Correlation between damage distribution and ambient noise H/V spectral ratio: the SESAME project results |
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| Authors: | Nikolaos Theodoulidis Giovanna Cultrera Valerio De Rubeis Fabrizio Cara Areti Panou Marco Pagani Paula Teves-Costa |
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| Institution: | (1) Institute of Engineering Seismology and Earthquake Engineering (ITSAK), Thessaloniki, Greece;(2) Istituto Nazionale di Geofisica e Vulcanologia (INGV), Roma, Italy;(3) Istituto per la Dinamica dei Processi Ambientali, CNR, Milano, Italy;(4) University of Lisbon, FCUL & Centro de Geofisica da Universidade de Lisboa, Lisboa, Portugal |
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| Abstract: | In the framework of the SESAME project one of the tasks was the compilation of all available ambient noise measurements within urban environments affected by historical or/and recent strong earthquakes in Europe. The aim of such a task was to give an answer to the question; “How does horizontal-to-vertical ambient noise spectral ratio compare with damage in modern cities?”. For this purpose five European urban areas, namely, Angra do Heroismo (Portugal), Fabriano and Palermo (Italy), Thessaloniki and Kalamata (Greece) were selected for which spatial damage information was available either in terms of modified Mercalli intensity or in EMS98 damage grades. The geological setting of the examined sites as well as the causative earthquakes are satisfactorily known. Ambient noise recordings compiled for all examined sites have been homogeneously processed by a technique developed and agreed upon SESAME project. Using a standard multivariate statistical analysis, namely, factor analysis and canonical correlation, the horizontal-to-vertical ambient noise spectral ratio (HVNSR) is correlated with damage pattern observed within examined urban areas. Results show that, in some cases (Thessaloniki, Palermo), the HVNSR seems to be able to differentiate between areas previously shown to be associated with higher damage. In other cases however (Angra do Heroismo, Fabriano, Kalamata), the correlation is not statistically significant indicating thus the complex character of the parameters involved, implying that currently there is no a straightforward way that a value of HVNSR can correctly predict the extent to which a given region will be associated with increased damage. |
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| Keywords: | Ambient noise HVSR method Site effects Macroseismic intensity Factor and canonical analysis |
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