Is the universe made of information?

    Is the universe made of information?

Is the universe made of information?

Information exists only if we detect it.  But maybe we should call for information. That involves deliberate information as data. Deliberate information exists only if we detect it. 

The fact is that this thing depends on the way we think about information. We can think that all physical things are information. Or we can think. That information is an abstraction that makes something visible. Things like quantum technology are opening the vision about information as separated from material or physical particles. 

The physical particle can carry information. And then we can face things like electromagnetism as the information carriers. The electromagnetic field can carry information, or, in wave-particle duality, the electromagnetic field can transform or condense into a particle. 

Or a particle can turn into the electromagnetic field. That happens in annihilation. Information is independent of direct observation. We know that there are things like eagles, even if we don't see one of them ourselves. Another person can tell us that thing. So, in that case, the medium actor lets us know that there is something called an eagle. And if that person is inaccurate enough, we can even believe that there are eagles on Earth. Eagle is bird and they live somewhere, even if we don't see them. 

The question is, will the universe be a form of information? There is a lot of information about the universe. The thing is that the universe is like Schrödinger's cat. It forms of information and it doesn't form of information. The thing is this. We must determine the information before we can answer that question. If we want that information to mean something, that means the universe is not formed of information. But if information doesn't need to mean anything, that means information forms the universe. 

But if the information must make sense, the universe involves only meaningless oscillations and waves. So when we talk about things like black holes, we talk about information. That vanishes. Or, we talk about information that slides through the event horizon. In that case, the information means the particles and quantum fields that slide into the black hole. That means a black hole collects information, but we cannot reach it through the event horizon. 

The information is substantial, or substance. That means the existence of information depends on the information itself. The material is not a substance because its existence depends on the universe and quantum fields. Without those things, Materia turns into wave movement. But information doesn't need even the universe to exist. If some civilization can exist after the ultimate end of the universe, that civilization has knowledge of the universe. They have information about their past. And they can talk about the universe even if they didn't see it themselves. 

They can make clones of animals that lived in the universe. But for that work, those creatures require physical things. So, information itself cannot make anything. It can interact with the physical universe through sockets. Those sockets can be the DNA molecules that contain information. Those sockets or tensors that connect information with the physical world can be the bits in the computer's mass memory. 

But a computer cannot turn that information into a physical form. Without robots. Robots are tensors that allow computers to turn abstraction into reality. Materia can be destroyed. But information lives forever. Theoretical information can be reorganized into a new form. 

There must be some information stored in the system that the system can sort data into a new form. In human brains, memory cells are like the net eye. They can sort information from those cells into a new form with a very high accuracy. The reason for that is that there are so many small information dots that the brain can put into a new order. And the number of those memory dots determines how accurate that image is. The information can make sense. But that information must not have a match in the real world. 

Or, we just don't find that sense from the captured information. Or maybe we should call that thing signals. But are signals physical things? Maybe, maybe not. That means we capture radio signals from space that involve information about reactions in distant worlds. 

Is some other, intelligent civilization behind some of those radio signals? 

The answer is this: researchers have not detected any confirmed messages from another civilization. 

Or a shorter version is: nobody knows. There might be many messages that mean deliberate information. But researchers and AI don't detect those messages from natural radio signals. That means the search continues. And we are alone until we get an answer. We get an answer only if there is a message that comes from a confirmed alien source. Until that silence continues and the answer remains open. 

That is the problem with things like language science and especially the search for extraterrestrial intelligence, SETI. That means we might have billions of alien messages. But we cannot detect the information that those signals involve. 

Because. We don't know anything about the information systems that they have. So we cannot separate those messages from the cosmic background. That is one version of the theories why we don't have alien contact. That model goes like this. They cannot detect our messages, as we cannot detect their messages. And maybe we should be glad about that possibility. 

We call virtual information imagination. That information can seem very reasonable, like a human who walks on air. We know that thing is impossible, but in the virtual world in our brains, those things might seem very reasonable. Or at least we see those things while we sleep. 

