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Research on the middle-of-receiver-spread assumption of the MASW method
Authors:Yinhe Luo  Jianghai Xia  Jiangping Liu  Yixian Xu  Qingsheng Liu
Affiliation:1. Institute of Geophysics and Geomatics, China University of Geosciences, Wuhan, Hubei 430074, China;2. Kansas Geological Survey, The University of Kansas, 1930 Constant Avenue, Lawrence, KS 66047-3726, USA
Abstract:The multichannel analysis of surface wave (MASW) method has been effectively used to determine near-surface shear- (S-) wave velocity. Estimating the S-wave velocity profile from Rayleigh-wave measurements is straightforward. A three-step process is required to obtain S-wave velocity profiles: acquisition of a multiple number of multichannel records along a linear survey line by use of the roll-along mode, extraction of dispersion curves of Rayleigh waves, and inversion of dispersion curves for an S-wave velocity profile for each shot gather. A pseudo-2D S-wave velocity section can be generated by aligning 1D S-wave velocity models. In this process, it is very important to understand where the inverted 1D S-wave velocity profile should be located: the midpoint of each spread (a middle-of-receiver-spread assumption) or somewhere between the source and the last receiver. In other words, the extracted dispersion curve is determined by the geophysical structure within the geophone spread or strongly affected by the source geophysical structure. In this paper, dispersion curves of synthetic datasets and a real-world example are calculated by fixing the receiver spread and changing the source location. Results demonstrate that the dispersion curves are mainly determined by structures within a receiver spread.
Keywords:MASW   Shear-wave velocity   Dispersion curve   Geophone spread   Source geophysical structure
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