Are we ready for self-developing AI?

Self-developing AI is the AI that develops itself. The Moltbook is a system that can act as a platform, allowing the creation of AI agents that can operate as a team. The moltbook-type platform enables the creation of a system. There are the AI-agents. Or, so-called small language models, SLMs, that can combine their strengths. The large language model LLM is very large. And a complex system. The problem with the LLM. It is the same as humans. We can have a lot of data or knowledge. But that data is cursory. We know lots of topics. That information is like. We would read only things like headlines. We know that something happens. 

But we don’t have any details of those things. But if we want to know the background of that thing. And who, and why something acts. Like that, we must read much more than just some headlines. When the LLM searches and analyzes data, that thing is always cursory. The system must analyze larger data masses. And that makes it more cursory. If. The system uses. Lots of data. And makes a deep analysis of the data. The system turns slow. 

If. We want to create a new LLM. We can create that thing. Through. The AI-agents. Those AI agents can act as a whole. Those AI agents act like a team. And that allows. To develop. The AI. By using AI agents like LEGOs. Each AI-agent is like a module in the system. These involve different types of skills. And those skills or bricks act as a team of workers. 

If we must get a deeper knowledge of the thing. 

The SLM is the tool. That does not have very large common knowledge. The SLM analyzes data in a thinner sector. It uses more limited types of sources. And that makes it more accurate in its own sector than the LLM can be. The system has deeper knowledge. Of a certain sector. Than the system that searches data from all around the internet. The SLM uses only a certain type of sources. The system can search data. Only. From the sources. Those are under certain topics. Like “astronomy”. 

So, if we want to get knowledge of planet Uranus. The AI agent. Or SLM will not search for things like Roman gods and astrology. It just searches data about the planet. And maybe it should ask, do we want information about Uranus’s moons or just the planet? Or maybe we want information about Uranus’s magnetic field or clouds. This helps the AI agent limit the sources to articles that involve information about those topics. 

In the same way. 

We can create a custom AI agent. That fixes the base code of the AI programmer. Just gives orders. On how the AI agent should make the code. The programmer. That works with AI agents. Should determine. The goals of the qualification are what the AI should follow. How the orders are given determines how effective the AI agent is. If we have three AI agents, we could make a system that develops itself. The AI that. Searching the data, the system that surveillances the operations, and the programming AI-agent. That makes the changes in the code. When the surveillance system sees that. There are errors in the orders it generates for the AI-agent programmer. 

The reason for that third agent is that the prime agent will not recognize its errors. For error detection, the AI should ask for feedback from its users. 

Then the system generates the needed changes for the algorithm. In those cases, the query should follow the same route as all other queries. While. Developers develop. Or. Train the AI-agents. To give strict and well-argued orders. If orders are not clear, those AI’s will not succeed. All data that the AI uses must be very well described to those systems. If. Researchers want to make the SLM. They must make the prototype using the LLM. At least. As an assistant. Or they must hire an army of coders. 

The simulation tries. To show the future of the quantum processor.

“By harnessing thousands of GPUs on a DOE supercomputer, scientists have simulated a quantum microchip with unprecedented physical detail. Credit: Shutterstock” (ScitechDaily, 7,000 GPUs Simulate Quantum Microchip in Unprecedented Detail)

During that simulation. “To carry out the work, the team relied on more than 7,000 NVIDIA GPUs running on the Perlmutter supercomputer at the National Energy Research Scientific Computing Center (NERSC), a U.S. Department of Energy (DOE) user facility.” (ScitechDaily, 7,000 GPUs Simulate Quantum Microchip in Unprecedented Detail)

A supercomputer simulated the function of quantum computers to predict the next step in quantum systems. The system used 7000 GPUs (Graphics Processing Units) for that simulation. And it was quite accurate. 

Quantum computers are futuristic tools, but there is a possibility. That. We must wait for laptop-sized quantum processors. And quantum computers. To go to supermarkets. For a long time. The binary systems. They can simulate quantum computers and how they work. And the quantum system is not alone. It requires the right infrastructure and the right ecosystem that supports its operations. 

