Ian Sample of The Guardian reports on how a team of researchers from MIT and Harvard have developed a “Transformer” robot that can self-assemble. "This will rapidly extend the manufacturing capabilities that we have today where configuring an assembly line is done manually and requires a lot of time," Prof. Daniela Rus explains.
“When it comes out of the 3D printer, the robot is just a sheet made of a polymer called polyvinyl chloride, or PVC. The sheet is sandwiched between two rigid polyester films. Slits cut into the films affect how the PVC sheet will fold when it is heated,” writes UPI reporter Brooks Hays of new work with self-assembling robots.
New Scientist writer Aviva Rutkin reports that MIT researchers have developed a new process in which flat cut-outs are able to self-assemble into robots when heated. "What we would like is to provide design tools that allow people who are not experts to create their own machines," explains Prof. Daniela Rus.
In a piece for Wired, Olivia Solon writes about how Professor Daniela Rus’ research group has developed, “a system of 2D patterns cut into plastic that can self-fold under heat into 3D shapes.”
Forbes reporter Jasper Hamill describes a new technique developed by Prof. Daniela Rus that allows robots to self-assemble when heated. “The components can be produced simply by heating up the plastic, which is cleverly designed so it folds itself into the right form,” writes Hamill.
“Eventually she can see a world where people can use an algorithm to analyze an image, create blueprints and print out fully functional robots. This could be a big deal in manufacturing, health care and, yes, toys,” writes NBC News writer Keith Wagstaff of Professor Daniela Rus’ work with self-assembling robots.