Abstract
It is well known that high impedance contrasts between salt bodies and their surroundings yield blurriness in seismic images which does not allow adequate interpretation; some of the artifacts generated by this process are multiple reflections and diffractions. In this work we propose a novel method of detection and attenuation of multiples from seismic gathers which is based on pattern recognition and fuzzy logic. In order to corroborate the effectiveness of this new approach, we use synthetic models which mimic a region intensely affected by salt tectonics in deep-water Gulf of Mexico. We obtained synthetic seismic sections by simulating wave propagation with an FDTD–CPML formulation. Detection of seismic events is performed through the mapping of parabolic shapes in shot gathers that approximate the recorded wavefronts. Undesired multiple events are then surgically attenuated by using fuzzy threshold criteria. Results show an optimal attenuation of multiple events, even when they are not directly related to salt structures.
Original language | English |
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Pages (from-to) | 2411-2424 |
Number of pages | 14 |
Journal | Pure and Applied Geophysics |
Volume | 176 |
Issue number | 6 |
DOIs | |
State | Published - 1 Jun 2019 |
Keywords
- CPML
- FDTD
- Seismic multiples
- membership functions
- multiple attenuation
- pattern recognition
- wave propagation