Your search keyword '"Virieux, J."' showing total 14 results

1. An Evolutive Linear Kinematic Source Inversion

Author

Sánchez‐Reyes, H. S., Tago, J., Métivier, L., Cruz‐Atienza, V. M., and Virieux, J.

Abstract

We present a new hierarchical time kinematic source inversion method able to assimilate data traces through evolutive time windows. A linear time domain formulation relates the slip rate function and seismograms, preserving the positivity of this function and the causality when spanning the model space: taking benefit of the time‐space sparsity of the rupture model evolution is as essential as considering the causality between rupture and each record delayed by the known propagator operator different for each station. This progressive approach, both on the data space and on the model space, does require mild assumptions on prior slip rate functions or preconditioning strategies on the slip rate local gradient estimations. These assumptions are based on simple physical expected rupture models we foresee. Successful applications of this method to a well‐known benchmark (Source Inversion Validation Exercise 1) and to the recorded data of the 2016 Kumamoto mainshock (Mw=7.0) illustrate the advantages of this alternative approach of a linear kinematic source inversion. This stabilized overparameterized optimization of a linear forward problem has a potential extension to stochastic inversion in a Bayesian framework in the future to assess uncertainties on kinematic source inversions, which is more difficult to investigate under nonlinear formulations. In this paper we present a new method to infer the spatial and temporal history of an earthquake through the progressive analysis of seismograms that are not completely recorded at a given moment. Nowadays, the inference of an earthquake history is a common procedure that seismologists do after some minutes of the occurrence of an earthquake. The reconstruction of this history implies explaining many physical unknowns by interpreting the available seismograms. In this work we provide evidences that a progressive reconstruction is possible through the analysis of partially recorded seismograms. Furthermore, we find that the final reconstruction of such history appears to be better through the progressive analysis of seismograms than the results obtained with a traditional analysis of completely recorded seismograms. An alternative linear inverse formulation for kinematic source reconstruction is presentedSuch formulation can invert progressively growing data time windows while spanning the model spacePromising advantages of this method are found, thanks to the preservation of causality and sparsity

Published

2018

2. From velocity and attenuation tomography to rock physical modeling: Inferences on fluid‐driven earthquake processes at the Irpinia fault system in southern Italy

Author

Amoroso, O., Russo, G., De Landro, G., Zollo, A., Garambois, S., Mazzoli, S., Parente, M., and Virieux, J.

Abstract

We retrieve 3‐D attenuation images of the crustal volume embedding the fault system associated with the destructive Ms6.9, 1980 Irpinia earthquake by tomographic inversion of t*measurements. A high QPanomaly is found to be correlated with the 1980 fault geometry, while the QSmodel shows regional‐scale variations related to the NE edge of the uplifted pre‐Tertiary limestone. An upscaling strategy is used to infer rock properties such as porosity, consolidation, type of fluid mixing, and relative saturation percentage at 8–10 km fault depth. We constrain the porosity and consolidation in the ranges 4–5% and 5–9, respectively, with the possible fluid mixes being both brine‐CO2and CH4‐CO2. The consolidation parameter range indicates high pore pressures at the same depths. These results support the evidence for a fracture system, highly saturated in gases and a seismicity triggering mechanism at the fault zone, which is strongly controlled by fluid‐induced pore pressure changes. Three‐dimensional attenuation images and rock properties of the crustal volume embedding the fault system associated with the destructive Ms6.9, 1980 Irpinia earthquakeEvidence for a fractured and fluid‐saturated medium, with the presence of brine‐CO2and CH4‐CO2Pore pressure increase is the dominant mechanisms triggering and controlling the microseismicity

Published

2017

3. A New Passive Tomography of the Aigion Area (Gulf of Corinth, Greece) from the 2002 Data Set.

Author

Ben-Zion, Yehuda, Lee, William H. K., Gautier, S., Latorre, D., Virieux, J., Deschamps, A., Skarpelos, C., Sotiriou, A., Serpetsidaki, A., and Tselentis, A.

