About miniaturized robots and their functions
The thing in the modern world and computer technology is that every particle of the system must not handle every kind of operations. The problem with miniaturized nano-bugs is that their size is so small that the electric source and the data handling units are problematic to create. One solution would be the miniaturized fuel cell, which can use hydrocarbons for creating electricity.
But there is another version of that power system and that is that the quadcopters would bring the computers and the power sources to those miniature robots. One of the most unique ideas is that the quadcopters or some other helicopters would fly above the robot bugs, and pump the electricity to those small robots by using wireless electric transfer.
Also, those bigger units would communicate with miniature-drones and the controlling computers would be at those bigger drones. This thing would give a solution to the problem, how to connect the small size, good power source, and the effective operational range. If the power source would have effective output, the range of the small-sized robots would be extremely short.
This is one of the most vital problems when those robot bugs are created. The thing is that if the power source and most of the calculating functions would outsource to the bigger drones, what is flying above the small drones. Or otherways every single computer in the drone swarms can be connected to one large network-based data handling solution. This makes those robots operate autonomously and they are not addicted to long-range communication.
But if those systems use data-connection, they can ask data-assistance from the central computers, what are locating at the other side of the Earth. Of course, that solution might be multi-cloud, where the drone-swarms are communicating together or with the control center, what might be the cloud-based solution, what connects the data, what is collected satellites and other detecting systems like ships, man-portable systems, and normal aircraft. The artificial intelligence can create the actions, what it wants those drones to do using this information, what is collected from the different places as the source.
When we are talking about nanosized robot bugs, which can act as a swarm of ants, we always forget something. Those small-size robots must not know or handle every kind of actions, and they can operate with other kinds of drones and another kind of robots and vehicles. The robot ants or spiders, how would you call those small-sized robots can have the metal bites in their back, and they can be carried from one place to another by using quadcopters, what are equipped with electric magnets, what can raise those machines above ground.
Those miniaturized robots electric sources can also be loaded by using those quadcopters, which can use wireless loading systems to those ants. The idea is that when the poly robot is created by separate particles, that structure can be intelligent and flexible.
Those small robots can be connected in one big structure, and that allows them to connect their computers. And also they can ask the calculating assistance from the quadcopters, which would resend the transmitting to communication satellites. But the ability to connect the microchips of those drones and small-size robots to operate as one very large computer makes them the ability to operate independently.
The thing in the modern world and computer technology is that every particle of the system must not handle every kind of operations. The problem with miniaturized nano-bugs is that their size is so small that the electric source and the data handling units are problematic to create. One solution would be the miniaturized fuel cell, which can use hydrocarbons for creating electricity.
But there is another version of that power system and that is that the quadcopters would bring the computers and the power sources to those miniature robots. One of the most unique ideas is that the quadcopters or some other helicopters would fly above the robot bugs, and pump the electricity to those small robots by using wireless electric transfer.
Also, those bigger units would communicate with miniature-drones and the controlling computers would be at those bigger drones. This thing would give a solution to the problem, how to connect the small size, good power source, and the effective operational range. If the power source would have effective output, the range of the small-sized robots would be extremely short.
This is one of the most vital problems when those robot bugs are created. The thing is that if the power source and most of the calculating functions would outsource to the bigger drones, what is flying above the small drones. Or otherways every single computer in the drone swarms can be connected to one large network-based data handling solution. This makes those robots operate autonomously and they are not addicted to long-range communication.
But if those systems use data-connection, they can ask data-assistance from the central computers, what are locating at the other side of the Earth. Of course, that solution might be multi-cloud, where the drone-swarms are communicating together or with the control center, what might be the cloud-based solution, what connects the data, what is collected satellites and other detecting systems like ships, man-portable systems, and normal aircraft. The artificial intelligence can create the actions, what it wants those drones to do using this information, what is collected from the different places as the source.
When we are talking about nanosized robot bugs, which can act as a swarm of ants, we always forget something. Those small-size robots must not know or handle every kind of actions, and they can operate with other kinds of drones and another kind of robots and vehicles. The robot ants or spiders, how would you call those small-sized robots can have the metal bites in their back, and they can be carried from one place to another by using quadcopters, what are equipped with electric magnets, what can raise those machines above ground.
Those miniaturized robots electric sources can also be loaded by using those quadcopters, which can use wireless loading systems to those ants. The idea is that when the poly robot is created by separate particles, that structure can be intelligent and flexible.
Those small robots can be connected in one big structure, and that allows them to connect their computers. And also they can ask the calculating assistance from the quadcopters, which would resend the transmitting to communication satellites. But the ability to connect the microchips of those drones and small-size robots to operate as one very large computer makes them the ability to operate independently.
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