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Dupuy B., Asnaashari A., Brossier R., Garambois S., Métivier L., Ribodetti Alessandra, Virieux J. (2016). A downscaling strategy from FWI to microscale reservoir properties from high-resolution images. Leading Edge, 35 (2), 146-150. ISSN 1070-485X

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Lien direct chez l'éditeur doi:10.1190/tle35020146.1

Titre
A downscaling strategy from FWI to microscale reservoir properties from high-resolution images
Année de publication2016
Type de documentArticle
AuteursDupuy B., Asnaashari A., Brossier R., Garambois S., Métivier L., Ribodetti Alessandra, Virieux J.
SourceLeading Edge, 2016, 35 (2), p. 146-150. ISSN 1070-485X
RésuméExtracting detailed earth information from an ensemble of seismic traces is a challenge facing full-waveform inversion. So far, success on synthetic and real data has been accomplished primarily for the twin purposes of complex structural imaging and geologic interpretation. An ongoing issue for the seismic-imaging community, in addition to building high-resolution images, is the reliable extraction of acoustic and shear velocities, anisotropic parameters, quality factors, and density. Such extractions, performed at the seismic resolution scale, should help greatly with quantitative interpretation and estimation of rock properties. A step toward this goal is described here. A generic rock-physics model is assumed, which upscales microscale rock-physics properties to mesoscale (effective-medium) poroelastic quantities to be recovered from macroscale estimates of seismic attributes. It is shown on simple synthetic examples that quantitative multiparameter reconstruction, when it is possible, can reduce ambiguities in mesoscale parameter estimation dramatically, using a semiglobal search. Successful estimation of these effective-medium quantities will narrow the range of possible rock-physics estimations to be considered for seismic imaging target zones. For example, estimating the P-wave quality factor along with P-wave velocity from full-waveform inversion is shown to change the estimation of mesoscale parameters significantly, assuming that the upscaling of the rock-physics model and the recovered macroscale parameters are well constrained. In addition, shear-wave information is shown to be crucial for pressure-saturation discrimination. The inferred information at the reservoir level, resulting from full-waveform inversion and subsequent mesoscale estimation, can be useful for reservoir characterization.
Plan de classementGéophysique interne [066]
LocalisationFonds IRD [F B010071202]
Identifiant IRDfdi:010071202
Lien permanenthttp://www.documentation.ird.fr/hor/fdi:010071202

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