This book bridges the gap between theory and practice, showing how a detailed definition of the shear-wave velocity (V_S) profile can be efficiently obtained using limited field equipment and following simple acquisition procedures.

It demonstrates how surface waves (used to define the V_S  profile) and vibration data (used to describe the dynamic behaviour of a building) can be recorded using the same equipment, and also highlights common problems, ambiguities and pitfalls that can occur when adopting popular methodologies, which are often based on a series of simplistic assumptions.

Today, most national and international building codes take into account a series of parameters aimed at defining the local seismic hazard. Sites are characterised based on the local V_S  profile, and the dynamic behaviour of existing buildings is defined through the analysis of their eigenmodes. The book includes a series of case studies to help readers gain a deeper understanding of seismic and vibration data and the meaning (pros and cons) of a series of techniques often referred to as MASW, ESAC, SPAC, ReMi, HVSR, MAAM and HS. It also provides access to some of the datasets so that readers can gain a deeper and more concrete understanding of both the theoretical and practical aspects.

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Prof. Giancarlo Dal Moro graduated in Geological Sciences and holds a Ph.D. in Geophysics. He has worked as a researcher in Italy and abroad and published numerous papers in peer-reviewed journals. In addition to his academic activities, since 2006 he has also been involved in the data acquisition and analysis for a large number of projects and the design of innovative procedures for the acquisition and analysis of seismic data (patented methodology for surface-wave acquisition and analysis based on the exploitation of a single 3-component geophone). He currently works in Prague, at theInstitute of Rock Structure and Mechanicsof theAcademy of Sciences of the Czech Republic.