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Distributed Robotics Laboratory

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Popular Mechanics

In an article for Popular Mechanics, Tiana Cline spotlights SoFi, an autonomous, soft, robotic fish that can swim alongside real fish. “SoFi has the potential to be a new type of tool for ocean exploration and to open up new avenues for uncovering the mysteries of marine life,” Cline notes.

BBC News

Prof. Daniela Rus talks to Gareth Mitchell of BBC’s Click about how she and her colleagues have developed shape-shifting robots that can change their exoskeletons to perform different tasks. “These types of robots could become superheroes for the robot kingdom,” explains Rus. “A robot could amplify all of its capabilities by taking on these different types of clothes.” 

New Scientist

CSAIL researchers have developed a new shape-shifting robot that can change outfits in order to perform different tasks, reports Timothy Revell for New Scientist. “In the future, we imagine robots like this could become mini surgeons, squished into a pill that you swallow,” explains Prof. Daniela Rus. 

BBC

Prof. Daniela Rus speaks to the BBC’s Gareth Mitchell about the robots developed by CSAIL that can modify their behavior based on brain waves detected by a human operator. “We imagine operating prosthetic devices, a wheelchair, even autonomous vehicles,” says Prof. Rus.

Wired

CSAIL researchers have developed a system that allows robots to correct their mistakes based on input from the brainwaves of human operators, reports Wired’s Matt Simon. “It’s a new way of controlling the robot,” explains Prof. Daniela Rus, “in the sense that we aim to have the robot adapt to what the human would like to do.”

Newsweek

Anthony Cuthbertson of Newsweek writes that CSAIL researchers have developed a system that allows robots to change their actions based on feedback from the brain waves of a human operator. “Imagine robots or smartphones that could immediately correct themselves when you realize they’re making a mistake,” says PhD candidate Joseph DelPreto. 

HuffPost

CSAIL researchers have developed a system that allows robots to detect brain signals generated by human operators, writes Oscar Williams of Huffington Post. The researchers hope the new system could “pave the way for more seamless interactions between robots and humans.”

Forbes

A feedback system developed by CSAIL researchers allows humans to correct a robot’s mistakes using brain signals, writes Janet Burns for Forbes. The system could be used as a “communication method for those who can't use verbal means, such as immobilized or even 'locked in' victims of paralysis,” explains Burns. 

Financial Times

MIT researchers have developed a device that allows humans to guide robots using brainwaves, reports Clive Cookson for the Financial Times. The prototype brain-computer interface “enables a human observer to transmit an immediate error message to a robot, telling it to fix a mistake when it does something wrong.”

New Scientist

New Scientist reporter Matt Reynolds writes that MIT researchers have developed a new brain-computer interface that enables people to correct robots’ mistakes using brain signals. “We’re taking baby steps towards having machines learn about us, and having them adjust to what we think,” explains Prof. Daniela Rus, director of CSAIL. 

The Washington Post

Washington Post reporter Matt McFarland writes that MIT researchers have developed a technique for printing solid and liquid materials at the same time, a development that could make producing robots faster and easier. Prof. Daniela Rus explains that the new process could make “a big difference in what kind of machines you can make.”

Popular Science

Popular Science reporter Kelsey Atherton writes that a new 3-D printing process developed by MIT researchers incorporates both solid and liquid materials at the same time. Atherton explains that the prototype robot developed using the process walks “with hydraulic bellows, fluid pumping in and out to turn a crankshaft that moves the legs back and forth.”

CBS News

Researchers from MIT CSAIL have developed a new 3-D printing process that produces robots with no assembly required, reports Brian Mastroianni for CBS News. “MIT's new process is significant in that the production period is streamlined, with the robot's solid and liquid hydraulic parts being created in one step,” Mastroianni explains. 

Boston Magazine

Boston Magazine reporter Jamie Ducharme writes that MIT researchers have developed a way to simultaneously 3-D print liquid and solid materials, “allowing them to create functional, nearly assembly-free robots.”

BBC News

In this video, the BBC’s LJ Rich reports on the 3-D printed, soft robotic hand developed by researchers at the MIT Computer Science and Artificial Intelligence Lab. Rich explains that the robotic hand can “handle objects as delicate as an egg and as thin as a compact disk.”