Decoupled Latent Optimization of Diffusion Models for Full Waveform Inversion
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Computer Science > Machine Learning
Title:Decoupled Latent Optimization of Diffusion Models for Full Waveform Inversion
Abstract:Full waveform inversion (FWI) recovers subsurface velocity from seismic recordings by solving a severely ill-posed, nonconvex PDE-constrained optimization. Classical regularizers stabilize the inversion but fail to reproduce realistic geological structures; recent diffusion-prior methods improve realism at the cost of a fragile trade-off between data fidelity and prior consistency. We propose Decoupled Latent Optimization (DLO), which relaxes the standard latent-optimization formulation into a quadratic-penalty objective over an auxiliary physical variable and a latent variable. The data-fidelity gradient acts in physical space, the diffusion sampler contributes only through a decoded prior sample, and the standard smoothed-velocity initialization of classical FWI is preserved. On the OpenFWI benchmark, DLO outperforms classical regularizers and existing diffusion-based methods under clean, noisy, and missing-trace acquisitions. The prior, trained on 70*70 OpenFWI models, transfers directly to the Marmousi and Overthrust benchmarks, where DLO recovers intricate fault structures and remains robust to initialization smoothing and measurement noise.
| Comments: | 35 pages, 14 figures |
| Subjects: | Machine Learning (cs.LG) |
| Cite as: | arXiv:2606.14139 [cs.LG] |
| (or arXiv:2606.14139v1 [cs.LG] for this version) | |
| https://doi.org/10.48550/arXiv.2606.14139
arXiv-issued DOI via DataCite (pending registration)
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