MEG is a multi-use system
What if we would connect the image compiling system to MEG-scanner. The result would be the system, which can make many things like searching the damages is brains, observe the actions of the neurons, and also those images can use to control robots and computers by the same way as EEG makes, but this system uses compilations of graphical images and records, what are stored in database and recorded from the MEG system. That thing can bring sophisticated solutions to this kind of systems.
And the lightweight systems can installed in the helmets of astronauts, or some other explorers, who need a lightweight, multipurpose mobile system in their work. The controller of the system might use data glasses for getting images from the robot, and then control that system by using things like toy wheels for making right-looking brain images.
The thing in the systems is that they are lightweight. That thing could revolutionize the technology, what is used in the spaceflights. Let's think about the helmet of an astronaut. That thing could be equipped with lightweight MEG (Magnetoencephalography)-system. This kind of innovation could be the new form of the thing, what is called as multipurpose systems.
So one system fits all is the thing, what makes them so effective. The MEG -based system can also be used to get information and also control the machines just like EEG-machine uses. But MEG-based systems are doing that in another way. They are compiling the images, what system would give to a computer with images, what are stored in the database of the system.
Those images, what are stored in the system are taken, when a person does something, and the thing is that those images are connected to the certain action. So this brain-controlled system is quite easy to make by connecting the image recognition system with the system, what controls the movements or other actions of the computer or robot, which will open the most interesting point of view to the remote-controlled devices.
The thing is that the images of the actions in brains when the person is turning the car to some direction can be stored to the database, and when a person will be connected to the MEG-system, the system can react the image. That means that the controller can turn robots by keeping hands in the toy wheel and looking at the image, what the cameras of the robot are sending to that controller.
This kind of things would give more power to the creation of robots, which are connected to human brains, which means that they can become an extension of the human body. And there are some other things, what this kind of system can do. Let's take an example that the computer programmer let record the functions of brains, while that person makes programs, those things can be used to make programming more effectively. The thing that human brains can control computers directly without hands or other devices would revolutionize many things.
And if we would connect that kind of systems to the things like HULC-exoskeletons or wearable robots, that would make those systems more effective to use. But as you see those systems would be multi-use systems, what are also search the damages in brains and head areas in the conditions, where the people are sending to the extreme frontiers, and every gram must think clearly.
More about this topic: MEG-system, remote control solutions, robotics.
What if we would connect the image compiling system to MEG-scanner. The result would be the system, which can make many things like searching the damages is brains, observe the actions of the neurons, and also those images can use to control robots and computers by the same way as EEG makes, but this system uses compilations of graphical images and records, what are stored in database and recorded from the MEG system. That thing can bring sophisticated solutions to this kind of systems.
And the lightweight systems can installed in the helmets of astronauts, or some other explorers, who need a lightweight, multipurpose mobile system in their work. The controller of the system might use data glasses for getting images from the robot, and then control that system by using things like toy wheels for making right-looking brain images.
The thing in the systems is that they are lightweight. That thing could revolutionize the technology, what is used in the spaceflights. Let's think about the helmet of an astronaut. That thing could be equipped with lightweight MEG (Magnetoencephalography)-system. This kind of innovation could be the new form of the thing, what is called as multipurpose systems.
So one system fits all is the thing, what makes them so effective. The MEG -based system can also be used to get information and also control the machines just like EEG-machine uses. But MEG-based systems are doing that in another way. They are compiling the images, what system would give to a computer with images, what are stored in the database of the system.
Those images, what are stored in the system are taken, when a person does something, and the thing is that those images are connected to the certain action. So this brain-controlled system is quite easy to make by connecting the image recognition system with the system, what controls the movements or other actions of the computer or robot, which will open the most interesting point of view to the remote-controlled devices.
The thing is that the images of the actions in brains when the person is turning the car to some direction can be stored to the database, and when a person will be connected to the MEG-system, the system can react the image. That means that the controller can turn robots by keeping hands in the toy wheel and looking at the image, what the cameras of the robot are sending to that controller.
This kind of things would give more power to the creation of robots, which are connected to human brains, which means that they can become an extension of the human body. And there are some other things, what this kind of system can do. Let's take an example that the computer programmer let record the functions of brains, while that person makes programs, those things can be used to make programming more effectively. The thing that human brains can control computers directly without hands or other devices would revolutionize many things.
And if we would connect that kind of systems to the things like HULC-exoskeletons or wearable robots, that would make those systems more effective to use. But as you see those systems would be multi-use systems, what are also search the damages in brains and head areas in the conditions, where the people are sending to the extreme frontiers, and every gram must think clearly.
More about this topic: MEG-system, remote control solutions, robotics.
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