The primary intent in this work is an application of 3D physics-based numerical simulations (PBSs) on 2016 Central Italy seismic sequences in the framework of “2017 RELUIS Project RS2”. This study provides a comparison of the performance of the three-dimensional numerical approaches applied on the near-source region, of the 2016, October 30th, Norcia earthquake. Furthermore, it emphasizes in-depth considerations on seismic site amplification functions in the near-source conditions.
The primary intent in this work is an application of 3D physics-based numerical simulations (PBSs) on 2016 Central Italy seismic sequences in the framework of “2017 RELUIS Project RS2”. This study provides a comparison of the performance of the three-dimensional numerical approaches applied on the near-source region, of the 2016, October 30th, Norcia earthquake. Furthermore, it emphasizes in-depth considerations on seismic site amplification functions in the near-source conditions.
3D physics-based simulations of the October 30 2016 central Italy earthquake
POURSHAYEGAN, HESAM
2017/2018
Abstract
The primary intent in this work is an application of 3D physics-based numerical simulations (PBSs) on 2016 Central Italy seismic sequences in the framework of “2017 RELUIS Project RS2”. This study provides a comparison of the performance of the three-dimensional numerical approaches applied on the near-source region, of the 2016, October 30th, Norcia earthquake. Furthermore, it emphasizes in-depth considerations on seismic site amplification functions in the near-source conditions.| File | Dimensione | Formato | |
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Thesis.pdf
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https://hdl.handle.net/10589/146510