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Efficient Earthquake Inversion using the Finite Element Method
G.J. van Zwieten
Research output
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Thesis
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Dissertation (TU Delft)
26
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Dive into the research topics of 'Efficient Earthquake Inversion using the Finite Element Method'. Together they form a unique fingerprint.
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Earth and Planetary Sciences
Inversion
100%
Earthquake
100%
Dislocation
100%
Model
66%
Error
66%
Statics
50%
Show
33%
Synthetic Aperture Radar
33%
Investigation
33%
Cost
33%
Fault
33%
Geometry
33%
Approach
33%
Moment
16%
Cause
16%
Assumption
16%
Nonlinearity
16%
Computational Method
16%
Domain
16%
In Situ
16%
Reconstruction
16%
Constraint
16%
Seismology
16%
Landscape
16%
Radar Data
16%
Locale
16%
Improvement
16%
Management
16%
Data Set
16%
Inverse Problem
16%
Evaluation
16%
Thesis
16%
Seismic Hazard
16%
Opening
16%
Inference
16%
Earthquake Epicenter
16%
Rupturing
16%
Need
16%
INIS
finite element method
100%
dislocations
100%
slip
100%
earthquakes
100%
data
83%
errors
66%
deformation
50%
seismic events
50%
geometry
33%
synthetic-aperture radar
33%
cost
33%
dynamics
16%
surfaces
16%
locality
16%
convergence
16%
distance
16%
datasets
16%
matrices
16%
management
16%
epicenters
16%
evaluation
16%
noise
16%
satellites
16%
hazards
16%
information
16%
modifications
16%
seismology
16%
nonlinear problems
16%
topography
16%
Engineering
Finite Element Method
100%
Discretization Error
33%
Forward Model
33%
Synthetic Aperture Radar
33%
Models
16%
Error
16%
Limitations
16%
Dataset
16%
Mechanisms
16%
Large Error
16%
Nonlinearity
16%
Great Detail
16%
Matrix Factor
16%
Disruptions
16%
Model Uncertainty
16%
Satellites
16%
Seismic Hazard
16%
Shallower
16%
Mathematics
Discretization
50%
Geometry
50%
Bayesian Inference
25%
Computational
25%
Nonlinearities
25%
Computational Cost
25%
Measures
25%
Inverse Method
25%
Matrix (Mathematics)
25%
Material Science
Finite Element Method
100%
Dislocation
100%
Topography
16%
Surface
16%