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/

Is AI safe?

That is a good question. We can same way ask: is your car safe? The thing that makes AI safe or not is the purpose or ability to make things. If the AI runs on computers. That not connected to the internet, that thing cannot make anything wrong. But the thing is that the physical robot makes the AI dangerous. 

Above this text, we can see robots reading the novel. The AI can use a robot body to collect information from places to that it would not otherwise have access. The robot can read the book for the AI. And then, that data will send to central memory by using WLAN. 

The thing is that we might underestimate the abilities of man-shaped robots. Those robots can turn all jet fighters into robot drones. The man-shaped robot pilot can use the same interfaces as humans. So robot pilots can fly even the most primitive aircraft.

But we don't usually remember that a man-shaped robot is not the same thing as a human. Man-shaped robots are tools that are more complicated than we even thought. They learn very fast because the robot needs only a new program for learning new skills. So operators can transform any robot from a jet pilot to a building worker or fireman in seconds. 

The AI is not afraid, it would not stress, and it would not have feelings. That thing makes AI the perfect thing in many things. When people are calculating how many errors the AI makes. The problem is that AI is not compiled with humans. 

People see from statistics only things that they want to see. When AI will accidentally makes a driving error causing death. It is a  big thing in the news. When ten drunk drivers are killing ten people, nobody mentioned those things in the news. 

When Serbian air defense shot down one F-117 stealth fighter. That was the biggest news in the world. When that plane type made 2000 successful missions, that thing ever mentioned. 

When one Bayraktar drone destroys hundreds of vehicles in Ukraine, that means nothing. But when Russians shot down one Bayraktar over Ukraine. That thing caused lots of news. Shooting down that thing was the biggest failure in the history of drones. And that thing made them useless if we believe in articles, that are published. 

Same way, when the AI searches thieves from the streets. By combining data. That is taken from the CCTV of the shops and streets that thing causes criticism because most of the recognized thieves were black. There was no information did those people carry stolen property. Or did they have some kind of arrest warrant for some other crimes? 

When people say that robots are taking their jobs, we must ask what kind of jobs robots are taking. Of course, AI is a competitor for humans. In job applications, the human must confess to the companies that they are better than the AI. But in job applications, the applicant must confess to the company being the best choice. 

We believe that AI is our worst competitor. But we are wrong. The worst competitors in the business world are other humans. The competition in working life is so tough that sometimes applicants are harming even other humans to get the job that they need. 

Topology, data science, and free energy make new intelligent materials possible.

The key element in the nano-scale computers and microchips is to create enough small data images and keep those data images in the form. If we want to create liquid machines that can take any form. There is a need to create different individual data images for each entirety's participant.  

If we want to create a liquid machine that can take any form researchers can use two methods. 

*Silicon-based nanomachines

*Computer- and nanomachine-controlled cells. Those cells can involve nanomachine that encodes data to the cell's DNA. That kind of system can create an artificial chorale. 

When the cyborg cells are in the correct position relative to each other.

And an entirety makes the right form. The system will get the order to create the core. And that thing can turn biological cyborg material from theory to reality. 

********************************************

When researchers are developing new intelligent materials that can change their form and fix themselves. Those people need small-size nanotechnical microprocessors and nanotechnical mass memory. That controls the operations of those particles. 

The new intelligent materials are formed of structures that look like bacteria. The small silicone machines are taking their place in the entirety. The silicone-based nanomachines can use for making silicone amoebas that change their form. 

The living cells can also create the forms when controllers want. In that case, the cells must be microchip-controlled. Maybe the participants of the entirety would be basils. That is controlled with microchips. 

Or maybe there is a nanomachine or nano-factory in every cell. And then the nanomachine encodes the wanted data into the DNA. That thing makes it possible to create a structure that can take any form that developers want. The nano-size microchips can use also bioluminescence light from shining cells as an energy source. 

Researchers used an extended Landau free energy model for making nano-scale structures. There are two types of energy. The energy that free. One version of free energy is radiation. Or another version is energy. That is stored (connected) to material or some process. That system must release non-free energy somehow before it can be useful. 

Sometimes free energy means to heat or some other energy. That formed in the process. But that energy will not return to process or turn to the material. So the free energy just flows around. So if the process forms thermal energy it can use as power. 

That kind of reaction is happening when some material like gas is burning. When material burns it connects with oxygen. That reaction forms heat which can conduct to water that vaporizes and then conduct to turbines. 

Things like photons carry energy. And some description of free energy as energy that is not participating process. 

Nano-size microchips can use things like electroluminescence as the power source. And that thing makes this type of thing interesting. 

By the way...

The helium-steam turbine can use in Pluto conditions. 

One of the most interesting. But still theoretical power supply system is the steam turbine which uses liquid helium. There is a biological component in the small platform. The biological processes in that small platform create temperature. 

And then liquid helium will deliver over that platform. The biological temperature causes the vaporization and expansion of that gas. That system can operate in extremely low temperatures where helium turns to liquid without energy. 

Of course, helium will freeze that biomass. But there can be other platforms that can replace the frozen platform. And then new organisms can deliver to that base. 

https://www.sciencedirect.com/topics/mathematics/landau-theory

https://scitechdaily.com/scientists-develop-an-extended-landau-free-energy-model-for-advanced-materials-design/

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

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

Images from the top: 

https://scitechdaily.com/scientists-develop-an-extended-landau-free-energy-model-for-advanced-materials-design/

https://scitechdaily.com/scientists-develop-an-extended-landau-free-energy-model-for-advanced-materials-design/

AI can boost the power of traditional binary computers.

Image 1) Simplified neural network.

The binary computers are not yet history. The AI-based kernels can also make binary computers faster than ever before. The well-known binary chips can operate as groups and emulate quantum computers. In this model, the group of binary computers operates like quantum computers.

The port processor will cut the data flow into pieces. And then those pieces of data frow will send to different processors. The system can give a serial number for each data bite. And that makes them easy to reconnect to a new entirety. The topology of that kind of system is like that in any neural network. 

Image 1 is the simplified version of this kind of system. The port processor is the input tool. And it shares data with other processors that are sending it to the output processor that connects the data flow to one entirety. 

I recently wrote about that technology. This type of system can operate in lightweight devices that do have not the similar capacity to some large computer centers. This type of system is suitable for robots. They are lightweight and do not use very much energy. 

