How to make the elastic structure, what can repair itself?
1) The answer is simple: use nature as the model
When we are thinking about elastic robots, what can repair themselves and fix their damages, we might think that this kind of project would be very difficult to accomplish in real life. The thing is that the system can use the natural muscle cells as the model of the structure of robots. The body of those extremely small machines is created by using the silicone body, and spring-shaped carbon molecules, what length can be adjusted by using electricity, what is conducted to those molecules.
The microchip inside that system would conduct the electricity to the carbon molecule, which is in the direction, where that system would need to curve. Those artificial cells would be connected by the extremely small size carbon hooks, which can be open or close by conducting the electricity to those hooks.
2) Every each particle of that structure knows its place by using the RFID system, where is the number of each number.
In the system, what bases the neural information network is the map, where is the place of every single particle of entirety. The data-handling process of that system would base similar technology, which is used on the internet. That data network allows those robots to share their calculation capacity with other units.
And if some unit would be malfunctioning, the system would tell, that the "unit 945 doesn't answer ping-call, and is malfunction". Then the support system would send the replacement particle for the robot. That means that the system would be operating independently also in this kind of case.
Every single sub robot might have the CCD-chips, which can deliver data to that system. And the hearing would be happening by using the silicone as the microphone. The sound waves would shake the structure, and that allows us to use the entire layer as the visual and acoustic sensor.
3) How to make real-life liquid robots, what can take the form of the man?
When we are thinking that the robot would not have to feel or seem like a human, and the metal-colored structure is enough, those sub-robots might be identical. This kind of system can also emulate the human if it would have small LCD-screens in every single robot, which is forming the entirety. In that case, the system would act like some T-1000 from the terminator movies. But those robots might not feel human.
Those robots can take every form, what is programmed in their databases, and if they are connected to the internet, that thing would be very independent. The system can use some hydrocarbon or hydrogen as the fuel in the miniature fuel cells. But the thing is that those systems might have also a silicon-based photoelectric system for use at the daytime, and that same system can also be used to split water molecules by using electrolysis.
The idea is that the single part of the structure is not very strong, but the power of those systems is in entirety. They are strong together, and that means that kind of robots are emulating living organisms, but in this case, every single cell would be an independent robot and that structure can send one of those cells to make things for it.
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