The ability to control the mind can be an ultimate training method. But it can also open the darkest visions of dictatorship.

 The ability to control the mind can be an ultimate training method. But it can also open the darkest visions of dictatorship. 

Brightest innovations have darkest sides. That is the thing. That we should somehow learn. This is the thing. That people like Fritz Haber are shown to us. The same person who created ammonia synthesis and made fertilized irrigation possible created chemical weapons that killed millions in the First World War. In the same way. Things like artificial intelligence and brain-implanted microchips are tools. That can make many good things. But those systems can also control things like killer robots. And that means we must realize that all of those systems have two sides, bright and dark. 

The ability to control consciousness and decode thoughts is a tool. That has always fascinated people. The CIA and other intelligence agencies studied those things for a very long time. And an idea is to create a spy who doesn’t know being a spy. The person would walk into the office. And read documents and other things. And then that person goes to the safe place. And after the mark, that person can repeat everything that this person saw and heard. The idea is to use humans as walking recorders who don’t know that they are spies. 

The BCI system can make this thing possible. Brain circuits store information in the microchip, and then that system decodes that data in a safe place. 

That makes them pass things like lie detectors and even sodium amytal interrogation. In some other visions, the consciousness control can be used to hide top-secret technology. What if the operator can make missions using highly classified systems? And then that person will not remember anything. And any details about the missions and equipment are lost in their memories. The ability to control memories is a tool that can have many roles in the future. Controlled memories. Or, so-called synthetic memories are tools that can be used to train complicated things very fast. 

And that thing can save human lives. If a person is in trouble in remote areas. And the only person who can give first aid is person who lacks the needed skills, those systems can offer those skils in a very short time. Those systems can teach complicated algorithms to people, and they can make many things that we don’t even think about possible. Brain implants can be used to teach people things like karate. When we think about things like mind manipulation. We must realize one thing. In the wrong hands, those systems are extremely dangerous. 

When Brain-Computer Interfaces, BCI systems operate with people, they interact with the computer directly through the brain lobes. That means the mind cannot separate data, or information that it gets from the BCI, from information that the person’s own senses will send. And that is the danger of the BCI, that it is a very powerful tool. The BCI can cause a singularity where people are connected with the AI and each other. By those kinds of systems. In the worst cases, the system destroys personality and turns people into a homogenous mass of information. The biggest problem with the BCI-controlled computers is that. A person will not separate what is real and what is a cyber dream. That means the person can simply forget to sit on the computer and then die because of a lack of food and drinking. 

The biggest problem is this: the person. Hackers can target the users of wireless BCI connections. This thing makes remote extortion possible. The same system also offers a way to communicate using brain waves. That thing is called technical telepathy. Technical telepathy is thing that allows a person to control robots and other things using brain-implanted microchips. Those robots send information to the controller’s brain that handles that information. Like it comes from the senses. These kinds of systems are created to control bionic prostheses. But they can also control robots and other things. 

https://www.livescience.com/17449-matrix-inception-brain-manipulation.html

https://www.popularmechanics.com/military/research/a63149552/pentagon-psychic-spies/

https://www.sciencedirect.com/science/article/pii/S2589004223007526

Neuralink microchips can eavesdrop on the neural system.

   Neuralink microchips can eavesdrop on the neural system. 

The Neuralink microchip is a tool. That can make paralyzed people live more fulfilling lives. Neuralin microchips are installed in the patient's brain. And they can be connected to the computers. That allows users to control the computer using their thoughts. That thing is a brain-computer interface (BCI). This connects the human brain straight to the net. That opens the path to control remote robots using EEG. Those systems' data security must be over the top. If those systems are hacked, the results can be devastating. 

That BCI interface allows a user to control the computers, mobile telephones, and all other electronics using that microchip. The computer is the key to controlling physical things. And that's why BCI is the key element to control physical tools. The idea of the BCI was introduced in the Graig Thomas novel "Firefox". In that novel and movie, the pilot controlled the super fighter's weapon systems using the BCI. 

The BCI system that allows the use of user interfaces using EEG is the tool that can make more than Graig Thomas's fictional system ever could. Firefox was written in 1977, and that means modern neuralink applications are bypassing that fiction. And the reality is turned more impressive than fiction. The AI and advanced data technology are turning fiction into fact. The AI-controlled microchips can transmit data to the brain. 

