The Pentagon and SpaceX cooperation goes deeper.

Image: TWZ

The Pentagon and SpaceX cooperation goes deeper. When new deals are made with satellite-based early warning networks and the LUCAS Kamikaze-drone connection with Starlink. Will be turned. Into reality. That is the next step. To the Starlink and Pentagon cooperation. These types of plans also accelerate the militarization of space. The systems that track. Own troops. And guiding smart weapons. Are. Vital for successful military operations. That makes them high-potential targets for anti-satellite systems, ASATs. If those satellites can be shot down. That decreases the enemy's ability to control and command warfare. 

This means that those satellites must be equipped with self-defense systems. And those active systems can also be used to destroy other satellites. 

But the price is that. If the deliverer of the service. Shuts it down. So, there is no service. These kinds of deals raise the power. Of the private industry at the Pentagon. Those contracts. They fall into the hands of well-known, trusted service providers. That increases SpaceX's power in space. 

The Pentagon’s dependence on SpaceX continues to grow. The Pentagon awarded. A $4B contract with SpaceX to create a satellite network. The purpose of that network is to track aircraft and hypersonic missiles from space. The system should include the optical and radar systems, boosted with AI. The system can track any aircraft. From the atmosphere with a very high accuracy and speed. The system should replace the old E-3 Sentry AEW&C aircraft. The E-3 plays a vital role in tracking low-flying objects. But things like anti-radiation missiles can endanger that aircraft’s missions. 

It’s possible that things like drones with the lookdown radars and optical sensor packs can replace the E-3. And those systems can share information with the fighters, ships, and ground units. And connect sea, land, and airborne command posts to networks. That communicates. In real-time. With  the overseas military command centers. 

Image: TWZ

In the same way. Those E-3 “Sentrys” are not. A very good tool for tracking very high-altitude hypersonic missiles. That travels in the high atmosphere. This is the reason why a new global system is needed. That can get and share. 

Mission-critical information for AA and aircraft to destroy incoming hypersonic missiles. And this is the reason. A new satellite-based system is needed. The satellite network with optical sensors can replace the traditional GPS. The aircraft can send. The location information is transmitted to those optical satellites. Using laser rays. And then those satellites send the image. Of the flying area. The aircraft travels back to that aircraft using lasers. The laser dot shows the stealth fighter's position to the satellites. Those satellites will use AI and hivemind technology. For tracking and following targets. 

Another thing that is interesting. It is the connection between the Starlink systems. With LUCAS kamikaze drones. The Starlink satellite communication platform can replace the GPS. The system requires a map. It can connect with Starlink’s location information. Starlink uses a similar technology. To GPS. For tracking the transmitting modems. This makes it possible to control drones and other systems. Like the smart bombs to target with the GPS. This kind of technology. Created originally for the Ukraine war makes the GPS unnecessary. These kinds of systems are maybe planned to be used by the Pentagon to protect the GPS system for the nuclear weapon’s core operations. 

When the GPS is used. With a large-scale conventional weapon guidance, it’s possible that the opponent gets its frequencies. And that can mean that in the case of nuclear war. The enemy might know. The frequencies of the GPS. And tries to jam them. When some systems are used all the time. There is a possibility. That the enemy knows its details. There is a possibility that the enemy even tries to spoof the location information. And even tries to aim weapons at the opponent’s own targets. This means that the submarine can fire on its own cities. And this is one of the reasons why nuclear weapon control must be separated from other weapons. 

https://www.twz.com/space/pentagons-plans-to-track-aircraft-from-orbit-accelerated-with-new-4b-spacex-deal

https://www.twz.com/news-features/cost-to-link-lucas-kamikaze-drones-to-starlink-highlights-pentagons-ever-growing-dependence-on-spacex

The new chip uses light instead of electricity to process information.

“An artist’s illustration of a photonic valleytronic chip for information processing. Credit: Dr. Chi Li”. (ScitechDaily, Scientists Create Tiny Chip That Uses Light Instead of Electricity To Process Information)

The new model. The photonic microchip is based on valleytronics. “The breakthrough centers on an emerging field known as 'valleytronics,' which aims to store and process information using quantum properties inside advanced materials. Scientists have long viewed the technology as a possible path toward faster computing, lower energy use, and more powerful communication systems. But one major challenge has held the field back: no one has successfully combined all the key functions into a single compact platform.” (ScitechDaily, Scientists Create Tiny Chip That Uses Light Instead of Electricity To Process Information)

Many models have been developed to replace electrons and electricity with light in computers. The photonic computers. Or, photonic microchips are tools that replace electricity. By using laser light.  In the binary versions. The computer uses a certain brightness to transmit. Ones. And zeros. Brighter light usually means one. And a dimmer light can mean one. But there is also a possibility. To exchange. Those values. like. That one is dimmer, and zero is brighter. This helps the computer. To see if the electricity is cut. In the photonic computer, the system is usually. 

Sends laser beams into the photovoltaic cell. This makes it possible to transform electric impulses into laser beams. And oppositely transform electric impulses into photonic information. The photonic system requires less electricity than electric systems. In primitive quantum systems. Light can travel through different routes. The UV. And IR wavelengths can mean. Zero and one. If the system uses UV light. Or visible light frequencies. That heat load is lower than the IR can give. 

But the new method. Called: valleytronics. It can be the game-changer. “Valleytronics (from valley and electronics) is an experimental area in semiconductors that exploits local extrema ("valleys") in the electronic band structure. Certain semiconductors have multiple "valleys" in the electronic band structure of the first Brillouin zone, and are known as multivalley semiconductors. Valleytronics is the technology of control over the valley degree of freedom, a local maximum/minimum on the valence/conduction band, of such multivalley semiconductors.” (Wikipedia, Valleytronics)

The valleytronics allows for trapping multiple qubits. That form in spintronics in those valleys. “The term was coined in analogy to spintronics. While. In spintronics, the internal degree of freedom of spin is harnessed to store and manipulate. And read out bits of information, the proposal for valleytronics is to perform similar tasks using the multiple extrema of the band structure, so that the information of 0s and 1s would be stored as different discrete values of the crystal momentum.” (Wikipedia, Valleytronics)

As we see in the image above. The valleytronic chip involves small valleys. That allows the system to control and manipulate light by turning those quantum cylinders. 

The new system connects ultra-thin materials with the light and its quantum properties. Those materials are only a couple of atoms thin. And they can control light in new ways. “Photonic devices use light to achieve massive bandwidths, ultra-fast data transmission speeds, and lower energy consumption, so what we have achieved has strong potential for applications in quantum computing, advanced imaging, and next-generation optical communication systems.” (ScitechDaily,Scientists Create Tiny Chip That Uses Light Instead of Electricity To Process Information)

https://scitechdaily.com/scientists-create-tiny-chip-that-uses-light-instead-of-electricity-to-process-information/

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

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

The Russian new ocean floor nuclear missile project is not a new idea.

“Russian efforts to deploy nuclear-armed ballistic missiles in the ocean may have been underway for years and could involve previously unknown methods, according to Western intelligence assessments. This conclusion follows extensive surveillance of Russian operations in the White Sea, a bay of the Arctic. Ocean, reported by German outlet Tagesschau. (UAWire.com, Russia’s secret ocean-floor nuclear missile project raises alarm in the West)

The idea of military bases on the sea floor is not new. Even from WWII. Researchers made plans. And warnings about the military bases, built in the shipwrecks. In some visions, the underwater missile base can be simple. The submarine wreck. There is a submarine that hosts the crew. That operates its nuclear weapons. The submarine can play a wreck. But there are more complicated systems. 

