple raw geodetic time series. Its power lies in an ultra-realistic synthetic training set, and in the combination of convolutional and attentionbased neural networks. Applied to real data in Cascadia over the period 2007-2022, it detects 78 SSEs, that compare well to existing independent benchmarks: 87.5% of previously catalogued SSEs are retrieved, each detection falling within a peak of tremor activity. Our method also provides useful proxies on the SSE duration and may help illuminate relationships between tremor chatter and the nucleation of the slow rupture. We find an average day-long time lag between the slow deformation and the tremor chatter both at a global-and local-temporal scale, suggesting that slow slip may drive the rupture of nearby small asperities.
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Dates et versions

hal-04109528 , version 1 (30-05-2023)

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Giuseppe Costantino, Sophie Giffard-Roisin, Mathilde Radiguet, Mauro Dalla Mura, David Marsan, et al.. Slow slip detection with deep learning in multi-station raw geodetic time series validated against tremors in Cascadia. 2023. ⟨hal-04109528⟩
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