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BSHAP Seismic Source Characterization Models for the Western Balkan Region (CROSBI ID 231521)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Mihaljević, Jadranka ; Zupančič, Polona ; Kuka, Neki ; Kaluđerović, Nataša ; Koçi, Rexhep ; Markušić, Snježana ; Šalić, Radmila ; Dushi, Edmond ; Begu, Enkela ; Duni, Llambro et al. BSHAP Seismic Source Characterization Models for the Western Balkan Region // Bulletin of earthquake engineering, 15 (2017), 10; 3963-3985. doi: 10.1007/s10518-017-0143-5

Podaci o odgovornosti

Mihaljević, Jadranka ; Zupančič, Polona ; Kuka, Neki ; Kaluđerović, Nataša ; Koçi, Rexhep ; Markušić, Snježana ; Šalić, Radmila ; Dushi, Edmond ; Begu, Enkela ; Duni, Llambro ; Živčić, Mladen ; Kovačević, Svetlana ; Ivančić, Ines ; Kovačević, Vladana ; Milutinović, Zoran ; Vakilinezhad, Marjan ; Fiket, Tomislav ; Gülerce, Zeynep

engleski

BSHAP Seismic Source Characterization Models for the Western Balkan Region

This manuscript presents the seismic source characterization models that were developed and used for the Western Balkan Region in the framework of Harmonization of Seismic Hazard Maps in the Western Balkan Countries Project (BSHAP) funded by NATO-Science for Peace and Security Program. Relevant knowledge about the geological and seismotectonic structure of Western Balkans and surrounding region was collected and used along with the BSHAP focal mechanism solutions database and the BSHAP earthquake catalogue (Markušić et al., 2016) to delineate alternative seismic source models for different purposes. The super zone model with large zones bounds the regions with similar seismotectonic characteristics and catalogue completeness levels and was used for calculating the magnitude recurrence model parameters (b-value). Alternative models with smaller zones represent the epistemic uncertainty in source geometry, maximum magnitude and style-of-faulting. Developed models are employed in the two-stage (circular and elliptical) smoothing procedure. Sets of sensitivity analyses are performed to evaluate the combined effect of source zone delineation, recurrence parameter selection, and the method of spatial smoothing on the hazard outcome. The seismic source models and the logic- tree presented here are implemented in the probabilistic seismic hazard assessment for the seismic hazard maps of the Western Balkan Region (Kuka et al., 2017).

BSHAP ; seismic source models ; Western Balkan region ; magnitude recurrence statistics ; focal mechanism solutions ; maximum magnitude ; spatial smoothing

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Podaci o izdanju

15 (10)

2017.

3963-3985

objavljeno

1570-761X

10.1007/s10518-017-0143-5

Povezanost rada

Geofizika, Geologija, Građevinarstvo

Poveznice
Indeksiranost