Better Seismic Imaging
The economic value to the oil industry of 3D seismic imaging is approximately $11 billion
annually. How accurately seismic imaging can be done depends on both the quality of the
sensing equipment, but also very much on the effectiveness of the mathematical algorithms
that are used. Hence it is an important event when seismic imaging algorithms are improved.
|Data: 80% missing traces
In 2004, the Institute for Pure and Applied Mathematics held a 3-month program on “
Multiscale Geometry and Analysis in High Dimensions.” This program assembled a diverse group
of participants, including Emmanuel Candes (Mathematics), David Donoho (Statistics), Terry Tao
(Mathematics), Michael Elad (Computer Science), Jean-Luc Starck (Astrophysics), Justin Romberg
(Mathematics) and Felix Herrmann (Geosciences) and Herrmann’s graduate student Peyman Moghaddan.
During the program, important mathematical progress was made by a group led by Candes and Tao
that enabled new nonlinear techniques in stable data recovery from incomplete data.
A major problem in seismic imaging is recovery from incomplete data. Felix Herrmann of
the University of British Columbia together with collaborators including graduate student Gilles Hennenfent
pioneered several new seismic imaging techniques inspired by this mathematical breakthrough. The mathematics
is quite sophisticated, capitalizing on the compression of seismic imaging data in the
curvelet domain, but the resulting algorithms are highly practical. Indeed, the
technique works when as many as 85% of the traces are missing. An interdisciplinary
team headed by Herrmann (Geosciences), Michael Friedlander (Computer Science) and Ozgur
Yilmaz (Mathematics) is now engaged in developing and implementing these techniques on a
project “Dynamic Nonlinear Optimization for Imaging in Seismic Exploration.” DNOISE, together
with a related project SINBAD of Herrmann’s group, has received $1.65 million in funding in a
dollar for dollar NSERC-private industry collaborative research and development matching grant.
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