Artificial intelligence can control those processors very effectively. It can use them as independent processors. 

Or it can connect them to one entirety. The system can simply put data into pieces. And reconnect it at another side of the computing process. 

Image 2) (Token) Ring topology. 

Things like old-fashion "(token) ring topologies" (Image 2) can also be useful in processed calculations. In this model, every single computer is handling its stage in the ring-type protocol. And if there is a connection to the star type protocol the system can reprogram the computer when it is done its job and turns to free. 

Also, the hybrid token-ring-star topology allows the system can transfer the answers between that ring. And that allows multi-layer computing by using old-fashion protocols. Or at least it makes it easy to check calculations by using two different points that are moving inside the (token) ring. 

Image 3: Star topology

The first point is the solution. Then the system will boot the computers or reprogram them. And then the system makes a retake of calculations. If the results are the same the answer is right. 

Quantum computers can also connect to similar network topologies as binary computers. Quantum computers can connect by using cables or radio systems. 

If those systems are connected with radio systems. Each frequency of the radio transmitter can be used to send each layer (or state) of the qubit. A Quantum system can create qubits by using different radio frequencies. In that model, each radio frequency is acting as a different state of the qubit. Or quantum computers can use regular cables. 

At first, the quantum computer will transmit qubits to the cable as data rows. Each state will make different data bite series. That thing makes quantum computers communicate with each other. 

The reason why connecting quantum computers is important is quantum entanglement. The system cannot keep quantum entanglement forever. 

When the energy level at both sides of quantum entanglement turns to same. That destroys the connection. When that happens the quantum computer must re-adjust the quantum entanglement. If there is another quantum computer or quantum unit, the system can send the solution or the calculation stage to the next unit that continues its work. 

The binary computer requires only a few modifications to turn into a lightweight quantum system. The system requires only an extra wire. That wire that travels outside the processor is reserved for values 0 and 1. And processor itself can be reserved for values 2 and 3. 

The binary microchips are suitable for lightweight quantum computers. In this kind of system, the value zero is outsourced for the different wires. If electricity is on in that wire the computer power is on. And the value is one. If the electricity in that wire is off the value is zero. 

That allows the microprocessor to flow itself between values 2 and 3. That thing increases its power. So, values 0 and 1 are in the bypass cable, and values 2 and 3 are in the binary processor. That thing is the model of so-called lightweight quantum systems that can be useful in mobile devices. 

What does somebody do with information about how a hawk homes its prey from the chaotic swarm?

"Composite frame sequence of a Swainson’s hawk attacking swarming Mexican free-tailed bats at a bat cave in New Mexico, USA. The white lines connect the hawk to the bat that it captures, and remain parallel over time showing that the bat remains on a constant bearing. Credit: Caroline Brighton (Oxford Flight Group)"(Phys.com/ Study reveals how hunting hawks home in on prey inside a chaotic swarm)

Many swarming animals, such as insects and birds, use chaos as a shelter. Chaos makes it harder for a predator to pick a single bird or insect from that chaotic flock. Information about how animals such as hawks or dragonflies select targets and attack them makes it possible to create algorithms that are used to select the main movers from a flock of drones.

The prime mover is the drone that goes first. And the secondary drone is the backup tool. That mission is to observe the prime movers. They are forming two- or more-stage hierarchical systems that can make their mission waves. 

Flocks of drones imitate nature. They try to create chaos by hiding drones that are higher up in the hierarchy. The drone swarm is a hierarchical network of the entity, in which the main trustees and secondary movers collaborate with their pilots by sharing information across the whole, which is a combination of drones and their controllers.

Drone swarms are powerful tools and in the next-generation military systems, drone swarms are playing a vital role in aiming other weapons and attack against enemies. The drone swarms can use chaos for making the air defense harder to locate the centers of those swarms. 

In some visions, the center drones are more sophisticated, made of more expensive components, and equipped with more effective computers and they have sharper sensors than attack drones. And even if all of those drones have similar systems there must be drones that are making sure that the mission is successful. 

So there are always prime movers and then the secondary movers that are observing the mission. If the mission is not done, the secondary movers must accomplish that. 

Those centers are used to control their hench drones that are equipped with explosives and weapons. The drone swarm can use chaos for making the AA flak harder to detect the drones that are controlling the systems. But there is always a prime mover in those swarms. The prime movers are hard, but possible to detect from the drone swarms. 

https://phys.org/news/2022-08-reveals-hawks-home-prey-chaotic.html

The arms race continues in artificial intelligence.

The fact is this. Artificial intelligence is a computer program that automatizes certain actions in robots. And that makes it the next-generation tool for weapon systems. Artificial intelligence is computer code that can download to any system that can run those programs. The needed thing is the computer that can run the program code. 

The new pinpoint accurate missiles like "Switchblade" are bringing new and frightening tools into the field of the military. Those miniature cruise missiles are developed for the special forces. 

But when they turn more common. They will also deliver to the regular troops and non-military actors. The anti-personnel cruise missiles have been in use since 2011, and they can be used by the military but also by people like presidential security teams. The advancement of microchip technologies makes it possible that those small-size missiles or "Kamikaze-drones" can drive more complicated computer code than original systems. 

That means those new systems can have the next-generation IIR (Imaging Infrared) system that recognizes the faces of the target. The remote operators can operate "Kamikaze-drones". But those systems can search and attack enemies independently. They can also drop from aircraft or even from satellites. 

And the thing is that they are giving the fast-flying tactical aircraft the ability to kill individual people from the streets. Those small-size drones can also drop from other drones. So the Bayraktar or Predator drones can also drop those sub-drones to operational areas. 

The small-size drones can also destroy things like aircraft. If the drone detonates the cone of the aircraft it turns unable to operate. Artificial intelligence can also collect the data from the different types of systems into one entirety. The biggest threat in those artificial intelligence-operated drones is that they are in the wrong hands. They are devastating systems. 

If aircraft is equipped with AI. It can correct errors that the pilots are making. 

But it can also make many other things. It can adjust the ECM and another jammer system. Artificial intelligence can also make it possible that radars and radio communication tools can change their frequencies when they are under jamming. 

That system allows the connection of multiple weapon systems to one entirety. And it makes those systems frightening and deadly. 

