Electrical engineering and computer science (EECS)

Nicole Skinner writes for Nature about how MIT researchers have developed a new technique to test for malaria. The new method only requires a tiny droplet of blood to check for malaria and can provide a diagnosis within minutes. 

Drake Bennett of Bloomberg Businessweek reports on how a team of researchers from MIT and Harvard have created a robot that can self-assemble from a flat sheet of paper in four minutes. The robot is made of paper, and layered with a circuit board and prestretched polystyrene, the same material used to create Shrinky Dinks, Bennett explains. 

Bloomberg Businessweek spotlights the new self-folding, mobile robot developed by MIT and Harvard researchers. The design for the robot was inspired by origami and the team used inexpensive and easily accessible materials to build the robot, Bloomberg reports. 

Joseph Flaherty of Wired takes a close look at the design of MIT’s self-assembling robots. “[T]hese researchers are promoting a new kind of manufacturing where engineers can elegantly specify a design and watch it spring to life like a seed emerging from the ground,” writes Flaherty.

“Researchers at MIT and Harvard said that they achieved a landmark feat of engineering by creating a sophisticated machine—and doing so inexpensively and quickly—that has the ability to autonomously interact with its environment,” Kevin Conlon and Leigh Remizowski of CNN report.

Wired reporter Katie Collins writes about the new self-assembling, mobile robot developed by MIT and Harvard researchers. “It takes only four minutes for the robot to fold itself up, after which it can walk away with no human intervention,” writes Collins. 

Writing for BetaBoston, Nidhi Subbaraman reports on the self-assembling robot, made of inexpensive materials, developed by researchers from MIT and Harvard. This research demonstrates the potential to make robots easily accessible and affordable for the general population, Prof. Daniela Rus explains. 

Megan Turchi of Boston.com writes about the new autonomous, self-assembling robots designed by researchers from MIT and Harvard. The robots can fold themselves into mobile structures that are then able to move independently. 

Carolyn Johnson of The Boston Globe writes about the self-folding robots designed by a team from MIT and Harvard. “The question is, can we develop the tools that will allow us to automatically and rapidly generate one robot for any task?” says Professor Daniela Rus.

Robert Lee Hotz reports for The Wall Street Journal on the new self-assembling robot developed by researchers from MIT and Harvard. The robot can transform from a flat sheet of paper into a mobile robot in four minutes, and the technique has applications in everything from self-assembling satellites to shape-shifting robots for search-and-rescue operations, Hotz reports. 

Brooks Hays writes for United Press International about the self-folding robots created by researchers from MIT and Harvard. "The exciting thing here is that you create this device that has computation embedded in the flat, printed version," explains Prof. Daniela Rus. 

Robert Lee Hotz of The Wall Street Journal writes that researchers from MIT and Harvard have developed of prototype of a, “flexible, self-assembling machine.” Potential applications for the technology include everything from self-assembling satellites to shape-shifting search-and-rescue robots. 

In a piece for USA Today, Hoai-Tran Bui writes about how a team of researchers from MIT and Harvard have developed a robot that can self-assemble from a flat sheet of paper in minutes. "The big dream is to make robots fast and inexpensive," says Prof. Daniela Rus. 

Slate reporter Boer Deng writes about the self-assembling robot developed by scientists from MIT and Harvard. The robot, “forms itself, Transformer-like, from a flat sheet into a four-legged creature that crawls,” Deng writes. 

Joe Kloc of Newsweek writes about how MIT and Harvard scientists have developed a self-assembling robot that folds itself into a 3-D robot capable of movement. "We have achieved a long-standing personal goal to design a machine that can assemble itself," says Prof. Daniela Rus of the project.