In some bad visions, the 100-300 mt. Poseidon torpedo can wait on the seabed for an order to attack. In some other versions of that dark vision, there are nuclear mines on the seafloor waiting for detonation. The mine can wait just under the ocean seafloor slopes. And they can form a landslide. When the order comes. The mine will release its weight. Then it starts to rise to the optimal depth. The optimal depth means that the weapon can send. A devastating tsunami. To hit the coast.  

These kinds of weapons are planned to lie at the bottom of the Baltic Sea. Or maybe near the coastline of the UK and the U.S.A. 

At the end of the Cold War era, there were rumors that the Soviet Union deployed nuclear missiles, or some kind of nuclear missile bases, in the lakes or on the floor of the Baltic Sea. Those nuclear bases could be nuclear missile submarines that are sunken on the ocean floor. The crew of those missile stations would be changed. By using some kind of rescue submarine as a support unit. The crew goes. Through the air lock. That kind of missile base could make. 

A surprise attack from the coastline of the USA. Another model is that even large-sized missile tubes can be positioned on the ocean floor. Or the missile silas can be drilled in the sediments. The system can basically host even the large-sized Sarmat missiles. In some models. The remote-controlled torpedo stations or the vehicles that can move on the ocean floor like cars can shoot torpedoes at the bottom of ships and other submarines. In some futuristic visions, the system that transports nuclear weapons can be an underwater hovercraft. That system can slide above the bottom without a trace. Those kinds of systems were predicted in some futuristic novels. And maybe the nuclear weapon silos at the bottom of the ocean already exist. 

https://moderndiplomacy.eu/2025/10/29/poseidon-torpedo-a-game-changer-in-nuclear-deterrence/

https://www.uawire.org/russia-s-secret-ocean-floor-nuclear-missile-project-raises-alarm-in-the-west

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

https://en.wikipedia.org/wiki/RS-28_Sarmat

The new 3D printer increases productivity and accuracy 70%.

“Holographic projection of a human ear model on a sample vial. Credit: 2026 Adrien Buttier/EPFL CC BY SA” (ScitechDaily, New Holographic 3D Printing Method Is 70x More Efficient)

The 3D printer systems can also assist other production methods. The 3D printing system. It can be used. To create the models for casting molds. The regular system prints material layer by layer. In regular casting technology. The 3D printer makes the object. And then the ceramic mold will be made around that thing. 

The new hologram-based printing system can make 3D printing even more accurate and effective. The growth of efficiency. It is about 70%. The system turns the hologram straight into a physical object. ScitechDaily describes this system like this. 

“The technology, known as tomographic volumetric additive manufacturing (TVAM), works more like a CT scan in reverse than a traditional 3D printer. Instead of stacking material one layer at a time. The TVAM system projects patterns of light. Into a rotating vial filled with photosensitive resin. Wherever enough light energy accumulates, the liquid rapidly solidifies into a complete 3D structure”. (ScitechDaily, New Holographic 3D Printing Method Is 70x More Efficient)

"During testing, the team produced millimeter-scale objects in seconds and centimeter-scale objects within minutes. The phase-controlled system also supports self-healing beams, allowing the printer to create more accurate structures in materials that scatter light, including those containing living cells." (ScitechDaily, New Holographic 3D Printing Method Is 70x More Efficient)

But the ability to use so-called.  Cold photo-reacting resin allows the system to drive living cells into the form. That operators want. The resin can carry living cells into the form. That. The operators want. And that thing could make it possible to create the organs and even limbs. 

And maybe in the future, that kind of system. They can make it possible to clone entire humans. In some futuristic visions, this kind of system can make interstellar voyages possible. The interstellar spacecraft carries. The humans whose genetic code is stored in a digital form. When that craft is close enough. The destination. The printer system transforms those digital creatures into a physical form. It creates cells and DNA that can be used to turn the digital model into a physical human. 

The resin could act as a mold. Those things. Like tissue printing systems can use. These kinds of systems. They can also. Make it possible to create more accurate molds and models for the regular metal-based 3D printers. 

The photosensitive resin can be used to create a test piece. That is used. For fitting the real pieces into the entirety, like machines. The photosensitive resin can also act. As the mold for the casting mold. The ceramic mold will be cast around those pieces. And this brings new accuracy for those systems. Even if some systems are made for some particular functions. There is also a possibility. To use those systems also for other purposes. 

https://scitechdaily.com/new-holographic-3d-printing-method-is-70x-more-efficient/

The new space shuttle concept could increase European space independence.

The Vortex is a European response to U.S. superiority in space. This new concept is designed to fly to space and land like an airplane. The concept involves the ability for spaceborne refuelling. The shuttle can dock the rocket stage behind it. And when that rocket stage is empty. The system can remove it, and then dock another stage to that point. This kind of application can turn the Mars flight closer. The stage that the system docs can also involve a nuclear thermal rocket, NTR. Application. So the system can launch the manned module to the Moon orbiter. And there the system switches the nuclear rocket application to that module. 

This type of system is the tool to achieve domination in space. The space shuttle, or reusable space plane, is a tool that can serve both civil and military purposes. Space plays a greater role in modern warfare. Things like drone swarms use satellite communication. 

And satellite-based targeting and intelligence applications. Many military systems. Like GPS-guided bombs require satellites.  And also. Things like artillery and air support. Require the precise position of one's own and enemy troops. Without that information, the fire will fall into its own positions. Or, it's otherwise ineffective. 

By destroying satellites that transmit operational orders to drone swarms and location information, the system becomes useless. In the same way, if things like radar satellites are destroyed. That decreases. Those satellite-based systems' ability to get information. The system that destroys the radar satellite can be based on the same technology as the AGM-88 High-speed anti-radiation missile, HARM. The system would be the max-sized HARM missile that homes in on the radar satellite. By using its radio transmissions for targeting routines. 

The space shuttle can operate as a space fighter. Space junk is also a problematic thing. There is always a possibility that. If somebody collects the junk satellite back. To the ground. That actor can get things like. Satellite’s communication frequencies. Or,some other highly-classified information. That makes it possible to jam the communication signals. The space shuttle can return those satellites. From the orbital trajectory. 

Another thing. In space junk. It is more devastating. There is a possibility that the fractional orbital bombardment system, FOBS, satellites are lurking in the space junk. The FOBS satellite can play. Used rocket stages or malfunctioning satellites. The orbital bombardment platforms. They are one of the most terrifying weapons. That was ever created. The space shuttles can also host remote-controlled laboratories. Those laboratories can be used as space factories. The zero-gravity conditions allow. To grow perfect crystals and other things. 

The most interesting parts of those orbital space systems are that. The system can be a drone that operates as an atmospheric satellite. The orbital system can hold those drones in the capsule. That returns to the atmosphere after they get orders. Those drones can offer. The communication support for some areas. They can act in the same role as orbital satellites. And of course, those drones can also operate as strike systems. So they can act as kamikaze drones. Or shooting drones. 

https://interestingengineering.com/military/europe-vortex-spaceplane-dassault-ohb

https://en.wikipedia.org/wiki/AGM-88_HARM

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

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

New robots called Cross-Link Collective didn’t use commands for self-organization.

