Application of a hybrid modeling method for generating synthetic ground motions in Fennoscandia, northern Europe
We present a modeling technique for generating synthetic ground motions, aimed at earthquakes of design significance for critical structures and ground motions at distances corresponding to the engineering near field, in which real data are often missing. We use dynamic modeling based on the finite-...
| Published in: | Bulletin of the Seismological Society of America |
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| Main Authors: | , , , , , |
| Other Authors: | , , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Seismological Society of America
2022
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10138/347611 |
| _version_ | 1828690050037055488 |
|---|---|
| author | Jussila, Vilho Fälth, Billy Mäntyniemi, Päivi Voss, Peter H. Lund, Björn Fülöp, Ludovic |
| author2 | Department of Geosciences and Geography Department of Physics Institute of Seismology |
| author_facet | Jussila, Vilho Fälth, Billy Mäntyniemi, Päivi Voss, Peter H. Lund, Björn Fülöp, Ludovic |
| author_sort | Jussila, Vilho |
| collection | HELDA – University of Helsinki Open Repository |
| container_issue | 5 |
| container_start_page | 2507 |
| container_title | Bulletin of the Seismological Society of America |
| container_volume | 111 |
| description | We present a modeling technique for generating synthetic ground motions, aimed at earthquakes of design significance for critical structures and ground motions at distances corresponding to the engineering near field, in which real data are often missing. We use dynamic modeling based on the finite-difference approach to simulate the rupture process within a fault, followed by kinematic modeling to generate the ground motions. The earthquake source ruptures were modeled using the 3D distinct element code (Itasca, 2013). We then used the complete synthetic program by Spudich and Xu (2002) to simulate the propagation of seismic waves and to obtain synthetic ground motions. In this work, we demonstrate the method covering the frequency ranges of engineering interests up to 25 Hz and quantify the differences in ground motion generated. We compare the synthetic ground motions for distances up to 30 km with a ground-motion prediction equation, which synthesizes the expected ground motion and its randomness based on observations. The synthetic ground motions can be used to supplement observations in the near field for seismic hazard analysis. We demonstrate the hybrid approach to one critical site in the Fennoscandian Shield, northern Europe. Peer reviewed |
| format | Article in Journal/Newspaper |
| genre | Fennoscandia Fennoscandian |
| genre_facet | Fennoscandia Fennoscandian |
| id | ftunivhelsihelda:oai:helda.helsinki.fi:10138/347611 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftunivhelsihelda |
| op_container_end_page | 2526 |
| op_relation | 10.1785/0120210081 http://hdl.handle.net/10138/347611 000704250000001 |
| op_rights | unspecified info:eu-repo/semantics/openAccess openAccess |
| publishDate | 2022 |
| publisher | Seismological Society of America |
| record_format | openpolar |
| spelling | ftunivhelsihelda:oai:helda.helsinki.fi:10138/347611 2025-04-06T14:51:57+00:00 Application of a hybrid modeling method for generating synthetic ground motions in Fennoscandia, northern Europe Jussila, Vilho Fälth, Billy Mäntyniemi, Päivi Voss, Peter H. Lund, Björn Fülöp, Ludovic Department of Geosciences and Geography Department of Physics Institute of Seismology 2022-08-30T22:53:24Z 20 application/pdf http://hdl.handle.net/10138/347611 eng eng Seismological Society of America 10.1785/0120210081 http://hdl.handle.net/10138/347611 000704250000001 unspecified info:eu-repo/semantics/openAccess openAccess Physical sciences Geosciences ground-motion prediction equation synthetic ground motion generation seismic hazard analysis EARTHQUAKE RUPTURE SIMULATION VELOCITY ATTENUATION VALIDATION SCATTERING SCENARIOS BENEATH SITE 3DEC Article acceptedVersion 2022 ftunivhelsihelda 2025-03-10T15:16:42Z We present a modeling technique for generating synthetic ground motions, aimed at earthquakes of design significance for critical structures and ground motions at distances corresponding to the engineering near field, in which real data are often missing. We use dynamic modeling based on the finite-difference approach to simulate the rupture process within a fault, followed by kinematic modeling to generate the ground motions. The earthquake source ruptures were modeled using the 3D distinct element code (Itasca, 2013). We then used the complete synthetic program by Spudich and Xu (2002) to simulate the propagation of seismic waves and to obtain synthetic ground motions. In this work, we demonstrate the method covering the frequency ranges of engineering interests up to 25 Hz and quantify the differences in ground motion generated. We compare the synthetic ground motions for distances up to 30 km with a ground-motion prediction equation, which synthesizes the expected ground motion and its randomness based on observations. The synthetic ground motions can be used to supplement observations in the near field for seismic hazard analysis. We demonstrate the hybrid approach to one critical site in the Fennoscandian Shield, northern Europe. Peer reviewed Article in Journal/Newspaper Fennoscandia Fennoscandian HELDA – University of Helsinki Open Repository Bulletin of the Seismological Society of America 111 5 2507 2526 |
| spellingShingle | Physical sciences Geosciences ground-motion prediction equation synthetic ground motion generation seismic hazard analysis EARTHQUAKE RUPTURE SIMULATION VELOCITY ATTENUATION VALIDATION SCATTERING SCENARIOS BENEATH SITE 3DEC Jussila, Vilho Fälth, Billy Mäntyniemi, Päivi Voss, Peter H. Lund, Björn Fülöp, Ludovic Application of a hybrid modeling method for generating synthetic ground motions in Fennoscandia, northern Europe |
| title | Application of a hybrid modeling method for generating synthetic ground motions in Fennoscandia, northern Europe |
| title_full | Application of a hybrid modeling method for generating synthetic ground motions in Fennoscandia, northern Europe |
| title_fullStr | Application of a hybrid modeling method for generating synthetic ground motions in Fennoscandia, northern Europe |
| title_full_unstemmed | Application of a hybrid modeling method for generating synthetic ground motions in Fennoscandia, northern Europe |
| title_short | Application of a hybrid modeling method for generating synthetic ground motions in Fennoscandia, northern Europe |
| title_sort | application of a hybrid modeling method for generating synthetic ground motions in fennoscandia, northern europe |
| topic | Physical sciences Geosciences ground-motion prediction equation synthetic ground motion generation seismic hazard analysis EARTHQUAKE RUPTURE SIMULATION VELOCITY ATTENUATION VALIDATION SCATTERING SCENARIOS BENEATH SITE 3DEC |
| topic_facet | Physical sciences Geosciences ground-motion prediction equation synthetic ground motion generation seismic hazard analysis EARTHQUAKE RUPTURE SIMULATION VELOCITY ATTENUATION VALIDATION SCATTERING SCENARIOS BENEATH SITE 3DEC |
| url | http://hdl.handle.net/10138/347611 |