We use a two-stage nonlinear technique to invert strong motions records and geodetic data to retrieve the rupture history of an earthquake on a finite fault. The unknown model parameters, spatially variable peak slip velocity, slip direction, rupture time and rise time, are given at the vertices of subfaults, whereas the parameters within a subfault can vary through a bilinear interpolation of the vertex values. The forward modeling is performed with a discrete wavenumber technique, whose Green's functions include the complete response of the vertically varying non-attenuating Earth structure. The GPS coseismic data are compared with the synthetic displacements using a L2 norm, while the recorded and modeled waveforms are compared in the fr...
earthquake (Mw 9.0) is determined using high sample rate three-component Global Po-sitioning System ...
In seismology, the analisys of source kinematic parameters (slip-rate and rupture velocity ecc.) is ...
We investigate the rupture history of the three largest magnitude earthquakes of the 1997 Umbria-Mar...
We use a two-stage nonlinear technique to invert strong motions records and geodetic data to retriev...
We present a two-stage nonlinear technique to invert strong motions records and geodetic data to ret...
We present an inversion strategy capable of using real-time high-rate GPS data to simultaneously sol...
We present an inversion strategy capable of using real-time high-rate GPS data to simultaneously sol...
We describe a technique to infer the kinematic parameters of the earthquake rupture process by the n...
Accurate images of the growth of slip and faulting are critical in understanding the physics of eart...
A simultaneous inversion method of strong motion seismograms and geodetic data for inferring earthqu...
International audienceWe investigate the rupture history of the three largest magnitude earthquakes ...
We develop a frequency-based approach to earthquake slip inversion that requires no prior informatio...
earthquake (Mw 9.0) is determined using high sample rate three-component Global Po-sitioning System ...
In seismology, the analisys of source kinematic parameters (slip-rate and rupture velocity ecc.) is ...
We investigate the rupture history of the three largest magnitude earthquakes of the 1997 Umbria-Mar...
We use a two-stage nonlinear technique to invert strong motions records and geodetic data to retriev...
We present a two-stage nonlinear technique to invert strong motions records and geodetic data to ret...
We present an inversion strategy capable of using real-time high-rate GPS data to simultaneously sol...
We present an inversion strategy capable of using real-time high-rate GPS data to simultaneously sol...
We describe a technique to infer the kinematic parameters of the earthquake rupture process by the n...
Accurate images of the growth of slip and faulting are critical in understanding the physics of eart...
A simultaneous inversion method of strong motion seismograms and geodetic data for inferring earthqu...
International audienceWe investigate the rupture history of the three largest magnitude earthquakes ...
We develop a frequency-based approach to earthquake slip inversion that requires no prior informatio...
earthquake (Mw 9.0) is determined using high sample rate three-component Global Po-sitioning System ...
In seismology, the analisys of source kinematic parameters (slip-rate and rupture velocity ecc.) is ...
We investigate the rupture history of the three largest magnitude earthquakes of the 1997 Umbria-Mar...