Darth Vader, a fictional character from the Star Wars movies, is one version of the human-robot hybrid. The BCI can make that thing possible. The bionic robot can be connected to the brain using the BCI. 

And that advances learning. The BCI system makes technical remote viewing possible. That happens by connecting those microchips to the surveillance cameras or robot bodies. The same system can allow people to transmit their sensorial data and other things to other people across the air. Those microchips have their ultimate risks. That risk is hacking. The AI-based systems can also use neuro-implanted mictochips to project a person's thoughts to the computer screen. 

The neuralink-type microchips that operate with Bluetooth allow the user to connect themselves. Straight into the internet using things like mobile telephones as sockets. The internet can make it possible for a person to transmit things like tastes, visual images, and the sense of touch over the net. 

The sense that the neuralink microchip transmits depends on the brain area where the chip is installed. That thing gives an ultimate experience that the brain cannot separate from personal experience. And that is the risk in those systems. Those microchips can also transmit things like other people's memories. Or maybe the AI can create synthetic memories that are the synthetic EEG curves. If those curves are sent to the right memory area in the brain. Our brain cannot separate those " synthetic memories" from real memories. 

The brain-implanted microchips are tools that can make things like a Darth Vader suit possible. Those microchips can control things like a bionic prosthesis. That thing means that the robot-human hybrids are possible. Brain-implanted microchips can make incredible things possible. But a technical advance can make it possible to use intelligent tattoos that are miniature microchips to communicate with the brain. Those very small microchips and antennas can give enough accuracy for the data transmission between the computer and neural structures. 

https://www.rudebaguette.com/en/2025/08/elon-musks-neuralink-launches-mind-control-chip-trials-in-uk-paralyzed-patients-become-human-guinea-pigs-in-this-shocking-experiment/

https://en.wikipedia.org/wiki/Brain%E2%80%93computer_interface

https://en.wikipedia.org/wiki/Firefox_(novel)

The gentle singularity: what is the limit of the singularity?

The next step for artificial intelligence is the artificial general intelligence, AGI. That is the tool that connects every computer under one dome. The AGI is the self-learning system that develops its models and interconnects them with sensors that bring new data for the system. That means we can interconnect every single computer in the world in one entirety. We can think that social media is something new. We forget that a long time before Facebooks were the letter clubs. The “post offices” where people can send letters to people, who could be pseudonyms. 

Social media is not a new thing, and Facebook and other applications are the products of a long route that started in Ancient Rome and Greece where wall writing or graffiti was the beginning of social media. Social media interconnects people from around the world. The new thing that the net brought was speed and maybe the price of those systems is low. But as we know there are no free lunches. The thing that doesn’t cost anything can have the highest price. The ability to create singularity between computers brings the ability to share and receive information with new forces. 

And then the new step for AI and computers is the brain-computer interface, BCI. The BCI means the ability to control computers using the brain waves, or EEG. The system can interact with computers and it can operate also between people. This system can interconnect all animals and humans in one entirety. And there are risks and opportunities about that model. If we make things wrong we create a collective mind. There is one opinion. So we interconnect our minds and computers into giant brains. That is a very sad thing. That thing destroys our own creativity.

The biggest problem with social media, AI-based dating applications, and finally singularity is that the system destroys diversity. People want to discuss and date only people who are similar to them. That means our way of thinking starts to turn homogenous. That causes a situation where we have no people who disagree with us. We can hear only ideas and opinions that please us. We take only people who are similar to us, in our social networks. So, in the worst case, we and our networks operate like some algorithm that recycles data through the model. That means we, our team, or our network will not get anything new to our model. We just recycle something if we don’t accept diversity. 

Our mind needs ideas and motivation for making new things. And where can we get those new ideas? We can discuss those things. Or we can get information that some other party made. And then we can work and refine the information that we can get from net pages and other media. Without opponents our productivity and creativity die, because we have nobody who brings new ideas into our minds. 

In some models, the network can develop things by playing games against some other network. The network creates a simulation and then the model tries to fight against that simulation. If a model wins there is no need to develop it. But if the model loses it requires adjustment. And that means the system requires data and then it requires optimism. 