There is a possibility. To give the missions to the quantum computers through the internet. The quantum computer doesn’t need to use binary computers for a long time. The binary computers are the layer that controls qubits. And binary computers act as a medium between quantum and the user interfaces. So. In the most positive predictions. 

Quantum computers are in very deep underground bunkers. And users use them over the internet. Those bunkers must protect them against non-controlled effects. Like. A cosmic radiation. The quantum computer requires massive coolers that stabilize the qubit. The purpose of those systems. It is to suppress the quantum noise. So, that means. The problem is also in the quantum computers and their cooling systems. 

When we think about the power of quantum computers. They are not like binary computers. Quantum computers. Require time to create the superpositioned entanglement between particles. Normally, the system stabilizes the photon pair. And then makes the superposition and quantum entanglement between those particles. That requires time. So the quantum computers can show their claws. 

Only. In the very complex simulations and series. This means that. In. The easy calculations. The binary systems still beat the quantum computers. The big problem is also. The complex calculations. The thing that can make the error detection is another quantum computer. In cases like solar mass eruptions, disturbance in the qubits is global. That means that all quantum computers all over the world can make the same errors. 

But. Before quantum computers become so advanced. That things like error detection are ready. Things like a morphing neural network. And virtua. Quantum systems are things. That can handle complex problems. The problem is that even the most complicated algorithms are helpless without physical systems that support them. The second problem. It's the temperature. When a regular binary computer’s power is rising, those systems require more electricity. 

Researchers cannot raise the power of the processor without limits. When the temperature rises in the system, it brings more resistance. And that slows down the computers. The temperature causes oscillations in the microchips. And that also causes errors in data flow. 

There is also. A possibility. To create photonic computers. Those photonic computers can use photon superposition to transmit information. Those kinds of computers are basically two-state quantum computers. Those systems will not produce as much heat as regular microchips. 

So when they want to run the large language models, LLMs. They require the power of the entire data center. And when the hierarchy of needs controls this advancing process. Their LLMs turn more. And more complex. So, those systems need. More. And more microchips. If. There are no new abilities. The customers will find their services. From. Some other AI service providers. This means that. The data centers. They need more and more energy. The problem is that the entire world is in a spiral. 

The threat is that. If the authoritarian states get the quantum or AI-computational advance over Western states, that means they will beat us. The problem with those states is that AI. And computing. They are heavily supported. By. Those governments. There are no laws that limit the use of data. 

https://scitechdaily.com/7000-gpus-simulate-quantum-microchip-in-unprecedented-detail/

China has plans for a colossal orbital carrier system.

The new Chinese concept for military is the colossal orbital carrier. The future shows. Whether. It is only propagandistic. Or a real system. The shape of that system could be different. But we know. That. There is a possibility. To drop quadcopters in the heat shield from the satellites or space shuttles. And things like hypersonic missiles and fighter-drones. They can also be installed in the orbital tanks, which release them. When. The command is given. 

The fact is that. The idea of the flying aircraft carriers is not new. In the 1930s, the U.S. Navy tested two airships. That could carry a small aircraft. The problem was that technology and materials were not at the same level as those ideas. And another of those flying carriers was destroyed in a storm. The plane that those airships, named Macon and Akron, used was the Curtiss F9C “Sparrowhawk”. 

The aircraft was not as good. As. It should be. So. Those projects are buried. But sometimes. An idea was introduced. That. The blips can carry quadcopters for reconnaissance and attack missions. 

But then. In the 1950s and 1980s, the USAF planned to create so-called parasite fighters. The problem with long-range bombers was that their flight time was longer than that of their escort fighters. That caused the idea. The long-range bomber could carry aircraft under its wings. When enemy interceptors rise to defense, those parasite fighters are released. In. 

“Firebee” drones under DC-130 mothership. 

The 1980’s. Boeing Aircraft Corporation. Had plans to build. The Boeing 747-based solution. Called Boeing 747 Aiborne Aircraft Carrier. AAC. To carry the fighters inside it. Those plans terminated. But then. The drones brought new ideas for the flying aircraft carriers. There is a possibility that the cruise missiles and unmanned drones can be dropped from cargo planes.

