Artificial intelligence and spam filters make BCI more versatile.

The problem with the brain-computer interface, BCI is similar to speech command applications. But thoughts are not so easy to control as speech. There is a possibility that the person looks at the camera and uses gestures when the command starts. The gesture can be some cup that the user shows to the computer that the work starts. And the other gesture can be something like a spoon. That the computer knows the commands end. Those things can be finger marks and they could be determined before the speech command sessions. 

So the person shows the mark to the web camera and writes gesture 1 and then the system asks for gesture 2. The system must also recognize the voice of the speaker so that things that some other person says will not disturb the computer. The gesture allows a person to discuss and talk in the room. Voice recognition allows computers to filter non-necessary and useless things from the text that the computer gets. Then the grammar check program can change the text that the speech-to-text application makes into literal text. After that, the system dumps that text to the application and turns it into commands. 

The AI requires spam filters in the training period. The spam filter removes the white noise or so-called non-useful information. The spam filters can also adapt to the brain-computer interfaces, BCIs. Those AI-based systems can remove so-called white noise from neural tracks. And that makes it easier for the BCI to separate information that is purposely delivered to it from thoughts that are not meant for commands.

The person must not think anything else, than commands what that system should follow or complete. If a person thinks about something else, that can cause serious problems. The biggest problem with the BCI is the user. The AI can translate EEG curves into actions. But the problem is if a person starts suddenly thinking about something else. 

One thing that can make the BCI more effective is that a person must move things like fingers before giving orders to the system. But the problem is how to control thoughts at that point. But there is a possibility that very flat microchips will be put below the skull. And the antenna or contact point is on the skull where systems can download information and communicate with brains and computers. 

The system can also load those systems' batteries wirelessly. If those microchips can be installed under the skin on the skull, they are far easier to install than regular brain implants. The surgeon must just find the right places and then put those microchips under the skin. The bone mass will glue those microchips on the right points on the skull. BCI microchips can communicate with the internet through mobile telephones. Or they can use the computer’s bluetooth connections. 

But things like biological power sources like electricity-producing cells can also feed those systems' needs for electricity. The fact is that the biotechnology-like ability to create cloned neural tracks makes it possible to restore the ability to move to more people. And those cloned neural tracks can also make it possible for the microchip to communicate with living neurons through the skin. Those neurons that form artificial neural tracks could be connected to the microchip that is under the skin and then the sensor. That is in a hat or helmet communicates with that microchip. 

The next-generation BCI systems might not need surgery. The goal, or guiding light should be that the system uses sensors that are as easy to wear as hats. The problem is that those hats must position those sensors in the right positions. 

The fact is that the system called Magnetoencephalography, MEG can read data from the brain shell. The ability to connect interactive microchips to things like fingers should be easier than implanting them into brains. Those systems can open the neuro-implants and open neuroports to other systems more versatile than using traditional brain implants. 

https://www.rudebaguette.com/en/2025/06/ai-gone-rogue-openai-tech-secretly-used-to-bypass-spam-filters-and-saturate-the-internet-with-messages-on-80000-sites/

https://www.rudebaguette.com/en/2025/06/neuralink-could-shut-down-over-this-rival-company-implants-brain-chip-in-human-first-and-destroys-musks-lead/