Researchers from MIT's CSAIL and Senseable City Lab “have designed a fleet of 3-D printed autonomous boats [that] could eventually taxi people and deliver goods,” reports CNBC’s Erin Black. The boats “can also be equipped to monitor a city's water quality,” Black explains.
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.”
Researchers at MIT’s Self-Assembly Lab are developing an inflatable, stretchy, 3-D printed material that could be used in cars, writes Laura Yan for Popular Mechanics. “Inflatable materials could mean fully customizable car interiors: seats that can merge and inflate into different orientations and configurations, the ability to program the hardness or softness of your seats, redesigned airbags (of course), and perhaps much more,” explains Yan.
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.”
Researchers from the Self-Assembly Lab are collaborating with BMW to develop inflatable objects that could potentially be used in car design, writes Katharine Schwab for Co.Design. Prof. Skylar Tibbits explains that the technology could be used to create adjustable car interiors that, “could be different every time you got in, or for every person who got in.”
Researchers at MIT have developed a “kirigami” film, based off of the ancient paper-folding technique of the same name, that can be used for bandaging tricky areas like the knee or elbow, writes David Grossman for Popular Mechanics. “We are the first group to find, with a systematic mechanism study, that a kirigami design can improve a material’s adhesion,” says postdoc and lead researcher Ruike Zhao.
Sarah Toy of The Wall Street Journal writes that CSAIL researchers have developed a soft robotic fish that can capture images and video of aquatic life. “The key here is that the robot is very quiet as it moves in the water and the undulating motion of the tail does not create too much water disturbance,” says Prof. Daniela Rus.
Associate Prof. John Hart speaks with Miles O’Brien on PBS NewsHour about the future of 3-D printing and how the true extent of its application is “in some part beyond our imagination.” “There’s few things that you can 3-D print and then use right away,” says Prof. Hart. “But we’re getting there.”
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.”
A soft robotic fish created in CSAIL could be used to study marine life in the wild. “Using sound, divers can pilot the robot fish from almost 70 feet away,” writes Matt Simon for Wired. Future versions of the device, known as SoFi, “would use machine vision to lock onto individual fish and follow them around, all without raising suspicion.”
“SoFi”, a robotic fish operated by a hydraulic pump and created from pieces made by a 3-D printer in CSAIL, could be the key to discretely observing marine life, writes Deborah Netburn of The Los Angeles Times. “I hope we can begin to peek into the secret lives of underwater creatures," said CSAIL director Daniela Rus.
Using sound waves manipulated by a Super Nintendo controller, CSAIL’s “SoFi” robotic fish “may provide biologists a fish’s-eye view of animal interactions in changing marine ecosystems,” writes JoAnna Klein for The New York Times. SoFi is fairly inexpensive and hardly disturbs surrounding marine life, making it a promising solution for underwater observation.
CSAIL researchers have developed a soft robotic fish, known as SoFi, that can “capture high-resolution photos and video with a camera built into its nose,” writes Will Dunham for Reuters. “The robot can be used as a marine biology instrument and also to measure pollution in coastal waters, to create maps, to do inspection, to monitor and track,” said Prof. Daniela Rus.
MIT startup Ministry of Supply has developed a jacket that utilizes AI to keep its wearer warm. “The jacket…can also be voice-controlled through devices like the Amazon Echo or manually with an app,” writes Erin Black for CNBC.