Abstract

We present the results of a tomographic study performed in the framework of the 3F-Corinth project. The aim of this work is to better understand the rifting process by imaging the crustal structure of the western Gulf of Corinth. Forty-nine stations were deployed for a period of six months, allowing us to monitor the microseismicity. Delayed P and S first-arrival times have been simultaneously inverted for both hypocenter locations and 3-D velocity distributions. We use an improved linearized tomography method based on an accurate finite-difference travel-time computation to invert the data set. The obtained Vp and Vs models confirm the presence of a two-layer vertical structure characterized by a sharp velocity gradient lying at 5-7 km depth, which may be interpreted as a lithological contrast. The shallower part of the crust (down to 5 km depth) is controlled by the N-S extension and lacks seismicity. The deeper part (7-13 km depth) matches the seismogenic zone and is characterized by faster and more heterogeneous anomalies. In this zone, the background seismicity reveals a low-angle active surface dipping about 20° toward the north and striking WNW-ESE. The position of this active structure is consistent with both high Vp/Vs and low Vp.Vs anomalies identified at 8-12 km depth and suggesting a highly fracturated and fluid-saturated zone. Both the geometry of the active structure beneath the gulf and the presence of fluids at 8-12 km depth are in accordance with a low-angle detachment model for the western part of the Gulf of Corinth. [ABSTRACT FROM AUTHOR]

Published

2006

4. Joint ray + Born least-squares migration and simulated annealing optimization for target-oriented quantitative seismic imaging.

Author

Ribodetti, A., Operto, S., Agudelo, W., Collot, J.-Y., and Virieux, J.

Subjects

LEAST squares, SIMULATED annealing, MATHEMATICAL optimization, ALGORITHMS, POROSITY, SEISMIC tomography

Abstract

A seismic processing work flow based on iterative ray + Born migration/inversion and target-oriented postprocessing of the migrated image is developed for fine-scale quantitative characterization of reflectors. The first step of the workflow involves linear iterations of the ray + Born migration/ inversion. The output of the first step is a true-amplitude migrated image parameterized by velocity perturbations. In a second step, postprocessing of the migrated image is performed through a random search with a very-fast simulated annealing (VFSA) algorithm. The forward problem of the global optimization is a simple convolutional model that linearly relates a vertical profile of the band-limited migrated image after depth-to-time conversion to a ID velocity model composed of a stack of homogeneous layers of arbitrary velocity and thickness. The aim of the postprocessing is to eliminate the limited bandwidth effects of the source from the migrated image for resolution improvement and enhanced geological interpretation of selected targets. The global optimization approach allows for uncertainty analysis required by the intrinsic nonuniqueness of the velocity model output by the postprocessing. The relevance of the convolutional model when applied to the output of the ray + Born migrated inversion is first illustrated with a one-layer model. The accuracy and the robustness of the workflow to image geologically complicated models are then illustrated with an application to the synthetic Marmousi model. Some practical issues (e.g., the source wavelet estimate and the scaling of the migrated image required by the VFSA optimization) are discussed with an application to a 2D real seismic multichannel reflection data set collected in the Gulf of Guayaquil (Ecuador). The postprocessing is applied to derive the fine-scale velocity structure of a décollement zone on top of the subduction channel. The postprocessing allows for mapping structural variations along different segments of the décollement, which can be associated with changes in fluid content and porosity. [ABSTRACT FROM AUTHOR]

Published

2011

5. An overview of full-waveform inversion in exploration geophysics.

Author

Virieux, J. and Operto, S.

Subjects

SEISMOGRAMS, WAVELENGTHS, NONLINEAR theories, ATTENUATION (Physics), SEISMOLOGY, EARTH (Planet)

Abstract

Full-waveform inversion (FWI) is a challenging data-fitting procedure based on full-wavefield modeling to extract quantitative information from seismograms. High-resolution imaging at half the propagated wavelength is expected. Recent advances in high-performance computing and multifold/multicomponent wide-aperture and wide-azimuth acquisitions make 3D acoustic FWI feasible today. Key ingredients of FWI are an efficient forward-modeling engine and a local differential approach, in which the gradient and the Hessian operators are efficiently estimated. Local optimization does not, however, prevent convergence of the misfit function toward local minima because of the limited accuracy of the starting model, the lack of low frequencies, the presence of noise, and the approximate modeling of the wave-physics complexity. Different hierarchical multiscale strategies are designed to mitigate the nonlinearity and ill-posedness of FWI by incorporating progressively shorter wavelengths in the parameter space. Synthetic and real-data case studies address reconstructing various parameters, from Vp and Vs velocities to density, anisotropy, and attenuation. This review attempts to illuminate the state of the art of FWI. Crucial jumps, however, remain necessary to make it as popular as migration techniques. The challenges can be categorized as (1) building accurate starting models with automatic procedures and/or recording low frequencies, (2) defining new minimization criteria to mitigate the sensitivity of FWI to amplitude errors and increasing the robustness of FWI when multiple parameter classes are estimated, and (3) improving computational efficiency by data-compression techniques to make 3D elastic FWI feasible. [ABSTRACT FROM AUTHOR]

