WISE: full-Waveform variational Inference via Subsurface Extensions
| Title | WISE: full-Waveform variational Inference via Subsurface Extensions |
| Publication Type | Journal Article |
| Year of Publication | 2024 |
| Authors | Ziyi Yin, Rafael Orozco, Mathias Louboutin, Felix J. Herrmann |
| Journal | Geophysics |
| Month | 04 |
| Keywords | Amortized Variational Inference, Bayesian inference, CIG, conditional normalizing flows, deep learning, FWI, Geophysics, Imaging, Inverse problems, MVA, RTM, Summary Statistics, Uncertainty quantification, WISE |
| Abstract | We introduce a probabilistic technique for full-waveform inversion, employing variational inference and conditional normalizing flows to quantify uncertainty in migration-velocity models and its impact on imaging. Our approach integrates generative artificial intelligence with physics-informed common-image gathers, reducing reliance on accurate initial velocity models. Considered case studies demonstrate its efficacy producing realizations of migration-velocity models conditioned by the data. These models are used to quantify amplitude and positioning effects during subsequent imaging. |
| Notes | (GEOPHYSICS) |
| URL | https://slim.gatech.edu/Publications/Public/Journals/Geophysics/2024/yin2023wise/paper.html |
| DOI | 10.1190/geo2023-0744.1 |
| Citation Key | yin2023wise |