New drones are a challenge for security.

  New drones are a challenge for security. 

Geran 3 drone

The new jet-engined Shahed drones called Geran-3 cause problems for Ukraine's air defense. That is one of the things that the Ukrainian war has taught us. The rapid development of the drone industry can render countermeasures that were useful and effective a couple of weeks ago ineffective in current situations. Things like optical fiber-controlled drones are hard targets for defenders. 

Those things are almost immune to the normal jamming systems. The EMP pulses that can destroy electronic components or laser systems that can cut the command fiber are tools that can affect those drones. But the use of the non-coherent EMP means that their own drones and other vehicles in the EMP area are also in danger. The laser system should detect the optical fiber before it cuts that fiber. 

And fiber-controlled drones can also be put in chains. That improves their attack range. The optic fibers would be pulled through another drone, and the drone can make a chain that is hard to detect or avoid. There is also a possibility that drone swarms are controlled by using laser communication. The laser drone can be a fiber-controlled system. And it can send laser pulses to other drones wirelessly. 

The laser-controlled drones have one problem. They require straight eye contact or a fiber that transfers the command signal. Regular lasers have one problem in drone control. Those lasers must be aimed. Using high accuracy. Blinking holograms can help with that problem. The optical communication is harder to jam. But the laser rays cannot travel through the smoke and fog. Those things also cover drones from defenders. 

 The Shahed-drones are now dropping anti-tank mines. But there is a possibility that the jet-engine-powered versions of those drones can also carry anti-tank weapons. Those anti-tank or anti-radiation missiles can increase those drones’ ability to cause damage. And another thing is that those drones can use those missiles against the power stations or radar installations. 

And they can also disturb the air defense. That is the problem with weapon development. The solutions that were effective against propeller-engine Shahed-136 drones are not effective against jet engine versions of those drones. The jet-engine drone can fly much higher than those propeller drones. The next step will be  AI-controlled drones that can operate independently. The drone will fly near its target using inertial navigation. Or it can use TERCOM, the AI follows the terrain area, and the system compiles that data with images. Those are stored in its memory. 

When the drone is close to its target, the system starts to search point, that it must destroy. The system uses photographs that are stored in its memory to detect the target. And then the system orders the drone to dive. And make a kamikaze attack. Basically. Those drones can use similar systems that Javelin uses to detect targets. Image-based target recognition can be used in all types of missiles and drones. 

https://www.armyrecognition.com/focus-analysis-conflicts/army/conflicts-in-the-world/russia-ukraine-war-2022/russias-jet-powered-shahed-238-drones-introduce-new-challenges-to-ukraines-air-defenses

https://www.twz.com/air/russian-mig-29-fitted-with-an-interceptor-drone-is-a-laughable-mess

https://www.twz.com/air/russias-shahed-long-range-drones-are-now-dropping-anti-tank-mines

https://en.wikipedia.org/wiki/HESA_Shahed_136

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

New transformers and iron-man robots can be revolutionized.

There are questions about things like can the AI really think? Or does it only mimic some actions? There is a method to teach the computer called macro learning. When a robot or computer faces some situation for the first time the programmer creates a macro or action for that thing. Even if a robot only mimics humans, that robot can follow the controller’s instructions and movements for the first time. Then that robot compares those situations where those things are given to things that it faces. If the situation matches with the situation where the action is connected that activates the action. Or macro. The name: “macro-based programming” means that the programmer creates actions for robots. And then connects that action, or macro to the event. 

The new transformer and Iron Man robots are tools that can change robotics. Those tools are equipped with abilities that allow them to change their shape. Or those robots can fly to places like roofs. That thing makes them good operators for rescue, intelligence, and other types of missions. The man-shaped robot can operate window washers for skyscrapers, or they can pick up interesting things from the ground or roofs. The robot is equipped with jets, but it's possible to use blowers that make them quiet. The new AI-based tools can make those robots more self-learning than we ever imagined. 

Those blowers make it possible for the robot to operate underwater. And that is the thing that makes Iron Man robots interesting tools for deep-sea operations. The man-shaped robot can operate with the same tools as humans. And those robots can transfer themselves from one airplane to another. Or they can jump onto the roofs of aircraft. They might carry versatile sensors. Like seismic microphones in their feet. Those systems allow those robots to hear voices through the roofs. That kind of robot can carry humans out from burning houses. Only imagination limits those systems' capacities.

The ability to transform vehicles from cars to something that flies is an interesting thing. The ability to travel on highways or on the ground is something that makes those systems unseen. That ability allows those systems to move in places where flying machines cannot go. The ability to transform cars into things like quadcopters is the thing that brings interesting ideas. There are projects whose goal is cheap hybrid vehicles that can be called “flying cars”. That means an aerial vehicle whose price is the same as some personal vehicle. 

Those vehicles can move on the road or they can rise airborne. Those systems can be the thing that forces us to re-estimate our security. When we think about burglaries those systems can transport operators to the roof. But those systems can deliver things like drones. They can operate autonomously. The problem is that new anti-tank and other weapons are easy to put into those systems. Many flying cars can reach 400-600 km/h which is faster than any regular helicopter. That means those “flying cars” can transport things like AA missiles. 

New nuclear batteries can work as powerhouses for those robots. They can operate for even years or their operational time can be unlimited. This means those robots can operate on other planets and in their atmosphere. 

https://interestingengineering.com/innovation/china-kuickwheel-skyrider-x6-44-7-mph-speed-31-mile-range

https://www.rudebaguette.com/en/2025/06/real-life-transformers-are-here-uk-inventor-builds-shape-shifting-robot-that-morphs-into-a-fully-functional-vehicle/. 

https://scitechdaily.com/real-life-iron-man-worlds-first-jet-powered-humanoid-robot-takes-flight/

https://en.wikipedia.org/wiki/Macro_(computer_science)

The future AI cognition mimics humans.

The AI can have a physical body. The robot body communicates with supercomputers. And it makes them more flexibility. 

AI learns the same way as humans. The learning process and its power depend on the diversity of the information. AI requires versatile information from multiple sources. And when we think about AI. And its ability to learn things. 

We must think about it. Why and where we learn. We can try everything ourselves. But there is another way. We can network with other people who do similar things. And then we can share our experiences and thoughts with other people in that network. 

We might have a good education. But we go to learning meetings. We learn from other people's experiences. Sharing information makes networks effective tools to learn things. In that model, the single actor must not make and know everything. 

