Secretive Soviet fighter squadrons are interesting but secretive units.

https://www.twz.com/air/f-22s-fly-alongside-migs-to-commemorate-founder-of-americas-secret-soviet-fighter-squadron

The original Soviet fighter squadron operated officially from 1977 to 1990. The aircraft used were MiG-21 and MiG-23. Officially, that unit's last mission was in 1990. But the operation "Constant Peg "was never officially disbanded. And there is data about updated squadrons that operate MiG-29, and there were images on the Internet that some Mi-17 helicopters participated in a military exercise. 

Israeli and USA top secret “ghost squadrons” or flight groups of hostile fighters like MiG-29 are interesting things. The ability to test their own aircraft against real MiGs. And Sukhois, and probably Chinese fighters, should guarantee that the newest aircraft are the best in business. The USA squadron of MiG opponents' location is in AREA-51, as history tells. But the new thing in the saga of those captured fighters is the Israeli top-secret MiG-29 training and test flight program. 

The MiG-29 training and test flight program. Causes thoughts that there are many other things than just test flights where those MiGs can be used. And one of them is the so-called false flag operations. 

https://www.twz.com/air/f-22s-fly-alongside-migs-to-commemorate-founder-of-americas-secret-soviet-fighter-squadron

https://www.twz.com/israels-secretive-mig-29-fulcrum-test-program

That means military actions against enemies and potential enemies using systems that are not officially in the inventory. The top secret duties of the U.S. test pilots are to act as opponents against the new, maybe prototype-level aircraft. One of the things that can guarantee the ghost squadron's ability and position as the opponent in R&D work is that those aircraft can involve state-of-the-art technology that gives the best possible opponent for the next-generation fighters. 

The thing is that those ghost squadrons' missions are secretive. And there is not very much information about the U.S. version operations. But the Israeli version is even more secretive than the U.S. MiG squadron’s operations. The fact is that the jet fighters are not the only flying machines. The ghost squadrons also operate with the Russian cargo planes like An-26 and An-12 transporters. Helicopters, including Mi-17, Mi-24, and various other cargo and attack helicopters. 

There is also the possibility that those helicopters and cargo planes are used for agent retrieval missions for the CIA, and maybe some of those cargo planes are modified for reconnaissance missions. Precise information about those plane types is not possible to get. The Antonov aircraft information is also speculation, because the air charter company in Toronto operates them, there is a possibility that the U.S government also has those aircraft. 

https://theaviationist.com/2024/10/05/rare-us-operated-mi-17-south-carolina/

https://www.twz.com/44661/the-last-time-the-united-states-got-its-hands-on-a-fleet-of-mig-29-fighters

https://www.twz.com/air/f-22s-fly-alongside-migs-to-commemorate-founder-of-americas-secret-soviet-fighter-squadron

The new GHOST drone can fly days before it attacks.

An artist's render of a General Atomic unmanned aerial vehicle. General Atomics (InterestingEngineering)

New stealth drones are worse than the MQ-9 "Reaper" can ever be. The new GHOST drones have long-lasting capacity. They can fly even days before they start to attack. And those drones can be only the iceberg's top. The fact is that those drones can be more lethal than nobody believes. 

There is the possibility that the quite slow stealth drone can carry hypersonic missiles under or inside them. 

Those stealth systems that are connected with high-speed systems and nuclear weapons are more deadly than ever before. "GHOST will feature a hybrid-electric ducted fan propulsion system designed for stealth and long-endurance missions". (Interesting Engineering, US Air Force’s new stealth drone can fly for days before going for the kill). Hybrid electric fan systems can offer long-lasting capacity for that kind of drone. When a drone attacks, it can accelerate its speed by turning to use the regular turbojet engines. 

This kind of air combat is capable of cruise missiles. AI-controlled kamikaze drones can carry air-to-air and air-to-surface missiles. Those missiles allow the drone to reach the target more likely than if it travels without those sub-missiles. The new kamikaze drones are more versatile than traditional cruise missiles. They can also transmit data about enemy movements. There are rumors about nuclear-powered drones that can patrol in high even years. 

Sceptre (TRBM 155HG). Tiberius. Aerospace 

(ScitechDaily)

When those drones get orders to attack they can use sub-drones. Which means they are drone carriers. Or they can use their internal warheads to destroy targets. 