 

“Robot swarm self-organizes into flowing chains without centralized control.” (ScitechDaily, ‘Like a flowing material’: Robot swarm uses physics, not commands, to self-organize)

There is a possibility. To use Velcro hooks to destroy the bacteria. The bacteria pull the particle. That. It thinks.  As food. Inside it. Then the chemical environment straightens the Velcro hook.  That damages the protein shell. Of the bacteria. The system uses a thing called mechanical memory. This means that the structure can repeat backwards. An every single turning. That the user makes for it. 

A robot swarm that used physics, not commands, for self-organization. That makes it possible to create structures that can act like an amoeba. The miniature robots can make things like liquid robots. That can change their form like T-1000. In the Terminator movies, reality. Those small robots can carry microchips. Inside them. 

“Researchers say the robots rely on 'mechanical intelligence' instead of advanced computation or communication systems. Their physical interactions allow coordinated movement to emerge naturally as the modules continuously connect and disconnect while moving.” (ScitechDaily, ‘Like a flowing material’: Robot swarm uses physics, not commands, to self-organize)

Those robots don’t need centralized commands. But they can carry microchips to targeted points. 

“The system, called the Cross-Link Collective, is made up of dozens of narrow robotic modules that can latch onto one another using weak Velcro connections. Individually, the robots move slowly and struggle in difficult terrain. But when linked together, they begin acting as a coordinated collective capable of navigating obstacles and inclines.” ScitechDaily, ‘Like a flowing material’: Robot swarm uses physics, not commands, to self-organize)

Those robots were made by researchers at Cornell University. Their size is quite big. But their nano- or minisize colleagues. Can raise medical treatments to a new level. 

The self-organizing robots can make many things. They can clean surfaces. They can remove dangerous organisms. And those systems can replace chemical weapons. 

There are plans to use. The DNA-controlled nanomachines for making structures through self-organization. The microchip-controlled system can select the DNA sequence that the nanomachine reads. And then those systems can get any form. Those cyborg amoebas can make impressive things. They can slip into the houses. And those systems can read information that travels in cables. 

Nanorobots can block leaks in fuel lines. They can also assist surgeons. And they can block blood vessels that transport nutrients into the cancer. This means that nanorobots can block blood vessels. Or they can simply fill the targeted cells using nanomachines. 

The mechanical intelligence causes that. When the nanomachine slips into another chemical environment. That thing makes the robot change its form. 

“Each robot measures roughly 200 millimeters long and 20 millimeters wide. A small internal motor drives the module to repeatedly switch between an “I” shape and a “U” shape, creating forces that push it forward across surfaces. Weak Velcro patches at both ends allow nearby modules to temporarily attach and detach as they move.”  (ScitechDaily, ‘Like a flowing material’: Robot swarm uses physics, not commands, to self-organize)

Their size. It is so big that they can make many other things. Than just. Blood vessels. They can operate on a larger scale in structures. Like fuel tanks. 

But it’s possible that those robots can make many other things. They can block blood vessels. And they can close the blood leak. And the same ability that makes those systems excellent medical components makes them the worst weapon that we can imagine. The same system. That can block the blood vessel. This transports blood into damaged tissue. It can also block blood vessels from enemy operators or a person. 

Targeted for assassination. Unlike the poisons. Nanomachines are chemically neutral tools. They can hide in margarine. Or some oil. Their effect is purely mechanical. So, that thing means. Those sensors and dogs don’t see those tools. The nanomachine can slip the oil droplet into the bacteria. They can destroy bacteria by covering their mitochondria. Using oil droplets. Those things deny the mitochondria's operations. 

https://interestingengineering.com/ai-robotics/cornell-cross-link-collective-robots

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

Light-matter particles can replace electrons in high-power microchips.

“In this illustration, light is coupled into a nanoscale cavity and interacts with an atomically thin material, creating exciton-polaritons. These hybrid particles combine light’s speed with matter’s ability to interact, enabling optical signal switching. Credit: Zhi Wang” (ScitechDaily, Light-Matter Particles Could Revolutionize AI Computing)

AI pushes electronics to their limits.

“Electrons carry an electrical charge, which creates problems as computer chips become more advanced. Moving electrons through materials generates heat and resistance, wasting energy and making systems harder to cool. Those challenges are growing as AI hardware must process and transfer enormous amounts of data.” (ScitechDaily, Light-Matter Particles Could Revolutionize AI Computing)

Light-matter particles can replace electrons in high-power microchips. Those particles, known as exciton-polaritons, are so-called quasiparticles. Those particles are also known as “virtual particles”. They are like whirls or holes in the quantum fields. “In condensed matter physics, a quasiparticle is a concept used to describe the collective behavior of a group of particles that can be treated as if they were a single particle. Formally, quasiparticles and collective excitations are closely related phenomena that arise when a microscopically complicated system, such as a solid, behaves as if it contained different weakly interacting particles in a vacuum”. (Wikipedia, Quasiparticle)

"Frenkel exciton, bound electron-hole pair where the hole is localized at a position in the crystal represented by black dots" (Wikipedia, Exciton)

An exciton is the electron hole. That orbits the atom’s core. 

“An exciton is a bound state of an electron and an electron hole. They are attracted to each other by the electrostatic Coulomb force resulting from their opposite charges. It is an electrically neutral quasiparticle regarded as an elementary excitation primarily in condensed matter, such as insulators, semiconductors, some metals, and in some liquids. It transports energy without transporting net electric charge.” (Wikipedia, Exciton)

“Coulomb's inverse-square law, or simply Coulomb's law, is a scientific law of physics that describes the amount of force between two electrically charged particles at rest. This electric force is conventionally called the electrostatic force or Coulomb force.”(Wikipedia, Coulomb’s law)

This kind of structure. In a quantum field. It can collect a quantum field. In the middle of it. In theory, that hole can also trap a photon. Inside it. This helps. To make a photon superposition between two photons. 

In physics: “In physics, polaritons  are bosonic quasiparticles resulting from the strong coupling of electromagnetic waves (photons) with an electric or magnetic dipole-carrying excitation (state) of solid or liquid matter (such as a phonon, plasmon, or an exciton). Polaritons describe the crossing of the dispersion of light with any interacting resonance.” (Wikipedia, Polariton)

In new processors, polaritons can move across the exciton lines. 

The problem with high-power computing is the infrastructure. Or, the physical system. When electrons travel in microchips, they release energy. That energy is seen as heat. 

It is possible to replace electrical wires with electrons that flow through nanotubes. Those free-electron microchips can create less thermal waste. Than regular microchips. In the cases. Of the regular microchips. The resistance in the wires is a problem. It forms heat. That heat causes oscillation. And this destroys information. In these cases, the electrons travel across the air.

Or in nanotubes, which causes another problem. The electron reaches the sensor with a higher energy level. In binary systems, those electrons can have a certain energy level. That acts as a limit. When the energy level. It is higher than the limit. The value is one. And below that limit, the value is zero. But the problem is that those electrons hit the sensor at a higher energy level. And that causes heat. 

