AI and robots can develop and fix themselves.

Today, AI starts to develop itself. But what if we were to take that ability to the physical systems? An even more interesting aspect is a “cannibal robot” that can collect spare parts and improve itself by utilizing another robot’s components. That means that the new robot can search for spare parts and improve parts from robot wrecks. That kind of thing is fundamental because it allows a physical robot to fix itself. AI-controlled robots that can collect spare parts from garbage and fix themselves will be the new tool for other planet research. The robot that can fix itself can also operate in remote areas on Earth. 

The AI that controls robots can make a checklist of what causes damage to the robot’s body. Then the robot can search for parts that can replace that weakness. If a robot requires a stronger shell, it just searches for plates that it can connect to its body. In the same way, if a robot requires more power, it can search for more servo-engines that can use its manipulators. The ability to search and benefit from raw materials from the environment makes robots more survivable and flexible. The AI develops itself in the same way as a robot that collects spare parts from its environment. 

AI is a computer program. And the computer program is a virtual robot. When AI develops its own code, it actually searches code models from the digital environment. In that case, the AI makes a model or matrix about things that it needs. Then the system will ask if there is some AI that has those abilities. Then the AI asks the code that gives the desired ability to the AI. The AI can also ask another AI to generate the code that it requires. And then the AI connects that code into itself. The problem is how the AI can detect things that it needs. And the second thing is that the AI must create the right form for the query that it makes for other AIs. 

The AI can also search things like internet databases about the code that it needs. And then generate that code in its code generator. In that case, there are two AIs: the first one that connects the code to another AI’s source code. Then the system boots another AI. And after that, the other AI makes the changes for the first AI’s source code and boots the system. The code also requires testing, and in that case, there must be at least two different systems. Because if there is a malfunction in the code, the other part of the system can operate without errors. That system can also remove malicious code from another system. But if there are no errors, the system can scale code changes through the entire system. 

https://www.euronews.com/next/2025/07/24/cannibal-robot-scientists-develop-a-robot-that-can-grow-and-heal-by-eating-others

https://www.livescience.com/technology/robotics/watch-this-robot-cannibal-grow-bigger-and-stronger-by-consuming-smaller-robots

The new artificial plume robot can act as the ultimate observation tool.

The new light-driven robot looks like a plume. Its controllers control that machine by using light. The robot itself looks like a plume. That makes it very interesting. The artificial plume can land on the human body and observe things like neural electric signals. That new nano- or miniature robot can operate along with quadcopters that are transmitting signals to it. 

The light gives power to that robot, but the same light can use to give commands to that robot's tiny computers. And that means they can slip into houses and other things. Those tiny robots can interact with larger quadcopters. And they can be the ultimate couple in the recon missions. 

Miniature robots are always very interesting tools. And there are many problems with those systems. But those systems have a big opportunity in observation, recon, and all kinds of things. 

The first one is how to make microchips that are agile enough. Those miniature robots can collect samples from liquids like oils. They can check if the person is alive. And they can also operate as recon and intelligence missions. If those systems have seismic sensors they can listen to the surface oscillation and send that data to the headquarters which can be on another side of the Earth. 

The large group of miniature robots can also use to fix holes in the ship's hull or even in flying aircraft. The miniature robots will cover the hole and act as the support structure for repairing compression. And that kind of thing can make many things safer in the future. The field of miniature robots is unlimited. The imagination limits the use of those systems. 

They can observe chemicals or animals in nature. The miniature robots can make recon and intelligence missions. They can place themselves in the clothes and slip into the targeted building.  Those robots can slip into the computers and then send all data from those systems to their operators. The miniature robots can also use to give things like botulinum injections to targeted people. And that kinds of things are making them extremely dangerous. 

Miniaturized robots are the next-generation tools for many things like sensing air pollution, and searching for fire in buildings. Observe rooms and tack unauthorized people. Or they can simply observe air quality in tomorrow's buildings. 

https://scitechdaily.com/magical-marvel-tiny-fairy-like-robot-flies-by-the-power-of-wind-and-light/

https://shorttextsofoldscholars.blogspot.com/

The human-looking robots can use in the same missions as humans.