Modified C-130. The DC-130 could carry.  Remote-controlled Teledryne Rayan BQM-34 “Firebee “ drones. Which could be equipped with the missiles. In the same way. There is a possibility of carrying drone swarms in cargo planes and dropping them into an operational area. 

“Firebee” fires “Maverick” missile. 

When we think about the drones and orbital aircraft carriers. A space shuttle. It can carry smaller shuttles or drones. The miniature shuttle can operate as a hypersonic kamikaze drone. The space shuttle can also operate as a regular supersonic or hypersonic jet fighter. The shuttle can be launched from the carrier system. And then it can dive into the atmosphere. The atmosphere can slow their speed. And if those systems use the ramjet-turbojet hybrid technology, they can operate. As well as speeds over Mach 4-5, and at subsonic speeds. The system requires only separated ramjet and turbojet engines. 

The orbital systems can also deliver quadcopters that are put in the heat shield. The satellite can drop those drones through the atmosphere. The orbital aircraft carrier can look like a regular rocket. Or. Abandoned rocket stage. The miniature shuttles or other drones can be put. In. The hangar. That is made in that structure. The space stations can also support small-sized shuttles. 

Chinese video of their plans. 

https://aeropedro.despair.ch/Aeropedro/Firebee.html

https://futurism.com/future-society/china-space-drone-carrier

https://www.slashgear.com/1945236/boeing-747-flying-aircraft-carrier-history/

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

https://en.wikipedia.org/wiki/Curtiss_F9C_Sparrowhawk

https://en.wikipedia.org/wiki/USS_Macon_(ZRS-5)

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

Elon Musk aims to place data centers in orbit.

"As artificial intelligence drives the need for vastly more computing storage and processing power, interest in space-based data centers has spiked." (Arstechnica.com, Elon Musk on data centers in orbit: “SpaceX will be doing this)

"Although several startup companies, such as Starcloud, have begun to address this problem, the idea has also attracted the interest of tech barons. In May, it emerged that former Google chief executive Eric Schmidt acquired Relativity Space due to his interest in space-based data centers. Then, earlier this month, Amazon founder Jeff Bezos predicted that gigawatt-scale data centers will be built in space within the next 10 to 20 years." (Arstechnica.com, Elon Musk on data centers in orbit: “SpaceX will be doing this)

Elon Musk has proposed building data centers in orbit. This kind of data center is quite easy to create. The system. It can use the cloud-based architecture. The system uses satellites as a swarm. That allows them to share their data. 

With each other. And with ground stations. The system can be based on the Starlink satellites. Or maybe. Those satellites' backup computers will turn into data centers. The satellite can use its communication tools to transmit data to the data centers. Those data centers would be like swarms of satellites. The system uses similar technology to that used in drone swarms. 

And that makes those satellites and their computers act as a whole. The satellite swarm can operate as a data center. Solar energy would give it an unlimited, free energy source. The data satellites that act as swarms are one way to make a high-power data solution. 

Those satellites. Or, their computers can act as the morphing neural network. The satellite swarm can handle its internal communication with lasers. Laser communication is immune to plasma and other jamming. Things. Solar storms are dangerous to satellites. As well as. The proposal jamming is dangerous. 

The fact is that those network-based solutions can better resist damage than monolithic systems. 

If one satellite in a satellite-based network is damaged. That doesn’t have the same effect on the entirety. As. If one monolithic system is damaged. Those computer satellites can orbit the Earth in a ring. This means that the client can make contact with those data satellites from any point on Earth. 

Those satellites are also targets for the ASAT systems. The ASAT systems. Those that are based on missiles or lasers are the tools. That will become more effective and advanced. At least. The Ukraine war shows. The importance. To affect satellites. 

https://arstechnica.com/space/2025/10/elon-musk-on-data-centers-in-orbit-spacex-will-be-doing-this/

The new, air-launched air-to-air drones can revolutionize air combat.

X-68 “Longshot”

X-68 “Longshot” air-combat drones will enhance the F-15 and all other fighters and aircraft's combat capabilities. The small-sized drones with air-combat capacity are the new variants of the “Loyal Wingman” drones. Those drones could be released when the strike unit is under threat. And those drones can destroy incoming jet fighters. Those drones can also be equipped with kamikaze bodies. And the air-to-air, anti-radiation, or air-to-ground missiles. And it’s possible. That's quite soon.  Cruise missiles get their air-to-air. And. Anti-radiation sub-missiles. Which helps. Them. To accomplish their missions. 

