Influence of Local Site Conditions on the Reliability of Fundamental-Mode Surface Wave Inversion Methods
ABSTRACT:
The development of reliable shear wave velocity (VS) profiles from surface wave
velocity measurements requires compatibility between the measured and
theoretical dispersion curves used in the inversion procedure. The most common
approach in geotechnical applications is to use a fundamental-mode theoretical
dispersion curve based on the assumption that the measured dispersion curve is
representative of the fundamental mode of surface wave propagation. Analyses of
low-frequency surface wave measurements presented in this paper show that this
widespread assumption is invalid at low frequencies (long wavelengths) for some
profile conditions. Results are presented from measurements performed at two
deep soil sites in the central United States where surface wave analyses were
performed using both the common fundamental-mode approach as well as an
“effective-velocity” approach. At one site these two methods produced
essentially the same estimate of the VS profile, while at the second site the
estimated VS values at depth differed by more than 40 %. Using soil profile
information for these sites and simulations of surface wave propagation, it is
shown that the shallower depth to a higher-velocity formation at the second site
created dominant higher-mode energy at wavelengths of 300–600 m, resulting in an
overestimation of deep VS values.
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