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ARTICLES
Data-parallel wave equation datuming with irregular acquisition
topography
Data-parallel wave equation
datuming with irregular acquisition topography Dimitri Bevc
Seismic data gathered on land is distorted by irregular acquisition
topography. Seismic imaging algorithms are generally applied
to data which is redatumed to a planar surface. In regions
of mild topography where the near surface velocity is much
slower than the subsurface velocity, a static shift is adequate
for this transformation. However, when the necessary shift
increases in magnitude and when the near surface velocity
is not much slower than the subsurface velocity, the static
approximation becomes inadequate. Under these circumstances
static shift distorts the wave field and degrades velocity
analysis and imaging. In this case wave equation datuming
is more appropriate than static shift.
Wave equation datuming
is much more computation intensive than static shift and is
therefore seldom applied. Furthermore, redatuming may involve
multiple applications of the datuming routine to estimate
the near surface velocity structure. I implement a data parallel
wave equation datuming algorithm which can be applied to land
data as an alternative to static shift in order to improve
velocity analysis and imaging and to estimate near surface
velocity structure. The Kirchhoff algorithm is efficiently
implemented on a Connection Machine CM5 and makes wave equation
datuming practical.
63rd Ann. Internat. Mtg.,
Soc., Expl. Geophys., Expanded Abstracts, 197-200, (1993)
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