All News
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Mcity opens for remote testing of autonomous vehicle technologies, calls for federal standards
The opening coincides with a new industry partnership project announced at the NVIDIA AI Summit.
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Keeping drugs on the job
Computer simulations developed at the University of Michigan reveal how well drug additives stop the active ingredients from crystallizing in the digestive tract.
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Ultrashort light pulses for fast “lightwave” computers
Extremely short, configurable “femtosecond” pulses of light demonstrated by an international team could lead to future computers that run up to 100,000 times faster than today’s electronics.
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Sonic cyber attacks show security holes in ubiquitous sensors
Michigan Engineering researchers discuss and demonstrate the sound-based attacks they leveled at the accelerometers found in everyday electronics.
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Wellman participates in AI doomsday prevention workshop
Michael Wellman, a U-M Engineering professor, recently took part in a workshop to anticipate and prevent possible adverse outcomes of artificial intelligence.
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A smarter way to design rocket engines that don’t blow up
Researchers seek to understand a problem that has haunted the space program since Apollo: a flame inside the rocket engine that literally spirals out of control.
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Lasers can detect weapons-grade uranium from afar
Researchers have shown that a technique often used to identify chemicals at a distance could help sniff out illicit nuclear activities from as far as a couple miles away.
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Analog to digital: The Ford Foundation computer project
Donald Katz, professor and chair of the chemical and metallurgical engineering department from 1951-62, took the College from analog to digital solutions.
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Tim Bruns receives NSF CAREER Award
Tim Bruns, U-M assistant professor of biomedical engineering, has received a National Science Foundation Faculty Early Career Development (CAREER) Award.
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Mortimer Cooley: More than a mustache
The top 20 things everyone needs to know about the grand old man of Michigan Engineering.
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Most complex nanoparticle crystal ever made by design
Extraordinary nanoparticle crystals are possible by harnessing particle shape in addition to using DNA as smart glue.