Add to ORKGWe develop a frequency-based approach to earthquake slip inversion that requires no prior information on the rupture velocity or slip-rate functions. Because the inversion is linear and is performed separately at each frequency, it is computationally efficient and suited to imaging the finest resolvable spatial details of rupture. We demonstrate the approach on synthetic seismograms based on the Source Inversion Validation Exercise 1 (SIV1) of a crustal Mw 6.6 strike-slip earthquake recorded locally. A robust inversion approach is obtained by applying a combination of damping, smoothing and forcing zero slip at the edge of the fault model. This approach achieves reasonable data fits, overall agreement to the SIV1 model, including slip-rate ...
We present an inversion strategy capable of using real-time high-rate GPS data to simultaneously sol...
Abstract Dynamic rupture inversion is a powerful tool for learning why and how faults fail, but much...
We describe a technique to infer the kinematic parameters of the earthquake rupture process by the n...
We develop a frequency-based approach to earthquake slip inversion that requires no prior informatio...
We use a two-stage nonlinear technique to invert strong motions records and geodetic data to retriev...
We present a nonlinear technique for the purpose of estimating the distribution of the final slip an...
We use a two-stage nonlinear technique to invert strong motions records and geodetic data to retriev...
We present a nonlinear technique for the purpose of estimating the distribution of the final slip an...
In this paper we compare two time-domain inversion methods that have been widely applied to the prob...
In this paper we compare two time-domain inversion methods that have been widely applied to the prob...
A new inversion algorithm for simultaneously reconstructing the slip vectors and rupture times of a ...
Finite‐fault earthquake source inversions infer the (time‐dependent) displacement on the rupture sur...
Near-source strong motion velocity records and teleseismic short-period P waveforms are modeled to o...
The spatial distribution of rupture velocity, rise time, and intensity of high-frequency radiation o...
A simultaneous inversion method of strong motion seismograms and geodetic data for inferring earthqu...
We present an inversion strategy capable of using real-time high-rate GPS data to simultaneously sol...
Abstract Dynamic rupture inversion is a powerful tool for learning why and how faults fail, but much...
We describe a technique to infer the kinematic parameters of the earthquake rupture process by the n...
We develop a frequency-based approach to earthquake slip inversion that requires no prior informatio...
We use a two-stage nonlinear technique to invert strong motions records and geodetic data to retriev...
We present a nonlinear technique for the purpose of estimating the distribution of the final slip an...
We use a two-stage nonlinear technique to invert strong motions records and geodetic data to retriev...
We present a nonlinear technique for the purpose of estimating the distribution of the final slip an...
In this paper we compare two time-domain inversion methods that have been widely applied to the prob...
In this paper we compare two time-domain inversion methods that have been widely applied to the prob...
A new inversion algorithm for simultaneously reconstructing the slip vectors and rupture times of a ...
Finite‐fault earthquake source inversions infer the (time‐dependent) displacement on the rupture sur...
Near-source strong motion velocity records and teleseismic short-period P waveforms are modeled to o...
The spatial distribution of rupture velocity, rise time, and intensity of high-frequency radiation o...
A simultaneous inversion method of strong motion seismograms and geodetic data for inferring earthqu...
We present an inversion strategy capable of using real-time high-rate GPS data to simultaneously sol...
Abstract Dynamic rupture inversion is a powerful tool for learning why and how faults fail, but much...
We describe a technique to infer the kinematic parameters of the earthquake rupture process by the n...