 | Harvard Microrobotic Fly
Read more at www.botjunkie.com and micro.seas.harvard.edu |
 | Hex Bugs Nano Micro Robot Remote Control Toys Toy Fair 2010 Preview
Hex Bug Micro Robotic Creatures by Innovation First. Join us at blog.Atamaii.com Hex bugs are 5 different types of robotic toys Hex Bug Inchworm, Crab, Original Hex Bug, Ant, and the Hex Bug Nano. Some of these robots are remote controlled r/c, and some are antonymous with sensors and intelligent-se |
 | I-Swarm Micro Robot
Find out more about the locomotion unit and the full robot systems at Hizook.com -- www.hizook.com |
 | Microrobots
Microscopic robots crafted to maneuver separately without any obvious guidance are now assembling into self-organized structures after years of continuing research led by a Duke University computer scientist. Each microrobot is shaped something like a spatula but with dimensions measuring just micro |
 | Microbot for swimming in small arteries: The Proteus
Microrobot conceptual video concerning our research activity as reported in the Journal of Micromechanics and Microengineering ( www.iop.org ). We have the microbot swimming now, and hope to untether it this year. Please see mnrl.monash.edu for more info (MicroNanophysics Research Laboratory at Mona |
 | Micro Robot Rolling along
They could use this to carry very teeny loads short distances. Lots of uses for this |
 | Micro-robots transport glass and trap particles
Read more: www.newscientist.com |
 | "Micro-robots" pick up a glass bead
"Micro-robots", which are really collections of particles animated by magnetic fields, pick up a glass bead and move it around the screen. Each movement is precisely controlled. The "asters" were designed by Alexey Snezkho and Igor Aronson at Argonne National Laboratory. Video courtesy Nature Materi |
 | Micro-robot Operates Inside Eye
For more news visit ☛ english.ntdtv.com Follow us on Twitter ☛ http Add us on Facebook ☛ facebook.com Researchers in Switzerland are perfecting a robot small enough to be injected into your eye without anaesthetic. The team say their device could carry drugs to the exact position they are need |
 | Harvard Microrobotics Laboratory micro-aerial vehicle
Thanks to research by Professor Robert Wood and members of the Harvard Microrobotics Laboratory, micro-aerial vehicles like this one, based on the anatomy of a fly, may one day go where humans can not. Seen here, a carbon-fiber wing, 15 millimeters long, whips forward and back 110 times per second, |