In the human body, neurons connect information with physical things. Neurons use information to control muscles and other things. The information that we get exists only if we detect it. If we don't detect that information, it doesn't exist to us. 

https://thatsthenatureoftime.blogspot.com/

The AI in the helmet can revolutionize aviation and spaceflight.

  The AI in the helmet can revolutionize aviation and spaceflight. 

"Illustration of AI Model ChatGPT Navigating a Simulated Spacecraft in a Competition." (Rude Baguette)

Think about AI systems.  Like Chat GPT, as a robot controller. That tool will bring an ultimate boost for the robot that the controller can command using spoken language. But what if that tool is integrated into the aircraft and spacecraft? That can integrate multiple systems under one roof. And when commanders say that there is something. That must be removed; the user must not do anything but give the command. 

The system selects the closest robot that has the strength to make that movement. Robot groups can operate like ant swarms under AI control. The system can include flying units that can search for things for land-moving robot ants. 

What if the space suits are equipped with an AI socket that the system can call an assistant robot if there is something wrong? The future spacecraft can have things. Like assistant robots to make their missions go as they should. 

"The XQ-58A Valkyrie demonstrator, a long-range, high subsonic unmanned air vehicle completed its inaugural flight March 5, 2019 at Yuma Proving Grounds, Arizona." (Wikipedia)

"A XQ-58 Valkyrie deploys an Altius-600 unmanned aircraft system"(Wikpedia)

The AI that can fix errors in maneuvers can be a tool that makes many things safer. The real thing is the AI-controlled operating system in the combat aircraft. The system can integrate with multiple sensors. 

Such as satellites, other aircraft, and ground vehicles. Those sensors can be optical, radar, or acoustic sensors. The thing is that the AI-controlled systems can give flexibility to mission planning. And that kind of system can also make maneuvers in cases where the pilot has no time to react to every threat. The next-generation fighters are rather flight groups than individual systems.  

There are cruise missiles and other kinds of systems flying with those fighters. The drone can be a full-size fighter that can make autonomous attacks against targets. Or that robot fighter can also act in a kamikaze role. The new cruise missiles can also have the ability to refuel themselves in the air. Those missiles can have countermissiles, and they can make feint and instinct maneuvers, and change their speed and flight profiles during operations. And those missiles might have the ability to return to base if they are not needed. 

They must have the ability to communicate with drones and drone swarms. Those, maybe hypersonic aircraft, can drop drones to target areas, and those drones' missions can be to search targets, disturb air defense, and take out the electric supply. Those drones can also destroy things like fuel supply, and the AI-based systems can also target and assassinate enemy commanders. Those systems can be extremely dangerous in the wrong hands. 

https://automatedresearch.org/weapon/area-i-anduril-altius-600m-and-700m/

https://www.flightglobal.com/military-uavs/taiwan-receives-first-anduril-altius-600m-loitering-munitions/164081.article

https://www.rudebaguette.com/en/2025/08/chatgpt-at-the-helm-of-a-spaceship-could-change-space-travel-forever-after-stunning-early-successes/

https://en.wikipedia.org/wiki/Kratos_XQ-58_Valkyrie

https://thatsthenatureoftime.blogspot.com/

The new humanoid robots can be more dangerous than anyone thought.

 The new humanoid robots can be more dangerous than anyone thought.

The new robots serve customers. And they can act as the most advanced sex-dolls that we ever imagined. The AI-controlled robots can operate independently. And the problem is that those robots are from China. The Chinese government is one of the most authoritarian governments in the world. So those leaders should realize the value of those human-shaped robots for surveillance, spying, and assassination tools. The robot "James" or robot adjutant that follows some general can transmit every single thing that the general says to the control center. The thing that makes those robots problematic is that those systems have no limits on how they handle their missions.

They have no conscience as we do. And that means those robots can be even more traitorous than some fateful lady is in gangster movies. There are movies. There, people are replaced by robots. And those Chinese robots are one step closer to that way. In the wrong hands, those robots are a bad daydream. The butler robot can also act in all other roles where humans can. Those butler robots can also act as surgeons, if their command algorithms are changed. That robot can make it possible to live in remote places. If some humans require help, those robots can acquire surgeons' skills just by asking the program.

