Advanced Workshop on Earthquake Fault Mechanics: Theory, Simulation and Observations | (smr 3319) (02-14 September 2019)

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Displaying 45 contributions out of 45

3D dynamic rupture modeling

Session: Computational earthquake dynamics

- Gabriel_Lecture_Trieste19.pdf

3D rupture effects: seismogenic width and rake

Session: Computational earthquake dynamics

- Huihui_3D_rupture_effects.pdf

Active deformation and Earthquakes in Italy and surroundings

Session:

Applications to earthquake early warning, tsunami warning, rapid hazard assessment

Session: Rupture imaging by back-projection

- ICTP_Practise_MUSIC_091119.pdf

Array seismology and rupture imaging

Session: Rupture imaging by back-projection

- ICTP_Lec1_MUSIC_091119_short.pdf

Array seismology and rupture imaging II

Session: Rupture imaging by back-projection

- ICTP_Lec2_MUSIC_091119_short.pdf

Best practices and pitfalls

Session: Machine learning in seismology

Beyond friction: off-fault dissipation

Session: Theoretical and computational earthquake dynamics

- Ampuero_4_beyond_friction.pdf

Bridging the gap between seismology and engineering

Session:

Closing remarks

Session: Workshop recap and closing

Discussion of questions by participants

Session: Earthquake cycle modeling

- ParticipantQs.pdf

Dynamic rupture simulation methods

Session: Theoretical and computational earthquake dynamics

Dynamic source inversion

Session: Dynamic source inversion and strong motion

- Ampuero_8_dynamic_inversion.pdf

Earthquake nucleation

Session: Workshop recap and closing

- Ampuero_10_nucleation_slow_slip.pdf

Effect of seismogenic width on stepover rupture jumps

Session: Connecting earthquake models to observations

- Ampuero_5_3D_effects.pdf

Fault friction for dynamic rupture modeling

Session: Introduction

- Ampuero_3_friction.pdf

Fault friction for dynamic rupture modeling (continued)

Session: Theoretical and computational earthquake dynamics

Finite source inversion

Session: Kinematic earthquake source inversion

- Ampuero_7_source_inversion.pdf

Finite source inversion (continued)

Session: Kinematic earthquake source inversion

Fracture Mechanics

Session: Introduction

- Ampuero_2_fracture_mechanics.pdf

Fracture mechanics (continued)

Session: Introduction

Friction laws for seismic and aseismic faulting

Session: Earthquake cycle modeling

- Scuderi_Trieste_1.pdf

Friction laws for seismic and aseismic faulting (continued)

Session: Earthquake cycle modeling

General overview of machine learning

Session: Machine learning in seismology

- ML1_introduction.pdf
- ML1_mnist_basic.ipynb

Ground motions from dynamic models, contribution of earthquake dynamics to strong ground motion prediction

Session: Connecting earthquake models to observations

- Dalguer_GroundMotionsFromDynamicModels_September5_2019.pdf

Ground motions from dynamic models, contribution of earthquake dynamics to strong ground motion prediction (continued)

Session: Connecting earthquake models to observations

How to use seismological data to infer fault friction properties and stress

Session: Dynamic source inversion and strong motion

- Tinti_2Lecture.pdf

How to use seismological data to infer fault friction properties and stress (continued)

Session: Dynamic source inversion and strong motion

IUGG, natural hazards and society

Session: Connecting earthquake models to observations

Impact of uncertainties of crustal model and source variability on ground motions

Session: Dynamic source inversion and strong motion

- Tinti_1Lecture.pdf

Induced Seismicity

Session: Earthquake cycle modeling

- Huang_20190912.pdf

Machine learning in geosciences

Session: Machine learning in seismology

- ML2_applications_geo.pdf
- ML2_mnist_cnn.ipynb

Macroscopic source properties: source time functions, corner frequency, radiated energy, scaling laws

Session: Kinematic earthquake source inversion

- Ampuero_6_source_properties.pdf

Micro-mechanical friction models

Session: Earthquake cycle modeling

- MicroMechVandenEnde.pdf

Overview, motivations, observations, open questions

Session: Introduction

- Ampuero_1_overview.pdf

Practice (cont’d): dynamic rupture in 3D

Session: Computational earthquake dynamics

Practice: Dynamic rupture in 2D and 2.5D

Session: Theoretical and computational earthquake dynamics

- Eq_tutorial_ICTP.pdf
- Eq_tutorial_ICTP_partII.pdf

Practice: Earthquake cycle modeling

Session: Earthquake cycle modeling

- Ampuero_9_earthquake_cycles_QDYN.pdf

Practice: Earthquake cycle modeling with QDYN

Session: Earthquake cycle modeling

Practice: MUSIC teleseismic back-projection

Session: Rupture imaging by back-projection

- ICTP_Lec3_MUSIC_091119.pdf

Practice: dynamic rupture (continued)

Session: Connecting earthquake models to observations

Practice: dynamic rupture in 3D

Session: Computational earthquake dynamics

Practice: finite source inversion

Session: Kinematic earthquake source inversion

- Practice_1_Documents_TP_slipinversion_2018_Palu_Mw7.5_earthquake.pdf

Random forest method

Session: Machine learning in seismology

- ML4_Random_Forest.ipynb
- ML4_random_forests.pdf

The stability of frictional sliding and the spectrum of fault slip behavior from slow to fast stick-slip

Session: Earthquake cycle modeling

- Scuderi_Trieste_2.pdf

Organizers

Jean Paul Ampuero (Université Côte d'Azur and Institut de Recherche pour le Développement, Seismological Laboratory, California Institute of Technology), Local Organiser: Abdelkrim Aoudia

Co-sponsors

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