Mitigating Sparse Acquisition Limitations with FWI Imaging for Shallow Hazard Detection in Suriname

M. Aquino; H. Prigent; N. Salaun; M. Pouget

doi:10.3997/2214-4609.2025642034

Mitigating Sparse Acquisition Limitations with FWI Imaging for Shallow Hazard Detection in Suriname
Authors M. Aquino¹, H. Prigent¹, N. Salaun¹ and M. Pouget¹
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¹ Viridien
Publisher: European Association of Geoscientists & Engineers
Source: Conference Proceedings, Second EAGE Data Processing Workshop, Oct 2025, Volume 2025, p.1 - 3
DOI: https://doi.org/10.3997/2214-4609.2025642034

Abstract

Summary

Dedicated high-resolution site surveys are required before drilling when available seismic data do not meet the requirements for shallow hazard (SHAZ) assessment. In this study, we consider a dataset from a conventional 3D towed streamer acquisition, designed for deep target imaging, and we analyze the potential of Full Waveform Inversion (FWI) to image the near surface for shallow hazard purposes. FWI imaging demonstrate that by increasing the maximum frequency to 80Hz, existing conventional 3D data can be used for SHAZ purpose. FWI image eases the delineation of gas pockets while its associated velocity enables to distinguish consolidated from non-consolidated near surface layers.

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2026-02-08

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References

Dinh, H., Latter, T., Townsend, M. and GrindeN., 2023, Dual-azimuth FWI Imaging and its potential in shallow hazard assessment. 84th EAGE Conference & Exhibition, Extended Abstract.
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Espin, I., Salaun, N., Jiang, H. and Reinier, M., 2023, From FWI to ultra-high-resolution imaging. The Leading Edge, 42(1), 306–313.
[Google Scholar]
Zhang, Z., Wu, Z., Wei, Z., Mei, J., Huang, R. and Wang, P., 2020, FWI Imaging: Full-wavefield imaging through full-waveform inversion. 90th SEG Annual Meeting, Expanded Abstracts, 656–660.
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Mitigating Sparse Acquisition Limitations with FWI Imaging for Shallow Hazard Detection in Suriname

Conference Proceedings 2025, 1 (2025); https://doi.org/10.3997/2214-4609.2025642034

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Mitigating Sparse Acquisition Limitations with FWI Imaging for Shallow Hazard Detection in Suriname

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