GNGTS 2019 - Atti del 38° Convegno Nazionale

680 GNGTS 2019 S essione 3.2 In case the measurements are repeated over time, this geophysical method is also particularly suitable for the structural monitoring. Indeed, the proposed technique can be used to highlight potential variations of the dynamic characteristics of the structure, caused by eventual damages deriving from any natural or seismic phenomenon. Acknowledgements. This work was funded by the Dipartimento di Scienze Biologiche, Geologiche e Ambientali, Università degli Studi di Catania , in the frame of “ Piano Nazionale della Ricerca 2019 ”. Research Scientific Responsible Prof. S. Imposa. References Betti M., and Vignoli A.; 2008: Modelling and analysis of a Romanesque church under earthquake loading:Assessment of seismic resistance. Engineering Structures, 30, 2, 352-367. Betti M., and Vignoli A.; 2011: Numerical assessment of the static and seismic behaviour of the basilica of Santa Maria all’Impruneta (Italy), Construction and Building Materials 25, 4308–4324. Castellaro, S., and Russo, S.; 2019: Dynamic characterization of an all-FRP pultruded construction. Composite Structures, 218, 1-14. Castellaro, S., Perricone, L., Bartolomei, M., and Isani, S.; 2017: Dynamic Characterization of the Eiffel Tower. Procedia engineering, 199, 3332-3337. D’Amico S., Akinci A., and Malagnini L., 2012: Predictions of high-frequency ground-motion in Taiwan based on weak motion data, Geophysical Journal International, 189, 611-628, doi: 10.1111/j.1365-46X.2012.05367.x. D’Amico, S., Imposa, S., Panzera, F., Lombardo, G., Betti, M., Muscat, R., Borg, R. and Grassi, S.; 2017: Evaluating dynamic behaviour of historical buildings through ambient seismic noise measurement and numerical modelling. In: 3rd IMEKO International Conference on Metrology for Archaeology and Cultural Heritage, 259-262, ISBN: 978-92-990084-0-9, Lecce, Italy, 23 - 25 October 2017. Dal Moro G.; 2012: Onde di superficie in geofisica applicata. Acquisizione e analisi di dati secondo tecniche MASW e HVSR, Flaccovio Dario. Galea P., Micalleff T., Mucciarelli M. and D’Amico S.; 2014: Dynamic characteristics of Maltese buildings. Proceedings of the 34th National Meeting Gruppo Nazionale Geofisica della Terra Solida. Grassi, S., Imposa, S., Patti, G., Boso, D., Lombardo, G. and Panzera, F.; 2019: Geophysical surveys for the dynamic characterization of a cultural heritage building and its subsoil: The S. Michele Arcangelo Church (Acireale, eastern Sicily). Journal of Cultural Heritage, 36, 72-84. Imposa, S., Lombardo, G., Panzera, F. and Grassi, S.; 2018: Ambient vibrations measurements and 1D site response modelling as a tool for soil and building properties investigation. Geosciences, 8(3), 87. Lombardo G., Panzera F., D’Amico S., Galea P. and Torrisi A.; 2015: Dynamic properties of buildings evaluated through ambient noise measurements. in: Lombardo G. Panzera F. (Eds.), Establishment of an integrated Italy- Malta cross border system of Civil Protection: Geophysical Aspects, 111-126, Aracne Editrice, Rome (Italy), ISBN:978-88-548-8256-0, DOI:10.4399/97888548825609. Lunedei E., Peruzzi G. and Albarello D.; 2014: Caratterizzazione dinamica delle torri di San Gimignano (Siena) mediante misure di vibrazioni ambientali. Atti del, 33. Monaco, C., De Guidi, G. and Ferlito, C.; 2010: The morphotectonic map of Mt. Etna. Italian journal of geosciences, 129(3), 408-428.  Nakamura, Y.; 1989: Amethod for dynamic characteristics estimation of subsurface using microtremor on the ground surface. Railway Technical Research Institute, Quarterly Reports, 30(1). Panzera F., D’Amico S., Lombardo G. and Longo E.; 2013: Fundamental period of buildings, seismic site response and implications on earthquake seismic action definition in the Siracusa area, Italy. Proceedings of the 32nd Convegno Gruppo Nazionale Geofisica della Terra Solida, 103-109. Panzera F., D’Amico S., Lombardo G. and Longo E.; 2016a: Evaluation of building fundamental periods and effects of local geology on ground motion parameters in the Siracusa area, Italy. Journal of Seismology, 20, 1001-1019, doi:10.1007/s10950-016-9577-5. Panzera F., Lombardo G., Sicali S., D’Amico S. and 2016b: Surface geology and morphologic effects on seismic site response: the study case of Lampedusa, Italy. Physics and Chemistry of the Earth, DOI:10.1016/j.pce.2016.08.006. SESAME European research project; 2005: Guidelines for the implementation of the H/V spectral ratio technique on ambient vibrations. Measurements, processing and interpretation, WP12, Deliverable no. D23.12.