This kind of tool is one of the things that can revolutionize air combat. The idea of the parasite jet fighter or unmanned aerial vehicle that the bomber can carry near its target. Launching that system against defending jet fighters or anti-aircraft systems is not a new idea. In 1971, the Teledyne Ryan BQM-34 “Firebee” drone launched the AGM-65 “Maverick” missile. 

BQM-34 “Firebee” drone with AGM-65

And that was the first time an unmanned vehicle launched a guided weapon from the air. The idea was to use the BQM-34 “Firebee” drone as the remotely-controlled test bed. But that drone. It could also make air strikes. Those “Firebee” drones can also be dropped from the DC-130, the modified C-130 cargo planes, and the B-52 bombers. Those drones could make. Reconnaissance missions. Over the enemy area. There is also a possibility of using the Firebee-type drones as a parasite fighter against incoming jet fighters. Those drones can also operate with stealth fighters. The drone will pull enemy fire to it. If the drone is equipped with anti-radiation ability, it can cause destruction for ground radars. If. It can shoot its anti-radiation missiles against the radar. 

Geran-3 drone

Even if “Firebee” is an old-timer veteran, that system was a pathfinder for more advanced and sophisticated AI-controlled systems. Like. MQ-1 “Predator” and MQ-9 “Reaper” drones. The problem with those drones is that they are quite slow. But. The bomber or jet fighter can send a supersonic stealth drone for attack against critical targets in the air and on the ground.  Fast and effective long-range drones with artificial intelligence can be used against. Things. Like command posts and AWACS platforms. The long-range, small drone-like Geran-type system could destroy the AWACS platform. Even if. They are airborne. 

The Geran-3 type drones with highly advanced AI and sub-missiles. They can also be dangerous. For helicopters and aircraft. Those who defend their targets. The fast-flying drone that shoots anti-radiation missiles can force. To shut down radars. This can cause a destructive situation. Because if those drones can make supersonic attacks, the defense against them is very hard, if the defender cannot use radars. The long-range, jet-powered drone. That can use an afterburner and operate. In supersonic and subsonic speeds. Makes it possible to destroy. Also, airborne targets. 

https://www.armyrecognition.com/news/aerospace-news/2026/u-s-darpa-advances-x-68a-longshot-toward-first-flight-to-extend-air-to-air-missile-range

https://defensemirror.com/news/39493/Russia_s_Geran_3_Jet_Powered_Kamikaze_Drone_Ready_for_Operations

https://medium.com/war-is-boring/watch-the-u-s-air-forces-first-armed-drone-drop-bombs-and-fire-missiles-96dd169cbabd

https://www.military.com/defensetech/2012/03/23/retro-vid-drones-shooting-air-to-ground-missiles-in-the-70s

 https://www.twz.com/news-features/x-68a-longshot-air-to-air-missile-carrying-drone-moves-closer-to-f-15-launch

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

https://medium.com/@batrobin/the-new-air-launched-air-to-air-drones-can-revolutionize-air-combat-1826903ffc3f

Micro-nuclear reactors are coming.

"Micro nuclear reactors are being seen as a way to get critical bases off the grid, but they could also have a major impact on civilian energy production.. Looking like a scene in a sci-fi movie, and in what is clearly a unique mission, dubbed Operation Windlord, USAF C-17s have been tasked with transporting a micro nuclear reactor. The U.S. military’s role is to transport the elements of the Ward250 reactor, made by Valar Atomics, from March Air Reserve Base in Southern California to Hill Air Force Base in Utah. Once on the ground in Utah, it will be moved to Utah San Rafael Energy Lab (USREL) in Orangeville for extensive testing. Beyond its direct utility, this operation may very well serve as a glimpse of what’s to come as the Department of Defense looks to integrate micro nuclear reactors into the power grids of critical installations. " (TWZ.com, C-17 Airlifts A Micro Nuclear Reactor For The First Time)

The C-17 airlifts a micro-nuclear reactor. Micro-nuclear reactors are tools that play a vital role in the future electric infrastructure in both military and civil environments. The micro-nuclear reactors, or micronukes, can deliver electricity for future directed energy weapons, as well as for data centers, and at least for ships and submarines. Those molten-salt reactors can also offer a tool. For. Making the new chemical thermal rocket engines. The micronuke can also offer a possibility to create. A new. High-capability space plane. We know that regular aircraft can use nuclear reactors as a power source. 