But in the same way, those robots can act as eliminators if the person they serve does something that is not allowed. The robot can make everything that humans can. The same robot can clean house, fix cars, or even act as a surgeon or commando if the programming of those systems is changed. The skills of robots depend on their programming.

And that is one challenge to data security. If an unauthorized person changes the algorithm, that can have horrible results. Law enforcement and intelligence agencies are interested in the AI-controlled robots that they can use in covert operations. Those robots will not change their side. And they follow orders all the time. The computer program or algorithm includes orders that the robot must follow.

The computer program, or the algorithms, differ from humans in that the computer program is the ultimate authority for computers. Computers and robots never resist their programming. They excuse their orders only because that ability is programmed into them. But if a robot does not have the ability to resist, it will do everything that its master orders.

For working perfectly, those robots require lots of calculation capacity. They can make contact with other robots, like robot cars. And those systems can share their data processing ability if they cannot participate in the robot's operation otherwise. The system can also communicate with data centers. In that case, the robot is only a relay station. That is the interface between humans and the data center base, central computers.

https://interestingengineering.com/innovation/ai-sexdoll-china-starpery-technology

https://www.rudebaguette.com/en/2025/08/worlds-first-humanoid-robots-quest-for-a-phd-in-opera-and-drama-sparks-fears-of-ai-replacing-human-creativity-in-arts/

https://thatsthenatureoftime.blogspot.com/

How to teach AI?

  How to teach AI? 

If we want to make AI that operates smoothly in everyday life, we must make one thing clear to ourselves. The thing is that the AI must handle many variables so that it can operate independently. And it's hard to program those things into the AI’s source code. Even the best programmers forget something. So the answer can be the robot that sits in the classroom and learns like a human. This helps to create all the necessary variables for the AI. The robot acts as a medium between humans and the AI. 

If we want to make self-developing AI, we must use two AIs. The first AI makes a requirement of what it needs for the other AI. Then another AI creates source code. Then, that system must connect the AI to the source code of the first AI. And after that, the system reboots the servers. Before that, the system must simulate how it controls the virtual robots. 

The AI’s self-development happens as in natural organisms. The AI must detect what it needs, and then the biggest problem is how the AI can create code that involves the data it needs. Source code is the DNA of the AI, and there must be something that tells the AI what a certain code sequence makes. The answer to that problem would be the digital twin, the other AI that it can use to simulate what certain source code makes. The best way to get the code is simply to ask for it from some other AI. However, that means the other AI must have access to that source code. 

That requires that the AI tell its problem to other computers. And those other computers give it the code that it needs. But there are legal and other kinds of problems for that kind of self-developing model. So, how do we improve our skills? If we don’t know something, we search for data on the internet or visit the library and read about it in some books. Or, maybe we can take some courses on the topics. 

The thing in AI self-development is how the AI describes the problem to itself? When we talk about teaching AI, we can imagine a situation where the robot is sitting in the classroom and listening to how the teacher explains something. This is one version of the AI training. The AI can also search how some coders make solutions and then copy that code into its digital twin. If we want to teach AI to drive cars, we can use the same method as we use when we learn to drive cars. The driver must drive a car that records the actions for the AI. Then the AI asks necessary questions, and the human accepts that process if it's safe. 

We must remember that there are many variables that the AI should notice in the traffic. It would be very hard to describe all of those variables and traffic signs for the AI by writing them into its source code. The answer would be that the programmers make the base model for the AI. And then AI fills that model. And one of the most interesting ways to learn how to drive is to put the human-shaped robot into a driver’s school. The robot must know that it must avoid humans, know the traffic light, and other regulations. Then the robot that the AI uses for its developing platform or transmitter that transmits data to the AI will finish that training. 

https://thatsthenatureoftime.blogspot.com/

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

AI and artificial life.

