New drone carriers are the most dangerous things in the world.

"Illustration of the Jiu Tian drone carrier, the world's largest, poised to revolutionize military operations with drone swarms." (Rude Baguette, “This Isn’t a Ship, It’s a Swarm Factory”: China’s Giant Drone Carrier Alarms Military Analysts Worldwide) The super- and probably hypersonic applications of that system can be more effective than this drone mothership. 

The Chinese drone carrier can be only the beginning of a new type of independent drone swarm carriers. Basically, every type of system can carry drones. Satellites or ballistic missiles can also carry drone capsules. Or things like cluster bomb units can also carry drones. And that makes those systems versatile for many purposes. Regular cargo planes can drop drone swarms from high altitude. 

And things like airships and balloons can also carry capsules that can release drone swarms. A Ukrainian company introduced a small drone boat that carries another drone on its deck. Larger drones can carry more drones than those miniature systems. It’s possible to put quadcopters on the nose of underwater drones and launch those systems underwater. Artificial intelligence gives even small-sized drones the ability to make evasion movements when they detect counterfire. 

Drones can also slip into buildings and observe things like computer screens. Basically, the drone can also insert a USB stick into the targeted system and download computer viruses into that system. A logical bomb is a virus that responds to a certain signal. And that can leave the entire area without defense. A drone can also carry things like a Mesh station. That can link all data that travels on the net to the outsider eavesdropper. 

"Ukrainian unmanned riverine surface drone Ursula, developed by NoviTechNet, carrying a UAV onboard. 2025. Source: YouTube/Association of Ukrainian Engineers." (https://euromaidanpress.com/2025/07/20/drone-boat-ursula/)

NASA plans to drop six helicopters to Mars. But the same technology can be used in drone swarm operations. Images: Rude Baguette

Droneswarms can cause lots of damage in the target areas. The optical fiber makes drones immune to the standard ECM systems. But the high-power EMP can destroy those drones’ electronics. The only weakness of the fiber-optical control system is the wire. If some other drone finds that fiber, it can cut it. Or the laser system can also cut the optical fiber that is behind those drones. But the next step is the AI-controlled drone. The AI allows drones to operate independently without outside control. The laser systems, like optical wireless data transportation, also make it possible to create guidance systems that are hard to jam. 

But those systems require direct contact with the transmitter. This is why things like pseudosatellites or high-altitude platform stations (HAPS) can be the right tools for delivering drone swarms. The HAPS can itself be a robot airplane, balloon, or airship that drops those drone swarms to areas. The drone itself is a multipurpose tool that can search for missing people and give warnings about things like volcanic eruptions. But those systems can also deliver destruction and fear. The high-speed stealth interceptors that can be manned or unmanned systems can deliver drone swarms into the area. Those kamikaze-drones can search and destroy the anti-aircraft systems and keep their crews busy, when the other systems attack harder targets. 

Laser- and microwave-based systems can destroy drone swarms. But those systems must detect drones before they can act. There is always the possibility that drones can travel on the ground or underwater, and then another drone that hits a laser or microwave weapon from behind can destroy those weapons. The power that those systems use should be so high that they destroy the physical components of drone swarms. 

https://euromaidanpress.com/2025/07/20/drone-boat-ursula/

https://www.rudebaguette.com/en/2025/07/america-built-it-but-spain-took-it-as-us-space-balloon-pioneer-gets-snapped-up-and-sparks-furious-clash-over-tech-ownership-and-national-pride/

https://www.rudebaguette.com/en/2025/07/nasa-calls-it-the-skyfall-maneuver-as-plan-to-drop-6-mars-helicopters-mid-air-divides-experts-and-fuels-outrage-over-billion-dollar-space-risks/

https://www.rudebaguette.com/en/2025/07/this-isnt-a-ship-its-a-swarm-factory-chinas-giant-drone-carrier-alarms-military-analysts-worldwide/

https://en.wikipedia.org/wiki/High-altitude_platform_station

The new drone can operate on land, in the air, and underwater.

"Illustration of a 3D-printed drone transitioning between air and water environments, generated by artificial intelligence." (Rude Baguette)

The new drone can operate on land, in the air, and underwater.

In the 1930s, the Soviet engineers tried to create the aircraft-submarine combination. That system could slip near the target underwater and launch attack systems. Then that system can fly away from that area. The problem was that technology was not advanced enough. But AI-controlled quadcopters can make it possible to create that kind of system. Theoretically, the nuclear-powered systems can make even full-size “flying submarines” possible. The system can use quadcopter technology. The new drone can dive and fly. But there is a possibility to make those drones more versatile than systems that can fly and dive. The new drone can have multiple sensors, such as sonars and radar altimeters, at the propeller frames. 