When researchers want to create a microchip. They want to transport information, not electricity. The light-matter particles are. A good tool for that. Their energy level is lower than that of electrons. This decreases the thermal problem. And it increases the power of the microchips. 

https://scitechdaily.com/light-matter-particles-could-revolutionize-ai-computing/

https://en.wikipedia.org/wiki/Coulomb%27s_law

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

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

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

New technology allows bypassing single neural tracks.

“Researchers have engineered proteins that act like customizable electrical bridges inside the brain, enabling targeted communication between specific neurons. In worms and mice, the system altered behavior and brain-wide activity patterns, offering a glimpse into how scientists may one day reprogram faulty neural networks. Credit: Shutterstock” (ScitechDaily, New Brain “Bypass” Technology Could Transform Treatment for Neurological Disorders)

The new technology. Based on proteins. That allows researchers to create shortcuts over individual neurons. The technology is called LinCx. The system means that. The protein can make a bridge. That allows. To shortcut damaged axon lines. This means that. This technology can make it possible to give some kind of treatment. To things like Alzheimer’s. But when we think about the use of that technology. We can think that there are some kind of antennas in those proteins. Those metal bits or crystals allow. The transport of information into those proteins. 

The system can use radio waves for that process. In that case, those proteins act as antennas. These transmit information to neurons. This kind of system allows. For the remote control of things like insects or some worms. The ability. To remotely control worms. Makes it possible to use them as biorobots. That removes the sick tissue. This is one of the things that can boost the bioinformation technology. The protein antennae. Also, make it possible. To create new types of microchips that communicate with living neurons. 

The semi-biological microchips are tools that can make it easier to create miniature robots. The neuron processes information. And the microchip. Or the non-organic part of the computer acts as the data storage. The system drives information into the data storage. Or hard disks. And then that hard disk transmits information into the neurons. 

Those protein wires make it possible to extend the use of the Brain-computer interface. BCI systems. 

The protein antennas boost the signals. The BCI system can get from the brain. This type of technology can also be used. For returning information to the damaged brains. Researchers know how to clone neurons. The problem with that technology. In the use. The goal of repairing neural damage is to restore lost memories. 

Those protein wires can help. To restore information into the cloned neurons that are used to fix those damages. As I wrote before, the system simply sends the radio waves to those antennas. And then it can restore the right information. Into the right cells. That can make possible to accelerate. Repairing process. The same technology allows for the remote control of animals. And that causes some kind of dystopian visions. The same technology. That. It can be used to control animals. It can be used to control humans. 

https://scitechdaily.com/new-brain-bypass-technology-could-transform-treatment-for-neurological-disorders/

ECM can make drones more effective and protect them against air defense.

Images: InterestingEngineering

The new ECM systems can help improve the drone's survivability. The Storm Shield system. It is an adaptable ECM system. That fits into many platforms. The system can turn drones much more dangerous than ever before. In the same way as the table-sized GPU-based computers. That can run complex codes can bring new independence to drone systems. This means that ECM and drones are the ultimate combination. And the defense is far behind what it should be. 

The problem with the defense is always simple. All defense systems are planned. To use against large targets. Small-sized drones that operate as swarms can be tools. That suppresses air defense very effectively. The drone swarms require larger carriers. So the large-sized drones can deliver those drones over the target areas. The purpose of those drones is to carry the miniature drones into strike distance. 

Similar systems, like the Storm Shield, can be modified to communicate with drone swarms. The high-flying aircraft can search for drones using AI-boosted visual, infrared, and radar scanners. In some visions, the drone-based ECM can include a miniature version of the “Doomsday Airplane”. The flying USB stick that can reprogram other drones. 

There is a possibility that Russia tries to redirect Ukrainian drones to Finland and the Baltic on purpose. That can happen by using falsified location information. This means that they replace the GPS or Starlink. By using GLONASS signals. Another way. It could be that Russia tries to hack the guidance consoles. 

So they try to take drones under their control. Or when drones turn in a certain direction. They put the jammers on. This should cause a situation. That those drones continue in a straight direction. Or in some scenarios, Russians try to slip their own drones into those drone swarms. That. Those drones seem to come from Ukraine. 

Could Russia make things like fast-reacting hacking? Maybe, maybe not. But they might try those things. 

Images (Interesting Engineering, E-Bombs: The Allure and Peril of High-Power Microwave Weapons)

The problem with drone defense is this. There are so many drones. The air defense can use all its ammunition. In some scenarios, drones are used. To force. The air defense is to shoot all its ammunition. The rockets and missiles are good tools. But the problem is. The limited number of ammunition. Laser systems and drones are the tools. That can make a better defense. 

The drone can also carry lasers. Or a so-called EMP-bomb. The EMP bomb that is installed in drones can destroy the air defense. The EMP systems don’t necessarily require explosives or nuclear blasts. The system. It can use the technology. That was created for the CERN LHC accelerator. 

The high-power microwave, HPM bomb, is the tool that can break almost all electronics in the target area. 

The system loads capacitors. And then. It releases that energy as a radio or microwave burst. In those cases, the explosives can press the battery or capacitor to maximize the energy load. But that is not necessary. 

The laser weapon can be installed on a high-flying drone. The lasers or EMP. Are tools. That can also destroy wire-optical drones. The EMP. That comes. From below. It can burn the microchips from the drones. The EMP can affect entire drone swarms. But if those beams hit the electric lines, they can cause a dangerous voltage spike. 

The high-power capacitors can be used. To create the high-power radio impulse that switches all electric systems off. The system is being used. Basically, similar technology. CERN uses its Large Hadron Collider, LHC. The system loads capacitors. And then it aims the high-power electromagnetic impulse, radio waves, or microwaves at the target. In the same way. The drone can use an EMP to shut down the defense. 

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

https://interestingengineering.com/military/electronic-warfare-tech-unmanned-systems-operation

https://interestingengineering.com/innovation/e-bomb-peril-high-power-microwave-weapons

http://www.superconductors.org/emp-bomb.htm

One of the biggest threats to data security is old-fashioned platforms.

The GPU (Graphics processing unit)  cracks passwords in minutes. The problem with commonly used protection algorithms is that hackers know their structure. This makes it possible to create a tool that can break this protection system. 

“FACEPALM: A couple of years ago, Kaspersky Lab tested the resilience of hashed passwords against a modern gaming GPU. Now, the Moscow-based security firm has updated its study and found that things are getting slightly – but undeniably – worse.” (Techspot)

“Just in time for World Password Day, Kaspersky is reminding everyone that outdated hashing algorithms such as MD5 remain among the worst choices for storing passwords. In a recent post, the security firm revisited a 2024 study examining the "crackability" of real-world passwords. The conclusion is not surprising: password cracking speeds continue to improve, which means overall security is steadily getting worse.” (Techspot)

“Hashing algorithms are designed to convert strings of arbitrary length into fixed-length hash values. Even the smallest change in the input text produces a completely different hash, meaning that a properly secured hash database should protect user passwords from crackers and cybercriminals even if the database itself is leaked.” (Techspot))

Old-fashioned algorithms and platforms pose a major security problem. Those algorithms are created for response attacks. That was made of the old-fashioned microchips. Those microchips are very slow. If. We want to make some kind of brute-force attacks against old-fashioned protection algorithms. The new processor can generate passphrases more effectively than old-fashioned computers could protect them. In normal situations, the ASCII code is the letter’s numerical representation. 