 

When humans are developing something, there must be a motive for that thing. Why we are creating mixed reality and enhanced reality? One reason for that work is that those systems are suitable for robot control. In the simplest mode, the operators sit on chairs and control robots by using VR sets. But there is the possibility to use the EEG connection. In that model, the electrodes are connected with Broca's and Wernicke's areas. 

And they can simply use the EEG to boost the voice- or speech command. If robots have an interface that makes them understand speech they can use earphones. In that case, the controller must say that robot must pick some box, and if the robot has the dataset that tells how it should make that thing. The system can simply pick the box. And carry it to the vehicle.

If a robot operates in the places like warehouses the surveillance system can connect with it. And the surveillance cameras can read the bar- and QR codes. Then the system tells robots where they should take the needed stuff. The boxes can also have RFID systems that make them robots easier to find the right things from shelves. 

The human-looking robots can use in the same missions as humans. 

Tesla's new "Optimus" robot could be the greatest opportunity or greatest threat for humans. Even if that kind of robot cannot replace humans yet, they might make that thing later. But when we are thinking about robots from the point of view of ethical work life, we must ask how ethical is to support the work or business where workers work with so low salary that workers cannot live with that. 

Robots are multi-use tools. And the man-looking robots can operate in the same roles as humans. This thing makes those robots the most effective tools for multiple missions that are too risky for humans. 

When we talk about democracy and robotics the robot workers can make it possible to make products with so low prices that they can compete with work in non-democratic countries. The thing, that supports dictatorship in international trade is the worker's low salaries. Because those people must not pay salaries the price of work is low. And that thing brings benefits to international trade.  

Robots could be extremely good tools for military operations. They are not traumatized. And they are not telling things that are meant to keep secret. People say that robots will not torture people. But the fact is robots are following their program code. And if somebody programs robots to the torture they are making those things without excuses. 

But things like artificial intelligence and BCI (Brain Computer Interface) are tools that make robots make many complicated things. Robots can bring many services to places like the Australian countryside. The same robot can fly aircraft, fix its engines and act as a medical doctor. In those areas where it's hard to recruit educated people, those robots can be the solution to stop the decrease in population. 

Robots are learning differently than humans. When humans sit in classrooms robots can take on their new missions simply by downloading new programs and datasets. Or if the robot uses BCI the change of operator is enough. The robot is only the tool that makes work. And one thing that makes human-looking robots flexible tools is that they can use the same tools as humans. 

In space research human-looking or "humanoid" robots can make things like research sites on distant planets. They can also operate in Asteroid belts or extreme long-distance missions. 

That thing makes it possible to send a mission to Titan moon and Jupiter's icy moons without risking human lives. Those robots can look like humans, but they can have lasers in their heads and things like sonar- or radar systems in their hands and body for large-scale observations of their environment. 

Those robots can collect samples and operate by using a semi-independent mode. In that version, those robots can patron on the surface of those distant worlds. And when they see something interesting they might ask the operators if should they pick those objects for closer research. 

https://www.entrepreneur.com/business-news/elon-musk-says-the-tesla-optimus-will-arrive-on-september-30/435764#:~:text=Tesla%20CEO%20Elon%20Musk%20first%20introduced%20the%20concept,be%20%22friendly%22%20and%20help%20people%20avoid%20physical%20labor.

https://miraclesofthequantumworld.blogspot.com/

NASA's Artemis mission can increase synergy in robot-human cooperation by creating a database about robots and their interfaces.

'All robotic exploration is a human-robotic partnership. How do we amplify the science in this human-robotic partnership?' is the question about the human-robot interaction in space missions. Well, the fact is that the Artemis mission will bring NASA and its partners more data about robot-human cooperation. And the use of robots in scientific and other types of missions requires the ability to cooperate without borders. 

The synergy of robot-human cooperation in Artemis mission cumulates the ideas and applications that robots can use. Or where humans, robots, dogs, and some other animals like monkeys or dolphins are working as a team in the deep oceans and jungles far away from civilization. 

The more robots and their user interfaces are used, the more information they bring to the implementation of new ideas about robotics. In other words, when the amount of data accumulates. The research can create more, and more versatile applications by benefiting that growing amount of data. 