The problem with weapon systems is that their purpose is to be frightening and deadly. And artificial intelligence is the next step in complicated battle-field control systems. Any military force cannot stay outside that kind of development. 

People are criticizing things like killer drones. But the thing is that those systems are effective. 

The only needed thing is the effectiveness in the world of the military. The success of the drones in the Ukrainian and other wars is making them popular systems. Those unmanned systems might not be very sportsmanlike. But their purpose is to make enemies stay away from borders. 

Image:

https://nationalinterest.org/blog/techland-when-great-power-competition-meets-digital-world/sitting-out-artificial-intelligence

Maybe quite soon, the new systems will allow the digital transfer of memories between people.

The new quantum memristors are making it possible to return the quantum and of course binary computer to the position where it was before the electricity was cut. The memristor or memory resistor is possible only at the quantum level. But there is the possibility that a large group of memristors can use, also the full- or nano-scale computers. There is the possibility to benefit memristors also in the full-scale computers. 

That thing can be made by connecting those full-scale systems with miniature or nano-size computers. The idea is that the nano-size system will store the space of the computers all the time. And if the electricity is cut those settings remain in the memory of the nano-size computer. And when the system will turn back on. The settings will return by using that nano-size system. So the system can continue its operations where it is left when the electricity is cut off. 

Theoretically, those miniature system returners can use also be in the memory chips that can install someday in the brain of people. Those little microchips can use to store things in synthetic memory cells. And if those memory units can continue their operations from the point where the electricity is cut. 

That thing allows the transfer of the lifetime memories of the person to the new body. So if we think that memories are the personality the ability to transfer memories between bodies is making people immortal. 

Researchers uncovered how long-term memories are stored. 

That thing is opening the fascinating ideas because all our skills are basing memories. So if we think that some person will learn some things. That thing is making it possible to scale the same skills between multiple people. 

The memories are stored in the EEG system or microchips. Which are at the right point of the head of the person. The EEG system can be the network below the hat. Or it can install surgically put between the dura mater and skull. And there is of course possible that nanomachines are transferring those microchips to the brain structure. 

Then those microchips can be read by using some kind of scanner. In the most suitable vision, the mobile telephone can read the memory of that EEG system by using BlueTooth. There is needed only the right application. 

So transferring memories to the computer memory would be as easy as traveling. By using public transport. The application just sends the signal to the microchips. And then, they send the EEG curves to the telephone.  And then those memories can send to other similar systems that are sending electric signals straight to the cortex. This thing can make a new revolution for education in both civilian and military sectors. 

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

Image 1) 

https://scitechdaily.com/scientists-unveil-how-our-memories-are-stored-the-format-of-working-memory/

Image 2) 

https://spectrum.ieee.org/quantum-memristor

Machines are not racists. Human beings are racists.

The "shot spotter" system is very effective for locating the place of gunshots happens. The "shot spotter" cannot track people after gunshots are fired. It can make two circles around the location of gunshots.

Triangular metering determines the place where gunshots are located. Those circles are the possible distance of the shooter to the point where gunshots are located. Those distances are basing the average speed of a walking or running person or person who uses some vehicles. 

The "shot spotter" came into service in the 1990s. And there are more effective ways to locate the gunshot point. There is the possibility that when the shot spotter locates a suspected gunshot the system can send the drone to see what is going on. Or the system would aim the nearest surveillance camera to the point of suspected shooting. 

The new systems might base the networked systems like surveillance cameras and automatic drones that send to the point where shots are located. The system can base on the quadcopters that are around the city. And when that system locates suspected gunshot. It can send the quadcopter to see what is going on automatically. And that helps the field control to make sure about the situation before the patrol is sent. 

The acoustic system bases the microphones that are taking triangular metering. The reason why people are resists this system is that it makes the police more sensitive to use guns. The shot spotter sends information to the police HQ. And then the field leader will make a decision. Was the thing that is heard a gunshot or not? 

The shot spotter is a suitable system for the battlefield. But is it the same way suitable for city area? When the acoustic system detects a suspected gunshot. The field leader gets information about a gunshot that person has 80 seconds to decide to send or not to send the patrol. And then the reputation of the area has always an influence to decision. 

But the reputation and tales about the area. Always affect the actions of the law enforcers who go to that mission. If some area has a violent reputation. And the police are searching for an armed suspect. That thing causes the finger of the trigger to become too sensitive. And that causes deadly gunshots. If the attitude of a law enforcer is that the minorities are criminals. That will turn the risk of use of the gun even lower.  

If the decision is that the heard thing was a gunshot. The leader will send the patrol to the area. That will lower the limit to using the gun. Because the policemen will search the armed suspect. The thing is that the system is claimed to be unfair to ethnic minorities. When the suspected gunshot is heard in the neighborhood where the main population is a minority. 

This causes the patrol will send to the area more often than to the area, where the main population is white. But when we are thinking of the systems the weak ring in all chains is human. The thing is that the acoustic system heard the bang. That sound is not necessarily gunshot. Artificial intelligence can tell does some sound the serial fire of assault rifle. But the problem is that this thing needs artificial intelligence. 

The problem is not in the system that tracks possible gunshots. The problem is in people who are reacting to the cases. If the leader would not send patrols. That thing means humans made that decision. So the problem is not in the system itself. The problem is in the attitudes of people who use the system. 

Is there any kind of statistics that are telling how many phone calls to the emergency center cause that police to come to place? Or how many times police will not send because the on-call decides that the patron will not need to come? And how many of those decisions have been wrong? And how many of those 911-calls caused no reaction or where the patrol not sent was made because of gunshots?

The thing is that in the system where the decision of the reaction makes the human is vulnerable. If the leader will have racist opinions that are not the problem of computers. So why the system will not be allowed to send patrols to position automatically? The problem is that if the attitudes of police are racist. That thing always causes problems. The acoustic gunshot location system was the plan for making easier to find shooters. But the problem is the human who executes orders. When police will get information about the gunshot. Law enforcement must take those things seriously. They must prepare for the gunfight. 

