Lara Lewington reports for BBC Click on how MIT researchers have developed a technique to create 3-D printed soft structures that can be controlled with a magnet. Lewington explains that the structures could eventually be used in biomedical devices to “take images, extract samples, deliver drugs or even surround a blood vessel to control the pumping of blood.”
Researchers at MIT have created 3D-printed structures that can be controlled by a magnet. The structures included a tube that could squeeze shut, a sheet that could fold, and “a spider-like ‘grabber’ that could crawl, roll, jump, and snap together fast enough to catch a passing ball,” reports Mu Xuequan for Xinhua.
Gabriel Bousquet ’17 speaks to BBC Click’s Gareth Mitchell about the robot he designed for his graduate thesis that was modeled after an albatross. Bosquet envisions using the robot to better understand “the exchanges between the atmosphere and ocean and carbon dioxide,” in the Antarctic Ocean, in an effort to learn more about climate change.
MIT researchers have developed 3-D printed magnetic robots that could potentially be used inside the body to deliver medical treatments or take tissue samples. “Their ultimate goal is to design a robot that's just as soft and flexible as a human or animal, so that it can have a wide range of potential applications,” explains Sarah Gibbens for National Geographic.
Using magnetic nanoparticles that have been mixed into rubber, Associate Prof. Xuanhe Zhao has created “3D printed shapes that fold, morph, and move in the presence of a magnetic field,” reports Leah Crane for New Scientist. In the future, Zhao believes this work could have medical applications, “like assisting minimally invasive surgeries,” notes Crane.
NBC Mach reporter Tom Metcalfe writes that MIT researchers are developing autonomous boats that could be used to ferry goods and people and could help ease traffic congestion. “We believe that with fleets of very agile autonomous boats we can offload some street traffic onto the waterways,” explains Prof. Daniela Rus.
Wired reporter Jack Stewart highlights how MIT researchers have developed a 3-D printed autonomous boat that could be used to ferry goods or people. The boats could eventually, “use their onboard GPS sensors and inertial measurement units to precisely position themselves in packs, forming instant floating bridges, or stages, or platforms for pop-up food markets on the water.”
In this Bloomberg radio segment, Prof. Daniela Rus discusses her work developing a fleet of autonomous 3-D printed boats that could not only transport goods and people, but also self-assemble into bridges and other structures. Rus explains that she is, “very excited about the idea of taking the autonomy technologies we have in driverless cars and applying them to other vehicles.”
Xinhua news agency reports that MIT researchers have developed a robotic glider based on an albatross that can skim along the water’s surface “while surfing the waves like a sailboat.” “The researchers hope that in the near future, such compact and speedy robotic water-skimmers may be deployed in teams to survey large swaths of the ocean.”
Laney Ruckstuhl of The Boston Globe writes about “Calculated Imagination,” the Course 2.007 Willy Wonka-themed robot competition based on “creativity and innovation.” Students are graded on their work leading up to the competition. “You can earn an ‘A’ with a robot that scores zero points but that demonstrates good engineering and design skills,” Prof. Amos Winter explains.
Kerri Corrado of 7 News Boston reported live from this year’s Course 2.007 robot competition, where students put their homemade robots to the test on a Willy Wonka-themed course. The competition “gets the students into the design process, the manufacturing process, the building process and gets their ideas to reality,” said mechanical engineering student John Taylor Novak.
Media Lab spinout “Ori” has developed what its founder Hasier Larrea SM ’15 calls a “Swiss Army knife for studio apartments,” writes Andy Rosen for The Boston Globe. A “robotic furniture system,” the compact 8 by 5 foot design can equip even the smallest rooms with a bed, multiple desks, closet, and entertainment system.
SoFi, or “soft robot fish”, was developed by researchers in CSAIL to better observe marine life without disturbance. “…it's specially designed to look realistic and move super-quietly through the waves,” writes BBC News, whose brief also features a video of the fish in action.
CSAIL researchers have developed a soft robotic fish that can unobtrusively observe marine wildlife, writes NPR’s Colin Dwyer. Known as SoFi, the robot is “more likely to get close to aquatic life acting naturally,” explains Dwyer, “which could mean its camera has a better chance at snapping some candid shots to pass on to marine biologists.”
Research published in Science Robotics reveals the functionality and future potential of CSAIL’s “SoFi” robotic fish. “Scuba-diving humans don't exactly blend in, which can make it hard to watch some animals up-close,” writes Michael Greshko for National Geographic. “SoFi could act as marine biologists' unobtrusive eyes and ears.”