An interesting possibility is to integrate the new supersonic artillery shell with the drone. Those Tiberius Sceptre shells use the ramjet engine to give them speed over Mach 3.5. There is a possibility. To install those shells into drones, helicopters or even aircraft. There is a possibility to engine a ramjet engine without an artillery socket. So. Aircraft can use the shell simply by dropping them. The helicopter can use the Sceptre grenade that is installed in the rocket. Or it can be shot from the electric launcher that allows the socket to move backward. 

That eliminates the recoil. The small size is 155 mm X 155 cm. makes that system hard to defend. And that system can act like "Super HiMARS" but it's more advanced. The system uses a hybrid GPS-inertial homing system. That is immune to the GPS jammer. Maybe, quite soon those grenades get the image-comparing homing system. Those systems allow them to aim at the target with very high accuracy. 

The artillery shell is possible to integrate with a rocket that uses RDX or some other very fast-burning propellant. That kind of thing can give that ammunition the flight speed that allows it to attack against targets that are over 140 kilometers from the drone. That range is calculated from the standing cannon. The real strike distance from the aircraft or drone is much longer. The shell will get more speed from the aircraft's speed. The new artillery shell can also be integrated into helicopters. The shell can be launched by using the plier-shaped launcher. That launcher integrates an electric arc in the grenade socket. When the propelling charge ignites the socket will go backward. And release the grenade to forward. 

https://defensescoop.com/2023/03/08/darpas-longshot-air-launched-drone-program-approaching-key-milestones/

https://interestingengineering.com/innovation/us-new-ghost-strike-recon-drone

https://interestingengineering.com/military/worlds-first-supersonic-artillery-shell-unveiled

https://www.tiberius.com/sceptre-specs

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 new computer program can read any DNA sequence and decipher its genetic code.

This new computer program can have multiple fundamental points of use. The computer program that can read genetic code and then store it in the computer memory is the ultimate tool for creating artificial DNA sequences and artificial organisms. 

Connecting genomes together makes it possible. To create the bacteria and other cells that are dying at a certain moment. That kind of bacteria is useful in medical work.  The cells that make suicide at a certain moment can use to fix injuries in the body. The timer can put in the DNA plasmid of the bacteria. DNA is like a chemical computer program. 

And the new computer program might allow creating more effective ways to connect DNA bites and create artificial genomes. A deep understanding of the DNA sequences allows finding what kind of abilities the certain base pairs are giving to organisms. 

When the bacteria's mission competed the bacteria died. And the self-destruction code comes after the mission code. When the DNA is read to a certain point, it will activate the self-destruction of the bacteria.

The next generation medicals can be manipulated bacteria that can collect viruses from the human body. The idea is that the bacteria would pull the viruses to the slimebag. And the body just removes the slime. For that purpose is needed to connect the genome of the slime cell and bacteria. 

Also, the biomedicines can be bacteria that can create antibiotics and eat only the remains of the tissue of dangerous bacteria. There are billions of ways how biotechnology can make better products especially in the case of the medical industry. One of the most interesting ideas is to create very fast-splitting bacteria. For destroying viruses or toxic chemicals from the body. 

The idea is that bacteria will eat the chemical or virus and at the same moment the ion pump activates an enzyme that destroys the DNA in the nucleus of bacteria. The idea is that when the job is done. Bacteria dies. And during that process, another enzyme will tell the immune cell. To carry the bacteria that is dying away from the body. 

This kind of genetic engineering denies the bacteria new viruses after the infection. When the internal organs of the bacteria are destroyed it turns into a bag that can use to remove those viruses. Another possibility is to make the bacteria that creates cytostatics for cancer treatment. That means that the bacteria would inject near the cancer cells and then it starts to destroy those cells. When bacteria face healthy tissue that chemical mark will destroy it. 

For making that kind of tool is required to know genomes that can be connected. And the new computer program can be an extremely good tool for that kind of purpose. 

The ability to create the cells that can destroy in a certain moment can make it possible to create biological weapons that cannot track. Some of those weapons might be cells that are closing the veins. Or manipulated bacteria that create poisons like botulin. When bacteria complete their mission. They would destroy themselves. 

https://scitechdaily.com/new-computer-program-can-read-any-genome-sequence-and-decipher-its-genetic-code/amp/

Image:https://scitechdaily.com/new-computer-program-can-read-any-genome-sequence-and-decipher-its-genetic-code/amp/

https://interestandinnovation.blogspot.com/

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