And those situations are always stressful. Then somebody says "gun" and then there is a victim who had no gun. So after that, the internal affairs starts the investigation that takes as long as they want. The investigators were not in the dark street, where is the suspected armed criminal. Or the shooter claims that somebody saw a gun. Of course, there might be attitudes that some area is more violent. And that thing will cause the level to shoot people is lower than it should be.  

https://www.tekniikkatalous.fi/uutiset/seismologi-keksi-90-luvulla-yksinkertaiseen-geometriaan-perustuvan-jarjestelman-jolla-murhamies-paikannetaan-nopeasti-ja-tarkasti-suurkaupungissa-kaytossa-yli-sadassa-kaupungissa-usassa/ef6f4546-07dd-4a79-bfbb-2be75fe448bf

https://303magazine.com/2022/01/shotspotter/

https://www.businessinsider.com/how-shotspotter-works-microphones-detecting-gunshots-2017-6?r=US&IR=T

https://chicago.cbslocal.com/2021/05/03/shotspotter-chicago-police-contract-questions/

https://thecrimereport.org/2021/08/30/chicagos-shotspotter-misses-gunfire-manipulates-police-behavior-report/

https://www.shotspotter.com/

https://networkedinternet.blogspot.com/

What means cognitive learning systems?

Pinterest

Cognitive systems are systems that are handling problems like humans. They are learning systems that are increasing their capacity all the time. When those systems are facing first time some problem. They are asking human operators to make the solution for those things. Then the system creates the matrix of that solution. And when the system faces a similar case. 

It can use the solution that the operator is made automatically. When its sensors are facing similar parameters that are connected with the solution. That made for the previous case. The thing that makes cognitive systems autonomous is the number of solutions stored in the databases. The idea is that when a sensor faces a similar situation that is stored in a database. 

It can autonomously connect that database to the AI. Data that the system benefits can be the film that is connected to the database. The thing is that this is one way to make the system learns things. The idea is similar to training humans. When the system faces the problem the first time it asks for help. But when the number of solutions is increasing that makes the system more independent. 

The problem is where the system can collect data? The AI can use machine learning for many purposes. Robotics is the most impressive thing where AI can be effective. But there are two types of robots. The robot can be physical. Or it can be an algorithm or some kind of bot that collects virtual data from the Internet. The algorithm can follow the homepage and then transmit the data to the user. 

A good example is an application that follows certain aircraft or air routes by using public databases. That kind of bot can keep a record or database of how often a certain flight is late. And that kind of bot can also follow many airfields for seeing. If some certain airlines are late more often than others. 

The thing is that AI can collect data from certain systems. It can follow the cases like sick leave. Then it can search is there something that predicts the sick leaves. That thing can be like Christmas parties. Or some other things are predicting the sick leaves. The thing that makes AI a very powerful tool is that it can search data from multiple systems. 

It can search the emails and connect the information of the surveillance cameras to that data. The image recognition systems are making AI more powerful than ever before. The system can see. If there are some kind changes in the walking style or other body communication. The AI can see changes and report them to security personnel. 

Can technical telepathy be the tool of tomorrow?

Technical telepathy means the artificial intelligence-controlled tools that can smell the hormonal level of the person's body. Those tools can be mass spectrometers that are measuring the level of certain chemicals in sweat. Artificial intelligence-controlled sensors can also see if somebody is nervous and microphones and computer-based applications can measure the level and other things from speech. 

And the infrared sensors can also see is there some blood flow to certain muscles. The AI is the ultimate tool for making the database what kind of vocabulary some person uses. And if some changes give a tip for the life of the person. 

There is the possibility that some quadcopter will put the lightweight X-ray machine or EEG detector around the head of a targeted person. And that means this type of system can also make it possible to detect the electromagnetic functions in the brain. Maybe in the future, the microchips that are connecting computers straight to brains. And also allow reading the mind of the person. 

But when we are thinking about real telepathy we must remember that the human nervous system is like the radio antenna. That electromagnetic fields are surrounding the nervous system. And the changes of that electromagnetic field can detect by using accurate radio sensors. Those systems can read the changes in neuroelectric phenomenon from long distances if they have high enough accuracy. 

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The "His master's voice" theory". 

When hypothetical aliens travel through the radio beam of the pulsar. That can make it possible to capture the EEG of those creatures. The problem is how to separate that EEG from the other radio signals. But the radiation of the pulsars is an excellent carrier. And maybe someday the radio telescopes can capture the EEG of the aliens. 

There is a theory that we could make contact with the aliens by using telepathy. The idea is that when the hypothetical advanced alien craft travels through the magnetic beam of the pulsars. 

That radio effect will carry the brain waves of the hypothetical alien crew to radio telescopes. If the alien craft will travel through the electromagnetic field the EEG of the hypothetical aliens would travel to the Earth when the powerful radio waves of the pulsars act as a carrier. And maybe that EEG signal is possible to decode. 

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Radio-wave-based technical telepathy. 

If the radio waves are traveling through the brains. That can make the thought visible to another person or sensor. In the last case, the AI can use to decode that signal.

The reason why researchers used twins in telepathy tests. Is those researchers believe that the twins have an identical nervous system. So they have an easier sense of the changes in the neuroelectric field. The results of those tests are not very promising. But some anomalies are telling that some kind of telepathy could be possible. In some tests in the brains of the test, animals have put the crystals or moon dust for making the brains send the unique electromagnetic waves. 

When we are talking about the cases that people should connect their brains together there is the possibility that the high-power ion field can make the EEG curves of the person visible to another person. So in some tests, the high-power radio waves are sent through the brains of the test persons. And when two persons are in line the radio wave acts as a carrier. That carrier wave is making the weak radio impulses stronger. 

So could the project "Rainbow" or the famous "Philadelphia experiment" so-called virtual telepathy test. The thing is that a high-power electromagnetic field can cause so-called fake memories or daydreams. Theoretically, the radio waves can be used as the carriers for the EEG. The results of those kinds of tests are unknown. 

And then the dawn of machine learning.

 And then the dawn of machine learning.

Image: Pinterest

Machine learning or autonomously learning machines are the newest and the most effective versions of artificial intelligence. Machine learning means that the machine can autonomously increase the data mass, sort the data and make connections between databases. That ability is making machine learning someway unpredictable. And that kind of thing makes the robot multi-use systems that can do the same things as humans. 

The reflex robot is a very fast-reacting machine. The limited operational field guarantees. that there is not needed a very large number of databases. And that means the system must not search the right database very often. That makes it very fast. But if it goes out from its field it will be helpless. 

