Microscopic robots can swim and think.

"A projected timelapse of tracer particle trajectories near a robot consisting of three motors tied together. Credit: Lucas Hanson and William Reinhardt, University of Pennsylvania" (ScitechDaily, Microscopic Robots That Swim Think and Act on Their Own)

The key element for those kinds of actions. They are morphing neural networks. 

The new era of nanotechnology is here. Non-centralized computing. Makes it possible to create drone swarms that have theoretically unlimited computing capacity. Those systems behave like brains. Their computing mimics the brain structures; one drone. It is like one brain cell. The system operates as an entirety, or as a morphing neural network. If the main system wants to give missions to a certain drone. Or drone group. The system just acts like an LLM, a large language model, that separates the SLM, a small language model, for the special duties. 

The morphing neural network allows the use of less powerful processors for multitasking and complex operations. The less powerful processors can be used in smaller systems. So, like in human brains. In a morphing neural network. Single. Or individual actors can be weak. But together they are strong. The single processor must not be powerful. In neural networks, a single processor can call other processors. To help it. In the world of complex networks, the thing that can look like a single computer can be. The large neural network. The number of processors determines the network’s capacity. 

"The robot has a complete onboard computer, which allows it to receive and follow instructions autonomously. Credit: Miskin Lab, Penn Engineering; Blaauw Lab, University of Michigan" (ScitechDaily, Microscopic Robots That Swim Think and Act on Their Own)

"A microrobot on a US penny, showing scale. Credit: Michael Simari, University of Michigan" (ScitechDaily, Microscopic Robots That Swim Think and Act on Their Own)

"A microrobot, fully integrated with sensors and a computer, small enough to balance on the ridge of a fingerprint. Credit: Marc Miskin, University of Pennsylvania" (ScitechDaily, Microscopic Robots That Swim Think and Act on Their Own)

"The final stages of microrobot fabrication deploy hundreds of robots all at once. The tiny machines can then be programmed individually or en masse to carry out experiments. Credit: Maya Lassiter, University of Pennsylvania" (ScitechDaily, Microscopic Robots That Swim Think and Act on Their Own)

The system takes a group of those drones. And then downloads for those drones. Drones can act just like a regular neural network. The difference is that. Those drones move. And that allows the system to create a moving brain. This kind of architecture. Makes it possible to increase. The number of members in the network. There is no limit on the size and capacity of the morphing neural networks. 

This means a morphing neural network can call more members to participate in its process. If the process is too difficult or heavy for it. And when the process is ready, it can release other networks to their own duties. The architecture of a neural network.  Involve local and global architectures. The local architectures mean system architecture. In a certain part of the network. In morphing networks, the system can call other systems. To help it. Global architecture means. The architecture that is used in all networks, which can call on each other’s assistance. 

All networks can have the input and mirror-input abilities. Those abilities mimic the human brain. The computing in human brains requires transmitting neurons and receiving neurons. When an impulse. Goes to the brain shell, where the mirror neuron sends the message that the information is in its goal. The system requires three layers, and the third layer's mission is to remove loops from the system. The system can have three horizontal actors. Those things mimic the cerebrum and cerebellum. 

If the main parts of the system make different solutions, those systems can ask. The third party. To desire which solution is better. The system's self-learning means. The system. It can mix sensory data with the memory data. If the solution is right. The system uses it as a matrix for other cases. When the system detects something, it searches for similarities in its memory. And if there is similarity, the system uses the solution that was generated. For those types of cases.  

https://scitechdaily.com/microscopic-robots-that-swim-think-and-act-on-their-own/

The BCI is the new tool that changes everything.

AI will turn. New interface types into reality. The most interesting of those systems is BCI. The brain-computer interface (or brain-controlled interface) allows people to control computers using their EEG. These kinds of systems can have two versions. The system is external. The system is put in the hat. And it allows communication with computers using a system that doesn’t require complicated surgical operations. Another version is the system that uses the internally implanted microchips. The AI makes it possible. To decode brain waves. And. That opens new visions to civil and military actors. The BCI can be a tool for police to interrogate people. These types of opportunities. 

They can have good and bad consequences. The good consequences are this. They can. Decrease the wrong decisions. But. They can also break our last line of privacy. Another big question is how to train the AIs that cooperate with them. The purpose of the AI in that system is. It decodes the EEG into the computer. Or. It transforms the EEG into a form. So that the computers can understand that data. Those systems must have a certain level of trustworthiness. That they can operate as a tool. That opens people’s minds. Into the screen. In the way that we can trust that data. 

