The traditional seismic processing and imaging workflow has been around for decades. It involves the testing and application of dozens of processing steps such as deghosting, designature, demultiple and regularisation,…

DUG MP-FWI Imaging delivers unsurpassed imaging using raw field data as input. It simultaneously solves the challenges of a complex pre-processing and imaging workflow, while removing assumptions. Least-squares imaging of…

Resolving subtle structural and stratigraphic features in land seismic datasets is an arduous task for conventional processing and imaging workflows. In the examples above DUG MP-FWI Imaging has produced a…

Shallow-water environments are notoriously challenging for conventional processing workflows due to the presence of strong, short-period multiples that obscure primary signal. Limitations in common multiple-prediction schemes often result in derived…

Resolving illumination issues caused by complex salt bodies has been a persistent geophysical challenge. DUG MP-FWI Imaging uses all parts of the scattered wavefield to reconstruct the reflectivity and kinematic…

DUG MP-FWI Imaging is not just a solution for modern acquisition. It’s not just for high-density, full-azimuth, long-offset data. While modern acquisition has many benefits, significant uplift can still be…

Quantitative interpretation requires true amplitudes and high signal-to-noise ratio. DUG MP-FWI Imaging delivers superior pre-stack reflectivity outputs for both AVA analysis, and, elastic rock property and fluid prediction—directly from field…