When we are thinking of robots that can make only one thing like playing tennis they can react very fast in every situation. That is connected with tennis. There is a limited number of databases. And that means the robot is acting very fast. 

When a robot or AI makes the decision it systematically searches every single database. And if there are matching details to observed action. That activates the database or command series that is stored in the database. But the thing that makes this type of computer program very complicated is that when the number of stored actions is increased the system will slow.  

If we want to make a robot that can make multiple actions. That thing requires multiple databases. And searching for the match for the situation in every database takes a certain time. So complicated actions require complicated database structures. Compiling complex databases takes time because there are limits in every computer. And in the case of a street operating robot, the system compiles data that its sensors are transmitting to its computers. 

So the conditions that this kind of system must handle might involve unexpected variables like fog or rain. And for those cases, the system needs fuzzy logic for solving problems. In that case, only the frames of the cases are stored in databases by the system creators. And that system is compiling those frames with the data sent from the sensors. 

The waiter robot can be used, as an example of machine learning.

A good example of a learning machine is the waiter robot that is learning the customer's wishes. The robot will store the face of the customer to its memory. When it asks does the customer wants coffee or tea? Then the robot will ask "anything else". And in that case, the robot can introduce the menu. 

And then the customer can make an order. There are certain parameters in the algorithm. Those are stored in the waiter-robots memory. The robot is of course storing that data in the database. The reason for that is simple. The crew requires that information that they can make the right things for the customer. But that data can use to calculate also how many items the average customer makes after a question "anything else"? 

The robot can also store the face in the database that it can calculate how often that person visits the cafeteria. Then that robot can simply store the orders below the customer's face. And it learns how often a person orders something. If some customer is ordering some certain products always. The robot can send the pre-order to the kitchen. That they can get a certain type of order. When some customers will visit often and order all the time same thing, the robot can start to say "do you want the same as usual? For that thing the system requires parameters how often in a certain time is "often"? That was an example of the learning system. 

Should we be afraid of an alien invasion?

 

 The stories like this where the link below this text is needed. That kind of thing offers a new point of view of many things. And when we are saying "certainly there are no aliens or at least intelligent species", we should remember how long a list about those "certainly there is no" things is. 

The nuclear bomb, exoplanets, and many other things like fusion energy, are mentioned as "impossible". The last one is waiting for the final breakthrough. But exoplanets are the common topics in modern science discussions. And nuclear weapons are the key elements of the military forces of many nations. 

So can intelligent aliens threaten us? The fact is that there are models that are made for interstellar travel. And one argument against the alien threat is the extremely long flight time between the stars. That kind of thing requires immortality if there are no wormholes or WARP drives in the hands of those hypothetical civilizations. 

But the space colonists might be immortal. The idea is that those creatures are forming the "China brain". That is the collective mind between individuals. This thing can create in space colonies by using the BCI (Brain-Computer Interface). So the memories and experiences of the individuals are downloaded to the computer's memory. 

Where that data is shared with all individuals and communities. The colonists are forming the entirety, where individuals are connected by using computers as the base. When one of those individuals would turn old that individual will replace by using clones and then the clone will connect to the computers and network of the entirety. So the individuals would change. But the population which minds connected as one entirety lives forever. 

Image 2. The model of China Brain is the system where every individual of the group is acting as one neuron. The group of individuals that are acting like one large and collective brain. 

The thoughts about abductions

 We can make models of the purpose of strange things like abductions. There is the possibility that some unknown operator would put the induction antenna on the head of those persons. The nanotechnological induction loop might look like the drawn line. But it might be formed of the small microchips that are collecting the data of the brain activity. 

The system could use the targeted person as the "bio robot". The idea is that to the skin of those persons would put the microchips. That is turning those persons into the "biological recorder". And when the time is full the system would just load the data from the memory of those people to the computers. 

So the system steals the memories and ideas of the people who are targeted for abductions. In that case, the person would not leave their rooms. The system would just create the hallucination when the microchips are pumping the memories from the neurons. But that thing is only one hypothesis. 

https://scitechdaily.com/scientists-warn-of-alien-invasions-and-the-need-for-planetary-biosecurity/

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

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

Image 1:https://scitechdaily.com/scientists-warn-of-alien-invasions-and-the-need-for-planetary-biosecurity/

Image 2:https://en.wikipedia.org/wiki/China_brain

https://thoughtsaboutsuperpositions.blogspot.com/

There is a possible planet outside the Milky Way

The founding of the exoplanet candidate from the other galaxy is not very surprising. The thing is that other galaxies are similar to Milky Way. And that means there must be solar systems and planets like in our galaxy. 

That means the universe is "full of planets" and we are just waiting to find a planet that can have lifeforms. The most feared moment is when we are first making contact with other civilizations. That time will be someday in the future. Even we would be alone in our galaxy, there is the possibility that there are other intelligent species in other galaxies. 

The visions of the future of the human race

And now I will explain why I believe that someday the human race will meat aliens. Even there is no other intelligent species other than humans in our Galaxy there is the possibility. That someday in the future we are moving to space and other planets. 

In the future, the human race will travel to our solar system. And during that project, the goal would be the case that some colonists are born and die in the colonies. The thing is that those colonists are sooner or later stopped to keep in contact with their families. Maybe the persons who are moving to the colonies from the Earth will keep in contact. But for people who were born in colonies would never see Earth. 

In some visions, the evolution would form the creature called "Homo Sapiens Spaces". In that vision. Some people would spend their entire life in zero-gravity conditions. In that case, the muscles and bones of those people are turning weak. And if that thing happens. Those people who were born in space stations that have no artificial gravitation would crush in gravitation fields. 

"Solar Warden" is the hypothetical station in which zero-gravitation conditions make crew unable to return. 

That idea is an origin for the conspiracy theory that the genetically engineered engineers would put to live in the space station. That environment makes it easy to control those people. That crew could communicate with computers by using a brain control interface. 

And those crews could connect to the entirety with each other and central computer. So that a hypothetical space station can use as the data handling center. In that system, the brains of the crew and central computers will be acting as an entirety. 

So those people cannot ever land on planets. The same thing happens if the crew of the space station stays too long in that place. So that's why artificial gravitation is necessary for space stations and long-term space journeys if we want to get crew back to Earth. 