When we talk with other people we can expand our view of things. We get more ideas when we meet other people and share our thoughts. 

We can work with those ideas. And mix them with our environment. That thing extends our corridors and predisposes us to new information. Information plays a vital role in the learning process. If some actor in the network, which can be human or some server faces something. That thing can be shared with another network. If the server is under network attack the system can collect all data from that event into its memories. Then it can share that data all over the network. And other actors can mimic that server to defend themselves against similar attacks. 

Similar way. AI should talk about other things. If the AI is just a language model. It has limited ways to learn things. Mainly large language model learns in a verbal way. And that is a very limited way. It's easy to write things to LLM and order it to do something when something happens. This can be enough in cases where the AI should detect and defend against network attacks. 

In second image is the vision of a robot that operates in the Kuiper Belt. Those robots can have quantum computer brains. The Kuiper Belt is a good place for compact quantum computers. 

That program creates a reflex to the system. When something happens that system reacts like it is programmed. Think about a case in which you should explain everything using words. That thing is possible. But it's more limited than if the AI can use images or films in the learning process. 

That means the AI can learn things from the homepages. And maybe from surveillance cameras. But if the AI has a physical form like a robot that interacts with a server, that runs the AI that extends its ability to learn things. The AI learns things visually. By connecting certain images or things with certain actions. That is a more versatile and easier way to teach things to AI. The physical body that communicates with the server can be discussed with people. 

The robot body can keep in contact with the LLM. The system can operate remotely. The LLM works in servers or in morphing neural networks. Those servers can be in the bunker. Or the system can use non-centralized computing. That means the system can share responsibilities all around the robot groups. The system just connects robots computers into entireties. 

In some futuristic visions, humans will fly to the Kuiper Belt to make quantum computers in that cold and stable environment. In the Kuiper Belt, every metal is in superconducting condition. So that means even human-size robots can have quantum brains. That gives them extremely powerful computing capacity. The low temperature with a static environment makes the Kuiper Belt a promising place to make quantum computers. 

 https://bigthink.com/the-future/ai-cognition-and-the-road-to-meaning/

 

The future of robots might be more interesting than we ever imagine.

Emotional robots can act as nurses. But they can be the next-generation tools for intelligence and law enforcement. The official name for the robot that looks like a human is an android. We could call the human-looking robots "virtual humans". 

Virtual emotions are making robots feel like a human. And the human-like robot can make many things that are impossible for humans. 

The physical robot can act as an external body for its controllers. And in that case, the robot has the same IQ level as its controller. There is the possibility that the robot is hybrid-controlled. In routine missions robot uses autopilot. 

But in special cases, like in a new mission environment. The controller will make the robot for the first time make its mission. The robot records that mission and then it can make the job independently. 

But the AI-controlled robots can use virtual workspaces for making the first-time routine. The problem with physical robots is that they can be dangerous in the wrong hands. The physical, human-looking robot can same weapons as humans. 

And that makes them a little bit dangerous because criminals can make remote-controlled bank robberies by using that kind of system. When we are thinking of things like cleaner robots. Those systems can have the "shadow protocol" that makes them transmit data to third parties. 

Robots, especially AI-controlled robots that can show virtual emotions are incredible machines. Those robots are created for nursery work, but also intelligence, law enforcement, and other security agencies can be interested in human-looking robots with individual nature.  

The robot can have virtual emotions and virtual characters. In those virtual emotional systems, each robot has a different individual style for discussion with people. Different variables can make the robot look angry, sad, or something like that. Every single robot can have different variables that can make it speak louder. 

But when we are thinking about physical robots we are facing one thing. The robot is the physical tool for the AI. And things, like 5G networks allows robot body to connect themselves with computer centers. The robot can have access to the Chat GPT-style artificial intelligence. That makes it able to speak with people. 

Each robot can have different details in its programming. And that thing makes them feel like an individual. 

The robot can feel very realistic. But the fact is that the robot is only the physical part of highly advanced artificial intelligence. When we are thinking about robots, they might look and feel like real humans. But the fact is that they are machines. Those human-looking robots can play chess with real people if they have access chess program. 

https://shorttextsofoldscholars.blogspot.com/

New doctrine on the battlefield is rising.

One thing that we must realize is that combat drones are meant for operating with manned systems. That means the combat aircraft can drop quadcopters to the operational area. Or they can operate as mixed swarms where is manned and unmanned aircraft. Some people are saying that combat drones are non-humanitarian systems. But the fact is that they are effective. The combat drone and hybrid army where the man operates along with robots. Is one of the most terrifying things that we can imagine. 

The evolution of military systems is at crossroads. The next-generation systems might be a combination of extremely expensive multi-role combat aircraft. But those multi-role combat aircraft can drop the killer drones to the battlefield. And things like loyal wingman drones can operate along with manned systems. 

But the problem is that the purpose of the combat systems is to be terrifying. The mission of combat systems is to be afraid. Their purpose is to confess to other nations that are not acting against the state. And this is why the most of weapons are somehow nonhumanitarian. The purpose of military force is to be terrifying. Its purpose is to destroy and kill enemies. And that is the reason why the weapons are so frightening. 

And frightening weapons are effective weapons. Nuclear weapons are the most destructive things in the world. We all know what those weapons cause to people. But many nations are taking those weapons in their arsenal because they guarantee authority and respect for those countries and this is the reason why nuclear weapons are so wanted thing. And this is why other nations are criticizing those weapons. 

People are criticizing killer drones that they are non-humanitarian weapons. Same way cruise missiles, ICBM missiles machine guns, cannons, and other things like rocket launchers and mortars are not humanitarian weapons. Or are you ever heard of humanitarian weapons?

In the novel "The Naked Sun" novelist Isaac Asimov described one most terrifying things in the world. The mass-army of the robots. The man-shaped robots can easily handle all missions on the battlefield. The problem is the limit of their computing system. But times are changing and compact quantum computers can fix this problem. The power of quantum computers is making those systems unpredictable. And unpredictable robots are always dangerous. 

The robot armies are a terrifying thing. Commanders of robot armies must not care about losses. And robots are not excused orders. But there is one aspect that we must realize. There is one thing that is also causing criticism against robot soldiers. The robot armies can offer also small countries the conventional attack capacity that has been "reserved" for the largest militaries in the world. 