In the novel “Peace on Earth” the author Stanislaw Lem introduced a model where the simulator creates a model and the other fights against that model. The better simulation becomes a model. Until something creates a new, better model. 

There is another way to operate as a network. The network can accept individually operating members. The idea is that every operator that is connected to the network is autonomous. Those subsystems operate autonomously when they collect data. When the network doesn’t need order it can be chaotic. And when an actor sees something that requires a lot of information, the roll call comes over the network. “Everybody stop, the network needs your capacity”. That commands those autonomous subsystems to leave their work and start to solve bigger problems. 

So, the network operates as a whole when it requires that ability. The network can have subsystems and that means as in the case of an extreme crisis those subnetworks create models that should handle that problem. 

Those subsystems can be individual actors. When the individual actors play against each other, that lost actor joins with the winner and starts to develop a model that won. Then the actor couples start to play against each other, and again. The lost team joins the team that won and then starts to develop the tactics that won the game. The actor groups or networks expand when new actors join bigger entities. 

Those subsystems start to play against each other. When some subsystem loses, that means its tactics are lost. Then that lost actor joins the winner's team and gives its capacity to that team, or network. The network always drops lost tactics or action models until there are two networks against each other. And the better wins. This is one way to create the answer and solution for complicated problems. The expanding network could be the thing that brings solutions to many problems. When the network is in chaotic mode actors search data for it. 

 

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/

Microchips and neural implants are the next step in human-machine singularity.

"UC San Francisco researchers enabled a paralyzed man to control a robotic arm using a brain-computer interface (BCI) that functioned for a record seven months. The AI-powered system adapted to daily brain activity shifts, allowing him to pick up objects and perform tasks with increasing precision. Credit: Noah Berger" (ScitechDaily, Not Science Fiction: Paralyzed Man Controls Robotic Arm Using Only His Thoughts)

What if we can control dreams and make fake memories? Fake memories can serve good or bad. Fake memory can make it possible to learn things faster and more effectively than ever before. Basically, all skills that people have are based on memories. The robot external bodies that allow people to control robots from another side of the Earth are tools that allow them to research in jungles without leaving office. 

The robot that can be controlled by satellites can operate in very dangerous places without risking human lives. The brain-computer interface BCI makes it possible to transmit all data that the robot's sensors or artificial senses collect from their environment to the operator. 

The new step in robotics is the brain-computer-interface BCI-controlled robots. Those systems are called BCI/BMI (Brain-Computer Interface/ Brain Machine Interface) Those robots are physically extended BCI-and large language model, LLM combinations. A couple of years ago, a paralyzed person got a neuro-implanted microchip that allowed that man to communicate with computers. 

That allowed that person to communicate with the computer and play computer games. The next step is the tool that allows the person to use a robotic arm through the computer using thoughts. 

The BCI systems. Along with VR sets or systems that stimulate the visual center. The BCI/BMI allows the user to operate robots like external bodies. 

That kind of system makes it possible to create robots that help paralyzed people in their everyday lives. The system can control things like HULC-style exoskeletons. That means if that kind of person wants to go out.  The robot wears an exoskeleton to that person. And then that system can move the person out to sunlight. 

The system can cooperate with the large language model, LLM. And when a person says things like location and where to go, that robot body can transport the person to that point. 

But the same systems can control things like man-shaped robots. Those robots can turn battlefields into things that nobody has seen before. Those systems can also work in rescue missions in high-danger situations. The route of the BCI/BMI goes to levels that we cannot even imagine. 

The BCI systems can control any vehicle in the world. So, the next-generation tools that people might have are aircraft, drone swarms, and robots that the brain waves can control. This kind of technology opens new paths to surgery, engineering, and almost everything that we can imagine. The body allows people to travel in space without any spaceflight training. 

https://scitechdaily.com/not-science-fiction-paralyzed-man-controls-robotic-arm-using-only-his-thoughts/

The ability to decode neurons can connect a person straight with the net.

 The ability to decode neurons can connect a person straight with the net. 

The AI itself is an impressive tool. If the office uses general-AI-based technology. That means the director can simply give a "to-do" list to AI in the morning. And then the AI makes those things, like sending business letters to customers, and following that payments are made. 

