The new nano-scale neural sensors allow making the new and more effective BCI (Brain-Computer Interface), what the old-fashion single-chip systems ever can be. The BCI system could be one of the biggest advantages in computing that has ever been invented. And the BCI is the system that turns the thought into physical actions.
The nano-scale BCI can position membrane over certain brain areas. When those microchips are positioned over the brain membranes those surgical operations are easier to make. If doctors are trying to connect those chips straight with the neural structure that operation requires brain surgeons.
If the microchips are over brain membranes. The surgeons have not touched the neural tissue when they implant those chips. If the microchips do have not straight contact with neural tissue installing them doesn't need the brain surgeon. So in this multi-chip BCI system over each brain area is an independently operating microchip that can use neural electricity as a power source.
When there is a small and thin microchip over every brain area like motion brain area. That allows separating the EEG from every area better than using one microchip. Another advantage could be that those microchips are not put inside brains. They can be the EEG sensors that are operating wirelessly through the skull or skin. If those microchips have enough accurate sensors they can position under the skin of the
They can position over the membranes that are protecting the brain or neural tissue. The system can communicate with every type of device by using BlueTooth or some other mobile communication protocol. When we are talking about the BCI control robots and other systems. We must first make neural access to the computer. And then through the computer interface use the BMI (Brain Machine Interface).
The use of the BCI requires that the system gets accurate EEG curves in use. And if over every brain area is an independent microchip that allows getting very accurate information of the electric operations of the independent brain areas. And if we think that BCI is used in two-ways communication between the computer and the user.
The microchips that are put over the sensorial brain areas can transmit data to the nervous system. And that would make the computer act with the human mind without borders. But how the BCI will input the data to the computer. The idea is to use the same brain areas that are making it possible to write the words.
Writing is like speaking. But during writing, the movements that are reserved for the mouth are moved to the hands and fingers. So recording the EEG from the brain lobes that are producing the words before the hands are writing them. Those EEG pulses can transfer to the computer. On the computer, those EEG curves are transformed into letters and they will send to a modified text-to-speech application. And then that application will send the text to the interface that operates computers or robots that are connected with that computer.
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