Brian computer interfaces, or BCIs are future devices that are exactly what they say on tin. Allow the brain to interface directly with the computer. Although it may feel like pure science fiction, it is in fact even better, it is science Truth. BCI is being used to help people all the time. One BCI can be used to help a paralyzed user so that they can visit their phone and talk to their phone by monitoring brave waves, the other can help use their artificial organs, while others can monitor brain waves only for research purposes. Now a team Georgia Tech By developing a new small interface, the use of BCI has been managed to further enhance the use of BCI, which can be inserted among the hairpack.
Although the BCI is already fine and really there and established, they can still be better. One of the biggest obstacles to BCIS is to find a balance between being a strong piece of tech that can effectively monitor and translate the brain signal, which is quite serious to wear.
This becomes especially important as the work gets more severe. A test that requires a user to rotate, while still investigating any kind of mental reading will require a more light than those limited to the beds of the SPEAT hospital. Similarly, devices like this small BCI come.
Instead of wearing a large headset or undergoing some interference surgery, it is designed to minimize the BCI to be minimal, while still providing a great connection. This method has been used to keep the modern micronodling technology under the skin between the hair without any discomfort. In addition to each sensor, with elastic cables, a package fits below the size of a millimeter, which allows the least invasive technique.
“I started this research because my main purpose is to develop a new sensor technology for healthcare and I had a former experience of brain computer interface and elastic skull electronics,” Hong Yew, who is also a faculty member at the Georgia Tech Institute for People’s and Technology.
“I knew that we need better technology of BCI sensors and found that if we can penetrate the skin a bit by the sensor and avoid hair, we can dramatically enhance the quality of the signal by approaching the source of signals and reduce the unwanted noise.”
So far, studies of this device appear to be promising. Contact the device in the tests continued for 12 hours. During this time, consumers were usually able to run, run and participate in every day’s activities, despite being able to use BCI. Even during activity, the BCI has been able to determine what consumers’ eyes are focusing on, allowing them to use the AR interface to control their phone without lifting their fingers.
This can only help BCI start in the health applications and the general tech world. When I write this, I’m sitting on the plane and using my mind to check my phone, or change the music I am listening to, pushing to dig out of my seat pocket to find it.
With this BCI we can really see hands -free futures, general computing, and even gaming. I can’t wait to stare at the feed like the character of the Murderboat, and the corporation on the rim Domscroll.
