Writing for The Boston Globe, Prof. Mitchel Resnick explores how a new coding app developed by researchers from the Lifelong Kindergarten group is aimed at allowing young people to use mobile phones to create interactive stories, games and animations. Resnick makes the case that with “appropriate apps and support, mobile phones can provide opportunities for young people to imagine, create, and share projects.”
Research scientist Nataliya Kosmyna speaks with The World host Chris Harland-Dunaway about the science behind using non-invasive brain scans and artificial intelligence to understand people’s different thoughts and mental images.
Researchers at MIT have designed “a wearable ultrasound scanner that could be used at home to detect breast tumors earlier,” reports Simon Makin for Scientific American. “The researchers incorporated the scanner into a flexible, honeycombed 3-D-printed patch that can be fixed into a bra,” explains Makin. “The wearer moves the scanner among six different positions on the breast, where it snaps into place with magnets, allowing reproducible scanning of the whole breast.”
Writing for The Atlantic, Prof. Deb Roy makes the case that “new kinds of social networks can be designed for constructive communication—for listening, dialogue, deliberation, and mediation—and they can actually work.” Roy adds: “We can and should create social networks designed for public discourse that prioritize inclusion, where underheard voices and perspectives can flourish, and where people take and offer disagreement in good faith.”
Axios reporter Alison Snyder writes about how a new study by MIT researchers finds that preconceived notions about AI chatbots can impact people’s experiences with them. Prof. Pattie Maes explains, the technology's developers “always think that the problem is optimizing AI to be better, faster, less hallucinations, fewer biases, better aligned, but we have to see this whole problem as a human-plus-AI problem. The ultimate outcomes don't just depend on the AI and the quality of the AI. It depends on how the human responds to the AI.”
Prof. Eric Klopfer, co-director of the RAISE initiative (Responsible AI for Social Empowerment in Education), speaks with GBH reporter Diane Adame about the importance of providing students guidance on navigating artificial intelligence systems. “I think it's really important for kids to be aware that these things exist now, because whether it's in school or out of school, they are part of systems where AI is present,” says Klopfer. “Many humans are biased. And so the [AI] systems express those same biases that they've seen online and the data that they've collected from humans.”
WBUR’s Lloyd Schwartz spotlights Prof. Tod Machover’s revival of “VALIS” at MIT, staged by Prof. Jay Scheib. “The score is an inventive and often hauntingly beautiful arrangement of synthesizer, live instruments, and electronically expanded instruments,” writes Schwartz, “which Machover calls ‘hyper-instruments,’ a compelling amalgamation of minimalism, medieval, Wagner and rock.”
Popular Science reporter Andrew Paul writes that MIT researchers have developed a new long-range, low-power underwater communication system. Installing underwater communication networks “could help continuously measure a variety of oceanic datasets such as pressure, CO2, and temperature to refine climate change modeling,” writes Paul, “as well as analyze the efficacy of certain carbon capture technologies.”
Prof. Tod Machover speaks with Boston Globe reporter A.Z. Madonna about the restaging of his opera ‘VALIS’ at MIT, which features an AI-assisted musical instrument developed by Nina Masuelli ’23. “In all my career, I’ve never seen anything change as fast as AI is changing right now, period,” said Machover. “So to figure out how to steer it towards something productive and useful is a really important question right now.”
In a new MIT study, researchers found that people were less likely to order a menu item when it was specifically labeled as "vegan" compared to when it was not, reports Meryl Davids Landau for National Geographic. “The research is not trying to tell anyone they need to strictly transition into these diets in order to make an impact,” says graduate student Alex Berke. “This is about people eating more sustainably, more often, and what can we do to guide people towards those practices.”
Researchers at MIT have developed a wearable ultrasound device that can be used to detect early signs of breast cancer, reports Rachel Keller and Bob Dumas for Boston 25 News. “This technology will be able to let you know if there’s a question mark, if there’s an anomaly, in your breast tissue,” says Prof. Canan Dagdeviren.
Professor Alex Pentland and Alex Lipton, a Connection Science Fellow at MIT, write for Scientific American about how social media can impact financial systems. “Before Twitter and Facebook, a spooked investor or customer would have to call, personally visit or even e-mail and text colleagues to urge them to withdraw funds from a troubled bank,” explain Pentland and Lipton. “Nowadays sophisticated clients can act as soon as they read a Tweet. Social media alerts everyone all at once, and a few clicks on a computer screen can wipe an account clean.”
Prof. Canan Dagdeviren and colleagues at MIT have developed a wearable sensor that could help more easily detect breast cancer. “Dr. Dagdeviren hopes the device will allow for more frequent screening of women who are at high risk of developing breast cancer, such as those who had inherited the BRCA1 and BRCA2 genes, or people who have had cancer previously,” writes Sarah Knapton for The Telegraph.
Researchers at MIT have developed a wearable ultrasound patch that could be used to allow women to monitor themselves for early signs of breast cancer, reports Amy Norton for HealthDay. “The hope is to one day use such portable technology to help diagnose and monitor a range of diseases and injuries – in a way that’s more accessible and cheaper than using traditional scanners housed at medical facilities,” explains Norton.
Researchers at MIT have developed a “flexible patch that can take ultrasound images comparable to those done by medical centers, but can fit into a bra,” reports Sara Kiley Watson for Popular Science. “The researchers tested their device on a 71-year-old subject with a history of breast cysts, and were able to detect cysts as small as 0.3 centimeters in diameter up to 8 centimeters deep in the tissue, all while maintaining a resolution similar to traditional ultrasounds,” writes Kiley Watson.