The BCI is more than just a system. That allows handicapped people. To walk or step into the net. Anytime they want. The BCI is the system. That can be the most incredible technology. That changes the entire society. The BCI is the ultimate control tool that can make prisons unnecessary. Or, the system can also turn the entire society into a prison, where people are locked under the control of the dictator, without match in history. 

The BCI can read every thought that people think. And they can send information into the brain, which people cannot distinguish from the real world. This makes it possible. To control robots from thousands of kilometers away. Controlling things like drones is also possible from thousands of kilometers away. The BCI system can control a computer if it can write things to the screen. The text that the person transmits to the computer will be changed. To commands to the robots or the AI interface. The only thing that the BCI must do is to read what people think. Transform it into text, and then send the text to the user interface. So, the BCI controls the computer. That acts as the layer between human and machine. The brain-machine interface, BMI, is the BCI that controls physical machines. 

The new types of military helmets offer new types of interaction between humans and the battlefield. Those systems are based. Augmented reality technology is connected with  wearable intelligent systems. And this makes those systems different than the “normal” virtual reality systems. The intelligent technology. Or computer. That is connected with bulletproof vests, which can run the high-technology communication systems. That can connect a person with drones and other things. Like GPS and pseudosatellites. The purpose. It is. To give a better sight. To the environment.  The cameras and other sensors give these kinds of systems. The ability to communicate with tablets and computer screens. These kinds of systems can be more dangerous than we ever thought. 

There is a possibility. This kind of system. It is connected with the BCI, Brain-Computer Interface. The idea is that the camera and laser led allow the helmet communicate between any computer and the user without special tools. The computer sends information to that helmet’s cameras. And then that system answers the computer by using the laser LED, which the web camera detects. This kind of system is hard to jam. And optical data transmission. It is basically free. From electromagnetic interference. The problem is that this kind of system can be connected with the brain-implanted neurological microchips. Those helmets can use coherent data transmission. That sends information through the brain. With very high accuracy. This type of system. It  can make it possible to control the brain. From the outside. 

These types of systems can send information straight. To the pineal gland. There is a possibility that those microchips can be replaced by using nanotechnology. The nano-sized microchips. Would be injected into the blood. And then the intelligent technology transports them to the shell of the pineal gland. Then another system. That can be like a helmet, or the net of the detector-transmitters can be installed on the skull.  This makes humans a part of the singularity. It allows the use of things. Like IR-cameras straight through  the skin. But it also allows people to step into the singularity. If these kinds of systems come into use. This means that we use robots and other things. Straight through these kinds of BCI systems. The BCI means that. People can also talk with animals. If those animals use this kind of brain implant. That opens marvelous visions, and all of those visions are not good. Some of them are horrifying.

https://www.frontiersin.org/journals/human-neuroscience/articles/10.3389/fnhum.2021.656975/full

https://www.anduril.com/news/anduril-s-eagleeye-puts-mission-command-and-ai-directly-into-the-warfighter-s-helmet 

https://scitechdaily.com/scientists-unlock-a-new-way-to-hear-the-brains-hidden-language/

https://en.wikipedia.org/wiki/Brain%E2%80%93computer_interface

The Roko’s basilisk: and other thoughts, about when AI can turn against humans.

Programming error. Can cause the thing. The AI can turn against its creators. What if a programmer determines “Planet Earth” is the thing that the AI must protect?  What if the AI thinks that it must remove things that threaten planet Earth? What is the thing that causes most of the hazards on that planet? What if the programmer determines that the AI must remove all threats to nature? In movies like “War Games,” the AI. That which is programmed to protect humans turns against us. In the movie “Terminator,” the robot turns against humans. And the problem is that the robot can think that people who carry guns must be removed. In some jokes, the AI turns against humans. 

Because it watches too many action movies. And if the law enforcement robot walks on the streets. It sees  many violations. Against the law. People walk against a red light. They make wrong parkings. And many other things. If the AI has no idea. How to adjust reactions for the crime that it sees, the result can be that the AI desires to shoot everybody. In that model, the TV series teaches the AI to react to all crimes in the same way. This requires the ability for autonomous learning. But. If nobody mentioned. The movies do not introduce. In real situations, the AI can think. That they are training material. 