So if the country has a large-scale robot army. That system means. Even if a big arm attacks against that country. The result remains unknown. When we are thinking about traditional warfare the result of the war was easy to predict. A bigger nation always won the war. And other countries were easy to choose their side. The winner of the war was easy to predict. And that's why traditional armies were based the large groups of men and equipment. But then WMD (Weapons of Mass Destruction) took their place on the battlefield. 

The gas weapon was not effective against military groups who used gas masks and protective suits. Things like Chemical weapons were prohibited because they were not effective against combatants who use protective gear. But things like nuclear weapons are still in service. Nuclear weapons are easier to justify than some poison gasses.

Sometimes, somebody is said that the reason why aerosol or FAE explosives wanted to prohibit is not that the creators of those weapons are afraid that enemy snipers shoot at those bombs. The aerosol bomb is the propane tank where is detonator. If some sniper shoots at those tanks that can cause an explosion. 

https://thoughtandmachines.blogspot.com/

Most of the androids look like something else than humans.

The newest models of robot insects are looking like water striders. The robot water striders can patrol on water and collect data from chemicals and things that happen near them. The new robot insects can go anywhere and that means they are effective tools for many missions from natural research to intelligence and recon missions. 

The robot insects can use the electric eel's electric cells for making their electricity. The new type of android insects can look like normal bugs or spiders. But they can communicate even with the supercomputer centers by using the internet. When we are thinking the insect robots those systems can also be used as drone swarms. 

They can communicate with satellites by using other drones as the data link. But even if some robot looks like an insect, it might not be like its model. The feet of the robot water strider can connect with the fly-looking bug. And those robots can slip into houses by using the smallest possible holes. If the energy production of those robots is made by using biological energy production. 

They can eat normal nutrients. That thing allows those robots to operate deep inside buildings. Robot bugs can make chains and use the laser-communication for transmitting data. From inside to the robot that waits outside. Also, regular quadcopters can use biological energy production.

Could the story of "Moby Dick" come from the robot whale? I don't know, could a mechanic robot or "automaton"  of the 19th century look like a trustable whale? But the mechanic computer could control even the large-size mechanical bodies. 

The legend of "Moby Dick" the white whale caused an idea. That there could be roto sharks and robot whales patrolling at the sea. Those zombie sharks and whales can collect data from the seas. And they can be used to track submarines and collect data from underwater systems of ships. 

The form of the android can be anything. The most copied forms are insects. But things like snakes,  whales, and fishes can also be models for the androids. The animal-shaped androids can use to guard natural parks and hunt suspected hunters. The robot animals are multipurpose tools, that can make many things with the same form. 

We always think that robot animals are small. But robots can have the form of large animals. There is the possibility that the sea is patrolling the whale-looking robots. That has rubber skin and a skeleton that can move like the body of a whale. That kind of idea might be very interesting. And robot animals are interesting tools for many purposes. 

https://www.azonano.com/news.aspx?newsID=38760

https://www.thehoopsnews.com/researchers-develop-insect-mimicking-robot-that-strides-and-jumps-on-water-7215

https://scitechdaily.com/engineers-create-tiny-robot-bugs-that-can-go-just-about-anywhere/

The fire ants can give ideas for swarming robots.

The ants and other swarm operating bugs are used as models for swarming robots. When we think of the independently operating drone swarms controlled by artificial intelligence. Those systems did not exist 10 years ago. Even the small-size quadcopters and other drones can operate as a swarm. 

The nuclear-powered drone swarms can operate in the atmosphere of other planets. They can operate underwater conditions in the Marianna Trench. And the icy oceans in the Jupiter and Saturn icy moons. But they can also be new and powerful tools on the battlefields. 

The thing that makes this thing possible is the network-based system called "distributed calculation". Developers created this system for making animations for computers. The idea is that the computers can share their capacity and resources with other computers. 

The network-based system allows making the drone swarm. That can connect data that their sensors are delivering. The drones can stay on their operational area as the plate. When one of those systems is seeing something interesting. It shares that data with all others. 

Small-size quadcopters might have only one or two sensors like regular CCD, infrared, or some kind of radars. The quadcopter can also carry seismic or acoustic sensors. That means those drones can lay to the ground and feel the seismic oscillations. 

Those systems can also eavesdrop on enemy speech. The quadcopter can also have chemical detectors that allow them to find the ammunition or fuel dump. The thing is that the large numbers of those swarming robots are replacing the quality. 

It's possible that in the future. There are three types of aerial systems. Or actually, those systems already exist. 

1) Simple, one mission drones

2) Multimission drones

3) Manned systems

Those systems are integrated as an entirety. The network-based systems allow sharing the information between components of the military systems. The aerial systems are also integrated to the part of the entirety where the sea and land troops are also participating in the network-based battlefields. 

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The hierarchy of aerial systems can be like this:

1) The simple, and cheap one mission drones. That is pulling missile fire away from the more complicated systems. Those drones can also be used as miniaturized killer robots. Those quadcopter-looking systems or loitering ammunition called "kamikaze drones" are the systems. 

Those terrorists are using most probably. The problem with those systems is that they are thought of as cruise missiles that are making more curves than normal cruise missiles. 

2) Multi-purpose drones can be remotely controlled systems. Or independent operating AI-driven systems. Those systems can use as remote-controlled or independently operating attack aircraft. 

Or they can have the internal warhead. They can operate alone or with manned aircraft. The loyal wingman drone's mission is to pull the missile fire away from the manned aircraft or attack against missile stations. 

The drones can also make the plate under their aircraft makes more difficult to shoot them down. The quadcopters can have infrared lights that give masks for stealth fighters.  

And they can spray iron powder into the air making it difficult to see the stealth aircraft. That is behind those drones. The stealth fighter can make the strikes by using satellite-guided weapons. 

3) The manned aircraft.  The loyal wingmen drones can be used as "kamikaze drones" or remote-controlled auxiliary jet fighters. The controller of those drones can sit on the back seat of the stealth fighter. Those drones can share their data between the computers of the jet fighters.

But they can also be 1000 kilometers away in the command centers. That thing might not be very sportsmanlike. But also in the Spartan army, the idea was that if somebody attacked one Spartan, the another would hit that attacker to back by using the spear. 

x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x-x

Social bugs like ants are giving data on how the system should operate as swarms. The swarming robots can close the route of the jet fighters. And the thing that makes them more powerful than regular sensors is that those quadcopters can fly in jet engines. 

When we are thinking the technology behind those quadcopters is that the individual member of the drone swarms must not be versatile. The entirety is versatile because those quadcopters or other types of drones might have different types of sensors. 