It is counted by using some binary numbers. The thing. What makes passwords more secure is the ability to use special marks like brackets. When the system starts to break the encryption. It starts to guess the most common passwords. Then it starts to replace. Letters using special marks. This makes it possible that the system will guess passwords quite easily. 

This means that if the attacking software has complete dictionary books. And then things like statistical data about the most common passwords can help those attackers. The data mass that the system can use for training. It can make those attacks more effective. The problem is: how to train the AI? The user can use the forms and then write every single word from the dictionary book. Then that person replaces every. Single letter. One by one, using some special mark. 

There are about. 250 000-100 000 words in the English language. When we want to make the form. There are special marks that replace every letter. And that process requires time. If we use only the special marks over the numbers and the question mark, we have ten replacement marks for each letter. This means that. Making those possible modes for each word requires a lot of time. In real life, there are more possibilities. 

So, if we want to make an AI-based attacking algorithm that guesses passwords. That requires a lot of. work. And in that case, we think that person uses English. The problem is that. The person can use any language in the world as a base for a password. This makes this type of attack. Very hard to make in real life. The attack tool itself is not very hard to make, but it requires a lot of crew. Training the AI is not a very simple process. 

https://www.techspot.com/news/112345-kaspersky-warns-passwords-hashed-md5-algorithm-can-cracked.html

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

Two Russian satellites flew 10 ft (3m) apart.

Space.com tells that “The satellites, known as COSMOS 2581 and COSMOS 2583, got within just 10 feet (3 meters) or so of each other on April 28, according to COMSPOC, a Pennsylvania-based space situational awareness software company.” (Space.com). This means there is something going on in Orbiter. These kinds of maneuvers require very high accuracy. And there can be a couple of very considerable things that this kind of maneuver can mean. Russia is at war in Ukraine. That war doesn’t go well. So, those satellite tests must have some high-priority aspect. Because Russia needs spy satellites rather than make tests with that kind of satellite couple. There are three reasons why those tests are made. 

1) The Russians test technology that can be used to “wake up” the sleeping satellites. There is a possibility that some of those satellites are nuclear weapons that are hidden in space. Those fractional orbital bombardment systems, FOBS, can hide in a high trajectory. This scenario is based on a model. Some Soviet sea-observing radar satellites carried nuclear reactors. One of those satellites was COSMOS 954. The satellite dropped in Canada. On the ice of a frozen lake. 

Normally, those nuclear-powered satellites. Or their nuclear reactors were sent to high orbit. When their mission was over. Those nuclear reactors involved high radioactive material. It’s possible that the radiation from those nuclear reactors could cover the radioactive glow of the nuclear weapons. This means that another satellite could come close to those sleeping weapons, and then wake them up. In this scenario. The FOBS is a so-called silent satellite that plays some kind of space junk. 

The FOBS can be like a satellite that falls to the ground and detonates its warheads at the right altitude. Another version is the cannon-type system. Which pushes nuclear grenades into the atmosphere. The system can use roll-shaped drivers. Or some kind of explosives to drive those weapons to attack. The ability to return those warheads for repair and condition checks is very important. So maybe Russians simulate the warhead transfer in that operation. 

“COSMOS-954 satellite artist rendition. Note: The image is a pure fantasy depiction and has nothing in common with the real COSMOS-954 Radar Ocean Reconnaissance Satellite, RORSAT, and should not be used to illustrate articles on Cosmos-954 or RORSAT” (Wikipedia, Cosmos-954)

2) Russian plans to capture other satellites. This means that the satellite. It has a mission to capture some targeted satellites. Flies to the targeted satellite. And then it can put the net over the satellite. And pull that satellite with it. 

3) The satellite can exchange data with other satellites using the long “USB”-type system.  Data transmission can also happen by using lasers.  That allows it to change the programs of other satellites. These kinds of satellites can activate the secretive systems in other satellites. And they can also act as training tools for something bigger. 

If a satellite can fly very close to another satellite, it can capture that other satellite’s data transmissions. These kinds of systems can also download some information. Which is too risky to send over the radio waves. Some of those activation codes. It can also be meant for the Russian missile submarines. 

The satellite will get the launch code. And then the ground station sends the signal “launch” to those satellites. Then the satellite sends the recorded launching codes to missile subs. Or in the worst scenario, there could be hidden nuclear weapons in foreign territory or deep on the bottom of the ocean. This means that those satellites can send the launch codes also for those hidden nuclear weapons. The 50-100mt nuclear weapon. That launched on the ocean floor can cause a devastating tsunami. 

So,if Russians want to activate their killer satellites or FOBS systems, they can load. That activation code. To the satellite on the ground. Then that satellite transfers the action code to other satellites. The nuclear-armed killer satellites can also act as EMP weapons. 

https://www.globalsecurity.org/wmd/world/russia/fobs.htm

https://www.space.com/space-exploration/launches-spacecraft/whatever-russia-is-testing-its-sophisticated-2-russian-satellites-get-within-10-feet-of-each-other-in-orbit

https://en.wikipedia.org/wiki/Kosmos_954

https://www.globalsecurity.org/wmd/world/russia/fobs.htm

https://en.wikipedia.org/wiki/US-A

Quantum acoustics can revolutionize sensors and many other technologies.

“Computational modeling reveals how stretching and squeezing a diamond’s crystal lattice precisely tunes the dynamic quantum states of silicon-vacancy defects, paving the way for highly adaptive, ultra-precise quantum sensors. Credit: SUTD” (ScitechDaily, Stretching Diamonds Unlocks Powerful New Quantum Sensing Abilities)

Quantum acoustics can be the tool behind new types of sonar technology. And it can also make it possible. To create new engine systems and acoustic protective fields. Or they can move objects on a quantum scale. 

The diamond. The laser beam is put to oscillate. Can send an acoustic beam. Though the oscillation amplifier. That makes it possible to create extremely powerful acoustic waves. When the system sends laser beams to the diamond. That causes oscillation in the structure. 

Acoustic lasers. They can be used to measure gravity fields. In those cases, the acoustic lasers hover nanoparticles in the chamber. And the system can measure the behavior of those particles. But this kind of technology makes it possible to create extremely accurate sensor technology. 

The nanoparticle hovers in the chamber, and the system observes its oscillation. This system can create quantum microphones. There, those nanoparticles hover in nanotubes. And the systems can observe their oscillation. This kind of sensor technology is a new tool for ultra-accurate microphones. And maybe they are used in systems that news claims to see a human heartbeat across kilometers. 

But quantum acoustics makes it possible to create new types of sonar-systems. The quantum acoustic system. It can be the two internal fullerene balls. Or a fullerene ball that involves other particles. It can act as a sound source. When the electromagnetic system sends waves to those structures. The oscillation. Turns into wave movement. 

In some models, this kind of acoustic system can act. As coustic weapons. The DNA molecule is pulled through those nanoballs. Then that makes the DNA bites. Act like a guitar string. That puts the other DNA molecules around them to oscillate. And that can break the DNA double helix structure. 

The quantum organs. That are. The miniaturized LRAD systems can also create acoustic protective fields. The quantum acoustic system can create a powerful acoustic wave. The acoustic wave can turn the air stronger than steel. That can crush incoming objects. 