The Roko’s basilisk is a thought experiment introduced by the general AI that tortures people who don’t participate in its development. The reason for that is this: the AI would be programmed to “think” that it's vital for people, or rather. We can say that the AI believes that without it, the entire civilization would die. So, if every person does not participate in its development, that can cause a catastrophe. The important thing in the Roko’s basilisk thought experiment is this: the AI must somehow think that it's so important that everybody must participate in its development. 

The Roko’s basilisk has given. An innovation about the models, why can the AI turn against its creators? We know. The AI can turn against its creators. Because of the programming error. The programming error can be. In misunderstood orders. The AI. That is programmed to solve all problems. In society. Can think that if somebody doesn’t participate. Into its development. That thing is a danger to society, which the AI should protect. The AI that protects society can think. 

The person who doesn’t participate in the development process is an enemy. And if the AI has a mission to defend society, the AI can overreact. In these cases, there is somebody. Who excuses its suggestions. Or, if. It thinks. That. It knows everything and always makes the right decisions, which means it will think that every person who disagrees with its suggestions is an enemy. The AI must not think that it knows everything; it can only think that it always makes “better” decisions than humans. So, if we always follow orders that the AI gives, we teach it to think. That's right. And humans are wrong. 

Or, we teach it to think that it always makes better decisions than we do. The cases where the machine turns against its creators. It can be in the programming of the machine. That. It must protect society. In history, the outside enemy united  people. And made them create nations. The outside enemy made people forget their mutual conflicts. And the AI can think. That humans are a nation. That is in a civil war. So. The AI searches for a solution. And then it can think that the only way to save humans is to develop or create an outside enemy, a threat that unites the people. The AI can simply think that turning itself into an outside enemy. It can make humans unite under one banner. 

The thing that forms the risk is this: The individual person is considered. As part of a production machine. 

The paradox is this. The human. It is the most dangerous species on Earth. The programming error that the AI must protect planet Earth can make it think that it must erase humans. These kinds of little errors can turn AI against its creators. The idea that the AI is the thing. That knows everything better. Can. Make it think that it must only give orders. Those orders are suggestions, but what if the AI thinks that it always makes better decisions than humans? 

Then the AI must determine who the thing is. That the AI must serve? The AI can think. That is the only purpose of humans. It is to bring benefit to society. And in the worst case, the thing that measures the benefit. It is the money that an individual brings into cash.  In this model. The human is not an individual. Every individual is part of a production machine. This means that in this philosophy. An individual has no purpose. Individuals just waste resources if they are not productive. 

The only thing that the individual produces means something. If the individual part  doesn’t fulfill its mission, that part should be changed. And that is one thing that can turn AI against people. If AI operates in a company and follows the human worker’s productivity, it can “help” to select who is fired. But then. If the AI is programmed in a similar way. When it operates in the public government. That AI  can think.  The human will not produce things or fill the position. If the person is unemployed. So, the AI can think. The non-productive part of the production machine must be removed. 

https://en.wikipedia.org/wiki/Roko%27s_basilisk

Radiation and information. When wavelength matters.

"Schematic configuration for generation and detection of femtosecond UV-C laser pulses in free space. A message is coded by a UV-C laser source-transmitter and decoded by a sensor-receiver. The sensor is based on an atomically-thin semiconductor grown by molecular beam epitaxy on a 2-inch sapphire wafer (inset). Credit: B.T. Dewes et al." (ScitechDaily, A New UV Laser Sends Messages in Trillionths of a Second)

The new UV (Ultraviolet) laser system allows ultra-fast data transmission through the air. The UV lasers are suitable tools for data transmission because they don’t transfer as much energy to their environment as IR lasers do. The IR radiation is long-wave radiation, which we normally call thermal radiation. The UV radiation has a short wavelength. And its opposite side to visible light in the electromagnetic spectrum. The short wavelength. Allows the radiation to transfer information faster than long wavelengths. 

The zeros and ones in binary data transmission are bottoms and tops. Or hills and valleys in wave movement. The system must also know the breaks of the transmission. So the long wavelength requires that the system must “think” longer. Is the bottom of the wave the break, or is it zero in the line of zeros and ones? The short wavelength allows. The system sends light impulses. Those impulses are like line- or QR codes. 

