Posted on 02/22/2007 10:23:59 PM PST by LibWhacker
(Left) Independent s-bots with blue lights, and (right) s-bots joined into a
swarm-bot with red lights. Credit: Groß et al. ©IEEE 2006.
In one of the latest studies on autonomous robots, scientists sat back and watched as their robot created itself out of smaller robotic modules. The result, called swarm-bot, comes in many varieties, depending on the assigned task and available components. As the current state of the art in autonomous self-assembly, swarm-bots offer insight into the potential versatility and robustness that robots may possess to perform missions beyond human abilities.
A project coordinated by Professor Marco Dorigo, which was sponsored by the Future and Emerging Technologies program of the European Community, provided the impetus behind the swarm-bots. The researchers built small identical robots that can sense and latch onto each other to self-configure a giant specimen with no center of command. Looking sort of like a train or a swarm of bees, swarm-bots can assemble themselves up to any finite size, the scientists predict.
As components of many living systems, the s-bots of our system can self-organize, co-author Roderich Groß told PhysOrg.com. Each individual robot module, called an s-bot, interacts only with other s-bots in its immediate vicinity. Failures that occur in one or a few s-bots are therefore unlikely to have any significant impact on the performance of the entire system. Also, the system does not require any supplementary equipment such as global communication channels. We make use of a design approach based on swarm intelligence and evolutionary computation principles, as it helps shape the control to be both reliable and effective even if large numbers of s-bots are involved.
(Left) The rigid gripper used to connect s-bots. (Right) Three s-bots form a
swarm-bot that can climb a step. Credit: Groß et al. ©IEEE 2006.
Although a single s-bot is rather complex, the mechanisms used to create and control swarm-bots are fairly straightforward. The s-bots are 19 cm (7.5 in) high and weigh 700 g (1.5 lbs). They currently run on lithium ion batteries, with a lifetime of two hours. Around the center of an s-bots cylindrical body is a connection ring, which carries a claw-like gripper that can open and close around the rings of other s-bots. A loose grip enables some mobility, while a tight grip can enable lifting of the grasped s-bot.
With a camera and eight colored LEDs, the s-bots can communicate with each other on their status. For example, blue lights mean that an s-bot is not connected, while a red light signifies that the s-bot has gripped another s-bot (or a passive object) and tells other s-bots to approach and latch on. A mobility system of tracks and wheels, or treels, enables the s-bots to navigate on rough terrain, and gives them good steering abilities.
Swarm-bot combines the advantages of multi-robot and modular robot systems, said Groß of the robots intelligence. The component modules of swarm-bot, the s-bots, are fully autonomous and mobile, and they choose whether to assemble into a bigger entity to perform a task.
Each s-bot can perceive and connect only with its neighbors. However, as the assemblages build incrementally, the process allows for far-reaching connections. Additionally, in their tests, the scientists found that the more s-bots available, the higher the connection performance (up to 100%). Further, the bigger the swarm-bot structure becomes, the more surface it provides for potential connectionsincreasing the swarm-bots growth rate. The scientists explain that such super-linear growth likely occurs due to the decentralized control and evolutionary control design of the system.
Simulations with up to 100 modules indicate that a high density of modules is required to self-assemble a single artifact, Groß said. If the initial density of modules in the environment is too low, spare modules can lose visual contact with each other and consequently do not assemble. However, the control can easily be extended to let such isolated modules explore the environment. Ideally, the size of the final artifact should only be limited by the amount of resources, that is, the abundance of modules and the energy to charge them.
While the scientists did not design the swarm-bot for any particular application at this stage, a variety of applications that require high flexibility and autonomy could potentially benefit from this concept. Future tasks might include planetary precolonization, deep sea exploration, underground search for energy resources, and search and rescue missions, the group says. The scientists report that the swarm-bots have already succeeded in crossing ditches, transporting small heavy objects, and navigating rough terrainnone of which a single s-bot could have accomplished alone.
Citation: Groß, Roderich, Bonani, Michael, Mondada, Francesco, and Dorigo, Marco. Autonomous Self-Assembly in Swarm-Bots. IEEE Transactions on Robotics, Vol. 22, No. 6, December 2006.
Turn em loose on ANWR!
This is an interesting configurable robot, but it has nothing to do with self-assembly. Self-assembly is a robot assembling a copy of itself. Partial self-assembly would be a robot assembling one or more of its functional components. This story just describes a bunch of small robots connecting in a chain to form a big robot. How is that self-assembly?
|
"How is that self-assembly?"
They assemble themselves into something quite different than the individual robot. That is truly self assembly.
What you are expecting is called self copy.
This is really cool. Give them the task of disarming a mine field, and turn them loose. Just one thought.
ROFLMAO
ping for later
Thats funny.
Unless there is some disconnect upon destruction feature, I can see a whole regiment of these falling into the ditch.
THere was a star trek eposide about a bot becoming aware enough that it didn't want to do it's job because it would be destroyed in the process.
Of course, being the newer star trek, there was a big moral debate about whether they could fix the bot so it would do it's job, or respect it's "rights".
SciFi story about an intelligent mine, same thing - how do you convince a robot it is *supposed* to blow up, etc?
My first question on this swaring robot story - is how much C4 can they carry?
Yup, I saw that one. Good ep.
Thanks for the laugh.
Disclaimer: Opinions posted on Free Republic are those of the individual posters and do not necessarily represent the opinion of Free Republic or its management. All materials posted herein are protected by copyright law and the exemption for fair use of copyrighted works.