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Robot Composed of "Catoms" Can Assume Any Form
philetus writes "An article in New Scientist describes a robotic system composed of swarms of electromagnetic modules capable of assuming almost any form that is being developed by the Claytronics Group at Carnegie Mellon. 'The grand goal is to create swarms of microscopic robots capable of morphing into virtually any form by clinging together. Seth Goldstein, who leads the research project at Carnegie Mellon University, Pittsburgh, in the US, admits this is still a distant prospect. However, his team is using simulations to develop control strategies for futuristic shape-shifting, or "claytronic", robots, which they are testing on small groups of more primitive, pocket-sized machines.'"
Transformers! Robots in disguise!
Terminator II here we come!
either that or they end up using our "inferior" alloys instead of those fancy asguard alloys that don't rust. there's a reason they didn't compromise the hull integrity of that nuclear sub or the asguard ships. They are vulnerable to heat and apparently anything that damages the alloys they've used to make themselves out of.
Sigs are too short to say anything truly profound so read the above post instead.
One of the coolest potential applications of this is for Holographic-type communication. Perhaps not the 3D light-type display envisioned by Star-Wars and the like, but these could potentially mimic the form of someone for the purposes of communication. Also, games!
Terminator II here we come!
Well, we'd need two types of nanobots, or give them a double function: One type can bend and expand like a muscle cell to provide mobility. The other type needs to function as a skeleton (exo or endo, you choose).
How will you supply the energy to nanobots? And how is that energy going to be transmitted to different parts of the body? How will it be stored? And if it's in the form of liquid, you'll need blood vessels too. Also, if the design of the form that you're going to emulate isn't well thought, you could end up wasting LOTS of energy in moving the robot (and guess where that energy will go? Then we come to the subject of overheat prevention. You're gonna need a very good ventilation system. And the list could go on and on...