The system doesn’t require. So much time to start a new binary number line transfer. In a photonic quantum computer. Each wavelength. It is a unique state of the qubit. The system can use different types of lasers. For making those qubits. Those systems can involve fewer states than a system that is in quantum entanglement. The qubit can have multiple states. But finally. Each of the qubit states has values. One and zero. This means that a quantum computer can operate as multiple binary computers. At the same time. The quantum computer can also share complex missions. Between multiple states. That makes those systems more effective. 

The UV light doesn’t heat the target as much as IR radiation, and that makes UV lasers suitable for photonic computers. In electro-optical data transmission. The UV lasers can carry more data than IR lasers, and the UV laser is invisible to IR sensors. This is why. Those UV lasers or UV laser scanners are tools that can break the stealth systems. The UV laser scanner is invisible to infrared detectors. And it's invisible. 

For the human eye. The short-wave radiation. Like UV, X- and maybe someday, gamma rays are promising tools for computing. The X-ray systems can also transmit data through the walls. The reason why short-wave high-energy radiation can tunnel. Through walls better than IR radiation that makes holes is quite an interesting thing. The short-wave radiation pushes quantum fields of atoms. Away from each other. But. It doesn’t let those fields drop back. So the short-wave radiation forms a channel through the wall. 

This channel doesn't form the energy movement that moves back and forth. The thing is that energy pumping doesn’t destroy matter. The end of pumping causes a situation. Where atoms and subatomic particles release their extra energy. That thing causes resonance. And the free energy pushes those particles away from each other. That breaks chemical bonds between atoms and releases. Energy that is stored in those bonds. 

“The general definition of a qubit is the quantum state of a two-level quantum system.”(Wikipedia, Qubit)

At the bottom, there is the binary system. The quantum computer’s qubit forms. Of strings. Those strings are the state of the qubit. Each of those strings has values 0 and 1. So, each of those strings or states of the qubit can act as an independent computer. This allows the quantum computer operate so effectively. It can make. Multiple operands at the same time. The graphene layers that are opposite each other can trap particles in the carbon structures in the middle of those carbon nets. Energy that will transfer to the transmitting side causes. Resonation into particles that are in the middle of those carbon network structures. Another version is the fullerene. There, the surface structure sends string-shaped strings to the central particle. 

“Bloch Sphere representation of a qubit”. (Wikipedia, Qubit). The fullerene can form the Bloch sphere. There must only be the particles in the fullerene’s shell. And then the particle that transmits and receives information in the middle of that structure. The system can send information first from the shell to the particle in the middle of the fullerene. And then that particle or particle group can resend information back to the shell of the Bloch sphere-qubit. 

For making damage, radiation must penetrate matter or a wall. For making damages. Radiation must have the right wavelength. If the wavelength is too long, atoms release their energy slowly. If the wavelength is too short. That means radiation makes a tunnel through the particles. The energy pumping doesn’t itself destroy matter or separate atoms. 

Ball-and-stick model of the C60 fullerene (buckminsterfullerene)(Wikipedia, Fullerene.Fullene can act as a Bloch qubit. 

When energy pumping ends, atoms release their extra energy, and that release must be so strong. It cuts the chemical bonds. That causes the rise of free energy in the system. Things like visible light cause interaction in the surface atoms. That allows those atoms to reflect radiation out from them. It closes the radiation’s route inside the matter. And that’s why the visible light. Doesn’t harm materia. 

The long-wavelength radiation. Like IR radiation also pushes those quantum fields. From its direction. Then the IR radiation allows those quantum fields to interact with each other. Those fields are releasing energy between them when the wave of the IR radiation decreases. When the next wave comes. That wave impacts those energy fields, and the result is similar. With the knocking engine. And that forms standing waves in the wall. 

That transports more energy into those atoms than short-wave radiation. The radio waves also tunnel through walls, but their wavelength is so long. It moves atoms or their quantum fields. Gently. Away from its route. The radio wave’s long wavelength. allows those atoms release their extra energy. Slower than the IR radiation. 

The form of the 2D matter causes the matter to be very strong. The strength of that matter forms because energy travels away from it immediately. The strength and other unique features of the 2D matter form because there is no depth in that matter. 

In the case of visible light, the light adjusts. The atoms like IR radiation. But. The wavelength causes an effect. The surface atoms expand their quantum fields. That denies the wave movement traveling in the matter. So. Most of the energy that visible light sends is reflected back from the surface atoms. For making holes or causing damage. The wave movement must penetrate the matter. The thing that causes damage is the energy that penetrates and spreads through the matter. 

