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Geoscience Visual Presentation G11: From raw seismic data to quantitative interpretation via cloud-based FWI

Henry A. Debens https://orcid.org/0000-0002-2751-0196 A *
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A Woodside Energy Group Ltd, Perth, WA, Australia.




Henry Debens has been working as a Geophysicist at Woodside Energy since 2016, primarily in the Technology & Innovation group and lately as part of the Global Wells & Seismic group. He joined Woodside after completing an MSci in geophysics and a PhD in petroleum geophysics at Imperial College London. Henry’s work involves all aspects of the seismic data life cycle, with projects ranging from acquisition through to interpretation, but chiefly concerns the development and application of novel approaches to seismic imaging and inversion.

* Correspondence to: henry.debens@woodside.com

Australian Energy Producers Journal 64 https://doi.org/10.1071/EP23424
Published: 7 June 2024

© 2024 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of Australian Energy Producers.

Abstract

Geoscience Visual Presentation G11

Full-waveform inversion (FWI) has evolved in recent years from a technique for recovering long- to intermediate-wavelength updates of acoustic overburden velocities as part of a broader model building workflow to a standalone tool for high-fidelity seismic imaging using raw seismic data – with ever greater resolution and ever more sophisticated physics being sought. In doing so, it has moved notably closer to fulfilling the vision of its original inventors in the late 70s and early 80s. In this work, two novel approaches to FWI along with enabling technologies for their effective deployment are considered. The first of these allows for robust long-wavelength updates to be generated from raw seismic data in the absence of diving wave energy, providing reliable estimates of acoustic velocity at depths equivalent to or greater than the longest offsets available in the data – thereby enabling more effective imaging with data of limited quality. The second allows for the estimation of elastic amplitude-versus-angle behaviour while still using an acoustic wave equation, thereby mitigating the significant computational burden typically associated with elastic FWI. Finally, it is demonstrated that these approaches can be deployed in a reliable and cost-effective manner via the considered use of public cloud resources, with learnings relevant for analogous massively parallel scientific applications. Case studies from two marine environments are provided for discussion, one being from deep-water US Gulf of Mexico and the other from intermediate water depths offshore Western Australia.

To access the Visual Presentation click the link on the right. To read the full paper click here

Keywords: AVA, compression, FWI, HPC, public cloud, quantitative interpretation, seismic imaging.

Biographies

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Henry Debens has been working as a Geophysicist at Woodside Energy since 2016, primarily in the Technology & Innovation group and lately as part of the Global Wells & Seismic group. He joined Woodside after completing an MSci in geophysics and a PhD in petroleum geophysics at Imperial College London. Henry’s work involves all aspects of the seismic data life cycle, with projects ranging from acquisition through to interpretation, but chiefly concerns the development and application of novel approaches to seismic imaging and inversion.