Imaging the Base of the Weathering by Stacking Shot Records

Derecke Palmer

doi:10.1081/22020586.2010.12041867

ISSN: 2202-0586
E-ISSN:

oa Imaging the Base of the Weathering by Stacking Shot Records
Authors Derecke Palmer^a
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^a The University of New South Wales, Sydney, 2052, Australia, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2010, Issue ASEG2010 - 21st Geophysical Conference, Dec 2010, p. 1 - 4
DOI: https://doi.org/10.1081/22020586.2010.12041867
- Published online: 01 Dec 2010

Abstract

Summary

The generation of a time model of the weathering is the single most important parameter for accurate statics corrections when the replacement statics model is used. The computation of an accurate time model of the weathering is critically dependent upon the signal to noise ratio of the first break refraction data. In arid areas, the signal-to-noise ratios can be very low, often because of the common occurrence of sand dunes. In other areas, biogenic gas generation can result in significant gas saturation in porous formations, which strongly attenuate all seismic energy.

This study presents a new method for generating a time model of the weathering, which is of equivalent resolution to that generated with the generalized reciprocal method (GRM), by stacking common receiver gathers. The common receiver stack (CRS) consists of a correction for the refraction equivalent of the normal moveout, balancing of the traces to accommodate the effects of geometrical spreading, and then stacking of the traces.

CRS has two major advantages. The first is that in most cases, first breaking picking can be eliminated. The second is that CRS generates high quality time models of the weathering even where the signal-to-noise ratios of the first break data are poor.

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2026-01-17

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References

Ait-Messaoud, M., Boulegroun, M-Z., Gribi, A., Kasmi, R., Touami, M., Anderson, B., Van Baaren, P., El-Emam, A., Rached, G., Laake, A., Pickering, S., Moldoveanu, N. and Özbek, A., 2005, New dimensions in land seismic technology: Oilfield Review, Autumn issue, 42-53. http://www.westerngeco.com/content/services/q_technology/q_land/index.asp
Cox, M., 1999, Statics Corrections for Seismic Reflection Surveys. SEG, Tulsa.
Nichols, T. C., 1980. Rebound – its nature and effect on engineering works. Quarterly Journal of Engineering Geology, 13, 133-152.
Palmer, D., 1980, The generalized reciprocal method of seismic refraction interpretation. Society of Exploration Geophysicists, 104p.
Palmer, D., 1981, An introduction to the generalized reciprocal method of seismic refraction interpretation: Geophysics46, 1508-1518.
Palmer, D., 1986, Refraction seismics: the lateral resolution of structure and seismic velocity. Geophysical Press.
Palmer, D., 2001a, Imaging refractors with the convolution section: Geophysics, 66, 1582-1589.
Palmer, D., 2001b, Resolving refractor ambiguities with amplitudes: Geophysics, 66, 1590-1593.
Palmer, D., 2009b. Integrating long and short wavelength time and amplitude statics. First Break27(6), 57-65.
Simpson, G., 2004, Role of river incision in enhancing deformation. Geology32, 341-344. doi: 10.1130/G20190.2

/content/journals/10.1081/22020586.2010.12041867

Article Type: Research Article

Keyword(s): refraction; shot records; stacking; statics; weathering

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