But the AI allows us to create things like BCI (Brain-computer interfaces). Those interfaces link people straight with computers. The fully working BCI system allows people to make connections using brainwaves. And the BCI system makes technical telepathy possible. In those systems person can control robots using the brainwaves. 

The BCI means that the computers can decode thoughts. Then system can transmit those thoughts on the computer screen. The ability to control robots using brain waves is possible only when the system knows what a person thinks. The problem is this. If we control robots by using brainwaves most thoughts are not meant to control robots. We might accidentally think something that we don't dare to say. And then robots will do something that we don't mean. The AI should filter those dangerous things away from systems, meant for civilian use. 

New simulations can simulate neuron's work very effectively. And we can say that the laboratories are decoded neurons. This thing makes a very big advance in many technologies. The complete knowledge of the system is required for full control of it. Things like BCI (Brain-computer interfaces) and neuron-microchip hybrid systems control things like nanomachine swarms. 

The ability to transfer information directly between computers and neurons makes it possible to create new types of interfaces. In those interfaces, people control computers straight with their brainwaves. If we think that people use BCI interfaces when they operate with robots, that means the robot is like another body for a person. The person will not make a difference between the robot body and themselves. 

The BCI systems allow to creation of ultimate augmented reality. That connects a person straight to the internet. In some visions, the neural link-type of systems can interact with the Internet through mobile telephones. And when we are talking about augmented reality, we mean multilayer systems. In those systems, people can use robots as exobodies, but they can also operate in fully synthetic simulation. 

And that thing can revolutionize everything from surgery to military, games, and adult entertainment. In some dystopic visions, some game addicts can use so many BCI-based augmented reality levels that they lost in that virtual world. In the worst case, those people die of hunger and thirst, because they simply forget. That they are in virtual reality. But making those things and visions functional, the creators of those systems must know how neurons interact. 

When we think of half-organic microchips those microchips interact with neurons. If engineers can program neurons. That allows them to transfer complicated programs to small microchips that interact with the machines straight through their kernel. 

Same way, programmed neurons can control nano- or mini-machines. The problem with nanotechnology is that the nanomachines are too small to carry effective computers. There are two ways to handle that problem. The nanomachines can make WLAN-based swarms. Another version is that the nanomachines can use living neurons for handling their operations. 

https://scitechdaily.com/neurons-decoded-the-universal-workflow-powering-brain-insights/

OBE:s (Out-of-Body Experiences) are interesting things.

"Artist's depiction of the separation stage of an out-of-body experience, which often precedes free movement" (Wikipedia/Out-of-body experience)

The next phenomenonis interesting. There are stories that about 20% of people have this kind of experience. But getting real evidence about that very personal thing is not very easy. But there is happening many mysterious things during death. And one is the higher brain activity just before and after the exit. 

The remarkable thing about OBE is that it happens when a person's consciousness is changed. Like during a heart attack. And that means researching those things is not a very easy process. The BCI makes the technical OBE possible. 

There is no explanation for the OBE:s or (Out of Body Experiences). Some people are believing that OBEs are evidence of the soul. That separated from the body. During the OBE experience, the person whose consciousness is changed sees things like the medical team for the roof. 

The OBE is one of the most mysterious phenomena that is hard to explain, and people are telling that they saw some things that are not public information about the rescue crew and other authorities work. Some people believe that OBE is only some kind of self-narcotic situation in the brain. But some other people believe that OBE is something that we cannot even imagine. 

""The Separation of the Spirit Body" from The Secret of the Golden Flower, a Chinese handbook on alchemy and meditation" (Wikipedia/Astral projection)

Some quantum researchers are explaining the OBE the situation where electromagnetic radiation travels through the brain or neural structure of some bug, and that electromagnetic radiation acts as a carrier wave that transmits that information to receiving brains. Because memory doesn't work. That internal information doesn't disturb those weak signals that magnesite in brain cells will receive. 

The astral projection means a situation where a person meditates and claims that feels some kind of OBE experience. The astral projection is a mystery and sometimes is claimed that the people who meditate can just focus better on way things that they see during the day. But there is a vision that maybe the high-level concentration makes it possible that a person can superposition the electromagnetic fields to some animal, and then that EM field will transfer memories from that animal or human. 

