Full waveform inversion of simultaneous long-offset data

Nizar Chemingui; Alejandro A. Valenciano; Andrew Long

doi:10.1080/22020586.2019.12072932

2nd Australasian Exploration Geoscience Conference: Data to Discovery

ISSN: 2202-0586
E-ISSN:

oa Full waveform inversion of simultaneous long-offset data
Authors Nizar Chemingui^a, Alejandro A. Valenciano^b and Andrew Long^c
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^a PGS, 15375 Memorial Drive, Suite 100 Houston, , TX, 77079, , USA, [email protected] ^b PGS, 15375 Memorial Drive, Suite 100 Houston, , TX, 77079, , USA, [email protected] ^c PGS Level 4, IBM Centre, , 1060 Hay Street West Perth, , WA, 6005, , Australia, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2019, Issue 2nd Australasian Exploration Geoscience Conference: Data to Discovery, Dec 2019, p. 1 - 6
DOI: https://doi.org/10.1080/22020586.2019.12072932
- Published online: 01 Dec 2019

Abstract

Summary

The standard workflow for velocity model building (VMB) in complex regimes is an interpretive process that requires time-consuming manual intervention, and remains an error-prone process that can produce suboptimal results. We discuss an application of Full Waveform Inversion (FWI) to automate the refinement of legacy velocity models generated by conventional workflows. We demonstrate our solution on a full-azimuth (FAZ) survey acquired in the Gulf of Mexico using dual-sensor streamers and blended sources in the form of simultaneous long-offsets (SLO). The dual-sensor acquisition provides low-frequency data, while the SLO configuration enables the recording of long offsets in excess of 16 km; thereby providing a unique dataset to meet the traditional data dependencies for robust FWI stability. The long offsets and low frequencies were key to using both refractions and reflections to update the deeper parts of the velocity model. Our solution directly inverts the simultaneous data as acquired in the field, and is particularly relevant to the industry growth in blended seismic data acquisition. We also employed an FWI velocity gradient that eliminates the migration isochrones; thereby removing the reflectivity imprint from the model updates. The FWI application to the field survey successfully refined the geometry of the salt bodies, including the base salt and the intra-salt enclosures. It also improved the RTM image; particularly the salt flanks and the subsalt reflectors.

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References

Dellinger, J., Ross, A., Meaux, D., Brenders, A., Gesoff, G., Etgen, J., Naranjo, J., Openshaw, G., and Harper, M., 2016, Wolfspar, an ‘FWI-friendly’ ultralow-frequency marine seismic source: 86th Meeting, SEG, Dallas, Expanded Abstracts, 4891-4895.
Long, A., Campbell, S., Fishburn, S., Brandsberg-Dahl, S., Chemingui, N., and Dirks, V., 2014, No-compromise marine seismic: A full-azimuth survey design for total-wavefield velocity model building and imaging in the deep-water Gulf of Mexico: 84th Meeting, SEG, Denver, Expanded Abstracts, 52-56.
Ramos-Martinez, J., Crawley, S., Kelly, S., and Tsimelzon, B., 2011, Full-waveform inversion by pseudo-analytic extrapolation: 81st Meeting, SEG, San Antonio, Expanded Abstracts, 2684-2688.
Ramos-Martinez, J., Crawley, S., Zou, Z., Valenciano, A.A., Qiu, L. and Chemingui, N., 2016, A robust gradient for long wavelength FWI updates: 76th Meeting, EAGE, Vienna, Extended Abstracts, Th SRS2 03.
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Tarantola, A., 1984, Inversion of seismic reflection data in the acoustic approximation: Geophysics, 49, 8, 1259-1266.
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/content/journals/10.1080/22020586.2019.12072932

Article Type: Research Article

Keyword(s): FWI; long offset; seismic imaging; simultaneous shooting; velocity model building

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