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The format was originally developed in 1973 to store single-line seismic reflection digital data on magnetic tapes.The specification was published in 1975. [1]The format and its name evolved from the SEG "Ex" or Exchange Tape Format.
Reflection seismology, more commonly referred to as "seismic reflection" or abbreviated to "seismic" within the hydrocarbon industry, is used by petroleum geologists and geophysicists to map and interpret potential petroleum reservoirs. The size and scale of seismic surveys has increased alongside the significant increases in computer power ...
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Seismic wide-angle reflection and refraction is a technique used in geophysical investigations of Earth's crust and upper mantle.It allows the development of a detailed model of seismic velocities beneath Earth's surface well beyond the reach of exploration boreholes.
Shell Processing Support data format was initially defined and used by Shell Internationale Petroleum for transferring of seismic and positioning data to the processing centres. In 1993 SEG Technical standards committee on ancillary data formats adopted SPS as the standard format for exchanging Geophysical positioning data.
Seismic reflection is a sound wave bounced back from subsurface at the interface between media with different acoustic properties (density and wave velocity). [3] In geology, the reflections normally occur at the contacts between different rocks, for example, between layers of sedimentary rocks (stratification).
In reflection seismology, a seismic attribute is a quantity extracted or derived from seismic data that can be analysed in order to enhance information that might be more subtle in a traditional seismic image, leading to a better geological or geophysical interpretation of the data. [1]
Modern seismic reflection surveys are designed and acquired in such a way that the same point on the subsurface is sampled multiple times, with each sample having a different source and receiver location. The seismic data is then carefully processed to preserve seismic amplitudes and accurately determine the spatial coordinates of each sample.