The drone swarms are complicated things. They can produce at the combat zone by using 3D printers and automatized manufacturing platforms. Those systems can detect things like missiles in seconds if they are in position. Drones can deliver from satellites and the thing is that those systems can assassinate individual persons. 

In those systems, the image recognition system will locate the target. And the small drone will drop from the satellite. The heat core denies the burning of that system. The quadcopter can be equipped with a regular pistol that makes it a very suitable and dangerous system in the wrong hands. 

Drones are effective in conflicts. They can make sudden attacks from the sky by using smart weapons. This thing makes them feared and brutal systems. But the defenders of the drone attacks are saying that the purpose of weapons is to fear enemies. Some people are saying that drones are easy to shoot down. 

Or they are easy to affect. If we think that the drone that costs the same price as some car hits by a missile that price is over a million euros that thing can be acceptable. One of the purposes of drone swarms is to pull missile fire to them away from the complicated manned aircraft and drones. 

But when we are thinking about the situation in Ukraine where are no swarming drones we must ask one interesting question. If drones are easy to destroy or jam. 

Why don't the Russians destroy those drones? Why do they allow the Turkish-build drones to fly around their vehicles, and destroy them? That is one interesting thing to think about. 

https://phys.org/news/2022-03-physics-ant-rafts-swarming-robots.html

https://interestandinnovation.blogspot.com/

The electric cells of electric eel can for creating electricity for futuristic robots.

The biological batteries are suitable for power sources for androids. 

Have you seen the movie "Aliens"?There is a human-looking android robot called "Bishop". That kind of robot can connect to the computers of the spacecraft. Or the computer center if we want to be less futuristic. That kind of man-looking robot can be the "contact person" between computers and humans. The "Bishop-unit" is similar to "Sophie". The AI-driven robot. That is interacting between supercomputers through the internet. 

That means the computers are interacting through those "Bishop-units". And that thing means that quantum computers can communicate straight with humans by using those undercover models. Those man-looking robots could also make repairments for the computers. 

That kind of robot can use a biological power source. Like the electric cells of electric eel for making their electricity. In that case. The system will eat the food to the artificial stomach. There are bacteria and the ability to transfer the food to nutrients for those cells that are creating power for the robot. 

In some "Daedalus" type theoretical plans the craft will send to another star. With those "Bishop-units". In some visions, the futuristic interstellar spacecraft will use regular binary computers when it leaves the solar system. And in that journey, the man-looking robots will make quantum computers. 

The idea is that the binary system is easier to control than a quantum computer. The quantum computer starts to run the AI when the craft is enough far away. And at the target, those "Bishop-units" would act as babysitters for the crew that is traveling in the form of hyper-cooled embryos that are cooled to zero kelvin degrees. 

The number of those electric cells determines the power of electricity that they can deliver. 

Biological batteries are one of the most exciting versions of the use of bioelectricity. There is a fish called an electric eel, that uses electric shocks as the defense and hunting. The cells that are creating over 600 volts of electricity. And that means those cells can use as biological batteries for nanomachines. But those cells they can use to create electricity also for the microchips and electric engines. 

Cloned electric cells of electric eel can use in any kind of electric device. And biotechnology allows the creation of large masses of those cells. The thing is that number of those cells determines how powerful electricity the biological power source can create. If the electric cells of an electric eel, are connected to things like computers or robots. The only thing that the system needs is nutrients. Of course, the power product of those cells must stabilize. 

Those cells that are creating electricity for that fish can use for parallel or serial connection. The system can use cloned electric cells and the electricity of those cells can store in a capacitor or battery. That means, even large-size systems can use by using electricity. That is created by biological batteries or cells that are creating electricity. 

In the most interesting and futuristic models, the electric cells can use to create electricity for large-size robots. The cells would be in the chambers. And the robot needs nutrients for creating electricity for the robots and their computers. That thing makes it possible to create a human-looking robot that eats normal food. 

There is one thing where the cells that are creating electricity can also use. That is SciFi-style spacecraft where the systems are getting electricity from the electric cells. The electric cells can give electricity for the ion engines as well as computers. The requirement is that the number of cells is high enough. 

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

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

Technical systems sometimes look supernatural.

 

 Technical systems sometimes look supernatural. 

Quadcopters can also use gesture control.

One of the things that you must know about things like witchcraft and other types of things like remote-viewing is that those things can base things like hidden eavesdropping tools or informers. So there is somebody next to you who tells everything to somebody else. Another version is that there is some kind of hidden camera or recorder in the room. And those things allow that some "master" can hear everything. 

Technical equipment can use to make people look like some kind of supernatural. Holograms can simply use to create things like ghosts. And extra-ordinary-looking aerial vehicles can use to turn the head of people. The quadcopters can also be equipped with hologram projectors. So those things can make real-looking UFOs:s at the airborne. 

In the same way, the aircraft can have hologram projectors which makes them hunt the UFO. That kind of system might use when some top-secret missiles or other types of secretive technology are tested in some areas. That kind of system can lead the jet fighters away from the secured airspace. Or some flying saucers can be stealth helicopters that are used to collect secretive aircraft away from hostile areas if there are damages in those systems. 

Things like UFO kidnappings called abductions can also make by using virtual reality. Nitrous oxide and some psychoactive chemicals can use to boost the effect of virtual reality. 

A new type of interface can turn techno-witchcraft possible, 

We could almost create "Jedi" by using technical equipment. The quadcopters can control by using gestures. And if those quadcopters have hands or manipulators they can use to operate the computers. The simplest way is to make the manipulators which have cameras. Then the quadcopter needs only to know what the certain letter looks like. The operator could fly that quadcopter to the computer. And simply write the texts by using their computer. 

Or the quadcopter might have a virtual keyboard and the remote controller would connect that thing to the USB gate. Writing the commands can be made by using a remote computer. The mouse can be virtual or the quadcopter can have a manipulator that is acting like a mouse. Or the quadcopter itself is acting like a mouse. 

The system can be on wheels and a manipulator connects it to the USB gate. Then the operator can use a virtual keyboard and move the quadcopter on the table. The operator can see the screen by using the camera that is located in the quadcopter. Or the quadcopter can use the USB- and remote connection for sending the virtual screen to the operator. 

But the system can use also the interface where certain letters can choose by using eye contact. The system is called "Eye Tracker". The prototype of that system allowed the famous physicist Stephen Hawking to communicate with other people even that man had ALS. Today those systems are allowed to buy for gaming and everybody can buy them. 

