“So I guess the different elements were there, and we just made the connection.” “By collaborating with roboticists we were able to ‘close the gap’ between single robot design and swarm control,” said Azadeh Ansari, an assistant professor in the School of Electrical and Computer Engineering (ECE). The breakthrough is unique to Georgia Tech’s expertise in electric and computer engineering and robotics and its push for interdisciplinary collaborations. The work offers a new system to control swarms of 300 3-millimeter microbristle robots’ (microbots) ability to aggregate and disperse controllably without onboard sensing. Individual robots can work collectively as swarms to create major advances in everything from construction to surveillance, but microrobots’ small scale is ideal for drug delivery, disease diagnosis, and even surgeries.ĭespite their potential, microrobots’ size often means they have limited sensing, communication, motility, and computation abilities, but new research from the Georgia Institute of Technology enhances their ability to collaborate efficiently. Vibrating tiny robots could revolutionize research.
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