GNGTS 2022 - Atti del 40° Convegno Nazionale

254 GNGTS 2022 Sessione 2.2 Bibliografia Bergamo P., Hammer C. and Fäh. D.; 2021: Correspondence between site amplification and topographical, geological parameters: collation of data from Swiss and Japanese stations and neural networks-based prediction of local response . BSSA, 112(2): 1008-1030, DOI 10.1785/0120210225. Edwards B., Michel C., Poggi V. and Fäh D.; 2013: Determination of site amplification from regional seismicity: Application to the Swiss National Seismic Networks . Seismol. Res. Lett. 84(4) 611–621. Edwards B. and Fäh, D.; 2013: A stochastic ground-motion model for Switzerland . BSSA, 103(1), 78–98. Fäh D., Giardini D., Kästli P, et al.; 2011: ECOS-09 earthquake catalogue of Switzerland release 2011 . Report and database. Sed/Ecos/R /001/20110417 . Faenza L., and Michelini A.; 2010: Regression analysis of MCS intensity and ground motion parameters in Italy and its application in ShakeMap . Geophys. J. Int. 180(3), 1138–1152. Faenza L., and Michelini A.; 2010: Regression analysis of MCS intensity and ground motion spectral accelerations (SAs) in Italy . Geophys. J. Int. 186(3), 1415-1430. Falcone G., Acunzo G., Mendicelli A., Mori F., Naso G., Peronace E., Porchia A., Romagnoli G., Tarquini E. andMoscatelli M.; 2021: Seismic amplification maps of Italy based on site-specific microzonation dataset and one-dimensional numerical approach . Engineering Geology, 289 (2021), 106170. Hailemikael S., Amoroso S. and Gaudiosi, I.; 2020: Guest editorial: seismic microzonation of Central Italy following the 2016–2017 seismic sequence . Bull Earthquake Eng 18, 5415–5422 (2020). Hengl T., Heuvelink G., and Rossiter D. G.; 2007: About regression-kriging: From equations to case studies . Computers & Geosciences, 33(10), 1301-1315. Janusz P., Perron V., Knellwolf C., Imperatori W., Bonilla L. F., and Fäh D; 2021: Combining recordings of earthquake ground-motion and ambient vibration analysis to estimate site response variability in the city of Lucerne, Switzerland . EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-4380, https://doi.org/10.5194/ egusphere-egu21-4380, 2021. Michel C., Fäh D., Edwards B., and Cauzzi C.; 2017: Site amplification at the city scale in Basel (Switzerland) from geophysical site characterization and spectral modelling of recorded earthquakes . Physics and Chemistry of the Earth Parts A/B/C 98:27-40. Lachet C., Hatzfeld D., Bard P.-Y., Thoodulidis N., Papaioannou C., and Savvaidis A. ;2016 : Site effects andmicrozonation in the city of Thessaloniki (Greece) comparison of different approaches . BSSA 86 (6): 1692–1703. Li M., Rathje EM., Cox B. R., and Yust M.; 2022: Texas-specific VS30map incorporating geology and VS30 observations . Earthquake Spectra, 38(1):521-542. Panzera F., Bergamo P., and Fäh D.; 2021 : Canonical Correlation Analysis Based on Site ‐ Response Proxies to Predict Site ‐ Specific Amplification Functions in Switzerland . BSSA, 111 (4): 1905–1920. Panzera F., Alber J., Imperatori W., Bergamo P. and Fäh, D; 2022: Reconstructing a 3D model from geophysical data for local amplification modeling: The study case of the upper Rhone valley, Switzerland. Soil Dynamics and Earthquake Engineering, 155, 107163. Perron V., Bergamo P., and Fäh D.; 2022: Site amplification at high spatial resolution from combined ambient noise and earthquake recordings in Sion, Switzerland . Seismological Research Letters, accepted for publication. Poggi V., Edwards B. and Fäh D.; 2011: Derivation of a reference shear-wave velocity model from empirical site amplification . Bull. Seismol. Soc. Am. 101(1) 258–274. Swisstopo, Ufficio federale di Topografia; 2019: Modello di spessore dei sediment sciolti, https://www.swisstopo . admin.ch/it/geodata/geology/models/unconsolidated-deposits.html. Vilanova S. P., Narciso J., Carvalho J. P., Quinta-Ferreira M., Pinto C. C., Moura R., Borges J. and Nemser E. S.; 2018: Developing a Geologically Based Vs30 Site-Condition Model for Portugal: Methodology and Assessment of the Performance of Proxies . Bull. Seismol. Soc. Am., 108(1) 322-337. Weatherill G., Kotha S. R. and Cotton F.; 2020: Re-thinking site amplification in regional seismic risk assessment . Earthquake Spectra 36(S1) 274-297.