The computer follows the position of the eye and the selection of the letter happens by blinking the eye. The person sees the activated letter at the HUD screen. That system can use with the portable HUD and VR glasses. 

The same systems are used for controlling virtual characters in games. Can be used to control real physical machines like quadcopters. 

But gesture controls, BCI, and other kinds of systems make that technical equipment more powerful and flexible. The fact is that the controller of the remote systems can use the WEB camera to send those gestures to the remote system. There is the possibility that the user of the system might have certain gloves for confirming those commands. 

Techno-Jedi

When we are thinking about Star Wars and Jedi who have some "supernatural force" there is the possibility that all of those kinds of things are made by using technical equipment. The flying light swords can be quadcopters which are controlled by using the BCI (Brain-Computer Interface). Or actually, there is needed the gesture control system. The simplest model uses data gloves. 

So in that kind of equipment would be only the blowers that are controlling its movements on air. And things like remote-killing can make by using a gesture activator. 

But if the person wants to make the magic tricks without gloves. That thing requires only the jewelry where is a certain type of sensors.  To the wrist is put the motion sensor or sensor that searches the electric actions in the nervous systems. That sensor can also install surgically. 

When the person moves the finger or hands a certain way the system will give certain commands. So the light sword can fly to hand when a certain gesture is made. And the other systems can communicate with portable data handling units that can hide in light sword or mobile telephone. And that kind of system can also use to shut down generators. Or remote activate the jet fighter levitation systems. 

When the person who has a certain dress and gloves makes a certain gesture that thing releases botulinum release in the victim's body. The user could activate the system by using a radio impulse that is sent from the hidden radio transmitter. Or there is a small camera in the clothes or body of a victim. And when a certain gesture is made that camera sends the signal to the botulinum capsule. That kind of thing can use to make a vision of the great witch. 

https://www.lead-innovation.com/english-blog/eye-tracking-as-an-interface

https://eu.mouser.com/images/microsites/quadcopter-capabilities-flight-theme.jpg

https://visionsoftheaiandfuture.blogspot.com/

The noise is a problem for voice commanding robots.

   

 The noise is a problem for voice commanding robots. 

Artificial intelligence and especially in voice commands is one problem. And the name of that problem is noise. When people are giving orders to robots the problem is how to filter those orders which given in purpose from the noise around the area. The selection is important when the orders are given to robots that operate in the middle of people. 

The voice commands what the robot that operates at the station can consist of things that "would you step away" or "help" which means some person needs help. But how to separate the ask for carrying packages from the cases where somebody drops on the railway? And of course, there are many commands that robots should not follow in every case. The thing is that if the robots would get command to hurt somebody. 

That robot should not follow it. But the problem is how the robot separates the orders from the "ducky talk". One version is, of course, following the way that is used in the training of dogs. In that method, there is the gesture. That is given before the command. And that gesture will prepare the robot for command. 

But there is a possibility that the gesture is connected to some mark. Like ring or jewelry that confirms robot that person is allowed to give such orders. There is the possibility that in the wristwatch or ring. Is hidden the QR-code that is telling that the person has certain rights to the system. That kind of system can use when some persons are giving special orders to robots. 

The thing is that if we think. That AI-controlled robot operates on the battlefield. Or at security missions. The robot must separate orders from the noise. There is the possibility. That in those areas robots are disturbed by using loudspeakers. By faked sounds like copied speech or speech images, there is possible that enemy operators are trying to turn robot attacks against their masters. 

The man-shaped robot is one of the things that is a very interesting tool. The robot itself is a multipurpose system. And the AI or operating system determines the things that robots can use. There is the possibility that cleaner or cargo robots have so-called "ghost protocol". That means that when a robot sees things like weapons it activates the protective model. Or if somebody is in danger, The sign that is given to the robot must be clear enough. 

There is an article below this text.  There is introduced how neuroscience is used to filter noise. From the orders which are given in purpose. But the thing is that there are many other ways to make the robot separate the noise or unauthorized commands from the commands that are given in purpose. And by people who have the authorization to give certain types of commands for robots. 

https://www.quantamagazine.org/ai-researchers-fight-noise-by-turning-to-biology-20211207/

Image 1)https://techbullion.com/machine-learning-market-profile-to-triumph-existing-processes-in-nearly-all-business-verticals-manifests-stupendous-growth/

https://thoughtandmachines.blogspot.com/

How to teach social skills to robots and AI?

One of the versions is to make a large-scale database structure where is different versions of words are used in social situations. Then the programmer makes the first connections between databases. After that, the system starts to talk with its creators. 

The thing is teaching social skills for AI is quite an easy thing in theory. It's just connecting databases. But social skills are more than just saying words. They are noticing the facial expressions taking the hat off when going to the church. And other kinds of things.  

But if we want to make the AI what discusses like a real person that requires a lot of databases and connections between them. If the system would make the job interviews that thing requires lots of data. And if somebody says or asks about things that are not in the database, the system might ask the programmer to answer by talking or writing it to the computer. 

The thing is that if we want that AI to talk with us about everyday situations. That thing is really hard to make. The thing is that we don't normally recognize. That people are not using written standard language in everyday speech. So that requires that the databases can understand dialects. If we want to make an AI that has a very large set of skills. That requires large-scale databases. 

The problem with regular computer programs is that they are not using fuzzy logic. In the discussion programs, the fuzzy logic is made by using multiple databases that are connected with a certain social dialogue. Those databases are involving dialect words. 

They are connected to databases there is written standard language. And then those things are connected to the database that is including social dialogue. The thing is that the programmer can write social dialogue by using dialect words. And that makes the robot more like a human. 

If the social behavior like words that the AI uses are right the programmer or teacher would accept or deny that thing. If there is no match for an answer the programmer would write the right answer for the machine. 

The idea is that when the person is discussing with AI. It would record the things that the opponent is saying, and then answer. This kind of AI might have other parameters like images of the things facial expressions in certain situations. The AI is the ultimate tool in cases like job interviews and especially in video interviews. 

The system can follow things like the length of the brakes between the words. And how the voice is chancing when the person is talking. But it can also look for things like touching the nose during the interview. What kinds of things are marks of lies. That kind of system would also pick things like does the interviewed person has some kind of skills what the interviewer wants to find. 

When the interviewer asks about things like computer skills and what to do in certain situations the job seeker would cover the missing skills in long answers. That means that the interviewer would not notice that there are missing parts in the skills that the computer operator requires. 

