ABC News visits Prof. Hugh Herr’s lab to explore his work developing bionic limbs aimed at augmenting human capabilities and ending “profound human suffering caused by disability.” Herr says he “always had the dream of developing exoskeletal structures that would enable anyone to walk with less energy, run with less energy, move faster with complete ease.”
CSAIL researchers trained a robot to analyze and make scheduling suggestions in a hospital labor ward, writes Kelsey Atherton for Popular Science. Atherton writes that “by adding in a robot that can analyze scheduling needs, hospitals could make better informed decisions.”
Hae Young Yoo writes for The Boston Globe that Ori, a spinoff out of the MIT Media Lab’s CityHome research project, “is creating furniture for urban spaces -- not just smaller pieces, but smarter ones, equipped with robotics that move on demand.”
Wired reporter Margaret Rhodes writes that Media Lab spinoff Ori is developing transformable furniture to help maximize living spaces. “With the push of a button—or, with future versions of the software, at the sound of a voice or wave of a hand—pieces of Ori furniture will slide up, down, or over, reconfiguring spaces in mere moments.”
CNN reporter Sara Ashley O’Brien writes that CSAIL researchers have demonstrated that a robot could help schedule tasks in a hospital’s labor and delivery unit. The researchers trained a robot to understand a nurse’s scheduling decisions and “90% of the time the Nao robot made suggestions that doctors and nurses carried out.”
In this SINC article (published in Spanish), Federico Kukso spotlights Prof. Alberto Rodriguez’s work developing robotic hands in an effort to provide robots with a better way to interact with the world. Rodriguez says that he was inspired to pursue a career in robotics as he wanted to do “something that had a real impact on the world."
Graduate student Jamison Go, who was inspired to become an engineer by watching the show “BattleBots,” is now part of one of four MIT teams competing on the program, writes Jordan Graham for The Boston Herald. “It feels like I’m completing a cycle. To compete on a show which initially inspired me to become an engineer is amazing,” says Go.
April Glasper writes for Wired about the robot Prof. Cynthia Breazeal created specifically for domestic purposes. Glasper explains that robot, dubbed Jibo “learns by listening and asking questions. Jibo uses machine learning, speech and facial recognition, and natural language processing to learn from its interactions with people.”
Prof. Daniela Rus speaks with The Boston Globe’s Kevin Hartnett about her goal to create customizable, printable robots. “The idea is anyone could walk into a 24-hour robot manufacturing store with some idea of what they want,” Rus says. “Maybe a robot to entertain the cat while you’re at work or play chess with you or fold your laundry.”
Boston.com reporter Sanjay Salomon writes about how “Duckietown,” a model city developed by MIT researchers, could help make self-driving cars a reality. “We realized if you scale down autonomous driving to something very small there’s lots of research to do on a smaller scale with none of the logistical challenges of real autonomous vehicle research,” explains postdoc Liam Paull.
In a video for The New York Times, James Gorman highlights how researchers from MIT and Harvard have developed a robot that can perch on a variety of surfaces. Gorman explains that “perching is the next frontier for tiny flying machines because robots, like birds, bats and insects, can keep going longer if they conserve energy by resting.”
The Economist reports that Prof. Daniela Rus and Dr. Shuhei Miyashita have developed a tiny origami robot that can be swallowed and used to collect dangerous items that have been accidentally ingested. “The device is based on foldable robot technology that their team of researchers have been working on for years.”
BBC News reporter Nathan Tauger writes that researchers from MIT and other institutions have created a miniature robot that can perch like an insect. MIT graduate student Moritz Graule explains that perching solves the problem posed by the fact that “hovering microrobots run out of energy really quickly."
MIT researchers have developed a tiny robot that can perch like an insect, writes G. Clay Whittaker for Popular Science. “It's a widely applicable breakthrough that will, for instance, keep future robots perched while they wait for instructions,” Clay explains.
Prof. Daniela Rus speaks on Marketplace Tech about the origami robot that her group developed to serve as a microsurgeon. “This robot is ingestible in the form of a capsule,” explains Rus. “Once the robot reaches the stomach, the robot unfolds and can do interesting tasks.”