The technical OBE requires a brain implant. Or BCI interface. 

The BCI (Brain-computer Interface) makes it possible to control things like cyborg bugs and nano helicopters by using an EEG curve. The BCI interface makes it possible. A person that has the BCI can send the implanted bug to the room, and then that person can see everything that the bug sees. That bug can be implanted living bug or it can be the robot that sends information to the controller. 

If we think that the controller of that kind of robot uses an external body. That is a human-shaped robot. That robot can have the EEG sensors in its hands and it can send the EEG to the controller. There is a possibility that the robot can find Wernicke and Broca areas that control the form of speech and understand the speech from the brain, and then they can at least partially read the mind. The system works similar way with thoughts to text versions. 

There is the possibility that the robot puts genetically engineered brain amoeba into the food. Those amoeba transport microsensors in the target's brain and when the mission is done. The amoebas die and leave those sensors in the brain. That allows observers can see what a person thinks. That kind of technology is modified BCI where the brain hacker sends the EEG curves from the microchips to the transmitter. 

https://bigthink.com/neuropsych/brain-computer-interface-soldiers/

https://en.wikipedia.org/wiki/Astral_projection

https://en.wikipedia.org/wiki/Out-of-body_experience

https://fromplatoscavetoreality.blogspot.com/

Researchers can decode thoughts from a distance.

New research has confirmed that the internal language of the brain is universal. And researchers can decode thoughts without even touching the person. Maybe that thing makes it possible to project other people's thoughts and memories onto the computer screen. The system that is based on MRI (Magnetic Resonance Image) can be put in the drones. 

And then the drones equipped with nano-size MRI sensors can fly around the head of the targeted person. And they can send the information to computers by using the internet. These kinds of systems allow the creation of a new type of BCI (Brain-Computer Interfaces). And there is no need for special sensors or special equipment like surgically installed microchips. 

 Those new sensors don't need any special skills to make them operational.  

The new BCI interface is easy to use. Wearing that system is like wearing a hat on the head. 

The BCI systems can use regular internet for remote controlling the human-looking robots. And human-looking robots can do the same thing as real humans. 

The system can send the carrier wave through a person's brain, and then the sensor on another side will receive the EEG. Or the system's user wears only a bandanna where those sensors are. And then the system must just understand the things that those people think. The idea is that the new type of BCI system is easy to wear like the hat. And the same way is easy to remove. The new jetfighters planned to have BCI-based interfaces. There is also the possibility that pilots can fly an entire plane by using brain waves. 

So the idea is that pilot can just sit on the chair and then control the systems by using sensors that are in the helmet. Or the pilot who sits on the ground can control the human-looking robot that sits in the cockpit. Because that kind of system are interacting straight with the brain. For the user, there is no difference between reality and virtual reality. And that thing can use to create so-called false memories. If the system can install on the aircraft's dashboard, it can send the carrier wave through the pilot's head to the seat where the receivers are. 

And operators can also control things like human-looking robots by using the BCI. The BCI is one of the most radical operating systems in the world. And if that system where human controls computers by using their brain waves turns into reality, it can revolutionize robotics. The new quantum sensors are far more accurate than old-fashion radiotelescopes. And that thing makes it possible to create systems that can read EEG from a long distance. 

https://www.bbc.com/news/business-62289737

https://www.englishforums.com/news/controlling-machines-using-mind/

https://www.sciencealert.com/new-technique-for-decoding-peoples-thoughts-can-now-be-done-from-a-distance

https://link.springer.com/chapter/10.1007/978-3-030-72254-8_20

https://en.wikipedia.org/wiki/Brain%E2%80%93computer_interface

Image: https://www.sciencealert.com/new-technique-for-decoding-peoples-thoughts-can-now-be-done-from-a-distance

https://designandinnovationtales.blogspot.com/

The BCI (Brain-Computer Interface) is the next-generation user interface.

The technical remote view makes it possible to create BCI (Brain-Computer Interface) without any visible things like implanted microchips or electrode hats. The idea is that the radio wave is acting as a carrier wave. 

That carrier wave transmits the EEG to the antenna in a computer. The transmitter will be behind the head. And when the computer sends the receiving it will send the synthetic EEG to the receiver that is behind the user. 