Published

2009

6. Spatio-temporal distribution of seismic activity during the Umbria-Marche crisis, 1997

Author

Deschamps, A., Courboulex, F., Gaffet, S., Lomax, A., Virieux, J., Amato, A., Azzara, A., Castello, B., Chiarabba, C., Cimini, G.B., Cocco, M., Di Bona, M., Margheriti, L., Mele, F., Selvaggi, G., Chiaraluce, L., Piccinini, D., and Ripepe, M.

Abstract

We present the spatio-temporal distribution of more than 2000 earthquakesthat occurred during the Umbria-Marche seismic crisis, between September 26and November 3, 1997. This distribution was obtained from recordings of atemporary network that was installed after the occurrence of the first two largest shocks (Mw =, 5.7, Mw = 6.0) of September 26. This network wascomposed of 27 digital 3-components stations densely distributed in theepicentral area. The aftershock distribution covers a region of about 40 km long and about2 km wide along the NW-SE central Apennines chain. The activity is shallow,mostly located at less than 9 km depth. We distinguished three main zonesof different seismic activity from NW to SE. The central zone, that containsthe hypocenter of four earthquakes of magnitude larger than 5, was the moreactive and the more complex one. Sections at depth identify 40–50°dipping structures that agree well with the moment tensor focalmechanisms results. The clustering and the migration of seismicity from NW to SE and the generalfeatures are imaged by aftershock distribution both horizontally and at depth.

Published

2000

7. Student satisfaction with curriculum modifications in a French dental school

Author

Farge, P., Virieux, J., and Doury, J.

Abstract

Since 1994, important modifications have been implemented in the dental curriculum in France, and an additional year has been included in the dental curriculum. The 1st year has remained unchanged; it is common to both medical and dental schools and leads to a selection procedure of 1 in 10 dental students. In the new curriculum, the dental student is engaged in a 5‐year programme in dental school (years 2 to 6), as opposed to 4 years in the former programme (years 2 to 5). Basically, this new curriculum emphasises research initiation, links with medical training and offers broader clinical experience. During the academic year 1998–1999, dental schools had 2 different types of students: the 4th year students belonging to the new programme along with the 5th year students in their final year of the old curriculum. Using a specially devised questionnaire, we investigated the students’ perception of their respective training, their motivation and professional plans. At the Faculty of Odontology in Lyon, the new curriculum is perceived as an increased strain by the dental students.

Published

2000

8. An image of Mr. Vesuvius obtained by 2D seismic tomography

Author

Zollo, A., Gasparini, P., Virieux, J., Biella, G., Boschi, E., Capuano, P., Franco, R. De, Dell'Aversana, P., Matteis, R. De, and Natale, G. De

Published

1998

9. Source study and tectonic implications of the 1995 Ventimiglia (border of Italy and France) earthquake (M~L=4.7)

Author

Courboulex, F., Deschamps, A., Cattaneo, M., Costi, F., Deverchere, J., Virieux, J., Augliera, P., Lanza, V., and Spallarossa, D.

Published

1998

10. Thermal consequences of lithosphere extension over continental margins: the initial stretching phase

Author

Alvarez, F., Virieux, J., and Pichon, X. Le

Abstract

We compute the thermal evolution of a lithosphere submitted to stretching during a finite duration of time in order to discuss the initial stretching phase of future continental margins. The numerical method developed can handle 2-D laterally variable stretching as well as sedimentation. It is shown that lateral conduction is more important than vertical conduction over most continental margins during their formation by stretching. A simple way to evaluate the relative importance of lateral and vertical conduction effects at the axis of the zone of rifting just prior to oceanization is proposed. A simple way to evaluate the amplitude of the thermal uplift on the edges of the zone of rifting at the end of the stretching phase is also presented. For small width zones of rifting (< 70–100 km) lateral cooling becomes so large as to prevent large-scale melting and, presumably, prevent the transition to oceanization. The effect of high-sedimentation rates (100–500 m Myr−1) is to increase the surface temperature of the lithosphere and consequently significantly decrease the surface heat flow.