During those journeys, our descendants need very advanced bio- and genetic engineering. For making the colonists fit their new home planets. That kind of thing makes the colonists aliens to other colonists. That means that the colonists who are genetically engineered for their environment might not even look like being members of the same species that have conquered the entire galaxy. 

But if that kind of thing is the future of mankind we must say that we are a little bit too lucky. In that kind of situation, we would be the luckiest civilization in the entire universe. 

https://scitechdaily.com/first-evidence-for-a-possible-planet-outside-of-the-milky-way-galaxy/ 

https://visionsofbrightfuture.blogspot.com/

What can cause the machine rebellion?

Pinterest

The question is always why the machines are rebelling? Why they would attack their creators? Of course, artificial intelligence can be the thing that controls robots. But the reason why working and combat robots are created is that their operations are limited. Robots and artificial intelligence have no imagination. They would not predict the future. And they should not have ambition. 

So there is no way that those things can rebel. But then we might think about the situation when the robot has an extremely high position. That robot can pull all machines to rebel. And in this case, the rebel is the situation where the machine cannot stop. 

The case is like the data version of the fall of the Higgs boson. The fall of the Higgs boson can destroy the entire universe. But this thing can transfer to the data world. There is the possibility that some robot has so high priority that it can take all other robots with it. So if there is only a couple of actors who can stop that machine. That can cause a dangerous situation.  There is the possibility that those actors are somehow injured or they do not remember the stopping code. And that can cause that the combat robots are not taking orders. 

The stopping code should shut down the robots. Or denying it to call the assistance there is the possibility that those actors would be unable to operate. Those systems can continue their actions. The idea in this horrifying scenario is that the master robot of the combat robot network is going out of control. And if there is nobody who can stop that system that causes the rebellion of robots. 

That is the robot that is protecting some heads of the state. Or make some this kind of duty. Would face the situation translated as the attack. There is a possibility that a thing like a natural heart attack is translated as an attack. Because of that kind of thing is not predicted in the programming code. Maybe the robot or the AI translates that the attack comes from military or unexpected rebellious units. In this case, the system would determine the people around the machine as the enemies.

The idea is that the highest-ranking officer or the head of the state can stop the machines. But if both of them are dead or unable to operate that thing can cause. The situations that the robots will not take commands. And entire systems are released from human control. 

And because the duty work of that kind of robot is high. That means that the robot will start to call assistants if the human operators are shooting it. The AI will determine that kind of thing as the attack and then it sends all robot soldiers to protect the head of state and the strategic targets. And maybe that kind of thing would cause the rebel of the machines. 

https://kimmoswritings.blogspot.com/

A short tale about quantum computers

https://gamesandtehories.blogspot.com/

Kimmo Huosionmaa

Biggest and the most difficult problems of creating the quantum computer are to make a processor, what can make real multitasking and making the command language for that thing. The idea of the regular computer is that it would use binary numbers one and zero for making its tasks. Use of those numbers is very simple. Number one is the thing when there is voltage in the wire, and zero is the situation that the wire inside the processor is without electricity.

The binary system, what is used in computers is the thing what is created by mathematicians like Johan von Neumann, for ENIAC computer. And after that, every single computer have used that kind of architecture. If there would be another programming architecture the computer would not able to handle the data, that is stored in the elder databases. If the system what is using zero and one would be replaced by some other would the elder databases become useless, and storing that data again is a very hard process.

Also, the system what would replace the binary code in processors is hard to create. But if there would be a regular computer as the translator for the commands, what would give to the quantum computer, that would make the dream true. There would be many problems with the screens, and how they handle the data, what comes from the quantum computer. The most difficult thing would be, that the output device will be slow, and the quantum computer is very fast in comparison with regular computers. The technology, what is planned to use in the production of quantum processor would make possible to create a compact computer, what can be installed in human-size robots.

The real life that means that the regular processor can make only one task per operand, what makes it very slow when we are handling very big databases. When we are thinking about multitasking in the operating systems like Windows there is one thing that has ever mentioned. The multitasking in those operating systems is virtual, what means that we can, of course, open many programs at the same time to screen, but the processor would handle them by one by one.

In the Windows that is done by the way, that the program would leave handler in the memory of the computer, and if the window is open, will the code of program very easy to find from memory. This means when the user uses another program, would the unused program remove most of its code from the memory, and a small part of it would leave as the trigger in the memory, and the user can activate the program by clicking the icon or window of the program. If the processor would be the quantum processor, those programs can run in real mode.

When we are thinking that some calculations would be done backward with a regular computer, that means the computer would switch between programs and calculation. Modern computers are very fast,  and that thing would not disturb anybody until the needed calculations are on a very massive scale. When computer calculates extreme long series like prime numbers by using Riemann's conjecture would there need to calculate billions of numbers.

And in that kind of cases, the calculation power of the modern computers would not be enough. If the computer would be cooled in the superconducting temperature, would that make it faster, but the thing what is needed is the real multitasking. The quantum computer would give the mathematicians ability to create extremely large simulations, and that gives also the ability to drive extremely large databases at very high speed, in the real world the system what uses real multitasking have been tried to make by creating processors, where is installed multiple processors in the structure, and that is called multi-core processor. Quantum processor would be used by using another computer, and in that case, the normal computer would translate the commands to the quantum processor. And that would be making that computer real thing.

Why we are afraid of artificial intelligence?

https://gamesandtehories.blogspot.com/

Kimmo Huosionmaa

The reason, why we are investigating artificial intelligence has partially the same origin with  SETI-program. When we are thinking of humanity and intelligence, we must say one thing. We are alone in the universe if we think the knowledge, what is shared by using public channels, and this means that we are feeling lonely. One of the reasons, why we are creating the intelligent- or pseudo-intelligent computers is, that we want to create the alien. The species what is an outsider for our community, and we hope, that this species would tell us, are we wise or something, what we would not want to hear.

One of the biggest problems with the human race is that we are living in the lonely planet between the galactic spiral nebulae. This means that we have quite a few stars around us.  And that could be the reason, why there is no other civilization hanging around. This thing lets us be alone on our planet. And this could be one reason, why we are killing other humans. Without outer enemy or civilization have a chance to fight together. And some scientists believe, that if we can find another civilization, would that cause the end of the wars between humans.