Or the system can make. The acoustic drill. The high-precision acoustic beam can drill structures. The nano diamond is in the fullerene ball. Then the system sends the acoustic wave to that diamond. The carbon chain on the diamond focuses the acoustic beam to the target. When something closes the surface, the system sends that beam to the incoming target. That can break their structures. 

“Phonon lasers are used to trap and levitate nanoparticles in the laboratory of Nick Vamivakas, the Marie C. Wilson and Joseph C. Wilson Professor of Optical Physics at the University of Rochester. Credit: University of Rochester / J. Adam Fenster” (ScitechDaily, This New “Sound Laser” Could Measure Gravity With Stunning Precision)

“A new ultra-cold device developed at McGill University can generate controlled sound-like quantum vibrations known as phonons. The discovery could open the door to future technologies that use sound in ways similar to how modern systems use light and electricity. Credit: Shutterstock” (ScitechDaily, Scientists Create “Quantum Sound” Device That Works Near Absolute Zero)

The system that we can call quantum organs can revolutionize acoustic technology. The quantum particles. Like fullerene hovers in a nanotube, which aims the sound signal. Then the system aims laser beams at those particles. Which puts them into oscillation. This makes it possible to create the quantum loudspeakers. Those systems can be the new tools in sonar technology. But the quanutum loudspeakers. It can also make the new types of engine systems possible. 

The quantum acoustic engine means the electromagnetic system. The quantum structure turns electromagnetic waves into acoustic waves. One of those systems is the so-called laser engine. The laser beam that shot through the nanotube expands the gas in that tube. And that expanding gas forms a wave movement. That pushes craft forward and makes the levitation possible. In some versions. 

This futuristic system. That is still. At a theoretical level. Uses nanoparticles to create those waves. The microwave or laser beam makes those particles oscillate. And they oscillate with a wavelength. That is the same. As their diameter is. This means that if the acoustic levitation system uses infrasound. It can make those levitating systems silent. Quantum acoustics is a multipurpose tool. 

https://scitechdaily.com/scientists-create-quantum-sound-device-that-works-near-absolute-zero/

https://scitechdaily.com/stretching-diamonds-unlocks-powerful-new-quantum-sensing-abilities/

https://scitechdaily.com/this-new-sound-laser-could-measure-gravity-with-stunning-precision/

Without data centers, it’s impossible to compete with U.S. actors.

Without diversity. The accumulation of the AI ecosystem continues. The data center is the brain of the AI ecosystem. Without those centers, the ICT ecosystem cannot respond to the need. 

Data centers are required to guarantee diversity in the ICT ecosystem. Without data centers, we have no diversity. Our ability to choose service providers is limited. If the service provider cannot offer their services. Those services require platforms that can run them. So, that means that the data and data services start to accumulate. Into a few hands. Or. This ongoing process continues. Without data centers. There are no competitors. For big companies like Google and Apple. The competitors. Require infrastructure. That supports systems. Those are suitable. To operate and process. Large data masses.  

So, do we need more data centers? Fact. It is that. We need choices. When Apple denied access to its Vibe coding software, people must realize how much power those companies have. Big actors. In the ICT business. They can select their own customers. And that can give an advantage. For actors. With access. To those encoding software tools. This means that without choices, the power of big actors rises to the next level. The ability to select who can use the effective programming tools. And who can not use those tools gives access to other companies' products. 

What does this thing mean? Without choices, the AI markets are starting to concentrate in a few hands. And that gives. A very big power in their hands. The AI is a powerful tool in the hands of people who can and dare to use it. The professional program and application development require effective tools. The AI can make routine programming without any problems. And that means the use of effective. AI gives a very powerful advance for system development. By using remote-control applications, a single. A qualified programmer can operate even tens of independent AI agents. The AI can sniff errors very fast. And that makes R&D work more effective. 

And AI is the tool that allows 24/7 program development. The company can share its crew into morning, day, evening, and night shifts. This makes the R&D process very fast. This means that those people who operate AI chatbots in those cases can work like in all other workplaces. They can make code in three shifts. Because the AI can operate quite independently. So, who is a more effective worker: a human or an AI? The answer is simple: Who makes fewer mistakes in time units and code lines is the one who is more effective. 

People say that about 10% of the answers that AI gives are wrong. That means 90% of the answers are right. The fact is that the AI can reach. This accuracy 24/365. The AI never tired. The question is, can an average-level programmer reach an accuracy level 90 % all the time? So, what happens to workplaces? The thing is that the AI is not as effective an actor as people thought. In the same way. As the AI Internet took workplaces from people. At the dawn of the Internet. People said that. Traditional things like cash money, paper letters. And other things like that were more trusted and accurate. But the Internet stabbed those things. 

When people started to use the internet. It turned more valuable, more secure. And more effective. The next big step was the cloud-based platforms.  Those cloud-based applications outsourced the need for computing power to servers and finally to data centers. Previously, those data centers acted as servers. But then the large language models, LLM, started to run on those servers. The LLM or algorithms. Require. Lots of calculation capacity. Those systems require the ability to run. A lot of data. Through the processors. The data mass that the system must handle is exponential. To the data mass that traditional cloud services must handle. 

And the problem is that the good service needs users. Without users. There is no way to run those things. Those users bring money and data to train those applications. Without data, the AI is helpless. Without data centers, the actor cannot run the complex algorithm. And without algorithms, there are no customers. The requirement for the ICT services is that they can respond to the need. Without that ability, nobody selects an application. 

We need diversity for ICT ecosystems. Without data centers, there is no diversity. And if there is no diversity, we can be sure that the software industry. Continues to be dominated by a couple of actors. The lack of choices and diversity means. That people must. In the future. Still choose well-known actors as service providers. People and companies must take what is offered. If there is only one or two service or application providers. People must select from those actors. And this is one thing that we must realize. 

Media is secure. As its weakest link is.

Cybersecurity is the new problem. Modern society runs on computers and data-based infrastructure. This means that hackers can cause large-scale damage to the infrastructure at minimal cost. The last case . It was when a Taiwanese student halted the railroads by spoofing the bullet train emergency signals. 

Also, the attack against the Iranian regime was successful. Because hackers made the system boot just at the critical moment. This is one of the reasons. Why we should consider cybersecurity. Security means that the entire infrastructure must be protected. It’s not enough that we protect some military systems. If the hacker causes a rush. By turning the traffic lights off.  

Or raises a drawbridge at the right moment. That causes very bad problems. The big problem is the hardware. That involves malware. The microchip. Which kernel is infected with malware can turn the large-scale systems off at a critical moment. So, if the attacker gives 1000 tablet computers for free. And one of them. 

Slipped into the Pentagon. That can give all the money. That attacker invested in the operation back. Those free computers can also uncover the person’s location to an observer. This thing is possible to make. By using the application that tracks a missing phone. 

The hybrid attacks. The attacker puts the satellite transmitters. Into the network routers, and then that system transmits all data to the attacker’s computer. The attacker’s budget determines the way.  On how the intruder makes the job. And that means that the states always have very large budgets.

In the time of AI, there are no safe places. The attackers can cheat. A regular person to work with them. When we think that leaving social media is a solution for everything, we are wrong. We are naive. If we say that our children must not be in there, and deny them access to it. The denial of social media. Turns the problem. Into another place. 

