The paper summarizes the results of a multidisciplinary study aimed at seismic microzonation of the Central Archeological Area of Rome including the Palatine hill, Roman Forum and Coliseum. A large amount of subsoil data, available mainly from adjacent subway lines and from the archaeological superintendence, were collected and used to plan new multidisciplinary investigations, carried out in 2010-2011. First, the paper describes the integrated subsoil model aimed at numerical modeling of site effects. The results of equivalent linear 2D site response analyses carried out on seven representative cross-sections of the area are then presented and discussed. Ground motion amplification factors defined in terms of Housner Intensity were compute...
A rational evaluation of the seismic risk of urban areas cannot neglect the variability of the groun...
The seismic-risk assessment of archeological and monumental sites is extraordinarily challenging fro...
The earthquake of April 6th, 2009 in the L’Aquila area is one of the largest seismic events of the ...
The paper summarizes the results of a multidisciplinary study aimed to seismic microzonation of the ...
Historical sources report that Rome has experienced considerable earthquake ground motion in the pa...
An integrated subsoil model for seismic microzonation in the Central Archaeological Area of Rome is ...
A hybrid technique, based on mode summation and finite differences, was used to silnulate the ground...
In this study we perform 3D nonlinear analyses of seismic site response of the Central Archaeologic...
In this note the seismic microzonation of level 1 of the historic center of Rome is presented. After...
International audiencePompeii Archaeological Park is the best laboratory for the study of the seismi...
The paper presents the results of 5 case studies on complex site effects selected within the project...
A general methodological approach is here discussed to integrate geological and geophysical informat...
Following the April 6th, 2009 Abruzzo mainshock, the Italian Civil Protection Department promoted a ...
Following the April 6th, 2009 Abruzzo mainshock, the Italian Civil Protection Department promoted a ...
A rational evaluation of the seismic risk of urban areas cannot neglect the variability of the groun...
The seismic-risk assessment of archeological and monumental sites is extraordinarily challenging fro...
The earthquake of April 6th, 2009 in the L’Aquila area is one of the largest seismic events of the ...
The paper summarizes the results of a multidisciplinary study aimed to seismic microzonation of the ...
Historical sources report that Rome has experienced considerable earthquake ground motion in the pa...
An integrated subsoil model for seismic microzonation in the Central Archaeological Area of Rome is ...
A hybrid technique, based on mode summation and finite differences, was used to silnulate the ground...
In this study we perform 3D nonlinear analyses of seismic site response of the Central Archaeologic...
In this note the seismic microzonation of level 1 of the historic center of Rome is presented. After...
International audiencePompeii Archaeological Park is the best laboratory for the study of the seismi...
The paper presents the results of 5 case studies on complex site effects selected within the project...
A general methodological approach is here discussed to integrate geological and geophysical informat...
Following the April 6th, 2009 Abruzzo mainshock, the Italian Civil Protection Department promoted a ...
Following the April 6th, 2009 Abruzzo mainshock, the Italian Civil Protection Department promoted a ...
A rational evaluation of the seismic risk of urban areas cannot neglect the variability of the groun...
The seismic-risk assessment of archeological and monumental sites is extraordinarily challenging fro...
The earthquake of April 6th, 2009 in the L’Aquila area is one of the largest seismic events of the ...