Researchers at MIT have designed an implantable device that can be used to administer a dose of glucagon to protect Type 1 diabetics from hypoglycemia, reports Amir Khollam. “The device, about the size of a quarter, sits under the skin and releases a dose of glucagon when blood sugar levels dip too low,” explains Khollam. “It can be activated manually or triggered wirelessly by a sensor.”
Researchers at MIT have designed a new chip component that can “expand the reach of the Internet of Things into 5G,” reports Margo Anderson for IEEE Spectrum. “The discovery represents a broader push for 5G-based IoT tech—using the telecom standard’s low latency, energy efficiency, and capacity for massive device connectivity,” explains Anderson. “The new research also signals an important step toward applications that include smaller, low-power health monitors, smart cameras, and industrial sensors, for instance.”
Prof. Anantha Chandrakasan speaks with The Boston Globe reporter Jon Chesto about his new role as provost and his goals for the Institute. “To be in the administration, you have to understand the perspectives of the individual faculty members, the students, and the post-docs,” he said. “I want to be in the trenches, not separated from the pack.”
Following his appointment as Institute provost, Prof. Anantha Chandrakasan has been honored at a celebratory event by the Foundation of Indian Americans of New England and the Indian Consulate of New York, reports News India. “As Provost, I am committed to advancing excellence in research, innovation, and education,” says Chandrakasan.
Prof. Anantha Chandrakasan was honored by the Indian American community in New England and the Consulate General of India in New York as he enters his new role as MIT provost, reports Abhinav Sharma for Diya TV. “I am deeply grateful for this honor,” says Chandrakasan. “The support from this community has played an integral role in my journey. As Provost, I am committed to advancing excellence in research, innovation, and education. Together, we will shape a future defined by meaningful progress and global impact.”
Prof. Asu Ozdaglar, Deputy Dean of MIT Schwarzman College of Computing, speaks with Is Business Broken? podcast host Curt Nickish to explore AI’s opportunities and risks — and whether it can be regulated without stifling progress. “AI is a very promising and transformative technology,” says Ozdaglar. “But regulation should be designed very carefully so that it does not block or impede the development of the technology.” Given AI’s potential harms or misuses, she added that it's important to think about the correct regulatory framework. “For it to be successful, it should focus on where harms can come from.”
Researchers at MIT have developed an “AI-powered tool that scans scientific literature and over 1 million rock samples to identify materials that can partially replace cement in concrete,” reports Samanatha Hindman for Yahoo! News. The new system could “change how we build cities forever,” says Hindman. “The system sorts materials based on their physical and chemical properties, narrowing them down by how well they hold concrete together when mixed with water (hydraulic reactivity) and how they strengthen it over time (pozzolanicity).”
Researchers at MIT have developed “a new imaging technique that could allow quality control robots in warehouses to peer into closed boxes,” reports Chris Young for Interesting Engineering. “Using this new technology, robots could peer into a cardboard shipping box and see that the handle of a mug is broken, for example,” explains Young. “This new method could revolutionize warehouse quality control and streamline the shipping and delivery process.”
MIT spinoff Commonwealth Fusion System has made its first direct corporate power purchase agreement with Google, reports Timothy Gardner for Reuters. Google plans to buy 200 megawatts of fusion power from Commonwealth Fusion Systems’ first grid-scale fusion power plant in Chesterfield County, Virginia.
Researchers at MIT have developed a new atmospheric water harvester that eventually could be used to supply safe drinking water worldwide, reports Sarah Bregel for Fast Company. The device is “about the size of a standard window” and made from “hydrogel, a material that absorbs water, and lithium salts that can store water molecules,” explains Bregel.
Forbes contributor Tanya Fileva spotlights how MIT CSAIL researchers have developed a system called Air-Guardian, an “AI-enabled copilot that monitors a pilot’s gaze and intervenes when their attention is lacking.” Fileva notes that “in tests, the system ‘reduced the risk level of flights and increased the success rate of navigating to target points’—demonstrating how AI copilots can enhance safety by assisting with real-time decision-making.”
Prof. Ryan Williams has published a new proof that explores computational complexity and flips the script on years of assumptions about the trade-offs between computation space and time, reports Max Springer for Scientific American. Williams found that “any problem can be transformed into one you can solve by cleverly reusing space, deftly cramming the necessary information into just a square-root number of bits,” Springer explains. “This progress is unbelievable,” says Mahdi Cheraghchi of the University of Michigan. “Before this result, there were problems you could solve in a certain amount of time, but many thought you couldn’t do so with such little space.”
Graduate student Alex Kachkine has developed a new technique that “uses AI-generated polymer films to physically restore damaged paintings in hours,” reports Benj Edwards for Ars Technica. “Kachkine's method works by printing a transparent ‘mask’ containing thousands of precisely color-matched regions that conservators can apply directly to an original artwork,” explains Edwards. “Unlike traditional restoration, which permanently alters the painting, these masks can reportedly be removed whenever needed. So it's a reversible process that does not permanently change a painting.”
American Kahan spotlights Prof. Anantha Chandrakasan, MIT’s chief innovation and strategy office and dean of MIT’s School of Engineering, who was recently named the Institute’s new provost. “As Chandrakasan prepares to guide MIT through this evolving landscape, he remains grounded in the principles that have shaped his career: excellence, innovation, and collaboration,” writes American Kahan.
Researchers at MIT have developed a new HIV vaccine that could offer “strong protection with just one injection,” reports Ian Randall for Newsweek. “The vaccine includes two ‘adjuvants’—materials that help stimulate the immune system response,” explains Randall. “In the experiments, the dual-adjuvant vaccine was found to produce a wider diversity of antibodies to protect against an HIV protein than with either single adjuvant or none at all.”