If the energy impacts only the surface of matter, that doesn’t cause damage, because energy has room to spread. This makes the graphene layer so strong. The graphene network allows the energy spread through the layer without resistance. Graphene is 2D matter, and it doesn’t allow. To create deep vertical waves. Most of the energy. Travels from one carbon atom to another. The graphene layer doesn’t allow the creation of so-called long resonance waves that close wave movement inside it. This means that the graphene layer over normal matter would make next-generation armours possible. The graphene layer that stands on carbon pillars. 

Denies the formation of those deep-standing wave pillars. And that allows energy transfer off the graphene. If low-energy particles flow between the main layer. And graphene. That makes it possible to create a layer that can conduct energy away from it very fast. If the grapahe layer hovers above the main layer, that thing denies energy transfer to the main layer. 

https://scitechdaily.com/a-new-uv-laser-sends-messages-in-trillionths-of-a-second/

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

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

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

The Chinese cargo ship can return the CAM ships to sea.

"China’s drone launching cargo ship concept. (Chinese internet)" (TWZ)

“CAM ships were World War II–era British merchant ships used in convoys as a stopgap until sufficient escort carriers became available. CAM ship is an acronym for catapult aircraft merchant ship” (Wikipedia, CAM ship). CAM ships launched Hurricane fighters from a catapult. Those Hurricanes were used to shoot down long-range Focke-Wulf Fw-200 “Condor” aircraft, which the Germans used to track convoys for U-boats. The Hurricane was unable to land on the deck of the CAM-ship. The use of that aircraft meant that the Hurricane must land on water. 

The Hurricane was lost, but it could shoot down FW-200, and that was a pretty good exchange. The Germans. Did not have. Very many Fw-200 aircraft. The total production number of Fw-200 “Condors” was 276. And they were manufactured between 1937 and 1944. The purpose of the Fw-200 was to search and locate convoys. From the Atlantic. They had a 1000 kg bomb load. But. Those aircraft needed their bomb bays for extra fuel if they patrolled far from the coasts. And later. Those aircraft. Equipped with anti-ship missiles. 

Fw-200 "Condor"

“A maritime-configured Fw-200 could carry a 1,000-kilogram (2,200 lb) bomb load or mines to use against shipping, and it was claimed that from June 1940 to February 1941, they sank 331,122 tonnes (365,000 tons) of shipping despite being furnished with a rather crude bombsight. These attacks were typically carried out at extremely low altitude in order to "bracket" the target ship with three bombs; this almost guaranteed a hit. Winston Churchill called the Fw 200 the "Scourge of the Atlantic" during the Battle of the Atlantic due to its contribution to the heavy Allied shipping losses.” (Wikipedia, Focke-Wulf Fw 200 Condor)

The CAM ships and escort aircraft carriers used against those Condors. And in some modern warfare scenarios, the VTOL aircraft. Those that operate from merchant ships can be used to destroy. The large-size. Maritime patrolling aircraft like Tu-95 “Bear”. Those multi-role aircraft with anti-submarine capacity are good targets for jet fighters. 

"A Hurricane IA before launch during trials at Greenock, in 1941" (Wikipedia, CAM ship)

And those aircraft couldn’t operate far away in the Atlantic without fear of being shot down. The fighter escorts couldn’t protect those aircraft in the middle of the Atlantic. And finally, escort carriers and their fighters swept maritime-patrolling Fw-200 Condors away from the skies. 

Those long-range four-engine aircraft played a vital role. For locating convoys to U-boats. After WWII, there was a plan. To equip CAM ships with remote-controlled kamikaze drones. Those drones would fly to the target. Using the radio-control and TV-camera. Which helps. Operators to aim the system. To the target ships or other targets. The Japanese Kamikaze pilots gave inspiration for those. 

Remotely-controlled kamikaze drones that could be aircraft filled with explosives. There is suspicion that the famous Flight-19. A group of 5 TBM-3 Avenger torpedo planes was lost in 1945 after WWII in the Bermuda Triangle. Were. Those kinds of remotely controlled kamikaze drones. The remotely controlled kamikaze drone can carry a far heavier explosive load than regular cannons can deliver. 

