GNGTS 2013 - Atti del 32° Convegno Nazionale

Chatelain, J.L., Guiller, B., Cara, F., Duval, A., Atakan, K., Bard, P.-Y., and the WP02 SESAME TEAM, 2007, Evaluation of the in uence of experimental conditions on H/V results from ambient noise, Bull. Earthq. Eng. DOI 10.1007/ s10518-007-9040-7. Fah D., F. Kind and D. Giardini, 2011, A theoretical investigation of average H/V ratios, Geophys. J. Int. 145, 535-549, doi: 10.1046/j.0956-540x.2001.01406.x Forbriger T., 2003, Inversion of shallow-seismic wave elds: I. Wave eld transformation Geophys. J. Int., 153, 719-734 Foti S., 2000, Multistation Methods for Geotechnical Characterization using Surface Waves. PhD dissertation, Politecnico di Torino, Italy Foti S., 2003, Small Strain Stiffness and Damping Ratio of Pisa Clay from Surface Wave Tests. Geotechnique , 53(5): 455-461 Foti S., L. Sambuelli, L.V. Socco, C. Strobbia, 2002, Spatial sampling issues in fk analysis of surface waves. Proc. of SAGEEP2002. Las Vegas. USA. February 10-14. CD-Rom Hobiger M., N. Le Bihan, C. Cornou and P.-Y. Bard, 2009, Rayleigh wave ellipticity estimation from ambient seismic noise using single and multiple vector-sensor techniques 17th European Signal Processing Conference (EUSIPCO 2009) Glasgow, Scotland, August 24-28, 2009 Karray M and G. Lefebvre, 2008, Techniques for mode separation in Rayleigh wave testing. Soil Dyn Earthquake Eng, doi:10.1016/j.soildyn.2008.07.005 Konno K., T. Omachi, 1998, Ground motion characteristics estimated from spectral ratio between horizontal and vertical components of microtremors. Bull. Seism. Soc. Am. 88, pp. 228-241. 386 Lachet C and P.-Y. Bard, 1994, Numerical and Theoretical investigations on the possibilities and limitations of Nakamura’s Technique. J. Phys. Earth 42, pp. 377-397. Lai C.G., S. Foti and G.J. Rix, 2005, Propagation of Data Uncertainty in Surface Wave Inversion. JEEG, Vol.10, Issue 2, pp. 219-228. Malischewsky P.G. and F. Scherbaum, 2004, Love’s formula and H/V-ratio (ellipticity) of Rayleigh waves, Wave Motion 40 (2004) 57-67 Malischewsky P.G, F. Scherbaum, C. Lomnitz, T. Tran Thanh, F. Wuttke and G. Shamir, 2008, The domain of existence of prograde Rayleigh-wave particle motion for simple models, Wave Motion, 45, 556-564. Maraschini M., F. Ernst, S. Foti, L.V. Socco, 2010 A new mis t function for multimodal inversion of surface waves, Geophysics, VOL. 75, NO. 4, G31-43 doi: 10.1190/1.3436539. Mucciarelli, M., M. Herak, and J. Cassidy (Eds.), 2009, Increasing Seismic Safety by Combining Engineering Technologies and Seismological Data, Springer, Dordrecht. Mulargia, F. and S. Castellaro, 2008, Passive imaging in nondiffuse acoustic wave elds, Phys. Rev. Lett. 100, 218501(1-4). Nakamura Y., 1989, A method for dynamic characteristics estimation of subsurface using microtremors on the ground surface. Quaterly Rept. RTRI, Japan 33, pp. 25-33. Nogoshi M., T. Igarashi, 1970, On the propagation characteristics of the microtremors. J. Seism. Soc. Japan 24, pp. 24-40. Park C.B., R. D. Miller and J. Xia, 1999, Multichannel analysis of surface waves. Geophysics; June 1999; v. 64; no. 3; p. 800-808; DOI: 10.1190/1.1444590 Socco L.V., C. Strobbia and S. Foti, 2002, Multimodal Interpretation of Surface Wave Data, VIII EEGS 8 - 14 September 2002, Aveiro. Socco L.V. and C. Strobbia, 2004, Surface Wave Methods for near-surface characterisation: a tutorial, Near Surface Geophysics, 2, pp.165-185. Socco L.V., S. Foti and D. Boiero, 2010, Surface-wave analysis for building near-surface velocity models -Established approaches and new perspectives, Geophysics , 75(5); P. 75A83-75A102, 10.1190/1.3479491 Stacey R. 1988, Improved transparent boundary formulations for the elastic-wave equation. Bulletin of the Seismological Society of America, 78(6). Strobbia, C., 2002, Surface wave methods, Acquisition, processing and inversion. PhD Thesis Politecnico di Torino, Turin, Italy. Strobbia C. and S. Foti, 2006, Multi-offset phase analysis of surface wave data (MOPA). J. Appl. Geophys., 59, 300-313. Strobbia C., A. Laake, P.L. Vermeer, A. Glushchenko, 2011, Surface Waves: Use Them Then lose them. Surface wave analysis, inversion and attenuation in land reflection seismic surveying, Near Surface Geophysics, 9 Thomson W.T., 1950, “Transmission of Elastic Waves Through a Stratified Soil Medium”, J.Appl.Phys., 21:89-93 Tokimatsu K., 1995, Geotechnical Site Characterisation using Surface Waves. Proc. IS Tokyo 1995, Balkema, 1333-1368 Tuan T.T., F. Scherbaum, P.G. Malischewsky, 2011, On the relationship of peaks and troughs of the ellipticity (H/V) of Rayleigh waves and the transmission response of single layer over half-space models. Geophysical Journal International Volume 184, Issue 2, pages 793-800. Vignoli, C. Strobbia, G. Cassiani, P. Vermeer, 2011, Statistical multi-offset phase analysis for surface wave processing in laterally varying media, Geophysics 76, U1. Vignoli G. and G. Cassiani, 2009, Identification of lateral discontinuities via multi-offset phase analysis of surface wave data, Geophysical Prospecting, 58, pp. 389-413. Weaver, R.L., 1982, On diffuse waves in solid media, J. Acoust. Soc. Am. 71, 1608 Zhang S.X. and L.S. Chan, 2003, Possible effects of misidentified mode number on Rayleigh wave inversion Journal of Applied Geophysics 53 (2003) 17-29. 28 GNGTS 2013 S essione 3.1