The technical remote-view normally means that the radio wave is shot through the human brain. That radio wave acts as the carrier wave that carries the EEG to the computer. That system can use to make the next generation BCI systems that interact directly with the computers. 

That thing makes it possible to create a new type of simulated reality. Where the person can control virtual things in the memory of the computer.

But there is possible to connect these kinds of systems with physical robots. When a person controls a physical robot by using the BCI (Brain-Computer Interface) that thing is called "the enhanced reality". That means the person is controlling things like nanorobots or human-looking robots by using the EEG signals. 

When we are thinking of the movies like TRON. That kind of thing where people are living in a simulation might be partially true. If we want to create the BCI (Brain-Computer Interface) that doesn't require implanted microchips or some kind of electrode hat that transmits the EEG to the computer there is another way to connect brains to computers. The system can simply shoot the radio wave through the brain. 

And then that radio wave acts as a carrier that makes it the computer possible to observe the EEG of the human brain from remote distances. The EEG will transmit to the receiving antenna and then to the computer. And the system can interact with brains by sending the data from the computer through the brains to the receiver that is behind the user of this type of wireless BCI system. 

Scientists observed memories from human brains.

For the first time, scientists see what happens in brains. When people see things. Every single sensor that person has its neuron group. That neuron group stores the stimulus, that comes from a certain sensor. 

When a person gets some stimulus from the senses. That stimulus activates certain neuron groups in the brain. When a person hears some voice that has a connection with something that means something to the person that thing launches the emotional reaction. 

This kind of research is important for criminal investigators who must make sure that person tells truth. If somebody makes the faked police report of the violence the system sees that the memory neurons are activating. 

But because there is no emotional connection with the case. The faked story doesn't activate the neuron that is controlling the feelings. Also in the case of violence, the neurons that are handling the memories. Which are connected to touch are not activating. 

Reading memories from brains is theoretically a very simple thing. An idea of this system is that a certain image activates a certain group of neurons. Researchers must only show something like a spider or some other item to the person.

And then, the system sees what brain areas are activating during those things. The problem is, how to connect the certain neuron group with the certain memory? This kind of research is interesting. And maybe someday of tomorrow researchers can see other people's memories from the computer screen.

The research of the neurons. And especially memories make a revolution in learning and computing. Our skills are memories. If we know how memories are forming we can program our brains like computers. And that thing opens interesting visions for tomorrow. The knowledge of how our neurons are learning can use for creating new learning neural networks. And interconnect the internet with our brains. 

https://www.quantamagazine.org/scientists-watch-a-memory-form-in-a-living-brain-20220303/

https://en.wikipedia.org/wiki/Brain%E2%80%93computer_interface

https://thoughtsaboutsuperpositions.blogspot.com/

Neuralink might be the biggest opportunity in history. Or it is the biggest catastrophe in history.

Image: Wikipedia

Elon Musk and Neuralink are preparing to test their microchip which is implanted in brains with people. That microchip can give the user the ability to control prostheses. And that thing is one of the biggest reasons why that neural link microchip is developed. That neural link system is also making it possible to control computers straight without keyboards or mouses. 

So it can be the key element in the BCI (Brain-Computer Interfaces) and BMI (Brain-Machine Interfaces). Normally the BCI and BMI are the same things. The BCI system is the only needed thing. And the brains can control robots through the computer. 

That thing gives fantastic but at the same time frightening visions in the mind. The thing is that this kind of system can collect data from the EEG. And that thing makes this kind of technology dangerous. In the wrong hands, the neural link system turns to the ultimate tool in the hands of dictators. But same time those systems allow us to make the external bodies that can go shopping for us. The thing is that the opportunities of the neural link are incredible. 

The neural link system makes it possible to make remote-control man-looking robots that can operate at the orbiter or on the deep ocean floor. That microchip can connect to GSM telephones WLAN systems and other kinds of things. It allows exchanging thoughts without a single word. And if it's connected to the AI-based decoder. 

That system can also transmit the data from the senses to the internet. So other people can see from their screens. What the user of the neural link is seeing and hearing. But those neural link systems have also their dark side. The system can also use to control a person very accurately. 