The quadcopters are less sensitive than helicopters to cases where they hit some walls if their propellers are protected by using frames. The rotating frame allows the system to travel through very narrow points. And if the system can adjust the propeller's position by pulling them together when the robot or quadcopter system swims through a narrow hole, it makes those systems more flexible than a regular helicopter can be. 

 But the smaller systems can make it possible to create systems that can fly, dive, and drive on roads. 

The new drone can operate in the air and underwater. An interesting thing in hydro- and aerodynamics is that using the same dimensions, it is possible to make many sizes of crafts from pocket-size applications to truck-size systems. The next step can be a drone that can drive on roads, fly, and travel underwater, which can slip in places where regular drones cannot operate. Those drones can travel in aircraft safety hangars. And the AI-controlled drones can stay on the ground and wait for the right moment. 

That kind of technology is the new tool for many things, from research to leisure, and military applications. The drone that can turn its propellers to push along the frame can make it possible for those systems to operate underwater. Then the propellers or propeller pairs can turn into positions that make the system a “regular” quadcopter. And finally, when the drone operator wants to drive on the road, the propeller frames act as wheels. Those drones can act as research systems, or they can even transport groups of people. 

The high-tech system operates almost independently. And that makes the system easy to handle. Those systems can be manned or unmanned. And they can be dropped from airships, aircraft, or from submarines. The ability to travel on ground, airborne, or underwater makes it possible for drones to operate in complicated situations. They can observe drain systems. They can travel in caves that can be very narrow. The ability to travel in three elements gives those drones abilities that can be used in some accident, or as a military target. 

Theoretically, that kind of drone can carry even small nuclear explosives.  Those drones can be delivered from some airships or bigger drones. And the thing is that those modern drones can be carried using manned aircraft, or some larger-sized drones, or even satellites. There are many roles that drones can play. They can travel over an area and send wake-up signals to the eavesdropping and surveillance tools that somebody has hidden in offices and other rooms.  

https://www.rudebaguette.com/en/2025/07/this-thing-shouldnt-even-work-viral-student-drone-stuns-engineers-as-it-flies-dives-and-swims-like-a-high-tech-beast/                                                                                                                                                                                                                                                                                                                                                                                                                                    

What would you do with a pocket-sized spectrometer?

"A tiny, fast, and powerful light analyzer could soon bring lab-grade spectroscopy to your pocket. Credit: Shutterstock" (ScitechDaily, This Tiny Device Could Turn Your Phone Into a Lab-Grade Spectrometer)

"A team of engineers has unveiled a revolutionary mini-spectrometer that can fit on a fingertip and operate with low voltage, scanning light from UV to near-infrared in under a millisecond. "(ScitechDaily, This Tiny Device Could Turn Your Phone Into a Lab-Grade Spectrometer)

"This game-changing device replaces bulky traditional spectrometers and could soon be embedded in smartphones, unlocking powerful tools for material analysis, biomedical diagnostics, and more—right in your pocket. Its tiny photodetector shifts light sensitivity with simple voltage changes, offering speed and precision in a package smaller than a pixel." (ScitechDaily, This Tiny Device Could Turn Your Phone Into a Lab-Grade Spectrometer)

The new device transforms a normal cell phone into a lab-grade spectrometer. That kind of tool can be useful in many situations. Spectrometers can search for air pollution, pollution from water, poisonous substances, etc. People like crime-scene investigators, house inspectors, military personnel, and all interested people can use those systems for searching for chemical compounds. 

A spectrometer is a multi-use tool. It can search all types of chemical compounds. People who work in a crisis environment can search for things like nerve gases in the air using spectrometers. A pocket-sized spectrometer can give a warning about a chemical weapon. And that gives time to begin the counteractions. 

"Researchers have successfully demonstrated a spectrometer that is orders of magnitude smaller than current technologies and can accurately measure wavelengths of light from ultraviolet to the near-infrared. The technology makes it possible to create hand-held spectroscopy devices and holds promise for the development of devices that incorporate an array of the new sensors to serve as next-generation imaging spectrometers. This photo shows a series of prototype organic photodetector-based spectrometer cells. Each metal bar is a detector capable of measuring light spectra. Credit: Brendan O’Connor, NC State University" (ScitechDaily, This Tiny Device Could Turn Your Phone Into a Lab-Grade Spectrometer)

The spectrometer that cooperates with AI assistants can tell about things like harmful chemicals. And that tool can be useful in everyday life, scientific, leisure, and military worlds. The system that can search for poisonous chemicals can make our holidays successful. That kind of system can tell if we can drink some water or if some kind of food is contaminated. The thing that makes us sick is often chemicals that bacteria create in their metabolism.

The system can search for things like botulinum in meat or other toxic chemicals. If we connect a spectrometer to a telescope, that thing can tell us about the chemical environment of some other planet or distant houses. The system can also connect with microscopes that give the possibility to see chemical reactions in very small objects like cells. 