The Russian “Burevestnik” missile uses nuclear reactors. There is a possibility to use. Nuclear reactors. Also for larger-scale aircraft. And maybe Russians plan to make. A nuclear-powered version. Of the Tu-141 “Blackjack” bomber. 

The Buresvestnik missile uses a compressor to give thrust. But it’s possible to create a system called nuclear pulsejets. The nuclear pulsejet uses propellant. That has extremely high expansion ability. The aircraft can take off from the runways using a compressor. 

"The Convair NB-36 in flight, with a B-50 Superfortress" (Wikipedia, Convair NB-36H). The NB-36H was a testbed for nuclear-powered aircraft. 

The “Buresvestnik” missile and its engine. The airflow cools the nuclear reactor. 

But when that system requires more speed, it can inject things like liquid hydrogen against the reactor shell, which causes high-power expansion. This system is actually an air-breathing version of NERVA (Nuclear Engine for Rocket Vehicle Application). But the system can use the cooler. That turns the gas that the system takes in into a liquid. So, we can say. Those models are the nuclear-powered version of the HOTOL shuttle. The British Airspace study project. For. An air-breathing. Space shuttle. If HOTOL were to use a nuclear reactor, that system could really operate. The space planes could operate in anti-satellite roles. But larger systems can also operate in space cargo missions. And those planes could also drop things like kinetic warheads to the ground. 

The idea of nuclear-powered shuttles and aerospace systems is not new. The Cold War era” Project Pluto” and the NB-36. And Soviet designs. The nuclear-powered Tu-95 “Bear” class nuclear bomber. They were interesting. But at the same time, dangerous projects. One of the most realistic models was the giant amphibious planes, designed by Bartini. Those planes could use seawater to cool their reactors while they flew. The idea is that those panes flew like regular aircraft in super- or hypersonic speed. And while their operations. The plane can come down. And fill its tanks with water, which the system injects into the reactor shell. The vaporizing water can act as a propellant. 

Pluto-missile could act as a model. For the highly advanced space planes. The Pluto system is used. A nuclear-powered ramjet engine. The nuclear reactor replaced combustion. This system could give the missile an unlimited range. But the problem was radioactive fallout. That project is delayed. But it's possible. The data from that system can be used to develop new and highly sophisticated space planes. 

https://www.thedefensenews.com/news-details/Putin-Confirms-Russias-Successful-Test-of-9M730-Burevestnik--The-Skyfall-Nuclear-Powered-Cruise-Missile-with-Unlimited-Range/

https://www.twz.com/uncategorized/this-is-a-nuclear-reactor-packed-into-a-c-17-globemaster-iii

https://en.wikipedia.org/wiki/9M730_Burevestnik

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

https://en.wikipedia.org/wiki/Convair_NB-36H

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

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

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

https://en.wikipedia.org/wiki/Tupolev_Tu-95LAL

New freezers can. Make new effects on quantum computers and quantum materials.

“Schematic illustration of the quantum refrigerator in a superconducting quantum circuit. Two microwave channels act as hot and cold heat reservoirs, highlighted by a reddish and a bluish glow, respectively. The heat reservoirs are coupled to an artificial molecule consisting of two qubits. Controlled microwave noise (white zigzag arrows) is injected through the side ports to drive and regulate heat transport. Credit: Simon Sundelin” (ScitechDaily, A New Way To Cool Quantum Computers Could Change How They’re Built)

The new methods for freezing quantum chips can be a fundamental advance for quantum technology. The microwave system. That. Transports energy into the artificial atomic qubit and keeps the qubit temperature. Into the level so that it can act as part of a quantum computer. The qubit is formed from the artificial molecule. 