Published

1984

11. The evolution of the Gulf of Corinth (Greece): an aftershock study of the 1981 earthquakes

Author

King, G. C. P., Ouyang, Z. X., Papadimitriou, P., Deschamps, A., Gagnepain, J., Houseman, G., Jackson, J. A., Soufleris, C., and Virieux, J.

Abstract

A preliminary study of the aftershocks of three earthquakes that occurred near to Corinth (Greece) in 1981 is combined with observations of the morphology and faulting to understand the evolution of the Eastern Gulf of Corinth. The well located aftershocks form a zone 60km long and 20km wide. They do not lie on the main fault planes and are mostly located between the north-dipping faulting on which the first two earthquakes occurred and the south-dipping faulting associated with the third event. A cluster of aftershocks also lies in the footwall of the eastern end of the south-dipping fault of the third event. Morphologically, it is observed that in the evolution of the Eastern Gulf of Corinth, antithetic faulting apparently predates the appearance of the main faulting at the surface. This evolution can be explained by motion on a deep seated, shallow angle, aseismic normal fault. A model based on such a fault also accounts for the aftershock distribution of the 1981 earthquakes.

Published

1985

12. Azimuthal distortion of the seismic focal sphere: application to earthquakes in subduction

Author

Perrot, J., Deschamps, A., Farra, V., and Virieux, J.

Published

1994

13. Source investigation of a small event using empirical Green's functions and simulated annealing

Author

Courboulex, F., Virieux, J., Deschamps, A., Gibert, D., and Zollo, A.

Abstract

We propose a two-step inversion of three-component seismograms that (1) recovers the far-field source time function at each station and (2) estimates the distribution of co-seismic slip on the fault plane for small earthquakes (magnitude 3 to 4). The empirical Green's function (EGF) method consists of finding a small earthquake located near the one we wish to study and then performing a deconvolution to remove the path, site, and instrumental effects from the main-event signal. The deconvolution between the two earthquakes is an unstable procedure: we have therefore developed a simulated annealing technique to recover a stable and positive source time function (STF) in the time domain at each station with an estimation of uncertainties. Given a good azimuthal coverage, we can obtain information on the directivity effect as well as on the rupture process. We propose an inversion method by simulated annealing using the STF to recover the distribution of slip on the fault plane with a constant rupture-velocity model. This method permits estimation of physical quantities on the fault plane, as well as possible identification of the real fault plane. We apply this two-step procedure for an event of magnitude 3 recorded in the Gulf of Corinth in August 1991. A nearby event of magnitude 2 provides us with empirical Green's functions for each station. We estimate an active fault area of 0.02 to 0.15 km2 and deduce a stress-drop value of 1 to 30 bar and an average slip of 0.1 to 1.6 cm. The selected fault of the main event is in good agreement with the existence of a detachment surface inferred from the tectonics of this half-graben.

Published

1996

14. A 2-D velocity model of the Vrancea region in Romania: prediction of teleseismic waveforms

Author

Perrot, J., Deschamps, A., Farra, V., and Virieux, J.

Abstract

In previous studies, anomalies in arrival time and amplitudes of depth phases pP and sP recorded at teleseismic distances and produced by large intermediate-depth events of the Vrancea region were pointed out (Perrot et al. 1994). the modelling of major recent events has shown that the presence of a dipping interface and thick low-velocity sediment layer in the upper crust above the hypocentral area can explain such anomalies. Simulating broad-band records of the 1990 May 31 earthquake, it is shown that the 2-D crustal velocity model derived by Perrot et al. (1994) can also be used to explain observed waveforms in an extended azimuthal range from 105° to 243° and is valid for earthquakes having different hypocentral locations in the deep Vrancea seismic zone. Using records in the azimuthal range where a classical spherical model produces a good fit to the observed waveforms, the source is best modelled by two point sources at 90 and 93 km depth releasing the same amount of seismic moment, and separated by 1.5 s in time. Synthetics calculated for this source time history and the 2-D velocity model above the source give a much improved fit of the observed waveforms over what could be achieved with a 1-D spherical model. the results suggest that teleseismic waveforms could be reasonably well predicted for any event in the region with the 2-D velocity model, which accounts for the main structural features in the upper crust of the Vrancea region.

Published

1996