Robots are tools that can send to places where humans or any other living organism can never go. Moon is an excellent place to test systems for more complicated Mars and other missions. Also, the same robots that are developed to assist humans on the moon can use in many other types of rescue, surveillance, and military operations on Earth. 

The robots can patrol national parks even for months or years. And they can find out things that might risk human lives.  Maybe someday robots can uncover secrets like the Bigfoots only myths? Or are they something else like North American big-size monkeys? 

But when we are thinking about the explorations in the solar system robots could be excellent tools to research Venus and Mercury. Those planets are extremely hot. And they are also very interested in the extraordinary way. Venus can tell us why only Earth can host intelligent creatures. The planet Venus can also offer a place where the conditions are similar to what they were just before the first organisms, the ancestors of the first prokaryotes formed on Earth.

Those conditions can tell why the first RNA molecule formed on Earth and why that molecule started to create more and more advanced organisms that stores their genetic material in the form of DNA and forms organisms like birds and humans. The mystery is why this thing happened only on Earth. Robots can operate for months on that planet and collect samples. Those samples could rise to a high level in Venus' atmosphere and shoot to Earth by using a Pegasus-style rocket. 

But also Mercury offers an interesting place for research things like antimatter engines. The antimatter can form effectively from the beta radiation. That hits a thin gold layer. 

That gold layer changes the spin of those particles that are hitting that layer. That means they are turning to mirror particles. And then that antimatter will conduct to the reaction chamber where it annihilates with regular material. The surface of Mercury would be the perfect place for an antimatter factory. And that antimatter can use in satellites and probes that are operating in the entire solar system. 

https://www.space.com/nasa-astronaut-human-robot-synergy-artemis-moon-missions

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

Image:) http://better-magazine.com/nasas-artemis-moon-mission-hits-important-milestone-with-successful-full-scale-booster-test/

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

Thoughts about robot cars

http://crisisofdemocracticstates.blogspot.fi/p/thoughts-about-robot-cars.html

Kimmo Huosionmaa

Technical evolution is one thing, what seems like science fiction, but then we must realize, that all advantages of technology are actually evolution. By looking things from this visual angle the technical evolution is research and development new kind of technology. And this means that all technical advantages for products are the reason for technical evolution. The evolution of cars have gone thru the very high-power engines, what consumption was 15 liters of gasoline to the Tesla's hybrid-cars, what can drive with absolute small consumption. In this text, I would handle the robot cars mainly in the visual angle of hardware. So I don't write much about complicated software, what is needed for those vehicles.



First came ABS brakes and electronic ignition and fuel injection systems for the brakes and motors and next version of automation in cars would be the car, what would drive independently. This kind of cars are actually already in traffic, but there are some problems with them, and one of those vehicles have caused death for one pedestrian. In this case, the driver or control of the vehicle might do something, what turned the attention away from traffic, and then happened terrible accident. This kind of things can cause the problems for marketing the robot cars, because the question is, "who wants to buy an independently driven car if the driver must act like in the normal car, and stare out the window"?



Why somebody wants to pay for that, because we have the vision, that the robot car allows us to read newspapers while that vehicle would drive independently to the target point. And then we would get instructions, that we must look outside from the vehicle all the time when it is in traffic, and that would be the very big disappointment for the users and customers. When we are thinking about regulations, that the driver should be ready to take control of his vehicle, we must ask what kind of actions must the controller have to make driving safer. The main control equipment could be the pedal, what makes the car stop.



It can work like locomotive's "dead man's pedal", what must be pressed down when the car is on the road. The safety of those vehicles is absolutely important, and there would be a long time before real robot cars will hit the road. And also the safety of computer systems and artificial intelligence must become more advanced, that they have been because if hackers would take that kind of car in control, would the result be terrible. In the worst case the hacker might put the Image recognition system to those vehicles, and then put some person picture in that computer, and if some person would order to extermination would the result be very bad.



One of the worst thing, what the man can do, is leave everything under the responsibility of technology. In the so-called wise cars is the computer as "brains" of this system. And this system observes the function of this vehicle. And this is the problem, because if there would be the malfunction in this system, would the vehicle make the unexpected action. If those computers would infect by viruses, they would get dangerous, and hackers would use this kind of systems as the murder weapon. In the robot, cars is a camera system, what mission is to observe the surroundings of this vehicle, and one of the biggest problems of this system is the dust.



