Robots are generally designed to perform a single, specific task. But now a team from MIT's Computer Science and Artificial Intelligence Laboratory (CSAIL), led by CSAIL director Daniela Rus and former CSAIL postdoc Shuhei Miyashita, is developing a system that allows a "Primer" robot to don various exoskeletons to give it different capabilities.
The core of the origami-inspired system is the Primer robot, which is a cubical robot that is controlled by magnets and can move about by shaking and buzzing. To carry out more complex tasks, including walking, rolling, sailing, or gliding, the Primer can hop onto a flat sheet of plastic that folds into specific shapes when heated, providing the Primer with a self-donning robotic wardrobe. When finished with its job, the Primer can then hop into a dish of water to dissolve the exoskeleton.
Currently, the Primer has the following exoskeletons on hand,
-Walk-bot, which allows the Primer to walk about
-Wheel-bot that allows Primer to move about twice as fast as the Walk-bot
-Boat-bot, which can float on water and carry a payload twice its weight
-Glider-bot that allows the Primer to, well, glide through the air
Which exoskeletons should follow?
(Score: 0) by Anonymous Coward on Friday September 29 2017, @03:59PM
The "robot" is a neodymium magnet cube. They even marked the polarity with a sharpie.
It's moved by external electromagnets.
Earlier work, looks pretty much the same: http://news.mit.edu/2015/centimeter-long-origami-robot-0612 [mit.edu]
I guess they have fiddled with the candy wrappers, er, the "exoskeletons" a bit.
I wonder if it was still a human pushing the buttons and wiggling the cube.