The microwave-based system allows for the transport of energy and information through the qubits. This system can also be used for making quantum materials stronger than ever before. Those molecules are on extremely low energy levels. They can transport temperature or heat energy out of the layer from precisely calculated points. 

"The image combines a model derived from a scanning electron microscopy image (left) with a snippet of the underlying crystal structure of a studied MXene featuring precisely controlled surface terminations. Credit: HZDR/B.Schröder" (ScitechDaily, A New Way to Build 2D Materials Without Harsh Chemicals Pays Off Big)

When we think of quantum materials. Or 2D materials forming. The tower is like playing cards. The low-energy molecules can transport and share energy between multiple 2D material layers. And that makes those materials more sustainable. The ability to transport energy out. From layer. Makes it possible to create structures that. Stand up to the heat. 

The laser or ion beam in the middle of the structure can also transport energy out from the entirety very fast. Another way to increase the sustainability of the 2D materials is to put laser or ion beams through those layers. Those beams pull energy into them. And. That helps to keep the graphene structure together. 

The new ways to build 2D materials. Means that those materials become more common. The 2D materials can act as ultimate armor. And a graphene layer on the bullet makes it possible to create new types of armor-piercing bullets. In some models, there is a carbon stylus or carbon atom row in the center of the bullet. 

The carbon stylus hangs in an X-shaped hanger at the back of the bullet. And it's connected to the graphene layer on the outer edge of the bullet. When a bullet hits the target, the graphene transports the impact energy into a stylus that acts as a phonon. That transports as much energy as possible into the impact point. 

https://scitechdaily.com/a-new-way-to-build-2d-materials-without-harsh-chemicals-pays-off-big/

https://scitechdaily.com/a-new-way-to-cool-quantum-computers-could-change-how-theyre-built/

The ability to store the entire internet in DNA is one of the most intriguing ideas in data science.

“An illustration shows a strand of engineered DNA passing through a nanoscale sensor, where its physical structure can be decoded as digital information. DNA nanostructures could one day serve as ultra-dense carriers of digital information and advance the field of data encryption. Credit: Jason Drees for the Biodesign Institute at ASU” (ScitechDaily, Storing the Internet in DNA? Scientists Say It’s Closer Than You Think)

Nanotechnology makes many things. Like. interstellar travel. Possible. One of the ways. To make the interstellar trip is to send a capsule to another solar system. That capsule can carry cells inside it. Or it can search for bacteria from the targeted planet. Then the ground station can send the DNA code to the spacecraft in digital form. Then, nanotechnology creates artificial DNA and replaces the bacteria's DNA with that artificial DNA. 

The DNA stored at the absolute zero point, or 0 Kelvin degrees, remains forever. Maybe. That thing can be the motive for the trip to Pluto. If. We store all our data in the form of DNA in the Pluto or Kuiper Belt. That kind of thing allows researchers to store that data forever. 

That kind of data storage makes it possible. To secure data in new ways. The DNA that carries data can be carried. In. The USB stick. The person puts that USB stick into the system, which reads the DNA. 

This allows ultra-secure data transmissions. In the network, over short distances, the pneumatic mail system can transport those DNA capsules. The DNA will be stored in the carrier, and then the pneumatic system shoots that capsule over the network. In longer distances, the system can store the DNA as a digital code. And then. Nanotechnology puts atoms or amino acids in the right order. This is one of the things that the high-power AI-controlled systems can make. 

And that system can do much more than just store data in the DNA. This kind of technology makes it possible. To transport data straight into human brains. The artificial bacteria. Or. An amoeba can send neurotransmitters or electric impulses into the neurons. 

“ Scientists are exploring how DNA’s physical structure can store vast amounts of data and encode secure information. Since computers first began shaping modern society, scientists have faced two ongoing problems: finding ways to store rapidly growing amounts of digital information and ensuring that this data remains secure from unauthorized access.”(ScitechDaily, Storing the Internet in DNA? Scientists Say It’s Closer Than You Think)

“Researchers at Arizona State University’s Biodesign Institute, working with collaborators, now report an unexpected solution. Two new studies demonstrate that DNA, the same molecule that carries genetic information, can be used to reliably store vast quantities of data while also enabling strong encryption.” (ScitechDaily, Storing the Internet in DNA? Scientists Say It’s Closer Than You Think)

The ability to store data in the DNA makes it possible to create new types of robotics. The biorobot or bacteria can transport information into computers using bioelectric impulses. But that technology also makes it possible to create things that nobody expected. 