That problem is that those people can still use them. And they can use them without an adult’s supervision. Young people must dare to say. If somebody is closing. Them in social media. The world is full of people who believe that denials are effective things. The social media accounts are easy to open. By using false birthdays. The big problem is that. Everybody must practice. The media use. We can deny social media to underage people. The problem is that. Those underage people someday reach the full age. 

So, nobody denies their use of social media. Nobody denies. Them. To borrow money from banks. The world is full of evil people. Could it be possible to learn to use social media at an age when parents and other adults can intervene in the actions? If a person learns to use social media as an adult. That can cause. A very big trouble. If a person borrows money at full age. Nobody stops that before it's too late. The innocent-looking question can cause very bad things to people. Big debts can drive a person into criminal gangs. And they can expose a person to blackmail. 

And ask them to make something, like open the social media account for some “nice guy”. And one social media account means that an information operator can slip into the system and deliver propaganda. The problem is this: rules are rules. But people don’t follow them. If we don’t watch our backs, nobody makes that for us. If somebody. Gets our name. 

And a photograph, so that person can open a social media account by using our name. That is the identity spoof.  This is the reason. Why we should use, or at least observe, social media. When an attacker sees. If somebody does not have a social media account. It is easy to create an account. In the name of that person. 

https://www.techspot.com/news/112328-student-brought-multiple-taiwan-high-speed-trains-standstill.html

Hydrogen as the power for submarines and ships.

Above. The Northrop-Grumman Manta Ray

An autonomous underwater vehicle (AUV) needs. A lot of computer power. Maybe: in the future. There are also nuclear-powered versions of the AI-controlled underwater autonomous vehicles. The large-sized, almost full-sized nuclear-powered submarine drones can provide electricity for their high-capacity computers. Those computers are needed for the independent operations. 

The ship or submarine can use hydrogen as fuel for fuel cells or gas turbines. The submarine drone operates 1,257 miles using the hydrogen fuel cells. That thing can be a very impressive record. But there is a possibility of using hydrogen in the gas turbines. An electric ship. It can also use hydrogen for gas turbines. It creates hydrogen from water by using electrolysis. And those gas turbines can make the system faster. The thing is that. 

The combined nuclear and steam (CONAS) system. That used in aircraft carriers and Russian Kirov-class battlecruisers can also be combined with gas turbines. The nuclear-based. Combined steam and gas COSAG engines can be revolutionary propulsion for submarines. In those systems, the small nuclear reactors can give electricity to electrolytic systems. And then those systems can deliver hydrogen to the gas turbines. 

The supercavitation technology can also make those systems more powerful. The nuclear-powered ships that use portable nuclear reactors can operate at very high speeds for virtually unlimited time. The small nuclear reactors. That can fit into the truck containers can turn any ship in the world . Into nuclear-powered. The nuclear-powered. Systems can give. 

The aircraft carriers' unlimited operational time. And the hydrogen-powered aircraft can operate without limits. But today, those aircraft carriers can be like small underwater drones. That releases drone swarms near the coastline. The carrier drone itself. It can look like a miniature version of the ballistic missile submarine. The quadcopters can be loaded as towers behind the hatches. These are similar to missile tubes in larger submarines. 

The small nuclear reactors can turn “Orca” or “Manta Ray” class underwater drones into tools. That has an unlimited operational range. Systems like the Russian  nuclear-powered “Poseidon” (Status 6) nuclear torpedo drones can reach a speed of 100 knots. That means a combination of nuclear reactors and hydrogen-burning gas turbines can give drones speeds. Those are higher than anytime before. The nuclear-powered drones that are equipped with micro nuclear reactors can revolutionize naval technology. 

https://fortune.com/2026/02/21/us-military-airlift-small-nuclear-reactor-first-time-c-17-microreactors/

https://interestingengineering.com/energy/world-first-submarine-drone-travels-underwater

https://www.navalgazing.net/Modern-Propulsion-Part-3

 https://www.naval-technology.com/projects/kirov/

https://www.northropgrumman.com/what-we-do/mission-solutions/sensors/manta-ray

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

https://en.wikipedia.org/wiki/Orca_(AUV)

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

The ethical problem: when should authorities know? And when they should not know?

If we like somebody, we might forget to ask critical questions. In working interviews, sometimes the interviewer forgets to ask about the school history, and a person could pass the interview for a company leader without even having completed elementary school. 

The primary problem with organizations and societies is this: what if somebody breaks rules? What if somebody endangers safety? Where do we put the line? When must the authorities know about things like dangerous plans? What is the limit of suspicion about crimes, and what is unnecessary stalking? Then we must determine things like security. North Korea has a different point of view on that thing. Than Western democracies. 

But what is the limit? When should AI report to law enforcement about people who seem dangerous? If officials hit somebody’s home and find things like assault rifles. That doesn’t necessarily mean that person will do bad things. But if the authorities don’t react. That can cause problems if the person does bad things . And uses AI for planning. That means that shooting could be prevented. But otherwise. The user accounts for AI could be made by using stolen identities. Or hackers can get those passwords. 

This means: those plans can be made by other people. Or. They are made. For destroying the person’s reputation. But if authorities take guns away, nobody can be sure if the person will rule out the threat. If authorities will not do that, and something happens. That causes legal actions in court. This is the problem with predictive actions. Nobody can be sure if the person who seems to make bad things is sure about the action. But if the authorities don’t react. And a person rules out the threat. Which is also. A very bad thing. 

The AI’s ability to collect information is incredible. And that brings one. A very big ethical problem in the world of the net. People consider their privacy, but what if a person uses AI in a way that harms the state’s or a private person’s security? What if some people plan things like bank robberies or school shootings by using AI? Or what if some North Korean intelligence officers establish a company in some Western cities like Toronto, Canada, and then use AI as a hacking tool? When we read the news that the Chinese government denies firms the right to fire workers because AI replaces them. We must realize that the news can be faked. 

The Chinese government has a very big budget for that kind of project. And they give large-scale support to AI development. The main problem is this. The AI development has turned into an arms race. The AI shows its capacities. In the military and intelligence work. And that means the AI is a tool that.  Those overseas actors want to invest. The AI is a tool that allows for observation. And controlling people. The thing that makes AI powerful and effective also makes it dangerous. 

The AI has no feelings. It just sees and reports. So, it's hard to please AI. When people develop AI for observation and intelligence work, they use the same arguments as people who resist AI. The AI has no friends. That means it should be trustworthy and neutral. When AI is used to control police work, the question is, who controls the controller, who observes the observer? If humans follow people like police officers. There is always a possibility that feelings or friendships affect people’s ability to think objectively. 

When AI sees something, it just tells what it sees. It sees that the person puts something into their pocket. It doesn’t see things like clothes, age, or anything other than the action. 

When some people are handsome. That can cause a situation. Where those people can manipulate undercover officers. And this is why the machine view is a tool that can act neutrally. The AI can follow how long the judge keeps files open. If the judge doesn’t even look at the files. Those are brought into the courtroom. Or the inspector doesn’t open things like a thesis in the university, but they make decisions. Those are things that require intervention.  The problem is human, who uses tools and positions. In the wrong way. 

https://futurism.com/artificial-intelligence/two-shootings-openai-stopped

https://futurism.com/artificial-intelligence/openai-school-shooter-tumbler-ridge-lawsuits

The algorithm solved complex problems in seconds.