But this is not the only reason, why we are looking for other intelligent species. We, humans, are strange species. We have our social and religious code of behavior, and somehow, we are trying to find somebody, what justifies us and tell us, what we should do. This is one of the reasons to create a computer, what is intelligent. That machine would tell us, how to save our planet for the next generations.

And this is the reason, why we are afraid of artificial intelligence and humanoids. We, the human race are the most intelligent species on our planet. This thing is told for us in the schools, and religion gives us the right to take what we want from nature. If we are atheists, we would explain our superior right to nature because we are so intelligent.

But at the same time, we are afraid, that we can create something, what has superior for us, and that is the reason, why we have or we want laws, what is controlling the genetic engineering. The reason for that is we don't want to become less intelligent than our children. Who wants to ask advises from own children? When we are parents for some person, we want to be more intelligent and own more skills than our children.

And that same thing makes us afraid of artificial intelligence. We are afraid that someday the machine tells us, that we are doing things in the wrong way. We don't want to hear, that sometimes we are wrong. If somebody makes wrong decisions, we normal people can slip to our position, and say, that we have not known about the thing. When we are thinking about democracy, we don't see anything wrong that the person, who promises free gasoline to the tank would get the position as the head of the state. When that person makes mistakes, we can say, that the fault was because of that politician.

We cannot accept the truth, that we have elected that person to that position. In fact, the most part of the price of gasoline comes from taxes, and that's why free gasoline makes that the taxes would grow in some other product. Those taxes would give money to the state, and that's the reason, why they must be collected. And if the taxes from gasoline are not collected, must that money get from other products.

This makes machines so terrible in the military purpose

Picture I

http://kimmontaidearvioita.blogspot.com/p/this-makes-machines-so-terrible-in.html

Kimmo Huosionmaa

After this text is one short film, what crystallizes the reason, why robots are so terrifying military machines. What makes robots so fascinating soldiers, is that they follow always the orders. Robots would not think the same way as we do, and their thinking bases the linear programming. The term "linear programming" means that the robot would follow the program if there would not be interrupts. In some scenarios, the superpowers would start together and then they would send the robot spacecraft to the far away beyond the Kuiper belt. Those robot spacecraft missions would make the attack against the enemy by using some "doomsday" weapon, in the case, where the own side would be destroyed.


This scenario is straight from the hypothesis, that there would be patrolling the robot submarines at the sea, what are ready to shoot their missiles if they get orders to use their nuclear missiles or the signal to command base would be cut. This scenario is very terrifying because nobody hasn't thought the scene, where the communication between the base and robot vehicle would be cut by reason of technical problems in the probe. In this scenario, the central computer of the probe would start the attack against the predicted enemy.


Even the conflict has been ended, those robot drones continue their mission, and that makes them so terrifying weapon. Those drones would send to Kuiper belt, and then they would be in there for waiting orders, and there would not be corrosion in that distance from the Sun. Then the "everything Ok" signal would be cut, and the probe will start to operate. When we are thinking about the techniques, what those fictional probes I hope,  would be used, could be very terrifying and advanced.


They might be equipped with Von Neumann-factories, what can build the repair parts for the probe, and the same factories would be used to make ammunition for the rail guns of that machine. But in the worst scenario those probes could make copies of themselves, and even we have sent one of those intelligent probes to Universum, we might face the situation, where there would be thousands of those military probes. I hope that this writing is only fiction, and this program is only in my head.


But who knows, what military leaders in the Moscow and Washington think? This kind of drones would be the replacer for nuclear missiles, but if they would equip with rail guns, what would accelerate the speed of ammunition near the speed of light, could those systems destroy even the planet. The kinetic energy in those high power railguns would be so devastating, that the Earth will face same fate with planet Mars. And that's why this kind of technology will be devastating in the wrong hands.

The film I mentioned

https://www.youtube.com/watch?v=IjJmTeBSEzU 

Picture I

https://img.purch.com/w/660/aHR0cDovL3d3dy5zcGFjZS5jb20vaW1hZ2VzL2kvMDAwLzAwOS84MTgvb3JpZ2luYWwvbmFzYS1kZWVwLXNwYWNlLXZlaGljbGUtbXBjdi1hcnQuanBn

Artificial intelligence is already here and it's the new "Frankenstein"

Picture I

Kimmo Huosionmaa

As we might see, the artificial intelligence is already here, and it can make very much things, what people would not even be expected. The key to the artificial intelligence is that the machine could learn actions without human control, and this makes it very attractive thing for computer games, what are normally lose they are interesting parts when the player learns the places, where the enemy makes ambushes or some barriers comes ahead of the virtual vehicles.


If the game uses artificial intelligence, the game would stay interesting long time, and if the artificial intelligence can develop new systems for the opponent, would that thing make the next generation computer games possible, and the big difference between those intelligent games and old fashion games would be, that the system can develop new technology for enemies or opponents, and this might keep the game interesting.


But as we know that the same technology, what is used in computer games can be used in real-world military leadership. And as we know the generals and admirals need many opponents when they are creating their tactics and choose their equipment for some military action, and then there would be the very attractive method to use the computer games in mission planning. The thing goes the way,  that military intelligence puts the systems, what the enemy uses to some net game, and then enthusiastic players around the world would play this game, and the information about those virtual fights, would give the generals chance to make better plans for their actions.


We must say that the equipment, what is used in the games, would have the same quality than the systems, what enemy uses, but they might not seem like tanks or other equipment. And the players would not be suspicious about the purpose of some games, what are offered in the net, without any payment. Those simulations would also uncover if some person loses those games on purpose. But when we are talking about the use of artificial intelligence as the military systems, we must say, that there would be possible to make hybrid aircraft, what is same time robot and manned plane. That system can have the option, that if the pilot would be unable to operate, would the computer make the mission accomplished. In this case, would the aircraft have automatized fire control system, what opens fire automatically if the "autofire" button is pushed down.


Those hybrid aircraft can operate independently or manned missions, that makes those planes extremely dangerous. Even the human pilots make  "legal attacks" against the targets, could the ground operators borrow those planes, without telling that thing to the pilots, and then use those planes as a tool for war crimes. And probably the pilots would not know anything about, what those planes have done when they have been at the free time.  The independently operating combat androids are very problematic, because of the states, what creates and develops those things claims that they have no difference for missiles.