When we are thinking about the fictional Star Wars movies and the remote strangle that Darth Vader uses. The neural link can make that thing possible. The system would be gesture-controlled. And when the controller makes the right gesture. That launches the poison capsule into the body of that person. 

Have you read William Gibson's novel "Mona Lisa". That tells about a girl who could click herself straight to the internet. The thing is that the neural port chip makes that thing possible. If we think of the scenario. That may be in the far future every person gets that chip. That thing can cause the singularity of computers and humans. When we are thinking about the possibility that the entire human race will connect to one entirety that makes the most incredible things possible. 

If that system uses the "China brains". As the model how to interconnect people and non-organic parts of the internet. In the "China brain," humans are forming an entirety. And in that entirety. Every individual who is connected in the system acts as a macro-neurons. 

That thing makes the system very high abilities. The system can use the macro-model or extended part of the human brain to solve problems. If one neuron group is not enough the system calls more neurons or macro neurons for working with problems. That is one vision that the neural link brings in my head now. 

https://www.analyticsinsight.net/everything-must-know-brain-machine-interface/

https://arstechnica.com/science/2020/08/musk-says-that-neuralink-implants-are-close-to-ready-for-human-testing/

https://neuralink.com/

https://www.thetimes.co.uk/article/6625418e-7a9b-11ec-9998-b2483743c25e?shareToken=701a7848d7509810001aec33347d2414

https://en.wikipedia.org/wiki/Brain%E2%80%93computer_interface

https://en.wikipedia.org/wiki/China_brain

Researchers can read the jellyfish's mind.

   

 Researchers can read the jellyfish's mind.

For making new. And more effective BCI chips (Brain-Computer Interfaces). Researchers should know precisely how the neurons are working. In the human brain is 200 billion neurons which is making observation of the actions of single neurons difficult. That's why the research must begin by using species whose neural systems are simpler than humans. And one of them is jellyfish. 

The deep knowledge of the actions of neurons helps to connect certain changes in EEG curves to certain actions in the body. The BCI can make the revolution in nanotechnology and robot control. But when we are thinking about the possibility to model the simple neural structures. Researchers can create new and more independent nanomachines. There are three types of BCI systems that are under development. 

1) The BCI (Brain-Computer Interface) is connected with human brains. And that thing is the thing that is used to control prosthetics. But the same systems can also control robots or give commands to computers. In some systems, the user of the BCI is moving the virtual character on the screen. 

The same system can use to move prostheses can use to move the virtual characters.  And then, the movements are transferred to a physical robot. The BMI (Brain-Machine Interface) is acting through the computers. And it can be the next-generation tool for robots which mission is to operate in extreme conditions. 

2) The microchips that are communicating with cloned neurons. In that case, the half-organic and half-silicon-based microchip can solve problems and control the things like nanomachines very independently. 

This kind of microchip is the neuron cell culture that is connected to the normal microchips. The use of living neurons makes it possible that the small-size system can be very independent. Because the living neurons are giving those systems very high power computing capacity. 

3) The microchips that are used to control animals. The CBI (Computer-Brain Interface) is the opposite acting system. To the BCI where brains are controlling computers.  The CBI system can use to control the behavior of the animals like birds, fishes, and bugs. 

The bugs can carry the sensors to the targets. The microchips are used to make biorobots. And if those microchips are connected to animals they are turned to intelligent. So what would you do with the wolf that has human intelligence? And the implanted microchips can make things like intelligent army ants real. That kind of thing is called ABW (Advanced Biological Weapons) 

But those systems can make things that are beyond the worst nightmares. The CBI or opposite acting BCI microchips can use to control things like ants. And if the microchip is installed on the army ant. That means those systems can use to make those ants act as the eliminators. They can slip into houses and then use to attack people or destroy things like gas masks. Those microchips can turn every bug in the world into a weapon. 

https://scitechdaily.com/caltech-researchers-read-a-jellyfishs-mind/

https://en.wikipedia.org/wiki/Army_ant

https://interestandinnovation.blogspot.com/

Wireless nano-scale neural sensors allow making better BCI(Brain-Computer Interface)

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. 

()https://scitechdaily.com/wireless-microscale-neural-sensors-enable-next-generation-brain-computer-interface-system/

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