Sparsity- and continuity-promoting seismic image recovery with curvelet frames
Title | Sparsity- and continuity-promoting seismic image recovery with curvelet frames |
Publication Type | Journal Article |
Year of Publication | 2008 |
Authors | Felix J. Herrmann, Peyman P. Moghaddam, Christiaan C. Stolk |
Journal | Applied and Computational Harmonic Analysis |
Volume | 24 |
Pagination | 150-173 |
Month | 03 |
Keywords | curvelet transform, Imaging, Processing, SLIM |
Abstract | A nonlinear singularity-preserving solution to seismic image recovery with sparseness and continuity constraints is proposed. We observe that curvelets, as a directional frame expansion, lead to sparsity of seismic images and exhibit invariance under the normal operator of the linearized imaging problem. Based on this observation we derive a method for stable recovery of the migration amplitudes from noisy data. The method corrects the amplitudes during a post-processing step after migration, such that the main additional cost is one ap- plication of the normal operator, i.e. a modeling followed by a migration. Asymptotically this normal operator corresponds to a pseudodifferential operator, for which a convenient diagonal approximation in the curvelet domain is derived, including a bound for its error and a method for the estimation of the diagonal from a compound operator consisting of discrete implementations for the scattering operator and its adjoint the migration operator. The solution is formulated as a nonlinear optimization problem where sparsity in the curvelet domain as well as continuity along the imaged reflectors are jointly promoted. To enhance sparsity, the $ell_1$-norm on the curvelet coefficients is minimized, while continuity is promoted by minimizing an anisotropic diffusion norm on the image. The performance of the recovery scheme is evaluated with a time-reversed ’wave-equation’ migration code on synthetic datasets, including the complex SEG/EAGE AA salt model. |
URL | https://slim.gatech.edu/Publications/Public/Journals/ACHA/2008/herrmann2008ACHAsac/herrmann2008ACHAsac.pdf |
DOI | 10.1016/j.acha.2007.06.007 |
Citation Key | herrmann2008ACHAsac |