Migration of viscoacoustic data using acoustic reverse time migration with hybrid deblurring filters
KAUST DepartmentCenter for Subsurface Imaging and Fluid Modeling
Earth Science and Engineering Program
Physical Science and Engineering (PSE) Division
Online Publication Date2019-03-12
Print Publication Date2019-05
Permanent link to this recordhttp://hdl.handle.net/10754/631785
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AbstractViscoacoustic migration can significantly compensate for the amplitude loss and phase distortion in migration images computed from highly attenuated data. However, solving the viscoacoustic wave equation requires a significant amount of storage space and computation time, especially for least-squares migration methods. To mitigate this problem, we use acoustic reverse time migration (RTM) instead of viscoacoustic migration to migrate the viscoacoustic data, and then correct the amplitude and phase distortion by hybrid deblurring filters in the image domain. Numerical tests on synthetic and field data demonstrate that acoustic RTM combined with hybrid deblurring filters can compensate for the attenuation effects and produce images with high resolution and balanced amplitudes. This procedure requires less than 1/3 of the storage space and N/2 of the computation time compared to the viscoacoustic migration. Here the N indicates the iteration number of the least-square migration method. This procedure can be extended to 3D migration at even a greater cost saving.
CitationChen, Y., & Schuster, G. (2018). Migration of Viscoacoustic Data Using Acoustic Reverse Time Migration with Hybrid Deblurring Filters. First EAGE/SBGf Workshop on Least-Squares Migration. doi:10.3997/2214-4609.201803070
SponsorsWe thank the sponsors of the CSIM consortium, the KAUST Supercomputing Laboratory and IT Research Computing Group.
Conference/Event name1st EAGE/SBGf Workshop on Least-Squares Migration