@coschoolofmines geophysics dept. to, “…focus on high-performance computing, machine learning and Big Data analytics” — John Bradford

Graphic via wamda

From E&P Hart Energy (Rhonda Duey):

Bradford gave a presentation at the recent Society of Exploration Geophysicists (SEG) annual meeting about his vision, and he said it was very similar to the presentation he was asked to give when he applied for the job at Mines. Apparently, it was a meeting of the minds.

So what do 21st century geophysicists look like? They need to be ready to solve some of society’s “grand challenges.” Largely, that means population growth. The world’s population is headed toward about 9 billion people by 2050, mostly in less-developed countries, Bradford said. A number of issues stem from this. How can geophysics help? Firstly, Bradford noted the correlation between the consumption of energy and the quality of life.

Secondly, there’s the issue of water. Much of Asia, in particular, is estimated to be living in river basins under severe water stress by 2050. And climate change is also a concern, with ExxonMobil going on the record as saying, “The risk is real, and appropriate steps should be taken to address that risk.” Geophysicists can help the world understand and monitor the earth’s response to climate change. Bradford noted examples like the Sleipner Field in Norway, where CO2 is being sequestered, and the ability to understand climate change through glacier hydrology such as the work being done in the Bench Glacier in Alaska. Through techniques like prestack depth migration and tomography of radar data as well as studies of fracture-induced seismic anisotropy, effects like water distribution and stress fields are better understood.

Finally, programs like the SEG’s Geoscientists Without Borders have been involved in several successful campaigns to help water-stressed areas tap into new sources of groundwater.

One of the surprises for Bradford was the renewed emphasis the department was placing on innovative computation. “My focus was on the application side and increasing diversity in the department,” he said. “But the department was also thinking about completely revising the curriculum with a focus on high-performance computing, machine learning and Big Data analytics.” This is the direction the industry is headed, he said, and Mines plans to be at the cutting edge.

Other technology trends will include robotics and distributed networks for data acquisition as well as space-borne remotely sensed data with terrestrial-based information, he said. And future work for geophysicists will include geology; hydrology; petroleum engineering; civil and environmental engineering; physics, chemistry and materials science; chemical and electrical engineering; and computer science and applied math.

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