Kilobots are tiny autonomous swarming robots, that cost about $14 a piece to build (Photo: Harvard University)
Autonomous robotic devices are certainly capable of some impressive feats, but as is the case with people, sometimes large groups can accomplish what an individual or a small group can't. Research projects such as BAE Systems' MAST program recognize this potential, and are investigating ways in which entire swarms of small robots could work together. The problem is, given how much time and money goes into the creation of a typical autonomous robot, it's difficult to find a swarm of them to experiment upon - researchers often have to use computer simulations, or do their tests with a small group of robots, then scale up the results. That's where Harvard University's Kilobot project comes into play. It incorporates tiny swarming robots that take just five minutes to build, and that are worth about US$14 each
Autonomous robotic devices are certainly capable of some impressive feats, but as is the case with people, sometimes large groups can accomplish what an individual or a small group can't. Research projects such as BAE Systems' MAST program recognize this potential, and are investigating ways in which entire swarms of small robots could work together. The problem is, given how much time and money goes into the creation of a typical autonomous robot, it's difficult to find a swarm of them to experiment upon - researchers often have to use computer simulations, or do their tests with a small group of robots, then scale up the results. That's where Harvard University's Kilobot project comes into play. It incorporates tiny swarming robots that take just five minutes to build, and that are worth about US$14 each
Swarms of potentially hundreds or even thousands of Kilobots can be controlled by an overhead infrared controller, that can program an unlimited number of robots simultaneously in under 40 seconds.
Individually, the Kilobots are capable of autonomous behaviors such as orbiting another robot, moving to the center of a group, or moving around another robot in a U-pattern. Working together in groups of up to 29 (so far), the robots have demonstrated the ability to cooperatively forage for "food," follow the leader, disperse from one another, and synchronize the blinking of their built-in LED lights.
While the real world applications of such actions might seem limited, one has to remember that the Kilobots were designed as research tools, not as practical robots. Lessons learned with them, however, could lead to packs of robots that could explore and report on hostile environments, perform environmental monitoring, clean up hazardous materials, or various other functions.
Source: IEEE Spectrum
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