| Abstract: | Multichannel Analysis of Surface Waves utilizes a multichannel recording system to estimate near-surface shear (S)-wave velocities from high-frequency Rayleigh waves. A pseudo-2D S-wave velocity (vS) section is constructed by aligning 1D models at the midpoint of each receiver spread and using a spatial interpolation scheme. The horizontal resolution of the section is therefore most influenced by the receiver spread length and the source interval. The receiver spread length sets the theoretical lower limit and any vS structure with its lateral dimension smaller than this length will not be properly resolved in the final vS section. A source interval smaller than the spread length will not improve the horizontal resolution because spatial smearing has already been introduced by the receiver spread. In this paper, we first analyze the horizontal resolution of a pair of synthetic traces. Resolution analysis shows that (1) a pair of traces with a smaller receiver spacing achieves higher horizontal resolution of inverted S-wave velocities but results in a larger relative error; (2) the relative error of the phase velocity at a high frequency is smaller than at a low frequency; and (3) a relative error of the inverted S-wave velocity is affected by the signal-to-noise ratio of data. These results provide us with a guideline to balance the trade-off between receiver spacing (horizontal resolution) and accuracy of the inverted S-wave velocity. We then present a scheme to generate a pseudo-2D S-wave velocity section with high horizontal resolution using multichannel records by inverting high-frequency surface-wave dispersion curves calculated through cross-correlation combined with a phase-shift scanning method. This method chooses only a pair of consecutive traces within a shot gather to calculate a dispersion curve. We finally invert surface-wave dispersion curves of synthetic and real-world data. Inversion results of both synthetic and real-world data demonstrate that inverting high-frequency surface-wave dispersion curves - by a pair of traces through cross-correlation with phase-shift scanning method and with the damped least-square method and the singular-value decomposition technique - can feasibly achieve a reliable pseudo-2D S-wave velocity section with relatively high horizontal resolution. ?? 2008 Elsevier B.V. All rights reserved. |
| Genre: | Article |
| ProdID: | 70031956 |
| Citation Author: | Luo, Y.; Xia, J.; Liu, J.; Xu, Y.; Liu, Q. |
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| Citation End Page: | 124 |
| Citation Issue: | 3-4 |
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| Citation Language: | English |
| Citation Larger Work Title: | Journal of Applied Geophysics |
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| Citation Number Of Pages: | 10 |
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| Citation Search Results Text: | Generation of a pseudo-2D shear-wave velocity section by inversion of a series of 1D dispersion curves; 2008; Article; Journal; Journal of Applied Geophysics; Luo, Y.; Xia, J.; Liu, J.; Xu, Y.; Liu, Q. |
| Citation Start Page: | 115 |
| Citation Volume: | 64 |
| Citation Year: | 2008 |
| Type: | citation/reference |
| Text: | Generation of a pseudo-2D shear-wave velocity section by inversion of a series of 1D dispersion curves; 2008; Article; Journal; Journal of Applied Geophysics; Luo, Y.; Xia, J.; Liu, J.; Xu, Y.; Liu, Q. |
| URL (THUMBNAIL): | http://pubs.er.usgs.gov/thumbnails/outside_thumb.jpg |
| URL (DIGITAL OBJECT IDENTIFIER): | http://dx.doi.org/10.1016/j.jappgeo.2008.01.003 |
| Date Other: | Tue, 1 Jan 2008 00:00 -0600 |
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