Tag: Computer Modeling and Simulation
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Predicting how well a vaccine will work for you
A conventional approach to HIV vaccination does not induce immune responses in everyone equally, and a new computer model shows why.
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Opinion: Future aerospace enterprises will demand more advanced modeling and simulation
U-M Aerospace Engineering Professor Venkat Raman advocates for more versatile and powerful modeling tools to meet computational demands of next-generation aircraft design.
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Strong magnetic fields change how friction works in plasma
Rather than just slowing down a charged particle moving through a plasma, friction can also push from the side in a strong magnetic field.
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‘Doomsday Glacier’ may be more stable than initially feared
Study sheds light on the future of the massive Thwaites Glacier.
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How big data could optimize COVID-19 testing
Microsoft-supported project to coordinate site locations, supply distribution.
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Faster than COVID: a computer model that predicts the disease’s next move
Predictive model could help care providers stay safe, anticipate patient needs.
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Making wind power more predictable: A Q&A with Eunshin Byon
Predictive modeling could help power companies get more consistent output from renewables.
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Designing lightweight glass for efficient cars and wind turbines
Lighter, stiffer glass fibers could make composite materials thinner without sacrificing strength.
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U-M team to build synthetic neurons – first challenge in making synthetic cells
Seven U.S. research institutions look to build synthetic cells.
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Rewriting the rules for supercomputers
Machine learning will teach the world’s fastest machines to work smarter, not harder.
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Climate change: Why removing CO2 from the air isn’t enough
Switching to large scale renewable resources is the only way to curb extreme carbon capture costs.
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Toward protein nanomachines: just add charge
Added electrical charges can harness a protein’s shape and chemical properties to build interesting structures.