MIT researchers have developed a new artificial intelligence system that uses a person’s breathing pattern to help detect Parkinson’s sisease, reports Susannah Sudborough for Boston.com. “The device emits radio signals, analyzes reflections off the surrounding environment, and monitors the person’s breathing patterns without any bodily contact,” writes Sudborough.
Prof. Ariel Furst, and alumna Claire Beskin and Loewen Cavill were named the winners of the first annual MIT Female Founders Pitch, reports Stephanie MacConnell for Forbes. Furst’s company, Pharmor, has developed an inexpensive protective coating that allows microbes to be produced and transported in non-ideal conditions. Beskin’s company, Empallo, uses machine learning to unlock information on siloed patient data. And Cavill’s company, AuraBlue, has developed a wearable device that can predict hot flashes and enable a cooling pad to counteract the change in body temperature in menopausal women.
Loh Down on Science host Sandra Tsing Loh spotlights Prof. Cathy Wu and graduate student Vindula Jayawardana and their work developing a new method for self-driving vehicles that would help minimize idling at red lights. “In their method, self-driving can be taught to minimize stops at red lights. To make this work, traffic lights and self-driving cars would have sensors. This would let them check in with each other on their surroundings,” says Loh.
Researchers at MIT and other institutions have developed an artificial intelligence tool that can analyze changes in nighttime breathing to detect and track the progression of Parkinson’s disease, reports Casey Ross for STAT. “The AI was able to accurately flag Parkinson’s using one night of breathing data collected from a belt worn around the abdomen or from a passive monitoring system that tracks breathing using a low-power radio signal,” writes Ross.
MIT scientists have discovered a new method to maximize wind farm output, reports Gwen Egan for Boston.com. “While there are pros and cons to this strategy, it’s possible that it could allow for smaller wind farms that take up less land to produce more energy,” says Prof. Michael Howland. “It’s critically important we do this now, as we embark on building much more offshore wind. We need to ensure that our future wind farms maximize efficiency to increase the pace of decarbonization.”
Researchers from MIT, Harvard University, and the Georgia Institute of Technology have examined the impact of tech startups working in close proximity, reports Cheryl Winokur Munk for The Wall Street Journal. The researchers found that “'knowledge spillovers' were greatest between dissimilar startups that worked within 20 meters (22 yards) of each other,” writes Munk. “Working in such close range allowed for socialization, which in turn led to idea sharing about the types of technology the startups were using as part of their overall tech infrastructure.”
Alumni Carter Huffman ’14 and Mike Pappas ’14 co-founded Modulate, an artificial intelligence technology that helps differentiate between friendly banter and inappropriate outbursts in video game voice chats, reports Scott Kirsner for The Boston Globe. “Modulate highlights for a game’s human moderators the most severe violations of the game’s guidelines and allows them to decide on the consequences after they examine the situation,” writes Kirsner. “They may send the player a warning, mute them temporarily, or ban them from the game.”
MIT scientists have found that changing the angle of turbine blades on wind farms could increase energy output, reports David Abel for The Boston Globe. “Given the scale of wind deployment needed to achieve state and federal climate goals, we need optimal wind farm performance to ensure efficient, rapid decarbonization,” says Prof. Michael Howland. “Our method resulted in significant energy gains over standard industry operations, and, importantly, it can be instituted with minimal cost.”
Prof. Jörn Dunkel and his colleagues have proposed the use of nematic liquid crystals as the potential future basic building blocks for computers, reports Karmela Padavic-Callaghan for New Scientist. According to Dunkel, “because the liquid crystal computer wouldn’t use only 0s and 1s, some of its computations would be analogous to how quantum computers work, as they can simultaneously process more information than conventional computers,” writes Padavic-Callaghan.
Nuclear science experts say that the potential shut down of Zaporizhzhia Nuclear Power Plant (ZNPP) in Ukraine can lead to energy implications and climate change, reports Anna Skinner for Newsweek. "The Earth is heating up, and we don't have any way to stop it right now except to stop putting more greenhouse gases into the atmosphere," says Prof. Michael Golay. "The nice thing about nuclear is it doesn't emit much in the way of greenhouse gases."
Sharing automated vehicle data with the public can fundamentally change the way regulators, police departments, insurance companies and other organization understand the risks of drive-assistance systems, report Cade Metz and Ella Koeze for The New York Times. “This can help separate crashes related to technology from crashes related to driver error,” says research engineer Bryan Reimer.
Postdoctoral fellow Joshua Schwartz and Texas A&M University Prof. Matthew Fuhrmann write for The Washington Post about their research to analyze whether armed drone operations reduce terrorism or make countries more vulnerable to it. “Armed drones may raise ethical concerns but appear to be an effective counterterrorism tool,” argue Schwartz and Fuhrmann. “However, the decision of when, how or even whether to employ armed drones remains a difficult one.”
Researcher Hojun Li and his team have developed a new Covid-19 at-home test that looks “specifically at the levels of neutralizing antibodies and either give a precise level or a ‘low,’ ‘medium,’ ‘high’ reading, providing more actionable information,” reports Karen Weintraub for USA Today.
Lita Nelsen BS ’64, MS ’66, MBA ’79 writes for The Boston Herald about the Bayh-Dole Act, a landmark piece of legislation that allows universities to keep the patents to their own inventions. “As the head of MIT’s Technology Licensing Office for almost three decades, I helped license thousands of technologies to the innovative companies that sprung up around campus,” writes Nelsen. “The Bayh-Dole Act has indisputably helped the U.S. life sciences sector become the envy of the world.”
Researchers at MIT believe they have found a new semiconductor that's better than silicon, which could open the doors to potentially faster and smaller computer chips in the future, reports Rachel Cheung for Vice. “Cubic boron arsenide has significantly higher mobility to both electronics and their positively charged counterparts than silicon, the ubiquitous semiconductor used in electronics and computers,” explains Cheung.