The MicroTug robots,
developed by researchers at Stanford University, have a pulling-power
equivalent of six humans pulling the Eiffel Tower. Confusingly, an
1,800 kg car is two tons (US) but 1.8 tonnes (UK).
The video from staff
in the Biomimetics and Dexterous Manipulation Laboratory at the US
university builds on previous work where a single MicroTug pulled
more than 2,000 times its own weight.
David Christensen, a
researcher from the lab behind the work, said the robots and their
teamwork were based on that of ants, who work together to move large
objects.
MicroTug's work by using controllable adhesives that allow the robots to pull more than their body weight. "These are small robots that can both move quickly and use controllable adhesion to apply interaction forces many times their body weight," the original research by Stanford states.
The adhesives enable
these autonomous robots to accomplish this feat on a variety of
common surfaces without complex infrastructure. The latest research,
which is published in the paper Let's All Pull Together:
Principles for Sharing Large Loads in Microrobot Teams, is due
to be presented by the Stanford engineers to the International
Conference on Robotics and Automation, in Stockholm in May.
( Sources and
Citation :
http://www.wired.co.uk/news/archive/2016-03/14/robots-pull-car
)
