In blended seismic acquisition incoherent source arrays are used to generate the seismic response. The blended shot records can be directly fed into a shot record migration scheme with a more advanced imaging condition. Blended shot records can also be simulated in the processing phase. In the extreme case a 3D wide-azimuth seismic survey may be represented by one single shot record. This opens the possibility of interactive full wavefield seismic migration
The quality and business aspects are both of particular importance in determining the type of seismi...
Seismic imaging is one of the most common geophysical techniques for hydrocarbon exploration. Seismi...
Blending is a recent seismic acquisition design, which allows seismic shots to interfere. Current pr...
In blended seismic data acquisition, the blended source wavefield should be designed in such a way t...
In current seismic acquisition, the firing times between shots is sufficiently large to avoid tempor...
In blended seismic acquisition, or simultaneous source seismic acquisition, source encoding is essen...
This paper focuses on the concept of using blended data and multiple scattering directly in the migr...
In traditional seismic surveys, the firing time between shots is such that the shot records do not i...
A marine seismic method based on continuous source and receiver wavefields has been developed. The m...
Seismic imaging based on single-scattering approximation is based on analysis of the match between t...
Seismic imaging based on single-scattering approximation is in the analysis of the match between th...
Blended source and/or simultaneous source acquisition for multi-offset and multi-azimuth VSP measure...
For vertical-seismic-profiling (VSP) measurements, the use of blended acquisition, with time-overlap...
Imaging under the single-scattering approximation consists of two steps: wave-field reconstruction o...
Frequency-domain shot-record migration can produce higher quality images than Kirchhoff migration bu...
The quality and business aspects are both of particular importance in determining the type of seismi...
Seismic imaging is one of the most common geophysical techniques for hydrocarbon exploration. Seismi...
Blending is a recent seismic acquisition design, which allows seismic shots to interfere. Current pr...
In blended seismic data acquisition, the blended source wavefield should be designed in such a way t...
In current seismic acquisition, the firing times between shots is sufficiently large to avoid tempor...
In blended seismic acquisition, or simultaneous source seismic acquisition, source encoding is essen...
This paper focuses on the concept of using blended data and multiple scattering directly in the migr...
In traditional seismic surveys, the firing time between shots is such that the shot records do not i...
A marine seismic method based on continuous source and receiver wavefields has been developed. The m...
Seismic imaging based on single-scattering approximation is based on analysis of the match between t...
Seismic imaging based on single-scattering approximation is in the analysis of the match between th...
Blended source and/or simultaneous source acquisition for multi-offset and multi-azimuth VSP measure...
For vertical-seismic-profiling (VSP) measurements, the use of blended acquisition, with time-overlap...
Imaging under the single-scattering approximation consists of two steps: wave-field reconstruction o...
Frequency-domain shot-record migration can produce higher quality images than Kirchhoff migration bu...
The quality and business aspects are both of particular importance in determining the type of seismi...
Seismic imaging is one of the most common geophysical techniques for hydrocarbon exploration. Seismi...
Blending is a recent seismic acquisition design, which allows seismic shots to interfere. Current pr...
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