Imaging brain activity is allowing to find out how suitable some profession is for a person. But it also serves the development of the new type of robot interfaces.
New brain imaging tools are fantastic. Connecting the modern computing tools with traditional sensors like PET, EEG, and MEG sensors is a way to get fundamental data from brains. The AI will help to get more from the old fashion systems. And analyzing the old stored data by using modern tools. Is making it possible to get more data from the old records. The AI makes it possible also to interconnect data from those systems. And that thing makes the revolutionary computing solutions.
The data from the brain scanners can be driven to the supercomputers through the internet. This ability makes it possible to run complicated artificial intelligence programs during the imaging process. And artificial intelligence can see anomalies very easily from the images and files that are stored during the examination.
The new imaging tools are making it possible to observe things like blood flow in certain brain areas. The system can monitor how many nutrients and how many nutrients certain brain areas are using. And interconnecting those sensors is making it possible to observe things like what brain areas are activating during the exams. So if we want to use this system for some useful and productive things it can use for the selection of education.
By observing the activation of certain brain areas the researchers can follow are the brain areas that are controlling things like mathematical actions in brains are activating which means the person is working with a mathematical problem. But if the system detects also the activation in the brain areas that are controlling pleasures. That means the person is enjoying the work.
By analyzing the EEG separately from many brain areas means the ability to get highly accurate data separately from every brain area makes it possible to make the new and more multipurpose BCI systems. The data collected from brains can use many more purposes than just finding out the risk of brain infarct. That data makes it possible to create new and powerful tools for controlling robots through computers.
Possibly in the future, the BCI (Brain-Computer Interface) can turn human thoughts to film. That can show on the screens of a computer. But even today those systems can use to control robots like they are part of the user's body.
The BCI/BMI (Brain-Computer/Brain-Machine interface) is the system that makes it possible to control robots through computers by using brain waves. The system can of course use to control combat robots, but also things like remote-controlled surgical operations. That kind of interface is one of the most interesting and powerful tools in computer-robot development in the world.
That interface can install in the headband or hat. And the interaction with robots happens by using the brain core stimulation. That thing makes it possible to connect the robots to the nervous systems like they are part of the user. The user can feel everything that the robot feels and the system can make the robot follow precisely the commands that the user gives.
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()https://en.wikipedia.org/wiki/Magnetoencephalography
()https://en.wikipedia.org/wiki/Positron_emission_tomography
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