 Like how to connect systems to the net. Or something like that. The system might record the answer. And then compare the answer with the actions what the worker should do in those cases. If there is no match, the person would not understand what to make. 

In the cases like job interviews, the AI can search if there are lots of the same names in the lists of referees in different job applications. If the same referees are always in the CV:s of the persons whose work is not. There is something wrong with those referees. 

The "Skinwalker ranch" part II (Is this place the robot test site?)

Steam horse from 19th century
(Picture I)

https://crisisofdemocracticstates.blogspot.com/

Kimmo Huosionmaa

Could somebody force the owners of that famous ranch leaving the area by using electric arcs and another kind of stuff? And did they make that thing for covering something, what people should not see? When we are thinking about the poltergeist, what was the description in the film, what is below the text, we must see, that those phenomena are very easy to make by using electric arcs, fireworks, and loudspeakers. The name of the ranch feels like something psychological operation.


So were Shermans the victims of "Project Garnet". The pseudo-UFO-project, what government uses to turn the attention from otherwise, when it wants to hide something, and in that project is made the high power electric systems, holographic equipment, airships, and other things, what are made look like UFO:s. But as we might see, there is something very interesting in the films, what is made by that case. The film is not made by me, and I don't own copyrights, but there are a couple of interesting parts.


In the 2:02 is the art, what seems very interesting, and the left figure might seem like the horse, what is hit by the rocket. And the left side of thing looks like a horse, what has some kind of hilts. Or maybe they are the fuel tanks for some kind of mechanical horse. We know that in 19th. century was made the mechanic humans, and horses, what were called as "automaton". So could that kind of technology tested in that ranch? The picture in 2:06 seems like painted while LSD trip, and this is very interesting. And in my mind came one very interesting thought, could that ranch be used for testing undercover intelligence or military surveillance robots?

The intelligence and military are , of course, interesting many kinds of robots, and some robots, what could be developed for surveillance might seem innocent, and probably intelligence would be tested also artificial cows, what could be equipped with composts, what creates the methane for the fuel cells of that device. I know this feels futuristic, but the robot, what could look for fuel from nature would be hard to detect and own more operational time, than robots what tank must refill. Or if the robot can drink the hydrocarbons like an animal, would that help to keep those things secret.

Even in 19th. century the automatons or robots, as we call those things today were seriously investigated and tested, but the technology was not enough high level for making those early robots suitable for the everyday purpose. But as we know the modern technology allows us to make even artificial cows, what eats the real food like, and that biomass can be transformed as an alcohol or methane in the anaerobic reactor, and use in fuel cells, what gives power for that kind of robots. Those robot animals can be equipped with machine guns and anti-tank weapons, and if we want to be nasty, those artificial cows can also be equipped with nuclear explosives. That kind of solutions is interesting many organizations and offices in the world of intelligence and military.

The film of "Skinwalker's ranch"

https://www.youtube.com/watch?v=6b3hu_zNs2o

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

https://en.wikipedia.org/wiki/Mephisto_(automaton)


Picture 1
https://cdn.theatlantic.com/static/mt/assets/science/steam-horse.jpeg

Writing about the dangers of a new kind of technology, what is used in drones

https://avoimenkoodinmaailma.blogspot.com/

Kimmo Huosionmaa

Below this text is two links to the videos, where is presented the drones, what are made for military and civilian purposes. In fact, some of those miniature air vehicles are made for toys, and the technology, what is used in them, can be used also for the wrong purposes. Even the modern toys can operate independently, and they can risk the security and privacy in the houses if they are misused. The moving trajectories of those drones can be pre programmed, and if somebody wants, those drones can fly across the houses and photograph every flat, where they can see inside.


And those things can be used as the surveillance drones as well as the drones, what are made for that purpose. But when we are thinking about the miniature drones use for strike purposes, some of them might simply drop the transmitter on the tanks or some other target, and the guided bomb or missile would follow that transmitter. Those miniature drones can also equip with the electric system, what would shoot 338. caliber magnum ammunition to the target, where the very small "Black Hornet" drones would target them. In this case, the ammunition would put outside the drone helicopter like missiles.


And then the operator would shoot them with remote control. The ammunition would be launched with induction spark, what makes this thing the smallest combat vehicle in the world, and the use of those systems might be like the extended high-tech sniper rifle, and if this helicopter would be the little bit bigger, there could be installed the automatic pistol with it. This kind of tools would be perfect with anti-sniper and assassination missions.


They can be delivered to the operation area by aircraft or even by satellite. In the last case, the drone would be put in the saucer-shaped tank, what is used with space probes, and dropped into the atmosphere. Those drones can be equipped with normal assault weapons, but they can use also centrifugal rifles or lasers. The first one is actually the modified angle grinder, where is installed the rotating table.


The steel balls would be feed on this surface, and they would get very high speed, and those things can be extremely lethal. Aiming of those weapons is easy, and the only thing, what is needed is one hole in the core of that weapon. The speed of the metal balls would be the same as the rotating speed of that metal table. And the second one, the laser could be the standard metal cutting tool, what could be targeted to the ammo shack. That kind of weapons is extremely dangerous. Those lasers would explode the explosives of the ammunition. The metal cutting lasers could make deep burn injuries, what is more, lethal than any bullet can be.


https://www.youtube.com/watch?v=e2aFEyrzOPo

https://www.youtube.com/watch?v=4o7mRg74qcY

The giant accelerator would allow interstellar traveling

https://crisisofdemocracticstates.blogspot.com/

Kimmo Huosionmaa

The power source for interstellar traveling is the major problem in those futuristic spacecraft. If we are thinking about Warp-drive, what can travel faster than light, we must realize, that we would need the brand new technology, in the very giant scale. The spacecraft that would travel faster than light must be base the technology, what is ever created in the real life, and making this technology really is the very complicated process. The shape of the spacecraft would be like some science fiction spacecraft, what uses antimatter or WARP-propulsion for increasing the speed of 80-90 percent of the speed of light.


And in this spacecraft would be particle accelerator, what could be like the linear version of "Hedron", what is located in CERN. That accelerator would be like some extreme long tube at the nose of the spacecraft, what might be quite similar, what is planned to use in "Project Thor". The difference would be that the device is equipped with antimatter-motors, what will accelerate it for speed, what is near the speed of light, and then the accelerator would be launched. But the size of this spacecraft would be much bigger, what is planned for "Thor".


