Sandri, Laura
Sandri, Laura
Dipartimento di Scienze
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Risultati 1 - 3 di 3 (tempo di esecuzione: 0.009 secondi).
Asperity Size and Neighboring Segments Can Change the Frictional Response and Fault Slip Behavior: Insights From Laboratory Experiments and Numerical Simulations
2024-01-01 Corbi, F.; Mastella, G.; Tinti, E.; Rosenau, M.; Sandri, L.; Pardo, S.; Funiciello, F.
Machine Learning Can Predict the Timing and Size of Analog Earthquakes
2019-01-01 Corbi, F.; Sandri, L.; Bedford, J.; Funiciello, F.; Brizzi, S.; Rosenau, M.; Lallemand, S.
Predicting Imminence of Analog Megathrust Earthquakes With Machine Learning: Implications for Monitoring Subduction Zones
2020-01-01 Corbi, F.; Bedford, J.; Sandri, L.; Funiciello, F.; Gualandi, A.; Rosenau, M.
Titolo | Data di pubblicazione | Autore(i) | File |
---|---|---|---|
Asperity Size and Neighboring Segments Can Change the Frictional Response and Fault Slip Behavior: Insights From Laboratory Experiments and Numerical Simulations | 1-gen-2024 | Corbi, F.; Mastella, G.; Tinti, E.; Rosenau, M.; Sandri, L.; Pardo, S.; Funiciello, F. | |
Machine Learning Can Predict the Timing and Size of Analog Earthquakes | 1-gen-2019 | Corbi, F.; Sandri, L.; Bedford, J.; Funiciello, F.; Brizzi, S.; Rosenau, M.; Lallemand, S. | |
Predicting Imminence of Analog Megathrust Earthquakes With Machine Learning: Implications for Monitoring Subduction Zones | 1-gen-2020 | Corbi, F.; Bedford, J.; Sandri, L.; Funiciello, F.; Gualandi, A.; Rosenau, M. |