Bloomberg News spotlights how MIT researchers have developed a fleet of autonomous boats that can automatically latch onto one another. Bloomberg notes that the boats will be able to “transport goods and people, collect trash and assemble into floating stages and bridges.”
Researchers from a number of institutions, including MIT, are exploring the feasibility of cold fusion, reports Steven Salzberg for Forbes. The researchers explained that while they were unable to successfully produce cold fusion, their exploration of this topic “is likely to have a substantial impact on future energy technologies.”
Boston Globe reporter Martin Finucane writes that MIT researchers have developed an automated latching system that could enable a fleet of autonomous boats to connect to docking stations and other boats. Finucane explains that in turbulent water, “after a missed first attempt, the system can autonomously adapt, repositioning the roboat and latching.”
STAT reporter Sharon Begley writes that Prof. Feng Zhang and his colleagues have turned “a jumping gene — aka a transposon, or mobile genetic element — into a mini TaskRabbit gig worker: With an assist from CRISPR enzymes, it zips over to the part of the genome whose address it is given and delivers a package of DNA, pronto.”
Popular Mechanics reporter Daisy Hernandez writes that MIT researchers have developed an autonomous aquatic boat that can target and latch onto one another to form new structures. Hernandez writes that the boats were conceived “as a way to explore new modes of transportation and help improve traffic flow.”
Prof. Amy Glasmeier speaks with New York Times reporter Eric Ravenscraft about the Living Wage Calculator, which uses specific data to estimate the cost of living in different areas of the country. “The question is, can you live on a minimum wage? And the answer is basically, no,” explains Glasmeier.
Mashable highlights how MIT researchers have developed a new system of computationally simple robots inspired by biological cells that can connect in large groups to move around, transport objects and complete tasks. Mashable explains that robots made up of simplistic components, “could enable more scalable, flexible and robust systems.”
TechCrunch reporter Darrell Etherington writes that MIT researchers have developed a new system that enables autonomous boats to latch onto one another to create new structures. Etherington explains that the researchers envision fleets of autonomous boats forming “on-demand urban infrastructure, including stages for concerts, walking bridges or even entire outdoor markets.”
In an article for the Financial Times, Thomas Hale and Andy Bounds spotlights MIT’s role in making Kendall Square an innovation hub. Hale and Bounds write that a 2014 Brookings report noted that MIT “has always emphasised partnerships between the university and industry.”
Forbes reporter Joe McKendrick highlights a Nature review article by MIT researchers that calls for expanding the study of AI. “We’re seeing the rise of machines with agency, machines that are actors making decisions and taking actions autonomously," they write. "This calls for a new field of scientific study that looks at them not solely as products of engineering and computer science.”
MIT researchers have found that the universe’s first stars exploded in an aspherical manner, spewing heavy metals into the universe, reports Rachel Cromwell for Scientific American. “This is a beautiful paper,” says Volker Bromm of the University of Texas at Austin, noting that this type of stellar sleuthing is possible only with very high-quality data.
Writing for CNN about designing a spacesuit suitable for Mars, Jackie Wattles spotlights Prof. Dava Newman’s work developing the BioSuit. “Space flight for me is about raising up all of our potential, and it's also about answering the hardest problems I can think of," says Newman. "Designing a suit for an astronaut to go to Mars is about the biggest challenge I can think of.”
A new sensory glove developed by MIT researchers provides insight into how humans grasp and manipulate objects, reports The Economist. The glove will not only “be useful in programming robots to mimic people more closely when they pick objects up,” but also could “provide insights into how the different parts of the hand work together when grasping things.”
A new glove embedded with sensors can enable AI systems to identify the shape and weight of different objects, writes HealthDay reporter Dennis Thompson. Using the glove, “researchers have been able to clearly unravel or quantify how the different regions of the hand come together to perform a grasping task,” explains MIT alumnus Subramanian Sundaram.
New Scientist reporter Chelsea Whyte writes that MIT researchers have developed a smart glove that enables neural networks to identify objects by touch alone. “There’s been a lot of hope that we’ll be able to understand the human grasp someday and this will unlock our potential to create this dexterity in robots,” explains MIT alumnus Subramanian Sundaram.