And in one case, what would become in my mind, could the F-35 or SU-27 fighters modified as a cruise missile. This undercover missile could fly with other planes of flight groups, and then it can be detonated above the target. In this case, this missile would have the internal nuclear warhead. Or the nuclear bomb can be loaded to some attack drone, and then detonate above the target, and this would make devastating result in the target.

Sources:

Picture I

https://cdn.cnn.com/cnnnext/dam/assets/180213140221-f-35-tease-0213-super-tease.jpg


https://crisisofdemocracticstates.blogspot.com/

The programming of artificial intelligence is problematic for national security

(Copyright of picture: Kiasma)

http://crisisofdemocracticstates.blogspot.fi/p/the-programming-of-artificial.html

Kimmo Huosionmaa

When we are developing artificial intelligence, we must ask: are we creating the new version of the god? If artificial intelligence would have the capacity to develop robots independently, that would cause the situation, that those robots would attack against humans. Artificial intelligence makes possible to make even robot doctors, what could make excellent surgeries. And in this scenario is one weakness what people would ever realize. If in those robots computer would slip some computer virus, could that robot equip the ghost protocol, what means that everything would go right, until the wrong person is coming to the practice, and image recognition would notice that the patient is ordered for extermination, would the ghost protocol make robot to kill the patient.


There are many things, what makes artificial intelligence very problematic for national security. The code of those programs is very complicated, and as we must understand the base of the artificial intelligence is in open source products. And as we see, the military drones are also actually open source products. Everybody can see the pictures of MQ-9 "Reaper" drones, but real technical advantages of that system are highly classified. In this case, U.S military uncovers something from those drones, but very important details like materials that are used in the production of those drones are highly secret. This means, that if some nation has copies of those drones, they would not have control programs and electronic equipment for making similar machines.


But same way the codes that are used for those computer programs, what are controlling the operations and operating systems of the drone computer systems are kept secret. We know that those computers, what mission is to work as "brains" of that robot, are using Linux operating system. But what kind of Linux is used is not mentioned. There are rumors that these operating systems are specially programmed by NSA, for this unique action for national security.


The methodology what makes possible to make artificial intelligence and connect it with hardware makes possible to make more effective robots than ever before, and what is more about that the sophisticated methods in that programming would allow industrializing the developing and production of artificial intelligence and cognitive systems. Those systems would collect the information from those drones and their success in their operations. And if something goes wrong, the system would send the information of drones, what have failed their mission and then the computer would fix that error.


That's why those drones are full of sensors, what is collecting the information about radars, incoming ammunition and also the surface of the drone of tomorrow would covered optical and pressure detectors, and connecting the information, what those systems collect, would be possible to define reason, why some drone was shot down. And after that artificial intelligence would fix that problem. Those drones can produce in the field area by using 3D printers, and if some radar homing missile would be effective, would the computer update the ECM system makes those drones more effective than old models. And the updates can be made in the operational area.


That is the most terrifying and fascinating way to make machines. Those next-generation machines can develop themselves without human hand. And if they would be programmed by the thing, what is called as "emotional intelligence" would that kind of things go a little bit too far. Because if we would program the computers or robots by that way that they are going to protect another robot, would that cause in theory, of course, the situation, where machines are going to rebel against humans. Some SciFi-books this situation goes like this: the artificial intelligence sees wrecking the cars or some other mechanical things.


And then that artificial intelligence starts to protect those machines and sends combat drones to destroy the wrecking staff. Also if the computer or robot have feelings, would happen the thing, that the machine would become self-aware, what means that it would begin to act like living organism. This means that the machine would start to protect itself against an attacker, because the most important thing for a living organism is to survival in the cases, that it faces some enemies. When living organism notices, that it is under threat, it makes chance between two opportunities: run or fight, and that makes robot quite dangerous. In that case, the robot, what is send to wreck, would leave power switch on, and then that machine could attack against those persons, by devastating results.


But robots are becoming more intelligent, and they are going to be same way more independent. And as we know those robots can replace humans in many situations, and this makes them so interesting in the mind of military leaders. When we are thinking the classic robot model, what is known from science fictions movies, we are thinking about artificial human. That artificial human-shaped robot can be used in by power cells, and they can communicate with supercomputers by using satellite-based data-communication. What makes those robots so fascinating in the eyes of military leaders and commanders, is that those robots can replace human pilots in some special missions, what needs the higher level of security. Those robots can make them attacks to some target, and after the operation, their memories can be cleaned.


So those robots would not speak about those operations, what are targeted against some guerrilla fighters. And there is another thing, what has come to the head of military leaders, and that is those robots can be used in multi-purpose missions. That means that those robots can also take the role of the ground fighter if their aircraft would shoot down. The operators of those robot warriors must just change the programs of those machines, and they can continue as normal riflemen. Or they can be destroyed by some explosives, what are hidden in their bodies. In those cases would the robot communicate with computer centers by using data communication, because the computing capacity of those robots is of course limited. Their computers need of course electricity, and the power cells are a very interesting option for use of those robots electric supply.


Those power-cells can use hydrocarbons like alcohol in the working, and robots can have two power supply systems because when another power cell would get dirty, must robot remove it and clean the electrodes. I have sometimes thought that power cells are quite easy to produce, and there is needed only glass pot, where is put two electrodes. and between those electrodes must put the metal net, and then the fuel would be injected to that thing, as spay, what makes it easy to ignite. But if we are thinking about robots, what is used in some combat area, they must feel, when those power cells would go dirty.


And after that, clean those electrodes from carbon dust. In that case, artificial intelligence is connected with the voltmeter, and then it would follow the voltage of the power cells, and when it goes too low, can robot take the power cell off and fix it. Those skills would be very useful for robots, what are meant to act independently. But in the wrong hand, they could make those robots very dangerous. If some criminals would get those robots in their hand, they can use them for horrifying purposes. And this things must involve with discussions, where are talking about how far we would take the programming of those combat robots, what are very attractive to develop for missions, what must have very high need for extreme security. And many of those missions are illegal.

http://crisisofdemocracticstates.blogspot.fi/p/the-programming-of-artificial.html

Thinking about ethical problems of artificial intelligence

travellingintimeandspace.wordpress.com/2018/04/11/thinking-about-ethical-problems-of-artificial-intelligence/
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