Learned non-linear simultenous source and corresponding supershot for seismic imaging.
| Title | Learned non-linear simultenous source and corresponding supershot for seismic imaging. |
| Publication Type | Conference |
| Year of Publication | 2023 |
| Authors | Mathias Louboutin, Rafael Orozco, Ali Siahkoohi, Felix J. Herrmann |
| Conference Name | International Meeting for Applied Geoscience and Energy |
| Month | 08 |
| Keywords | deep learning, Imaging, SEG, simultaneous |
| Abstract | Seismic imaging's main limiting factor is the scale of the involved dataset and the number of independent wave-equation solves required to migrate thousands of shots. To tackle this dimensionality curse, we introduce a learned framework that extends the conventional computationally reductive linear source superposition (e.g., via random simultaneous-source encoding) to a nonlinear learned source superposition and its corresponding learned supershot. With this method, we can image the subsurface at the cost of a one-shot migration by learning the most informative superposition of shots. |
| Notes | (IMAGE, Houston) |
| URL | https://slimgroup.github.io/IMAGE2023/OneShot/abstract.html |
| Presentation | |
| Citation Key | louboutin2023IMAGEloi |