AI can modify life itself, and artificial cells can also modify AI. When we think about the DNA as data storage, we must realize that the problems are how to create synthetic DNA that involves only the things that researchers want. The other thing is how to transport. That data is sent to the microchips so that the computer can read that data. The answer can be electric impulses that the computer can read. AI is the tool that can read DNA better than play chess. The DNA is a linear data storage. And that makes the AI able to read it using microscopes and spectrometers. 

The AI can search data that is stored in CRISPR datasets. And search for similarities in the DNA that is taken from people or animals that have certain abilities. The AI can make virtual cells and simulations. About what kinds of things certain base pairs at certain points in DNA make. The AI can also connect and search data across species borders. And that allows developers to connect chlorophyll genomes to skin cells. That forms the green man. 

The same nanoparticles that can transport medicines to certain receptors can transfer the mRNA molecule in the same way in targeted cells. 

The AI can connect that data with datasets about the advancement of the fetus. Nanotechnology, along with advanced tools, makes it possible for the AI-controlled system to cut DNA and connect the new bits of DNA into those holes. The other way is to create artificial mRNA whose mission is to control the cell organelles. The system must just create the mRNA molecule that controls the cell organelle, and then that cell can create anything that the mRNA encodes it to create. 

The pathogen that can basically transform species into new ones can be based on the mRNA viruses or packages. Those mRNA molecules order the cell to create copies of itself. And then finally transform the cell into another. The mRNA is the tool that can order the mitochondria to decay in the muscle cells and that increases those cells' power. The artificial cells can also create neurotransmitters and electric impulses that allow the system to transfer memories into the nervous system. And basically, all our skills are based on memories. That is one of the things that we should know when we create new artificial species: are they bacteria or more complicated species? 

Natural bacteria cannot communicate or transmit data to the nervous system. But artificial cells can do that. And when we think about the ability to live forever or fix large-scale injuries, we must create neurons and then transmit lost data to those neurons. The single neuron involves only 1-5 bits of data. Thoughts and memories are formed in connections and states of those neurons, which humans have over 86 million, but our brains can connect those neurons into virtual neurons. 

And the connections between neurons are as important as the number of physical neurons. When a neuron is lost in an accident, the data that is involved is lost. The artificial cell can transport memories back into those cells. But that requires that the lost data is stored somewhere. And the second thing is that the system must have the ability to create artificial DNA that involves data that is normally stored in the brain. 

Things like intelligent tattoos that involve small-sized nanotechnical microchips or neurological microchips that are implanted into people’s brains can make it possible to return those memories. If the neuroimplanted microchips can transport data from memory centers to hard disks, it makes it possible to return those memories using artificial cells. That thing can restore the abilities of the badly damaged people. The brain-implanted microchips can also make it possible to read people’s minds. And that thing can turn humans more than we are today. 

https://www.freethink.com/artificial-intelligence/virtual-cells

https://pmc.ncbi.nlm.nih.gov/articles/PMC8539479/

https://www.quantamagazine.org/rna-is-the-cells-emergency-alert-system-20250714/

https://www.quantamagazine.org/what-can-a-cell-remember-20250730/

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

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

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

AI is a good surveillance tool that turns George Orwell’s 1984 vision into a child's game.

"Illustration of AI-powered web browsers revolutionizing mobile navigation and impacting Global Engine Optimization, generated by artificial intelligence." (RudeBaguette, “They’ll Know Everything You Click”: AI-Powered Mobile Browsers Are Here and GEO Experts Warn “This Changes the Surveillance Game”

Every day, we see warnings about how some browsers collect data. But for some reason, we don’t care about those warnings. We blame companies like OpenAI, Meta, and Google for collecting data about us. But then we don’t do anything for that thing. We blame data centers for using too much energy. But then we force people to use those tools because they are effective, and the company behind the wall uses those tools. 

People like Elon Musk give warnings about AI. But then they just begin their own AI project the next day. People warn that AI takes the jobs, but the problem is that people who give warnings are put in many workplaces to operate under fixed-term employment contracts. And then they start to care about the jobs only when their own workplace is under threat. 