The interstellar spacecraft would first accelerate the top speed, what could be something like 90 percent of the speed of light, and the particle accelerator would shoot the capsule to the top speed. The problem of this hypothetical spacecraft would be the size of this thing. The accelerator must be over hundreds of kilometers long, and the electricity, what is used in this gigantic rail gun is very high. This spacecraft would be built in the space, and it would be very huge. If it sometimes would be made.


So there must be the very powerful power source, that this very huge spacecraft would be worked. And after the spacecraft have been shot by the railgun there is no return back. The capsule would fly to Alpha Centaur in about two years, but the problem is the slowing. And of course, the home trip would be difficult. In one scenario this spacecraft would use sophisticated artificial intelligence, and it would have sub-robots, what would build another accelerator at the orbiter of the target star.


This kind of artificial intelligence could also make the copy of the spacecraft if that is damaged. This technology is called "Von Neumann technology". In this case, those robots would search suitable materials from asteroids, what is orbiting the star by using laser-spectrometers. Then the materials would be transferred to the factory, and then those systems can create microchips and other stuff, what is needed for new spacecraft. This kind of systems can help us to colonize the entire galaxy in the distant future, but there are many technical problems to win before the trip to stars would be real.

New recon robots look like garbage

https://crisisofdemocracticstates.blogspot.com/

Kimmo Huosionmaa

Below the text is a link to the video, where strange creature moves on the floor.  That thing might be some kind of robot, what looks like garbage. Modern intelligence robots are covered from the human eye, and they have the form of garbage. Those robots can slip in the houses, and observe any movement, what the targeted person does. Their mission is to replace conventional eavesdrop systems and hidden cameras. Those robots can also load themselves autonomously from wall plugs.


New recon robots can also taste the food and other things in the room, and they see immediately does somebody in the apartment use drugs. Those robots see also if in the targeted flat would find explosives of guns. Recon robots have very sophisticated sensors, and they can even take blood samples when their target is sleeping. That information tells about does the person use drugs or how much alcohol the target would drink.


From the samples can look for abnormal cells and the cancer test would do by using that kind of systems. They can slip in the prisons if there is suspected that some prisoner has denied getting the medical attention, by their family members or lawyers. Those robots can anesthetize the person, so the target would not even notice them. And the test would ensure by DNA test. So that kind of robots an also control the human right situation in the prisons of the world.


But those systems have their dark side. They can use in extermination missions, and that means that those robots could inject lethal chemicals into the target's body. Or they can slip in the veins, and then cause massive internal blood leak. In this case, the wire looking robot would just terminate the walls of the blood veins, and that can cause death. Then they can slip out of the body and evacuate by the sewer system, so they can be horrifying weapons in wrong hands.

Link, what is mentioned the beginning of the text

https://www.unilad.co.uk/life/bizarre-alien-creature-crawling-on-floor-leaves-everyone-baffled/

Terminators and Skynet are here

Picture I

https://crisisofdemocracticstates.blogspot.com/

Kimmo Huosionmaa

Terminators and Skynet are not the fantasy anymore. Modern military technology allows making so horrifying weapons, that they would not believe as true. One of the most modern military systems is intelligent mines. what choose their targets. In those mines is the smart component, what is communicating with other systems, and in the real life that means, that own tanks and military personnel can drive or walk over those mines, and the smart component would read the RFID-sensors from their boots or vehicles. This means that own operators would not explode the mines, and that makes them very dangerous.


But when the enemy comes the piezo-electric components feel the pressure but they would not see the recognition sensor, and that allows to explore the mine. Same time the small computer, what is in the mines would send the information of the detonation to the command center, what will send drone or reconnaissance aircraft to check the situation. But when we are talking about the terminators and other military automation, we must realize that also the new human-shaped robots can be used in the combat area from the very long distance.


The satellite control allows that the command team can control the action of those robots from another side from the Earth. That high-class automation is allowing that those robots can operate very independently, and they can be supported by aircraft, what is modified to flying computer centers. Those next-generation command aircraft would be manned, but they can also be used by using remote-desktops and another kind of things, what the modern technology allows to use.


These systems can communicate with robots by using radios or Lasers, what is more, difficult to jam than radio waves.  The man-shaped robots can use the same systems as humans. So they can work on the same missions with humans. In this case, the man-shaped robots can fly aircraft, drive vehicles or operate as the infantryman. And if the aircraft would shoot down the robot can be re-program to operate as the infantry soldier, what would cause terrible situations in the back of enemy lines.


They can also break into the enemy command center and open the fire. This is what makes those units so dangerous. They cannot tell, who have given those orders because their memories could be cleaned. And of course, they can have internal bombs, what detonates them after the mission. This is the modern military technology, what is very effective against any enemy in the world. But this technology can also be misused in some dirty missions, but there is one very big difference between robots and humans. Robots can be destroyed by using computer viruses, and also electromagnetic weapons like ADS (Active Denial System)  would be very effective against computers and communication systems, what plays the vital role in the robot-operations.

Picture I

https://cdn.radiofrance.fr/s3/cruiser-production/2018/01/bf8fdfb6-dbae-4800-b383-5edddb6c9b63/738_010_a7a17150_485.jpg

Nanotechnology and the immune system

Picture I

https://crisisofdemocracticstates.blogspot.com/

Kimmo Huosionmaa

Nanotechnology and immune defense are the combinations, what people don't usually think that would sometimes save the life. When we are thinking the vaccine of tomorrow, we might think that inside human body would be injected with the nanorobots, what would transfer the antigene of the organism straight to the stem cells, where the immune cells are forming, and that might increase the power of the vaccine.


The term "antigen" means the part of the mantle of the targeted organism to the stem cells, and that opens new ways to give the vaccine. One of the most modern ideas is that those nanorobots, what might look like small crayfish would catch the organism from blood, and transfer it straight to the place, where the cells of the immune defense are forming.


Also if there are enough those machines, they can also destroy bacteria and tumors by closing the blood veins in there by using carbon. In this case, the carbon would be injected into the veins with the nanomachines, what would carry them in the wanted position.  Or they can cut the mantle of the bacteria open, what would destroy it immediately.


The question is, how the nanomachines would do that thing? They can operate under the command of the computer, what is outside the body, and communicate with that computer by using radio signals. And the radio waves can also transfer electricity for those small robots. The position of nanomachines in the body can get from RFID sensors, what allows the computer to control each of them independently. And that would give them the opportunity to make surgical operations inside the human body. Those small robots can slip into the body by using sweat gland's channel, what the body uses when it removes sweat.


