Only the second from UH to receive this top honor, Innanen was given the Karcher award to recognize his significant contributions as a young geophysicist of outstanding abilities under the age of 35.

"He has developed algorithms to locate petroleum targets and create high-resolution pictures of the Earth's subsurface without any prior knowledge about what lies above the target," said Cullen Distinguished Professor of Physics Arthur Weglein. "It has been my good fortune to have the opportunity to work with many outstanding colleagues and students over the years, and Kris Innanen has both led and made tremendous individual contributions to the history of high-impact fundamental seismic research."

This is the second year in a row that a researcher from the UH Mission-Oriented Seismic Research Program (M-OSRP) under the direction of Weglein has been selected for the Karcher for innovations in seismic technology in oil and gas exploration. Last year, Simon A. Shaw, a 2005 UH geosciences Ph.D. graduate, was the recipient.

Specifically, Innanen was recognized for his work on the development and implementation of algorithms that process reflection seismic data. The goal of this research is to pinpoint the location of potential hydrocarbon targets beneath the Earth's surface, particularly when there is little accurate prior knowledge about the subsurface and when the medium is structurally complex.

"We are making progress and are very encouraged with these prototype algorithms, whose potential is to act in complex regions and regions that are difficult to characterize," Innanen said.

"Since these algorithms are all very non-linear - in that they essentially involve the measured data being repeatedly multiplied by themselves - it has become useful in our group to think of the processing as 'data talking to data.'

Whether we're working on extending and implementing multiple removal algorithms or developing algorithms for locating and resolving subsurface structure, at the end of the day, the fascination lies in understanding the inter-data conversations and separating out the ones for the job at hand."

Previous work by Weglein and his students and collaborators involved developing algorithms that make it possible to eliminate multiples - a form of coherent noise - from seismic data and to locate and determine subsurface structure in the absence of a velocity model. The algorithms for removing multiples are considered the most comprehensive and effective now in use throughout the industry.

"Kris Innanen has contributed to this technical campaign since his graduate student days and postdoctoral fellowship at the University of British Columbia, as well as for the past year as a new faculty member of the UH physics department and M-OSRP," Weglein said.

"He has advanced the concept, algorithmic development and depth-imaging capability for processing primaries to accommodate a larger contrast between the actual earth and a chosen reference medium. This is a significant accomplishment and important milestone toward field data application."

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