The same technology. That makes it possible to store the entire internet. The DNA makes it possible to create customized humans. Human DNA can be involved. Genes that control the growth of the gorilla muscle. That allows researchers to create superstrong humans. 

But this technology makes interstellar flight possible. As. I wrote at the beginning of this text. The idea is that there are some cells in the spacecraft. And when the spacecraft travels to the solar system, there are habitable planets. The system changes the DNA in those cells. This makes it possible to create artificial creatures. That will look anything like the original species that sent them. 

Maybe. That kind of space trip is our last chance in this case. That. Our sun lost its fuel. And turns into a red giant. 

https://scitechdaily.com/storing-the-internet-in-dna-scientists-say-its-closer-than-you-think/

Humans might have 33 senses.

“We often think of perception as limited to the five traditional senses, yet modern neuroscience suggests the human body may rely on dozens of interconnected sensory systems. These senses work together continuously, shaping how we experience texture, flavor, balance, and even our sense of self. Credit: Shutterstock” ScitechDaily, You Don’t Have Just Five Senses – New Research Suggests Humans May Have up to 33)

The new study suggests that humans can have at least 33 different senses. That is a very interesting observation. This means that we have six senses: smell, taste, touch, sight, balance, and hearing. The number of those classic senses depends on whether we separate smell and taste. The interaction between humans and the environment is a multisensory experience. 

Those four senses are the senses that dominate our consequences. But then. We must realize that things like the sense of hot and the sense of cold are different. 

"The five senses. Credit: Modified by Nicolas Posunko/Skoltech from image generated by Deep Style (Abstract) model on Deep Dream Generator" (ScitechDaily, Are Five Senses Holding Us Back? Scientists Say We Could Use Seven)

Senses from the kinetic sense. We have senses that sense our hand’s angle. Also. Things like a sense of push and swipe are different senses. Body hair senses things like air low. Color view. And black and white views can be separate senses. Everything that we sense doesn’t reach consciousness. So. There is a system in our brains that selects things that we notice. But. There is a possibility. That humans. Have so-called recessive, or “silent” senses that those other senses cover. 

And one of the most interesting of those senses is the remote touch. There is a possibility that humans can feel things. That's buried in sand before we even touch them. That kind of sense, or its confirmation, requires new and more accurate research. 

"Overview of the experiment setup for tactile detection in granular media. (a) Human experiment setup, showing a participant finger raking through a sand-filled box with an LED strip guiding the trajectory and buried cube at fixed locations. (b) Robotic experiment setup, featuring a UR5 arm with a tactile sensor and a buried cube in sand. (c) Schematic of the raking process. Credit: Queen Mary University of London"(ScitechDaily, New Research Reveals Humans Have a Remote Touch “Seventh Sense”)

The question is whether. There can be a similar acoustic system in the human hand. As the sandpiper bird in its nose. Our fingers can sense the position. Where the echo comes from. In that case, the remote touch base is in acoustic signals that our bones send. 

The interesting thing is this. Can this “new” sense see only living creatures, like mussels from the sand? The big question is always this: this kind of sense requires something that activates the nervous system. There are two possible ways that sense works. 

There is a possibility. That. The sense benefits from acoustic signals from the sand. Or the sense can use ions that the creature releases to observe that thing. But. When we think. About those “new” senses, we must understand that. Things like the magnesite mineral in human neurons and the iron in the human body make it possible for people. To observe things like electric fields. 

“A new mathematical model of memory hints that seven senses, not five, may be the optimal number for maximizing mental capacity. Credit: Shutterstock” (ScitechDaily, Are Five Senses Holding Us Back? Scientists Say We Could Use Seven)

That ability makes it possible to observe other people’s minds. Telepathy means. The ability to feel and sense the electromagnetic fields that our nervous system creates. The human nervous system can act as an antenna. The small iron bites. In our neurons and blood. There is iron. Which can act as a sensor. Which. Allows humans to sense the electromagnetic field or act as an internal compass. But could that thing be so highly accurate that we can read other human thoughts? 

