Fast Company reporter Adele Peters writes about Tarjimly, a non-profit MIT startup that connects refugees with a large network of volunteer language translators. The platform “has more than 8,000 translators who speak more than 90 languages, and can be used in nearly any situation where someone trying to help can’t communicate with someone in need,” Peters explains.
CBS Boston reporter Dr. Mallika Marshall spotlights research by researchers at MIT and Brigham and Women’s Hospital to develop robotic prosthetic limbs controlled by the brain. “It’s a wonderful experience as a researcher,” explains Herr of the work’s impact. “They walk away and start crying or laughing and giggling and say, ‘my gosh I have my body back, I have leg back, I have my life back.’”
In an article for The Wall Street Journal, Joseph Coughlin, director of the AgeLab, and research associate Lucas Yoquinto write that companies are increasingly designing aesthetically-pleasing and user-friendly technology for the elderly. “As the focus on older consumers’ preferences goes beyond the development of better products to the creation of new product categories, the experience of later life may improve substantially,” they explain.
MIT Media Lab fellow and “bionic artist” Viktoria Modesta writes for a special CNN feature about how technology is changing what it means to be human. Modesta, who voluntarily amputated her leg due to constant pain, writes that “fusing my body with technology feels like a philosophical exploration of humanity. It is art.”
MIT researchers have developed a new prosthetic device that allows amputees to feel where their limbs are located, reports Simon Makin for Scientific American. “What's new here is the ability to provide feedback the brain knows how to interpret as sensations of position, speed and force,” explains postdoctoral associate Tyler Clites.
MIT researchers have developed a surgical technique that allows the central nervous system to send movement commands to a robotic prosthesis, writes Allen Cone for United Press International. Cone explains that the new technique allows for “more stable and efficient” control over the movement of the prosthetic device.
STAT reporters Gideon Gil and Matthew Orr describe a “pioneering” surgical technique from researchers at MIT and Brigham and Women’s Hospital that allows prosthetics to operate like human limbs. Prof. Hugh Herr, “himself a rock climber who lost both his legs to frostbite as a teen, describes his goal as nothing short of eliminating disability."
In an essay for The Daily Beast, researchers at the MIT AgeLab explore the extent to which driving is a “secondary” activity when piloting a vehicle, and caution that automation on its own cannot protect drivers from distractions. “While these technologies can nudge us in a safer direction, the decision to practice safer phone habits ultimately lies in the hands of drivers,” they write.
After several years of experimentation, graduate student Arnav Kapur developed AlterEgo, a device to interpret subvocalization that can be used to control digital applications. Describing the implications as “exciting,” Katharine Schwab at Co.Design writes, “The technology would enable a new way of thinking about how we interact with computers, one that doesn’t require a screen but that still preserves the privacy of our thoughts.”
AlterEgo, a device developed by Media Lab graduate student Arnav Kapur, “can transcribe words that wearers verbalise internally but do not say out loud, using electrodes attached to the skin,” writes Samuel Gibbs of The Guardian. “Kapur and team are currently working on collecting data to improve recognition and widen the number of words AlterEgo can detect.”
Researchers at the Media Lab have developed a device, known as “AlterEgo,” which allows an individual to discreetly query the internet and control devices by using a headset “where a handful of electrodes pick up the miniscule electrical signals generated by the subtle internal muscle motions that occur when you silently talk to yourself,” writes Rob Verger for Popular Science.
A new headset developed by graduate student Arnav Kapur reads the small muscle movements in the face that occur when the wearer thinks about speaking, and then uses “artificial intelligence algorithms to decipher their meaning,” writes Chelsea Whyte for New Scientist. Known as AlterEgo, the device “is directly linked to a program that can query Google and then speak the answers.”
Open Style Lab, which started as a project at MIT's Priscilla King Gray Public Service Center, designs tech-based clothes for people with disabilities. "Technology is a big part of the design process at Open Style," reports Magdalena Petrova for CNBC, and the lab looks to "expand its reach by partnering with tech companies and hospitals to bring its designs to life.”
Wired reporter Sandy Ong highlights the work of Prof. Suranga Nanayakkara, who as a postdoc at MIT helped develop the Finger Reader, a device aimed at helping people with visual impairments read without the need for clunky hardware. The Finger Reader, “lets people read only what they’re pointing at, promising a relatively fuss-free experience, especially when out and about.”
In a WBUR segment about how technology is increasingly being used to assist seniors and caregivers, Rachel Zimmerman highlights Rendever, an MIT spinout, and speaks with Prof. Paul Osterman, Prof. Dina Katabi and Dr. Joseph Coughlin about their work. Zimmerman explains that Coughlin believes “a mix of smart devices and other personal services,” will help people age well.