No robot has been made only one purpose, the tale about repair and service drones, the tools of tomorrow
No robot has been made only one purpose, the tale about repair and service drones, the tools of tomorrow
The drones are the most sophisticated and multipurpose systems in the world of robotics. Hovering drones can be used in surgical missions and they can remove bombs from buildings. They can make many difficult things, and the systems can operate fully or semi-automatically. That means that if the drone would handle everything, it can operate automatically by using the movement series that are stored in the databases.
But if the surprising thing, what is not predicted when the database has been created is in the front of the drone, it can call the human operator, who uses data-gloves and other tools to teach a new trick for the robot. It can use multiple scanners like lasers, radars and small-size stereo cameras for looking at the thing, what is needed the repair. When the robot would come to the mission, it can ask the floor plan of the house from the internet. Navigate to the broken machine and then do its duty.
The surgical robots are the things, what is always come in the mind of people when they are thinking about the robots, and how they can work remotely. But maybe the first places, where the remote-control robots are taking places are the normal garages, and, the people, who own cars and who would have technical problems at the highway would get technical assistance from the remote control drones long before the remote surgery is coming in the normal life.
The drones can fix technical equipment as well they can make surgical operations, but if the drone would fix the engine of the car, that thing would be easier to test, than put drones to make some medical operations. The thing is that drones are effective tools in many operations and the repair services of the future can use drones to repair things like dish machines, cars, and lawnmowers.
When some machine would be broken in the home, the drone just flies inside, and then the artificial intelligence would start to find the register plate of that machine. And after that, the system would find the CAD-images of that machine, what might be the motor or some kind of dish machine. Then the system can repair that thing automatically. The idea is that the system would have the screws and other connectors, which are marked by using RFID.
This system bases the idea that every single connector is in a certain place. That makes possible that drone can repair the object itself without human assistance. When the drone notices the mark and model of the dish machines, the system would ask the repair instructions from the internet, and then it would make repairs independently.
Then the drone would locate itself by using laser-scanners, stereo cameras, and other things. Then the drone would dig the necessary movement series from the databases, what mission is to control the independent operations of those things. The drone would be quite a big-size quadcopter, and that thing can operate by using the electric motors. The quadcopter can make sure about the electric supply by putting the socket to the wall, and then the system can hover or land to the ground, while it makes the operation.
When we are thinking about quadcopters, they are similar robots with other robots. The difference between those systems is that quadcopters are hovering, and that makes them very useful in many missions. The quadcopter can have the manipulator's arms, and it can make the surgical operations. But the thing is that those hovering robots around the surgical table might make the patient a little bit nervous.
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