If we think. That. The TK, or telekinesis. It is the ability. To control other people's thoughts. There is a possibility that the TK has the ability to transmit electricity into the receiving people’s neural system. That electricity makes it possible. To control the recessive neural system. But can this ability be possible for humans? 

https://scitechdaily.com/are-five-senses-holding-us-back-scientists-say-we-could-use-seven/

https://scitechdaily.com/new-research-reveals-humans-have-a-remote-touch-seventh-sense/

https://scitechdaily.com/you-dont-have-just-five-senses-new-research-suggests-humans-may-have-up-to-33/

Oreshnik as a threat.

China used billions of dollars. To sponsor the development of the Oreshnik missile. This means that. Maybe China used that data in its own weapon development. 

The “Oreshnik” missile is one of the most feared weapons, and one of the mysteries is: why does it not have ICBM capacity? The Oreshnik is an IRBM missile, which means it's prohibited in the IRBM treaty. That treaty lost its meaning. The Oreshnik is quite similar to RS-26 “Rubetzh”. The rocket of the “Rubezh” is 12 meters long, and the weight of the missile is about 36 tonnes. The question is: does that weight contain only the missile?

Or is it calculated with its transporter? The missile itself can involve multiple independently targetable re-entry vehicles, MIRV, or one Avangard hypersonic glide vehicle. It is possible that “Oreshnik” and “Rubetzh” are created for fitting in the cargo bay of An-22 “Antei”, or IL-76 “Candid” cargo planes. 

The heavy transporter can make those missiles extremely dangerous. The fast transportable missile can be carried into Cuba. Or somewhere to Latin America. And those missiles can be launched against the USA, just like they can be used against Europe. Those missiles are highly mobile systems that can be transported on roads. Or ships. Or by using aircraft. To the launching position. 

“Antonov An-22A Antei, Russia - Air Force AN2203462” (Wikipedia, Antonov An-22)

“A Russian Air Force Il-76MD-90A” (Wikipedia, Ilyushin Il-76)

The primary question is, where is the system that gives the launching codes to the system? There is a possibility. That. The system uses normal telephone lines. To get the launch code. But. The launching code can also be given by using satellites or from command aircraft. The command aircraft can give the code. By using normal radios. Or the system can also use laser communication. In the last case, the command aircraft must have visual contact with the missile. 

This system must be existed, because satellite radio communication is “easy” to jam. In the case that the jammer denies those satellites' radio communication. In that case, there must be some kind of wired communication. Or satellites, or an aircraft-based laser system. 

The system needs a command aircraft in cases where it must use individual missiles. That’s why the damage that the Wagner PMC revolt caused can be more devastating than it seems. During that revolt, rebellious forces destroyed one of the Russian Il-22 (”Coot-B”) command aircraft. The Il-22 (”Coot-B”) is a command post variant of the Il-18 aircraft. 

The Il-22 can have those laser systems. And we must realize that the crew operates systems. Those that are reserved for revolt situations do not operate with the same aircraft as normal combat operations teams. So the aircraft that those special crews use must also be. Different types. From a normal command aircraft.

There is a possibility that this aircraft had a role in commanding the nuclear missile fire. Those aircraft's purpose was to control the cooperation with air forces (Spetsnaz, Alpha team), ground troops, and naval units. That revolt ended, but that command aircraft was not sent airborne for nothing. In Russian doctrine. It is possible to use nuclear weapons against rebellious troops.  

https://www.militaryfactory.com/aircraft/detail.php?aircraft_id=2467

https://www.newsweek.com/russia-mi8-helicopters-pilots-killed-wagner-mutiny-1808976

https://www.telegraph.co.uk/world-news/2026/01/28/china-helping-russia-build-nuclear-capable-missile/?gsid=578484a7-a2fa-4cfd-850a-a1ecc8c8680a

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

https://en.wikipedia.org/wiki/Antonov_An-22

https://en.wikipedia.org/wiki/Ilyushin_Il-18

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

https://en.wikipedia.org/wiki/Oreshnik_(missile)

https://en.wikipedia.org/wiki/RS-26_Rubezh

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