That might cover the picture of the camera from image recognition system, and cause the accident. Use of sonars and laser-systems is problematic, because the human body is soft, and the sound waves would not give echoes from the soft targets. Those systems can also disturb animals like dogs. Lasers have the same kind of problems as other visual systems, if those systems get dirty, they would not work perfectly. There are also problems with computers because they would not have the capacity to create anything new.



And if those robot vehicles would come to the unexpected situation, they maybe cannot make right decisions. Sometimes I have written that in difficult those vehicle's computer systems might call assistance from another computer by using the Internet. But the problem is that in tunnels those systems might not work perfectly, and in this case, standard mobile telephone network has similar problems with satellite communication, and those tunnels can also jam GPS. This makes the creating robot cars very difficult.

http://crisisofdemocracticstates.blogspot.fi/p/thoughts-about-robot-cars.html

Artificial birds would make many things more complicated than ever before

(Picture 1)

Kimmo Huosionmaa

Artificial birds can help natural scientists to investigate the behavior of animals. Those robot birds can look like natural animals, and they might be covered by artificial feathers, what makes them look like their paragons. And this would make the revolution for intelligence and attack drones because their shape would make those machines invincible. The artificial birds can equip with laser microphones, what allows them to observe some offices and other places like that.


The laser microphones can installed to the mouth of those robots, and they can record any discussion, what targeted person makes. Those artificial birds can use fuel cells to create the needed electric power, but also microwaves and masers can be used to deliver electricity to those robots. They can work very independently, and even if their own computer system has limited computing capacity, they can call assistance from supercomputers, by using satellite transmission.


This would give change to control those vehicles from another side of Earth. Those robots can look like any bird in worth old, and that equipment can be used also with assassination missions. The simplest way is just fly one of those robots inside the aircraft’s jet engine, where that would cause critical damage to that machine. In the mouth of robots can also installed the weapons like derringer pistols or rifle caliber weapons.  Also, natural birds can be used as robots. In this scenario, those animal’s brains are implanted with microprocessors, what stimulates their brain core.


The most modern systems would not need any surgical process to work. They are like some net, what would put to the head of the animal like that, and it uses high power radio-waves to give stimulations to the brain core. And the most modern brain core stimulation equipment works without physical contact. They are actually super powerful radios, and in theory, they can install drones. The idea of those systems is that they influence the magnetic sense of the birds. If the antenna would be superconducting, that system can transmit the EEG-waves to the central computer (Check SQUID and MEG). In this system can be used the recorded EEG-waves, what the bird’s nerve system creates when it attacks to give control signals to the birds.


By using 4G data-transmission the computer can communicate over the Internet, and the brain core stimulation can allow controlling those animals like robots. In this “model” the normal birds like Condors can use for carrying the intelligence and attack equipment to the targets. The easiest way just gives HEAT-ammunition to the claw of those birds, and they can drop it on tanks or other military equipment. This technology could be very devastating in wrong hands.

Sources:

https://www.youtube.com/watch?v=-gc8kBmzOOI

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

http://www.nmr.mgh.harvard.edu/meg/technologiesMEG.php

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

Picture 1:

https://media.nu.nl/m/m1mxt94aopad_wd1280.jpg/nederlandse-robotroofvogel-eind-jaar-beschikbaar.jpg

https://crisisofdemocracticstates.blogspot.fi/

http://crisisofdemocracticstates.blogspot.fi/p/artificial-birds-would-make-many-things.html

How to make a machine, what reacts for feelings? And what makes them dangerous for national security?

(Picture 1)

Kimmo Huosionmaa

Have you seen the movie "Terminator"? There is a scene, where robot answers "Fuck you asshole" for the knocker. This is the thing what makes it feel so human. And that gives this fictional robot the capacity to slip into the resistance and eliminate the wanted persons. This is the horrific vision of future, where artificial intelligence has killed the human race and starts to war against humans.

