Rapid RTM Scenario Testing Improves Image Quality Beneath Salt
A new model building process delivers reliable high-quality images beneath very complex and rugose salt bodies such as those in the Gulf of Mexico and offshore Brazil.
Producing reliable images beneath salt bodies is a challenge. The distortions to the seismic wavefields, introduced by local subsurface complexities, are so great, that meaningful images are entirely dependent on our ability to create a velocity model that sufficiently represents the actual salt geometry. Any divergence from the geometry results in a very rapid deterioration of the image quality for all layers beneath it.
Scenario testing of different salt geometries has been employed for some time. This aims to speed-up the model building process and ensure rapid convergence towards the best subsurface image. PGS has further advanced the salt scenario testing technique with a highly efficient and interactive workflow that uses the most accurate Reverse Time Migration (RTM) imaging technology available to date.
Real-time Quality Control
The new workflow combines holoSeis 3D visualization and interpretation capabilities with some of the most advanced imaging technology. These include RTM True Amplitude Angle Azimuth Gathers (TA3GS) along with quantitative QC, to assess the seismic image quality iteratively throughout the velocity model building process. Locations of substantial image uncertainty, caused by variable subsurface illumination effects, will be identified. These areas can then be targeted for velocity model improvement, focusing salt scenario testing efforts on areas that have the biggest uplift potential.
Visit us at SEG booth #1034 to find out more about our imaging technology and the Santos Vision product.