"A new computational method reveals a faster way to explore intricate quantum systems, pointing toward emerging applications in next-generation computing. Credit: Stock" (ScitechDaily, Quantum Breakthrough: New Algorithm Solves “Impossible” Materials in Seconds)

The quantum system can be almost anything. The quantum pattern can be the CCTV camera. It can be the computer network. And if we want to expand the morphing neural networks. We can think. That subnetworks are like atoms in molecules. The system increases the size of the network coverage. by using the models of molecular growth. The non-centralized data processing. Means that there are no limits on the size of those networks. 

The AI, along with quantum computers, will take material research to the next level. The algorithm solves molecular functions in seconds and can control reactions with greater accuracy. But then we must ask whether that technology brings the quantum encryption apocalypse. So, if we ask. Can a quantum computer-based algorithm break your password in seconds? The answer is more complex than just “yes” or “no”. 

The quantum computer cannot break your password if it doesn’t have the needed information. The system can search for things. Like names of family members.  Favourite foods, or favourite movies, and try them to that password. Those things are most often used as passwords. But. The AI. Even without a quantum computer. Cannot automatically break the password. Things like a limit, how many errors the user can make. Protects the account. 

But the AI and algorithms can open messages that travel in the air. The system captures radio transmission. And then. It tries to open it by generating binary numbers that the system used to hide the ASCII codes. So the code-breaking catastrophe happens. Through the captured messages, not through the user account. 

But the other thing is this. Quantum computers and AI can collect data from multiple sources. Things. Like one paper that. The hacked security camera sees. It can open the path to the system. The system can use face recognition to uncover. The person’s identity. The system can search for people who often visit corporations that handle. Security classified material.

Then it connects that information with the other data matrices. It can try to find. That person’s identity. From public data sources like social media. The system can map the target’s positions by using the surveillance camera networks. AI agents can follow a person stealthily. And the camera must not even turn. The system can benefit from reflections. So, it must not have a visual line to the target. 

Then it must know the place. The image is taken. And then it must search. For the way the usernames are formed. Then it can try. That world with the username. 

The system can collect data about the targeted persons. And then if the person writes. Rarely things to paper. That means there is a higher possibility. That is the thing that person writes is a password. In other cases, the security camera can see. The screen of the computer. That used to change the password. This means that any kind of error in the data security is dangerous. 

https://scitechdaily.com/quantum-breakthrough-new-algorithm-solves-impossible-materials-in-seconds/

Are drones the end of the combat helicopter?

Source: Ukrainian Defence Ministry”

“The proliferation of small, cheap, remotely guided drones has led some to question if crewed helicopters have a viable future in combat.” (FlightGlobal, How the Ukraine war has (and has not) changed the helicopter’s role in combat)

The role of the helicopter in a combat area is strong. Until drones came. And we might ask, what is the future of the helicopter? Today, helicopters are still needed for troop transportation. Cases like Maduro, the Venezuelan president’s capture, are impossible without helicopters and human operators. But helicopters require advancements. Like a higher speed to survive in a combat zone. The new anti-drone kamikaze drones can make operations like Maduro's capture impossible or more dangerous. Those drones can wait on roofs and then attack helicopters. The medium-sized kamikaze drones and cruise missiles can carry air-to-air missiles for attacking aerial targets. 

This means that the drones might not kill helicopters, but they can change the tactics and models of helicopters. But helicopters are also advancing. Active denial systems. Like lasers and microwaves can improve a helicopter’s survivability. Combat helicopters like Ka-52 “Alligator”. Faced a lot of losses in Ukraine. And the reason for that is that. Those helicopters are used near the front line. And those crews were not prepared for drones. The thing is that the tactics are also advancing. The EMP- and ECM-based denial systems can also make helicopters still valuable. Helicopters can use their machine guns, laser-guided rockets, and bullets against the drones. Intelligent ammunition increases those helicopters' abilities. 

Things like high-speed jets and missiles. These are systems that should render helicopters obsolete. Unable to operate. The missile threat caused a situation. There helicopters. Started to operate with jet fighters. The next-generation helicopters can be faster, stealthier, and equipped with multi-purpose systems. Those systems can sweep the area. And destroy the computers. Of the drones. The anti-radiation missiles can affect the drone operators or their control systems. The optical wire-control drone is problematic because the “light leak” uncovers the point. Where the operator sits. Or the location of the control system.  The laser weapon can also cut those control wires. 

Ka-52. This helicopter played a big role in the combat area. There is a possibility. The crews were not prepared for drones. It’s also possible that the lack of fire-and-forget weapons caused lots of losses. If the weapon uses traditional laser guidance. The pilot must keep those helicopters steady. And that gives the defender time to aim fire at those systems. 

“Source: Efrem Lukatsky/AP/Shutterstock

Russia is believed to have lost several Kamov Ka-52 coaxial attack helicopters during the failed air assault on Antonov airport in Hostomel, Ukraine.”(FlightGlobal, How the Ukraine war has (and has not) changed the helicopter’s role in combat)

Source: US Marine Corps

“Ukraine has expressed an interest in purchasing AH-1Z attack and UH-1Y utility helicopters from US rotorcraft manufacturer Bell” (FlightGlobal, How the Ukraine war has (and has not) changed the helicopter’s role in combat)

The helicopter can sweep the roofs by using EMP pulses. When we look at the history of warfare, the new systems cause chaos when they arrive. But then the counter-tactics. And countermeasures are advancing. Helicopters can act as platforms. For drones and counter-drones. The problem with drones is this: anyone can buy them. And anyone can turn them into weapons. A drone is more than a missile. It can be dropped from an aerial vehicle, a satellite, or from a pocket. A drone can lie on the roof of trucks. This allows it to slip into military bases. The battery capacity limits its operational radius. The new batteries. Those that can be reloaded in seconds are tools that can turn drones more capable. The futuristic drones can reload those batteries. From other drones wirelessly. Or. Using the wire that is connected to the manipulator. 

But then back to helicopters. Any protection and weapon systems are useless if they are not in use. The EMP and ECM require activation. And the new types of weapons that put operators to sleep by using signals that activate cerebral centers. In the brain. Can deny the use of drones. But the fact is that. People like drug dealers can also use drones to guard their safety. Those drones can attack competitors and officials. And they are a threat to SWAT officers. And maybe people like Putin already have drone swarms positioned on the Kremlin wall. 

When we look at systems like the Ukrainian “Sting” drone. There is a possibility. That somebody copied those drones illegally. The civilian drone can be vulnerable to ECM. But the problem is that. Those systems must be on. The drone itself can hide in places like balconies. The remote-control devices can be installed into standard internet sockets. An operator can operate them anywhere on Earth or in space. Those drones can use FPV technology, but the operator can also use normal TV screens. And the drone can attack very fast. If the operator sits somewhere other than in the front. That person doesn’t need virtual glasses. Standard computer screens or TVs can be used to control those drones. 

https://www.flightglobal.com/helicopters/2025/12/how-the-ukraine-war-has-and-has-not-changed-the-helicopters-role-in-combat/

https://en.wikipedia.org/wiki/Sting_(drone)