Robots are creating to replace humans in boring jobs, where are problems to find workers, because of bad salary. Most elegant way to make robots, is to make them so sensitive, that they can play feelings, and that would make them very good workers in hospitals. Those sensitive robots would use their sensors to monitor how opponent speaks, does the opponent turn red, or what kind of voice this opponent has. This kind of robots are creating in Japan, and their missions would be customer service in restaurants and hospitals. Also, sex-industry might be interested in those machines.


By analyzing those changes, would that robot or computer notice if the opponent is angry, sad or glad. Also, they would notice if the person enjoys some food or seem nervous. Sensors would notice if there are tears in the opponent's eyes, and in that cases, it would show empathy for that person. Those robots would be so humane, that there would be hard to separate them from a real human.


Those robots are equipped with computer programs, what notices the changes of voice, or other marks of the person’s behavior. Also, those robots might have infrared sensors, what notices the changes in the skin temperature. And those sensors would notice if the person moves arms little bit too fast. That would tell robot if the person is stressed. After that, the computer chooses right protocol how to start talking with the person.


Closed space like hospital or school is the very good working area of those robots because they could be connected to WLAN all the time, and when they would need more computer power, they can take assistance from some central computers, what helps them to solve problems. In those robots are also some risks, what might ever think before. If those robots would be used in some police or intelligence missions, they might be easy to handle, and those machines can slip in the enemy leaders close circle.


Those robots can be assisted by some aircraft like E-6 Mercury, what can give their calculating capacity for those machines. That human like robots can use in surveillance missions, but there is one great danger for those systems. If somebody would use them as the eliminators or assassins, nothing would stop them. Of course, there would be effective weapons like computer viruses, what would be harmless for humans, but they would destroy robots. And they could be an effective defense against those machines.


But the problem of those robots is that they might have “ghost protocol”. This means that they can do their missions on two levels. Those robots can work as bodyguards, but they can also use for illegal activities. That kind of robots can work in their normal duties all the time, but when they notice the targeted person, those machines would eliminate this man or woman, and then they would return their normal duties. And the memories of those robots can be erased.


Those robots could be slip near the key persons of the military, and if they will start the operation, could those androids just kill them. Or some private corporation would use them to eliminate their competitors. So the Mafia of tomorrow would use this kind of devices as killers. But they can also use in the military missions around the world, and that would allow hiding even great scale of war.

Sources:

Terminator "Fuck you asshole" scene

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


Picture 1

http://themalestrom.com/wp-content/uploads/2017/04/RobotsvHuman-750x450.jpg

https://crisisofdemocracticstates.blogspot.fi/

http://crisisofdemocracticstates.blogspot.fi/p/how-to-make-machine-what-reacts-for.html

Submarine of tomorrow might be the robot.

Viktor III class nuclear attack submarine
(Picture 1)

Kimmo Huosionmaa

When we are talking about underwater drones, we must say, that submarines of tomorrow are probably fully automated drones, what can operate years in the sea. In some visions, there would be two types of drone-submarines. Another type looks like submarines, what is already existed. They have large room inside their hull, and those vessels might equip with supercomputers, what can use sophisticated artificial intelligence. They would patrol on the seas without a crew, and those submarines are actually already existed. Russian “Status-6” is a good example of that kind of drone submarine, what patrols alone at sea and those vessels are equipped with two 50 megaton thermonuclear bombs.

“Status-6” is probably actually “Viktor” or similar submarine, what is converted as a drone, what can strike any coastal target on Earth. Also, those robot submarines might have defensive and offensive subsystems like torpedos and tactical missiles, what it can use against other submarines and surface warships. But this is only the part of the underwater drone technology. Automatisation of submarines is very easy, because they are big size, and the nuclear reactors give lots of electric power. So those vessels can equip with very powerful computers, what makes independent operations possible because they will give enough computing power to those vessels.

Another type of military underwater drones is extremely long range torpedos. Those torpedos seem like normal torpedoes, but they are equipped with RTG (Radio Thermal Generators) and nuclear warheads. That kind of small midget submarines can patrol years on the sea, and when they would get orders, those vehicles can attack against any target, what is traveling in the sea. The warheads of those torpedoes are the size of 2-15 kilotons. Those midget submarines might also carry nuclear missiles. Those missiles are put inside the torpedo, or they would be connected to the front of the torpedo. When this vehicle gets an order to shoot, it would rise to launching depth, and turn up the missile. Then that missile would be launched from the deep blue sea.

