Jonathan Amos reports for the BBC News that scientists around the world are close to obtaining the first image of a black hole. Data from multiple observatories will be compiled at MIT’s Haystack Observatory where “very smart imaging algorithms have had to be developed to make sense of the [Event Horizon Telescope]'s observations,” writes Amos.
Researchers at MIT have designed a new living material infused with cells that could one day be used as a wearable sensor, writes Brooks Hays for UPI. The researchers used the new material to “design gloves and bandages that light up when they come in contact with target chemicals.”
In this Wired video, Prof. Daniela Rus speaks about how her research group is developing and applying autonomous vehicle technology to other vehicles, in particular wheelchairs. Rus explains that she envisions the technology “impacting anyone who is confined in their motions. I see it applied in hospitals, in retirement communities, in assisted living communities.”
In this episode of NOVA that explores how origami is being used in scientific innovations, Prof. Erik Demaine speaks about his work applying math to create new origami figures. “It’s mind blowing that the simple operation of folding lets you transform a boring square of paper into super complicated, crazy 3-D shapes," he explains.
In this video, USA Today highlights Tiera Guinn, an MIT student who is working on designing rocket components for NASA while she completes her senior year at MIT. Guinn explains that her parents always told her that "others don’t declare the fate of your destiny. It’s up to you to achieve the dream you set in the first place.”
BBC reporter Lorelei Mihala highlights DriveWell, an app developed by Profs. Hari Balakrishnan and Sam Madden, aimed at addressing the problem of distracted driving. “We wanted to show that smartphones could be used to make drivers better,” says Balakrishnan.
TechCrunch reporter Brian Heater writes that MIT researchers have developed a speech recognition chip that uses a fraction of the power of existing technologies. “The chip is essentially designed to be always on in a low-power mode, switching over when voice is detected, thus making it ideal for technologies like wearable devices,” Heater explains.
Research affiliate Giovanni Traverso speaks with Ira Flatow of Science Friday about a new ingestible device powered by stomach acid. “When you start thinking about keeping a system inside of the body for a long time,” Traverso explains, “powering that system becomes a challenge, and that’s exactly what we tried to aim to address here with this study.”
Boston Herald reporter Jordan Graham writes that the McGovern Institute has established a new center focused on autism research, thanks to a gift from Lisa Yang and Hock Tan ’75 SM ’75. Graham explains that the center will “focus on trying to make significant jumps through new technologies such as gene editing with CRISPR/Cas9.”
Boston Herald reporter Lindsay Kalter writes that Prof. Ed Boyden is working on a new effort to develop technologies that would allow doctors to explore tumors using virtual reality. Boyden explains that he and his colleagues hope to use virtual reality to explore “what a tumor’s weaknesses are, and what makes it thrive.”
MIT is launching a center for autism research at the McGovern Institute with $20 million in funding from MIT alumnus Hock Tan and Lisa Yang, writes Barb Darrow for Fortune. Darrow writes that Yang told Fortune she was "greatly impressed by both the collegiality and focus of the institute's researchers.”
In this video, Prof. Leia Stirling and graduate student Alison Gibson speak with Wired about the vibrating boots they developed to help astronauts avoid obstacles. “To be able to provide technologies that can assist the astronauts and actually make a group of people have more capability, that’s really exciting,” explains Stirling.
MIT researchers have developed an ingestible device that is powered by stomach acid and can deliver drugs for up to one week, reports Brooks Hays of UPI. "Our work helps pave the way toward a new era of pill-sized electronics, which can operate over the course of weeks or even months in the gastrointestinal tract,” says Giovanni Traverso, a research affiliate at the Koch Institute.
Dan Misener of CBC News writes that a wearable device developed by MIT researchers detects the tone of conversation by listening to the interaction and measuring the physiological responses of the user. “All of that data is fed into a neural network that's been trained to identify certain cues,” explains Misener.
MIT researchers have developed a new drug capsule that can deliver doses of medication over the course of several weeks, reports Robby Berman for Slate. Berman explains that the star-shaped device is like “a little pharmacy stationed in the stomach, ready to dispense doses at the desired times.”