Results come from a new mathematical study led by researchers at two University of Colorado campuses, who explore what it might take for the state to safely shed mask mandates, limits on indoor dining and a range of other restrictions.
Misha Sinner, a PhD candidate in the Department of Electrical, Computer and Energy Engineering, presented a paper at the International Federation of Automatic Control World Congress in July 2020 on wind turbine control.
Researchers in the Paul M. Rady Department of Mechanical Engineering are developing a robot that may one day change how millions of people across the U.S. get colonoscopies, making these common procedures easier for patients and more efficient for doctors.
Researchers at CU 麻豆影院 have created a platform that that can develop effective and highly specific peptide nucleic acid therapies for use against any bacteria within just one week. The work could change the way we respond to pandemics and how we approach increasing cases of antibiotic resistance globally.
The Washington Post looks at how an air monitoring system designed by CU 麻豆影院's Mark Hernandez is helping a California restaurant keep its patrons safer during COVID.
Assistant Professor Longji Cui is the first author on a new paper that describes a phenomenon which drastically boosts light emissions from a nanoscale device.
Jorge Poveda has been working for years to improve the ways autonomous systems overcome problems they encounter on the job. It鈥檚 complex work that could impact our everyday life, like our daily commute in autonomous cars, to more imaginative goals like swarms of robots working in unison. By combining concepts from artificial intelligence and machine learning with well-known control theories, he may have found a new approach that could prove key to moving forward on many fronts.
Danielle Szafir's research focuses on visualization, computer science, HCI, perceptual psychology, and color science. Her project is titled 鈥淒eveloping Perceptually-Driven Tools for Estimating Visualization Effectiveness .鈥
Shu-Wei Huang's research focuses on ultrafast optics, nonlinear optics, nanophotonics, and microscopy. His project is titled 鈥淒ual-comb Photoacoustic Microscopy with Super-resolution Wavefront Shaping.鈥