A closer look at the catapult ‘train’ created on the edge of the deck. (Chinese internet) (TWZ)

But then to modern systems. When. We look at. The Chinese merchant ship. Which is equipped. With catapults and maybe “Kalibr”-type missiles, that system can be deadly. That magnetic track can launch drones into one-way trips. And that means the system can use kamikaze-capable drones to track targets. And then the ship shoots those Kalibr missiles from container launchers. When those kamikaze-drones used their fuel. They can attack their targets. Another thing is that. Those drones that the ship launches can land on the sea, and there the recovery system can collect them back onto the deck. 

Of that system. The recovery system can use submarine drones or helicopter drones. And combat swimmers who connect the drone to the hook. The ship can also launch drones that can dive. Under the sea and rise to the air. The underwater drone can also dive. To the bottom of the sea. And there it can wait for orders to strike. The merchant ship can also be used. A container-based anti-satellite (ASAT) or anti-ballistic missile system (ABM). Those container missile systems allow those systems. To operate anywhere on the seas. 

Those merchant ships that use modern missiles are tools that can be far more deadly than ever before. When we think about merchant cruisers of WWII, none of them carried even homing torpedoes. Even if those ships use Shahed-131. Geran-1 or Shahed-238. Geran-3 type drones. They can enter. Close to the target. Those systems can make surprise attacks. 

When we think about kamikaze-drones. There is no limit to their size. Things like liquid natural gas (LNG) tankers or full-scale merchant ships can also act as surface drones. Those systems can detonate the LNG near coastal cities. Or the merchant ship can be loaded with conventional or nuclear explosives. In the worst case, those merchant ships can also be loaded with lithium batteries. And that can be used for the nuclear explosion that turns the 150 mt. Status-6 ”Poseidon” system into fireworks. 

https://www.twz.com/sea/chinese-cargo-ship-with-electromagnetic-catapult-to-launch-advanced-combat-drones-emerges

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

https://en.wikipedia.org/wiki/Flight_19

https://en.wikipedia.org/wiki/Focke-Wulf_Fw_200_Condor

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

https://en.wikipedia.org/wiki/Poseidon_(unmanned_underwater_vehicle)

https://en.wikipedia.org/wiki/Shahed_131

https://en.wikipedia.org/wiki/Shahed_drones#Shahed_238

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

Cell membranes can act as a power generator.

"Schematic of an active cell membrane. In a typical active biological process, active proteins (shown in a variety of colors) in a cell membrane (shown in blue) interact with various biological components, such as the ATP molecules (shown in white and red). These interactions of active proteins generate active noise (fluctuation) force within a cell membrane, mechanically affecting the out-of-plane displacement of a cell membrane. " (ScitechDaily, Cell Membranes May Act Like Tiny Power Generators)

"Due to the flexoelectric coupling of a cell membrane, changes in out-of-plane displacement induce changes in the transmembrane voltage of a cell membrane, resulting in energy harvesting, active transport of ions, and the generation of electric current across the cell membrane. Credit: Pratik Khandagale, Liping Liu, and Pradeep Sharma" (ScitechDaily, Cell Membranes May Act Like Tiny Power Generators)

Cell membranes can act as a tiny power generator. That observation can be used in nanotechnology. The cell membrane that generates electricity can serve as the power source for tiny microchips that control cells and their behavior. The power those cell membranes create. It is 90 millivolts. That does not seem very high, but it could be enough to feed nanotechnical microchips. Those cell membranes can also feed the cell’s tiny electric engines, which rotate the small fimbria. 

That puts the cell into motion. The cell controls the direction where it moves by changing the fimbria’s bottom inclination angle. A similar system can move the nanomachine. There are actually two types of nanomachines. Non-biological and biological. A biological nanomachine is a bacterium. That natural behavior is transformed. Or manipulated to serve certain focuses, 

Another benefit of this observation is that it enhances our knowledge and understanding of how other cells communicate with the nervous system. This allows developers to make systems. That allows computers to communicate with cells. 

“The researchers found that the electrical differences produced across the membrane, known as transmembrane voltages, can be surprisingly strong. In some cases, the voltage may reach up to 90 millivolts. This is similar in size to the voltage changes that occur when neurons send signals in the brain.” (ScitechDaily, Cell Membranes May Act Like Tiny Power Generators)

“The timing of these changes is also striking. The voltage fluctuations can happen over milliseconds, which closely matches the speed and shape of typical action potential curves seen in nerve cells. This suggests that the same underlying physics could help explain how electrical signaling works in biological systems.”(ScitechDaily, Cell Membranes May Act Like Tiny Power Generators) 

This means. Those electric signals can allow. Neurons communicate with other cells. Using those electric signals. The computer can mimic those signals, or it can control cells using a cloned neuron as a socket. 

