Converted-phase Seismic Imaging - Amplitude-balancing Source-independent Imaging Conditions

A.H. Shabelansky; A.E. Malcolm; M.C. Fehler

doi:10.3997/2214-4609.201412937

Converted-phase Seismic Imaging - Amplitude-balancing Source-independent Imaging Conditions
Authors A.H. Shabelansky¹, A.E. Malcolm², M.C. Fehler¹
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Affiliations: ¹ Massachusetts Institute of Technology ² Memorial University of Newfoundland
Publisher: European Association of Geoscientists & Engineers
Source: Conference Proceedings, 77th EAGE Conference and Exhibition 2015, Jun 2015, Volume 2015, p.1 - 5
DOI: https://doi.org/10.3997/2214-4609.201412937

Abstract

Summary

We present cross-correlational and de-convolutional forms of a source-independent converted-phase imaging condition (SICP-IC) and show comparisons between them using the synthetic Marmousi model. The results show significant improvements in spatial resolution and amplitude-balancing with the deconvolutional forms. This opens up the possibility of true-amplitude full-wavefield imaging with enormous advantages in processing time and cost by using source-independent imaging compared to conventional source-dependent imaging.

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2015-06-01

2024-04-19

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References

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[Google Scholar]
Shabelansky, A. H.
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Shang, X., M.de Hoop, and R.van der Hilst
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Converted-phase Seismic Imaging - Amplitude-balancing Source-independent Imaging Conditions

Conference Proceedings 2015, 1 (2015); https://doi.org/10.3997/2214-4609.201412937

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Converted-phase Seismic Imaging - Amplitude-balancing Source-independent Imaging Conditions

Abstract

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The natural combination of full and image‐based waveform inversion

Poststack diffraction imaging using reverse‐time migration

Characterizing the effect of elastic interactions on the effective elastic properties of porous, cracked rocks

Fracture detection by Gaussian beam imaging of seismic data and image spectrum analysis

Laboratory measurements of guided‐wave propagation within a fluid‐saturated fracture