Those robots can be very lethal if they are in the wrong hands. If that small robot would take the part of the targeted person's cells, it would cause the terrible immune reaction, that could exterminate that person. After that, the nanorobot can slip off the body, and it would not leave any trace of its existence. Those extreme small robots can be delivered to the targets department by using nano bugs, and they can be controlled by the relay systems, what are installed in nanobugs or quadcopters. They can be used in special forces operations.


And is some scenarios the agents of DEA or other anti-crime offices have this kind of robot in the body, and if they are in trouble the systems, what is telling about the condition of the body would release that nanotechnological crayfish. This crayfish would slip in the bodies of the hostage takers, and after that, they would be facing the death, what is the most unwilling, that human mind can imagine. Those cells, what is used to turn the immune system can collect from the target's own body. And this makes the nanorobot the perfect weapon.

Picture I

http://en.oicnanocurcumin.vn/upload/files/new%20technology/medical1.jpg

Shamans and modern science

http://www.wakingtimes.com/wp-content/uploads/2014/08/Shaman.jpg

https://marxjatalous.blogspot.com/

Kimmo Huosionmaa

When we are talking about shamanism, we are meaning the persons who use some kind of hallucinogens to get the contact for the spiritual world, and the used chemicals are often classified as narcotics. That means, that the use of those chemicals is reserved for trained medical staff, and keeping their in hand without official permission is the crime, what would be punished by law.


The shamans are often unwilling to tell about secrets of their rituals, and they would not tell people, where those drugs are coming from because that would danger their position in the community. In those cases, the investigators can use many things, what modern science and technology have created. They can use special suits, what makes them very hard to notice, those suits are created for snipers, and they use active stealth technology, what allows that the material is invincible for the human eye.


That means that the outer layer of the canvas is covered by LED-lights, where are three colors. That system works like old-time three color television. In the groups of LED's is small size cameras, what allow to form the picture to opposite side of the person, who seems to become like transparent. But also the robots are used. New kind of drones can be dropped near those societies, and they can observe villages without disturbing people.


And the shamanic rituals can also be investigated by using mass-spectroscopy to investigate, what kind chemicals are used in those secret rituals. Those tiny robots can also film the ceremonies and even steal the DNA from the places, where shamans have kept their vegetables. The modern laboratories can uncover the secrets, what those people have covered for centuries.

The statue on the one wall in Helsinki, and its accidental connections with T-1000 robot from the movie "Terminator"

http://crisisofdemocracticstates.blogspot.com/p/the-statue-of-one-wall-in-helsinki-and.html

Kimmo Huosionmaa

This statue in the wall of one house at Helsinki seems the very nice thing to tell something, and the character is very exciting because it seems to come from the wall, and that brings my mind the liquid robot from the movie "Terminator". The artist, who has made that sculpture might be thought that there could be some amoeba-style organism, what would slip in the holes of the wall.  This kind of organism, what comes from the wall is the worst nightmare of the children.


Terminator 1000 from that movie is actually one version of those horror-creatures, what are mentioned in many horror stories. Those organisms could be the shape of the amoeba, but when they would want to take the shape of the human, they would take the form of that thing.  That kind of system might be very intelligent because those nanotechnical robots can connect their computers in the one big entirety. And the size of this form doesn't have limits. So those artificial amoebas can be operated very autonomous.



And when the organism would want to take some other form, would it just come from those holes, and then create the creature, what it wants. When we are thinking about the shape of that creature, it would be also the nanotechnical robot, the transformer needs only the nanomachines, what seems like some ball-shaped "Rubik's Cube", and those small machines could be covered with silicone. Those nanomachines would seem like dust, and they need the nano technically made microprocessors, what would control the movement of that system.


The silicon layer's idea would protect the nucleus of those nanomachines, and give the system flexibility. The silicon layer can also help the machines to move because those nanorobots would use small hands to making connections with together. The hands will operate, like one hand would touch another, and when those parts must turn, they would release the touch, and another hand would take the touch with that hand, what allows those machines to rotate freely.


This would make possible to make the machine, what would seem like some T-1000. Those machines might have the photocell. And of course, some of those machines would have pigment, what makes them change the color, and that would make possible to create the STEALTH-robot. I don't know could those nanomachines create the complicated forms like humans, but they could travel around the earth like some intelligent flatworm. And that system would able to cut itself to the pieces, and connect those pieces back together.

Sources:

https://www.youtube.com/watch?v=Wudv2BGxtww

About the return of the knight armor and extra arms.

Picture I

http://kimmontaidearvioita.blogspot.com/p/about-return-of-knight-armor-and-extra.html

Kimmo Huosionmaa

There is a thought that the knight's armor would be return, on the battlefield. This version would contain clothes, where could be pockets for kevlar plates. So they might be the military version of the worker's clothes, what is used in the working sites. Those pockets would be used for making so many parts of the body bulletproof as the possible. Above the text is a picture of "dummy extra arm", but the DARPA would investigate the intelligent version of those systems.  The high tech is coming in many things in the world and the extra arms would be the equipment of the military and civilian workers


Those extra arms would be installed to the carrying systems, and they can be work with the brain core EEG-transmission, what would give control signals to those systems. They might be used to keep and handle screwdrivers or handle weapons. Those extra arms can operate with exoskeletons and other intelligent machines, what would carry the combatant or civilian worker with extremely difficult situations. Those systems are intelligent robot body parts, and they have one very bad problem, they would need electricity, and that's the reason, why they are not in common use yet.


When we are thinking about intelligent glasses or HUD-data screen, they might allow the person to get the picture from the intelligent sight, what can be put in the same place as the bayonet, and this camera would work with those smart glasses by using Bluetooth or some other wireless communication. Those cameras can operate in infrared, normal- and low light conditions, and they can be used in the situation when the target must be fired around the corner. That system, what is actually the wireless action camera can make the precise firing from hippie possible.  Also, the helmet can be equipped with infrared or other night observation systems.


This kind of systems can also allow giving the maps and another kind of things, like information how many shots have been fired and the images from tactical recon planes. Those next-generation advanced battlefield systems for infantrymen are a good example where the warfare is going. They make soldiers more dangerous than ever before, and that would cause that the conflicts would be easily solute with weapons. And as I sometimes said, we are humanoids for other people.

Picture I

https://amp.businessinsider.com/images/5a971068aae60518008b4575-750-375.jpg