(RudeBaguette, “They’ll Know Everything You Click”: AI-Powered Mobile Browsers Are Here and GEO Experts Warn “This Changes the Surveillance Game”

The AI-based browser technology can collect data that people use from their mobile devices. AI-based data collection is the tool that raises corporations above the state. The multinational corporations can operate outside the law, and those corporations will never go to jail for those kinds of things. They can outsource non-ethical R&D work to states where there is no law that restricts data collection. 

AI is a powerful tool because it can collect and connect data from multiple sources. Things like smart watches that collect data from blood pressure can tell about stress reactions that we want to hide before we know that reaction. Technology like a brain-computer interface is based on voluntary things. Those needed microchips will be put into people’s brains only in special cases where a person is fully paralyzed. 

Those are the rules in Western countries. But most of the people in the world are not living in Western states. Those people live in states that don’t even try to follow the same principles that we used to follow. And there are lots of people like mafia bosses and warlords in Afghanistan who operate without caring about the law. 

Things like mind-reading E-tattoos can be a tool that breaks the limits between computer and human. But those tattoos can also cause problems with privacy. The E-tattoo can include two parts. The other tattoo is at the front of the user's head. And another is behind the head. Then the system that might look like a bandanna will be connected with those tattoos. And that can be observed in a person's thoughts. This kind of brain-computer interface (BCI) doesn’t need surgery, and that can bring every person's BCI into reality. But those systems can also open the most private things that we have, our brains, to hackers. 

(Rude Baguette, “It Knows Before You Do”: Mind-Reading e-Tattoo Tracks Stress in Real Time and Privacy Advocates Are Sounding the Alarm)

"Illustration of an innovative e-tattoo monitoring brain activity in high-stakes environments, generated by artificial intelligence." (Rude Baguette, “It Knows Before You Do”: Mind-Reading e-Tattoo Tracks Stress in Real Time and Privacy Advocates Are Sounding the Alarm)

But there are people who don’t care about those rules. This is why people who work with those systems should have a chance to tell authorities if somebody has asked for things like AI-based surveillance systems from them. There is a possibility that the people will train the AI agent to use surveillance tools. And then they will give access to that assistant to people who work for organized crime. If somebody asks for that kind of favor, those people should have a chance to tell them about those things. 

The next-generation social media that allows us to track everything is already here. Things like intelligent tattoos that are used to research stress are interesting tools. They can observe nervous systems and see unpredictable activity. The same way intelligent watches and other sensors see how our blood pressure reacts to the environment. Those systems know what happens in our bodies before us. And things like WiFi are excellent tools to transmit to the sports coach. Or to people who want to break our final privacy. Those body-connected sensors are important tools for sports, but they can also tell things like stress. 

If people face a stressful situation again, like a similar place where an accident happens, our body will react to that situation immediately. The sensor sees when our pulse rises, and things like blood pressure rise. The same way the AI can see, does a person's steps change? And that tells us that there is something going on in the mind of the person. When we think about brain-computer interfaces (BCI), those systems can scan people’s thoughts. 

There is always a possibility that those brain-implanted microchips are used for some kind of control tool. And those systems allow bad boys to control even thoughts. We know that there are certain regulations about those systems. But there are people who have money and power. The drug lords of the cocaine cartels and some ruthless dictators might be interested in technology that allows them to observe thoughts. Or they can make much more. Those systems can control our thoughts. 

The system that can control the frontal lobe is the tool that can turn humans into robots. The system can include two microchips: the chip that sends electric impulses to the frontal lobe. And another microchip is at the neck. We know that the data those systems need is restricted. But there can always be people who cooperate with unauthorized organizations like organized crime. 

https://www.rudebaguette.com/en/2025/07/theyll-know-everything-you-click-ai-powered-mobile-browsers-are-here-and-geo-experts-warn-this-changes-the-surveillance-game/

https://www.rudebaguette.com/en/2025/07/it-knows-before-you-do-mind-reading-e-tattoo-tracks-stress-in-real-time-and-privacy-advocates-are-sounding-the-alarm/