Earthquake ground motion prediction using the ambient seismic field
نویسندگان
چکیده
[1] The waves generated by faulting represent the primary threat posed by most large earthquakes. The effect of complex geological structures, such as sedimentary basins, on earthquake ground motion is a source of particular concern. We show that it is possible to extract reliable phase and amplitude response that includes the effects of complex structure for the elastodynamic Green’s function from the ambient seismic field using deconvolution. We demonstrate the accuracy of the approach by predicting complex ground motion for a moderate (Mw = 4.6) earthquake in southern California as recorded in the Los Angeles Basin. This suggests a novel approach to seismic hazard analysis in which groundmotion from hypothetical future earthquakes is simulated directly, without the need for modeling the detailed heterogeneity of the Earth’s crust as an intermediate step. Citation: Prieto, G. A., and G. C. Beroza (2008), Earthquake ground motion prediction using the ambient seismic field,Geophys. Res. Lett., 35, L14304, doi:10.1029/2008GL034428.
منابع مشابه
Ground motion prediction of realistic earthquake sources using the ambient seismic field
[1] Predicting accurate ground motion is critical for earthquake hazard analysis, particularly in situations where sedimentary basins trap and amplify seismic waves. We exploit the information carried by the ambient seismic field to extract surface-wave Green’s functions between seismic stations and to predict long-period ground motion from earthquakes. To do so, we modify the surface impulse r...
متن کاملMulticomponent C3 Green’s Functions for Improved Long-Period Ground-Motion Prediction
The virtual earthquake approach to ground-motion prediction uses Green’s functions (GFs) determined from the ambient seismic field to predict long-period shaking from scenario earthquakes. The method requires accurate relative GF amplitudes between stations and among components; however, the amplitudes of ambient-field GFs are known to be subject to biases from uneven source distribution. We sh...
متن کاملA Strong Ground Motion Catalogue of Selected Records for Shallow Crustal, Near Field Earthquakes in Iran
Understanding strong ground motions in the near-fault areas is important for seismic risk assessment in densely populated areas. In the past, lack of information on strong ground motion for large and moderate earthquakes led to the use of mainly far field large and moderate earthquake records in equations for calculation of the strong ground motion parameters. In this article, we collected and ...
متن کاملProbabilistic Seismic Hazard Deaggregation of Ground Motion Prediction Models
Probabilistic seismic hazard analysis (PSHA) combines the probabilities of all earthquake scenarios with different magnitudes and distances with predictions of resulting ground motion intensity, in order to compute seismic hazard at a site. PSHA also incorporates uncertainties in ground motion predictions, by considering multiple Ground Motion Prediction ("attenuation") Models (GMPMs). Current ...
متن کاملThe Use of Monte-Carlo Simulations in Seismic Hazard Analysis in Tehran and Surrounding Areas
Probabilistic seismic hazard analysis is a technique for estimating the annual rate of exceedance of a specified ground motion at a site due to the known and suspected earthquake sources. A Monte-Carlo approach is utilized to estimate the seismic hazard at a site. This method uses numerous resampling of an earthquake catalog to construct synthetic catalogs to evaluate the ground motion hazard a...
متن کامل