Modern nuclear submarines also have sub-drones for supporting their missions. There are rumors, that Russian and U.S Navies have equipped their missile submarines with remote controlled SDV (Swimmer Delivery Vehicles), what are using torpedos. Those drones can use in a combat situation for shooting another submarine. Also, those submarines have “reconnaissance torpedos”. This means the torpedo-size recon vessel, what can slip in the harbors. The reconnaissance drones can also use to look the targets for the submarine. In this case, the submarine can stay very deep, and send the drone to look for surface targets.


That drone sends it data with LRAD- or blue-green laser light modems to submarine, what can stay in cover. Those submarines can also have robots, what uses manipulators for underwater recovery and minesweeping operations. Those CURV (Controlled Underwater Recovery Vehicle) submarines can recover secret devices, what are dropped in the sea, and they can also use to sweep mines from the coast before the attack to the beach. CURV vehicles were used to return the hydrogen bombs, what dropped in the sea when B-52 bomber got the trouble in the Spanish coast during the Cold war.

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

https://en.wikipedia.org/wiki/Status-6_Oceanic_Multipurpose_System

https://en.wikipedia.org/wiki/Jason_(ROV)

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

https://www.youtube.com/watch?v=ixS80cTztzU

https://www.youtube.com/watch?v=hdw2CMKhZ9k

https://www.youtube.com/watch?v=LI2nQYqobeo

Picture 1

https://www.navyrecognition.com/images/stories/news/2016/november/Submarine_project_671RTMK_Pike_k-138_Obninsk.jpg

https://crisisofdemocracticstates.blogspot.fi/

http://crisisofdemocracticstates.blogspot.fi/p/submarine-of-tomorrow-might-be-robot.html

The good example of abiogenesis

(Picture 1)

https://youtu.be/8Sw6xRAG8XA

Kimmo Huosionmaa

How to make artificial flatworm? The methodology is same as the artificial StingRay, what is shown at the YouTube link above this text. The answer to that question is simpler than you might even guess. The core of the device can be just a piece of silicone. In the core would be set a metal wire, and around it will installed living muscle cells, what allows to move this structure. The metal structure is actually cable, and all single wire would be connected to a single muscle cell. The brains of this structure are the small microprocessor, what is connected to the head of the cable. And the electricity would get from tiny fuel cells. This means that those robots can drink alcohol for creating the electricity. Also, they can use methane in this process, and they can use to investigate moons like Titan. If those robots are used in the moons like Titan, they would need oxygen tanks for producing the electricity.


Sensors of those vehicles can be CCD-cameras, and also tiny microphones, what are used in the intelligence operations can be installed in that body. The simple form allows the mass production of that organism. The production would happen that the cutter will cut the silicon bites in the pieces like bacon. After that on this the computer and fuel cells will installed on this structure will be installed and the last process of manufacturing is that muscle cells would set on the silicone and connected to the metal structure. And then another layer of silicone would be installed on this structure. The secret of this manufacturing process is the length of this robot would be easily adjusted and the process is very fast. This would be a very good example of abiogenesis.


The factory would produce the artificial organisms for scientific purposes, but they can also use for looking the problems in the chemical plants or oil tubes. Those artificial worms can also use for intelligence missions, what means that those things can swim in the water lines, and record any voices and take pictures of the targeted plants or rooms.  They can also equip with plastic explosives, and used in sabotage missions. In those missions, they can strike against submarine telescopes, communication wires, and ventilation systems. So they can be very dangerous in the wrong hands.

Sources

https://www.npr.org/sections/health-shots/2016/07/07/484950849/synthetic-stingray-may-lead-to-a-better-artificial-heart

Picture 1

https://ichef-1.bbci.co.uk/news/660/cpsprodpb/340B/production/_90332331_park3hr.jpg

https://crisisofdemocracticstates.blogspot.fi/

http://crisisofdemocracticstates.blogspot.fi/p/the-good-example-of-abiogenesis.html