School of Engineering

New York Times reporter Melissa Kirsch spotlights a study by MIT scientists that explores how the “sound of rain causes some seeds to germinate faster.”

Prof. Regina Barzilay speaks with WBUR’s Priyanka Dayal McCluskey about her work developing an AI risk detection tool that can analyze mammogram images and help predict risk of breast cancer before it happens or spreads. Barzilay, who describes the tool as a hi-tech weather forecast for breast health, notes that: “We really need to have tools that can help, rather than just staring at an image and trying to guess.” 

Sybil, a new AI tool developed by researchers from MIT and Mass General Brigham Cancer Institute, “analyzes a single CT scan and generates a risk score predicting the likelihood of developing lung cancer over a period of up to six years,” reports Ivan Rodriguez for WCVB-TV. “In 2023, researchers reported that Sybil achieved an accuracy rate of 86% to 94% in distinguishing high-risk patients from low-risk patients within a year.”

A new tool developed by MIT researchers could help violin designers test how an instrument might sound when certain dimensions or properties are changed without even pulling out a bow, reports Jennifer Ouellette for Ars Technica. The researchers crafted a virtual violin, “a computer simulation tool that can capture the precise physics of the instrument and even reproduce a realistic sound of a plucked string,” Ouellette explains. 

Cambridge Day reporter Zoe Beketova, a student in MIT’s Graduate Program in Science Writing, visits Prof. Xuanhe Zhao’s lab to get a hands-on look at the group’s ultrasound wristband that can map movements of the human body using sound waves, part of the group’s work aimed at changing “how we gather information from inside the body.” Says Zhao: “The mission of my lab is really merging humans with machines and AI. We believe there’s a huge opportunity [with] this interface.”

Forbes contributor Michael T. Nietzel spotlights the 120 new members and 25 international members elected by the National Academy of Sciences for 2026. Several MIT faculty members – including Professors Michale Fee, Gareth McKinley, Keith Nelson, Bengt Holmstrom and Catherine Wolfram – were selected. 

Reporting for CNN, Caleb Hellerman spotlights how MIT computer scientists developed an AI program called Sybil that can “‘look’ at a single CT scan and generate a ‘risk score’ corresponding to the likelihood of the person developing cancer over any period up to six years.”

It may sound fishy, but Prof. Benedetto Marelli and postdoc Giorgio Rizzo have developed a method to up-cycle seafood waste into a coating for seeds that could help plants better withstand drought, while also creating more nutritious and sustainable crops. “It all starts with the idea that we need to find new ways to grow food and, in particular, find new ways to decrease the amount of fertilizers we use,” says Marelli.

Prof. Xuanhe Zhao speaks with Tech Briefs reporter Andrew Corselli about his team’s work developing an ultrasound wristband that precisely tracks a wearer’s hand movements in real time and can communicate device these motions to a robot or a virtual environment. “For the future of human society, humanized robots will do lots of different work for us. For that work, we need a dexterous robotic hand,” explains Zhao. “We believe this ultrasound wristband, based on variable imaging, could be the future of really knowing the human hand motions.”

Prof. Anette “Peko” Hosoi and Andy Harland of Loughborough University lace up their shoes to chat about how runners can optimize their marathon performance with Edgar B. Herwick III of GBH’s Curiosity Desk.  The Boston Marathon “is an iconic race and it is challenging for a lot of different reasons,” Hosoi notes. “Boston starts on a downhill, so you feel great…but if you are not managing your energy by the time you get to Heartbreak Hill at mile 20 you are going to be suffering.” 

MIT researchers have developed a new traffic navigation system that more accurately reflects travel time by including parking data, reports Catherine Parotta for Boston 25. “What we can do is figure out if you’re best off trying this parking lot first, even if it’s farther than the closest parking lot,” explains Prof. Cathy Wu. Graduate student Cameron Hickert adds that: “We hope that this can help people make better decisions." 

Prof. Richard Binzel speaks with CBS Boston about the success of the Artemis II mission and the future of space exploration. "It's exciting we have humans back in space again," Binzel shared. "It's a real test of a spaceflight system. Surviving reentry and landing safely. That's the real accomplishment here. Showing we can go to the moon but also come back safely."

Jennifer Eagen of WCVB-TV highlights MIT Space Week, an annual series of events across MIT focused on space exploration and the space industry. Eagan notes that one of the themes for this year’s event is the space economy. "Having humans land on the moon, having built a base on the moon, learning how to operate there so eventually we can go to Mars," said keynote speaker Terry Virts, former commander of the International Space Station. "I would love to see all those things happen that would be a huge success for America and for the world, for all of humanity."

MIT researchers have developed an ultrasound wristband that can transmit a user’s motions to a robotic hand or a virtual environment, reports Mack Degeurin for Popular Science. “Volunteers wearing the device could direct the robotic hand to grab tennis balls, make hand signs, and even play notes on a piano,” Degeurin explains. “That same technique can also be applied to digital environments, which means future wearers could control a phone screen without ever touching it, or interact with virtual reality in ways that feel more immersive.” 

A new study by Prof. Daniel Varon and his colleagues has found that “parts of the U.S. may be emitting much more of one of the most potent greenhouse gases than previously thought,” reports Julia Jacobo for ABC News. “Satellite observations suggest that methane emissions in urban areas may be ‘widely underestimated’ – up to 80% higher than noted in the U.S. Environmental Protection Agency's Greenhouse Gas Inventory,” explains Jacobo.