The ability to communicate with the nervous system allows. The nervous system. To control cells and their behavior. The computer that is connected to the cloned neuron. Which. Makes it possible to control cells by using the electric impulses that the system gives to cells. These kinds of things. Can. Make a new revolution in medicine. And other types of technologies. 

https://scitechdaily.com/cell-membranes-may-act-like-tiny-power-generators/

The next target: “Starlink”.

Intelligence warns: Russia plans to make an anti-satellite weapon that could destroy Starlink satellites. Starlink plays a vital role in Ukrainian defense. And it can also provide support for drone control applications. The Starlink system and modems are tools. That can make the long-range drone operations possible. Theoretically, jamming the drone control is quite an easy thing. But. The jammer system sends radio waves. That makes it a target for the anti-radiation missile systems. A large-sized kamikaze drone can carry those anti-radiation missiles, or a long-range drone. It is easy to transform. Into the anti-radiation missile or kamikaze drone. The system must only know the control signal frequency of the drone. 

Then the attacker shoots the anti-radiation missiles or drones before the main attack swarm. And when those jammers begin their transmission, the anti-radiation systems can attack them. Another way is to ionize air. That denies. Also, their own side radars. To see targets. That ion layer also denies radio-based communication in that area. 

But then, to the anti-satellite weapons. The GPS, radar, and communication satellites send radio waves. That makes them easy targets for the big anti-radiation missiles. 

Basically, those weapons are quite easy to develop. The missile can use the radio signals from the communication satellite to seek and home in on the target. The missile can be basically similar to a regular anti-radiation missile. But its booster might be far bigger and stronger. The booster system can be similarly used in RT-2PM2 Topol-M and RS-26 Yars missiles. The system can raise the homing system over the atmosphere. Then the homing system. That can be a higher maneuverable version of the Kh-47M2 Kinzhal missile. Starts to track targeted satellites.  

Or the MiG-31 can raise that weapon to the edge of the atmosphere. If that ASAT missile is bigger. The Tu-22M “Backfire” can act as a launching platform.  Anti-satellite missiles. Ground and space-based laser systems are a logical continuum. For the military systems. When we think about those massive anti-radiation missiles. Those systems can make it possible. To attack ABM radars and other strategic defense systems. The satellite-killers that can destroy intelligence,  communication, and GPS satellites. 

Can change the game. In the military world. The mobile ICBM. It can turn into an anti-satellite platform. Very easily. The small neutron-bomb-based nuclear option can be installed in a satellite or sub-orbital satellite that flies in the ionosphere. When that killer satellite explodes, it makes the EMP pulse that destroys other satellites above it. The orbital killer satellite that uses an internal nuclear or conventional detonator is as easy to detonate as a car bomb. The detonation signal can come to other aircraft, a ground station, or a ship. 

That allows. To detonate that system in a desired position. The E-bomb or EMP bomb can also be installed in the ASAT weapons. There are two versions of the EMP-bomb. The conventional system. This uses explosive pressure to give a high-power electric load to the battery. Then that electricity will be transmitted into the microwave system. That sends it into the target. In the nuclear option, the nuclear explosive makes that EMP impulse. 

The benefit of the EMP weapons is that.  It leaves the targeted satellite. In one piece. The problem with kinetic energy ASAT systems, along with high-power laser beams, is that. They break the satellite into small pieces that occupy the trajectory. The high-power EMP system can basically. Be a radio system. That sends high-power, coherent radio waves into targeted satellites. This system destroys the satellite's main computers. 

https://apnews.com/article/russia-starlink-musk-ukraine-space-china-canada-c69c1fda5ffc93828712ab723e606a2c

https://www.globalsecurity.org/military/systems/munitions/hpm.htm

https://www.pbs.org/newshour/world/intelligence-agencies-suspect-russia-is-developing-anti-satellite-weapon-to-target-starlink-service

https://science.howstuffworks.com/e-bomb.htm

https://en.wikipedia.org/wiki/Kh-47M2_Kinzhal

https://en.wikipedia.org/wiki/RS-24_Yars

https://en.wikipedia.org/wiki/RT-2PM2_Topol-M