GNGTS 2015 - Atti del 34° Convegno Nazionale
References Azzaro R., Carocci C.F., Maugeri M., Torrisi A. (2010). Microzonazione sismica del versante orientale dell’Etna studi di primo livello . ��� �� ���� ����� �������� ��� ��� Ed. Le nove Muse, Catania, pp. 181 Boore D.M. (2003). Prediction of ground motion using the stochastic method . Pure Appl. Geophys. 160, 635–676. Borcherdt R.D. (1970). Effects of local geology on groundmotion near San Francisco Bay . Bulletin of the Seismological Society of America 60, 29-61 Burnham K.P., Anderson D.R. (2002). Model selection and multimodel inference: a practical information-theoretic approach, 2nd edn . Springer, New York Branca S., Coltelli M., Groppelli G. (2011). Geological evolution of a complex basaltic stratovolcano: Mount Etna, Italy . Ital. J. Geosci., 130 (3), 306-317, DOI: 10.3301/IJG.2011.13 Branca S., Ferrara V. (2013). The morphostructural setting of Mount Etna sedimentary basement (Italy): implications for the geometry and volume of the volcano edifice and its flank instability . Tectonophysics, doi: 10.1016/ j.tecto.2012.11.011 Di Alessandro C., Bonilla L.B., Boore D.M., Rovelli A., Scotti O. (2012). Predominant Period Site Classification for Response Spectra Prediction Equations in Italy . �������� �� ��� ������������� ������� �� ������� ������� Bulletin of the Seismological Society of America 102(2), 680-695. Di Giacomo D., Gallipoli M.R., Mucciarelli M., Parolai S., Richwalski S.M. (2005). Analysis and Modeling of HVSR in the Presence of a Velocity Inversion: The Case of Venosa, Italy. Bull. Seism. Soc. Am. 95(6), 2364–2372. Di Giulio G., Rovelli A., Cara F., Azzara R. M., Marra F., Basili R., Caserta A. (2003). Long-duration asynchronous ground motions in the Colfiorito plain, central Italy, observed on a two-dimensional dense array . J. Geophys. Res. 108(B10): 2486, doi:10.1029/2002JB002367. Eurocode8 (2003). Design of structures for earthquake resistance-Part 1: general rules, seismic actions and rules for buildings, EN 1998. European Committee for Standardization, Brussels. Field E.H., Jacob K. (1995). A comparison and test of various site response estimation techniques. Bull. Seism. Soc. Am., 85(4), 1127-1143. Herak M. (2008). ModelHVSR-A Matlab® tool to model horizontal-to-vertical spectral ratio of ambient noise, Computers Geosciences, 34, 1514-1526. Lachet C., Bard P.-Y. (1994). Numerical and Theoretical Investigations on the Possibilities and Limitations of Nakamura’s Technique . J. Phys. Earth, 42, 377-397. Lermo J., Chavez-Garcia F.J. (1993). Site effect evaluation using spectral ratios with only one station . �������� Bulletin Seismological Society of America, 83, 1574–1594. Lermo J., Chavez-Garcia F.J. (1994). Are microtremors useful in the site response evaluation? �������� ������������� Bulletin Seismological Society of America, 84, 1350–1364. Luzi L., Puglia R., Pacor F., Gallipoli M.R., Bindi D., Mucciarelli M. (2011). Proposal for a soil classification based on parameters alternative or complementary to VS30 . Bull. Earthquake Eng. doi 10.1007/ s10518-011-9274-2. Mucciarelli M. (1998). Reliability and applicability of Nakamura‘s technique using microtremors: an experimental approach. J. Earth. Eng., 2, 625–638. Nakamura Y., (1989). A method for dynamic characteristics estimation of subsurface using microtremor on the ground surface. Quarterly Rept. Railway Tech. Res. Inst., 30, 25-33. Panzera F., D’Amico S., Lotteri A., Galea P., Lombardo G. (2012). Seismic site response of unstable steep slope using noise measurements: the case study of Xemxija bay area, Malta. Natural Hazard and Earth Science System 12, 3421-3431. Panzera F., D’Amico S., Galea P., Lombardo G., Gallipoli M.R., Pace S. (2013). Geophysical measurements for site response investigation: preliminary results on the island of Malta, Bollettino di Geofisica Teorica ed Applicata 54 (2), 111-128 Panzera F., Lombardo G., Monaco C., Di Stefano A. (2015). Seismic site effects observed on sediments and basaltic lavas outcropping in a test site of Catania, Italy. ������� �������� ���� ������������������������� Natural Hazards, doi: 10.1007/s11069-015-1822-7 Panzera F., Pischiutta M., Lombardo G., Monaco C., Rovelli A. (2014). Wavefield polarization in fault zones of the western flank of Mt. Etna: Observations and fracture orientation modeling . ���� ��� ������� ���������� ��� Pure and Applied Geophysics 171 (11), 3083-3097 Panzera F., Rigano R., Lombardo G., Cara F., Di Giulio G., Rovelli A. (2011). The role of alternating outcrops of sediments and basaltic lavas on seismic urban scenario: the study case of Catania, Italy . Bulletin of Earthquake Engineering 9 (2), 411-439 Parolai S., Bindi D., Troiani L. (2001). Site response for the RSM seismic network and source parameters in the central Apennines (Italy) . Pure Appl. Geophys., 158, 695–715. Priolo E. (1999). 2-D spectral element simulation of destructive ground shaking in Catania (Italy) . J. Seismol., 3, 289–309. GNGTS 2015 S essione 2.2 147
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