1 / 59

Wavefield Extrapolation for Migration and Velocity Analysis

This paper explores the use of wavefield extrapolation for migration and velocity analysis in complex geology, with a focus on complex illumination and distance-depth relationships. The objective is to improve imaging methods using wavefield extrapolation techniques.

ralmeida
Download Presentation

Wavefield Extrapolation for Migration and Velocity Analysis

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. paul.sava@stanford.edu

  2. Migration and velocity analysis by wavefield extrapolation Paul Sava paul.sava@stanford.edu

  3. Complex geology distance depth paul.sava@stanford.edu

  4. Complex illumination distance depth paul.sava@stanford.edu

  5. Complex wavefields distance depth paul.sava@stanford.edu

  6. Imaging methods overview paul.sava@stanford.edu

  7. Focus of my thesis paul.sava@stanford.edu

  8. Imaging by wavefield extrapolation distance distance depth paul.sava@stanford.edu

  9. Outline Wave-equation migration velocity analysis Operator Image perturbation Example Riemannian wavefield extrapolation paul.sava@stanford.edu

  10. The problem distance depth paul.sava@stanford.edu

  11. Objective function distance WEMVA operator Image perturbation Slowness perturbation depth paul.sava@stanford.edu

  12. Traveltime MVA t: traveltime s: slowness T: operator Wave-equation MVA I: image s: slowness L: operator Comparison of MVA methods paul.sava@stanford.edu

  13. Outline Wave-equation migration velocity analysis Operator Image perturbation Example Riemannian wavefield extrapolation paul.sava@stanford.edu

  14. Requirements WEMVA operator • Image-slowness relation • Wavefield extrapolation • Use the entire image • Linear operator • Cost-effective optimization paul.sava@stanford.edu

  15. Downward continuation WEMVA operator z z+Dz Phase-shift operator paul.sava@stanford.edu

  16. Downward continuation linearization WEMVA operator z z+Dz linear nonlinear paul.sava@stanford.edu

  17. Scattering operator WEMVA operator Wavefield perturbation Slowness perturbation linear nonlinear paul.sava@stanford.edu

  18. WE MVA operator WEMVA operator Image perturbation Slowness perturbation paul.sava@stanford.edu

  19. WE MVA operator example WEMVA operator Slowness perturbation Slowness perturbation Background slowness Background wavefield Forward operator Adjoint operator Wavefield perturbation Wavefield perturbation paul.sava@stanford.edu

  20. WE MVA operator example WEMVA operator Forward operator Adjoint operator paul.sava@stanford.edu

  21. Traveltime MVA Ray paths Infinite frequency band Unstable for sharp contrasts Large shadow zones Wave-equation MVA Wave paths Finite frequency band Stable for sharp contrasts Small shadow zones Sensitivity kernels Sensitivity kernels paul.sava@stanford.edu

  22. Wavepaths gallery Sensitivity kernels distance depth paul.sava@stanford.edu

  23. Multiple wavepaths Sensitivity kernels distance depth paul.sava@stanford.edu

  24. Frequency dependence Sensitivity kernels distance depth paul.sava@stanford.edu

  25. Outline Wave-equation migration velocity analysis Operator Image perturbation Example Riemannian wavefield extrapolation paul.sava@stanford.edu

  26. Requirements Image perturbation • Use image information • Fast and robust • Interpretive control • Consistent with the operator paul.sava@stanford.edu

  27. Focusing information Image perturbation distance depth paul.sava@stanford.edu

  28. Moveout information Image perturbation distance angle depth paul.sava@stanford.edu

  29. Residual migration Image perturbation distance angle depth Residual migration operator paul.sava@stanford.edu

  30. Residual migration linearization Image perturbation distance angle depth nonlinear linear paul.sava@stanford.edu

  31. Linear residual migration operator Image perturbation Image perturbation Ratio perturbation nonlinear linear paul.sava@stanford.edu

  32. WEMVA algorithm Construct an image perturbation Invert for a slowness perturbation paul.sava@stanford.edu

  33. WEMVA flowchart Slowness Slowness perturbation Data Image Image perturbation paul.sava@stanford.edu

  34. Outline Wave-equation migration velocity analysis Operator Image perturbation Example Riemannian wavefield extrapolation paul.sava@stanford.edu

  35. Background slowness WEMVA example Slowness Slowness perturbation Data Image perturbation Image paul.sava@stanford.edu

  36. Background image WEMVA example Slowness Slowness perturbation Data Image perturbation Image paul.sava@stanford.edu

  37. Background image WEMVA example Slowness Slowness perturbation Data Image perturbation Image paul.sava@stanford.edu

  38. Residual migration WEMVA example Slowness Slowness perturbation Data Image perturbation Image paul.sava@stanford.edu

  39. Residual migration WEMVA example Slowness Slowness perturbation Data Image perturbation Image paul.sava@stanford.edu

  40. Image perturbation WEMVA example Slowness Slowness perturbation Data Image perturbation Image paul.sava@stanford.edu

  41. Slowness perturbation WEMVA example Slowness Slowness perturbation Data Image perturbation Image paul.sava@stanford.edu

  42. Slowness update WEMVA example Slowness Slowness perturbation Data Image perturbation Image paul.sava@stanford.edu

  43. Image update WEMVA example Slowness Slowness perturbation Data Image perturbation Image paul.sava@stanford.edu

  44. Image quality WEMVA example Slowness Slowness perturbation Data Image perturbation Image paul.sava@stanford.edu

  45. Outline Wave-equation migration velocity analysis Operator Image perturbation Example Riemannian wavefield extrapolation paul.sava@stanford.edu

  46. Downward continuation Wavefield extrapolation distance depth paul.sava@stanford.edu

  47. Downward continuation limitation Wavefield extrapolation distance depth paul.sava@stanford.edu

  48. Downward continuation limitation Wavefield extrapolation distance depth paul.sava@stanford.edu

  49. Riemannian wavefield extrapolation Wavefield extrapolation • One-way wavefield extrapolation • Generalized coordinate system • Based on wave propagation • Based on acquisition geometry • … • Imaging applications: • Overturning waves • Steep dips • … paul.sava@stanford.edu

  50. Space-domain: velocity Wavefield extrapolation distance depth paul.sava@stanford.edu

More Related