Pocket-sized spectrometers that can tell about chemical mixtures can revolutionize laboratory work and chemistry learning. Those things are useful in all cases where people want to see what some chemical compounds involve. Those things can tell how well an engine burns fuel. Or how clean water is. That kind of information can save lives. 

https://scitechdaily.com/this-tiny-device-could-turn-your-phone-into-a-lab-grade-spectrometer/

ESA's new Invictus space plane could be operational in 2031.

ESA's new space plane “Invictus” is one of the next-generation tools for civil and military space missions. The Invictus looks like the Skylon space plane that BAE recently cancelled. The Invictus could be based on technology that was created for Skylon, but the aircraft will have a more capable team working with it. The European Space Agency (ESA) plans to get Invictus airborne and operational at least in 2031. When we think about the Invictus’s role in space missions, we must first look at the cases where the Cold War-era F-4 Phantoms are planned to be used as satellite cargo missions. Those quite fast fighters will climb as high as they can and then launch miniature satellites into orbit. 

The Invictus can also raise similar satellite carriers to the edge of the atmosphere. And then they can launch those satellites far higher than the F-4 or F-15 Eagle. There have been plans to connect auxiliary rocket packs to the F-4 or F-15 that allow them to jump higher before they release the satellite. 

 The Invictus can have rocket-ramjet or more conventional rocket turbojet hybrid systems. The idea in rocket ramjets is that the ramjet engine raises the space plane to the edge of the atmosphere. Then the iris closes the engine face. And then the engine starts to use an internal oxygen source. In rocket turbojets, the system uses normal turbojet engines in atmospheric flight. 

"A US Vought ASM-135 ASAT missile launch on 13 September 1985, which destroyed P78-1" (Wikipedia, Anti-satellite weapon)

Then the system closes the face of the afterburner, and then that system turns the afterburner into a normal rocket. In the simplest engine solution, the aircraft uses turbojets in the atmosphere. When the flight altitude turns high enough, the system turns to use separated rocket engines. The iris at the front of the turbojet is required because the airflow can damage turbine wings. But if developers can install those orbital rocket engines with some other engine type that decreases the weight of the system. 

The staged system, where the aircraft can operate first with turbojets and then turn to ramjet and finally to scramjet, allows it to fly in the atmosphere at a higher speed using atmospheric oxygen. When that space plane jumps out from the atmosphere, it turns to use rocket mode in ramjet engines. 

There is also an idea about high-altitude airships (HAA), or High Altitude platform stations (HAPS), as the satellite launchers. Those airships can rise to altitudes of about 30 kilometers. They can launch bigger satellite carriers than jet fighters. Those platforms can be airships, balloons, or solar-powered aircraft. HAPS can also use things like internal fuel cells. The HAPS can carry a satellite launcher to high altitude and launch it there. 

The idea of aircraft-based satellite launchers is taken from the U.S. military ASAT, Anti-satellite weapon. The F-15 raises that weapon to the highest point of ballistic trajectory and then that system launches the satellite-killer missile. 

The thing in the satellite launchers is that the same systems can also transport anti-satellite (ASAT) systems to orbiters. Satellites are playing a bigger and bigger role in the modern military. Satellites offer reconnaissance information about enemy movements. And there are also killer satellites in space. ASAT systems can take those killer satellites out. So in that case, they play a counterweapon role. But of course, targeting satellites and military communication satellites are good targets for ASAT weapons. 

So, that means anti-satellite weapons will become more important than ever before. The ASAT weapons can also become more vital than ever before because of suspected fractional orbital bombardment systems (FOBS) or EMP weapons that the enemy launches at orbital trajectory. The ASAT system can eliminate those threats. 

https://www.rudebaguette.com/en/2025/07/theyre-back-from-the-dead-cold-war-f-4-phantoms-revived-to-launch-satellites-and-experts-warn-this-is-military-space-2-0/

https://www.space.com/space-exploration/launches-spacecraft/europe-working-to-launch-invictus-hypersonic-space-plane-by-2031-video

https://en.wikipedia.org/wiki/Anti-satellite_weapon

https://en.wikipedia.org/wiki/High-altitude_platform_station

The new rotational detonation engine allows the aircraft to fly 19955,87 km/h.

"“It’s Not a Missile—It’s an Engine”: China Reveals 12,400 MPH Propulsion Tech That Can Orbit the Planet in Under 2 Hours" (Rude Baguette, 

The new Chinese engine innovation allows it to fly at a speed of Mach 16. That kind of dual-mode ramjet allows the aircraft to fly at enormous speeds. This kind of technology also advances in both civil and military aviation. The engine model itself is not Chinese. But Chinese made it effective. 

The hypersonic aircraft can revolutionize cargo and passenger flight. The aircraft can travel around the world in about 2 hours. This thing makes hypersonic aircraft very capable for reconnaissance missions. These kinds of systems are effective and powerful tools for those missions. 

And that means every city and point on Earth is under a maximum 2h flight time. This is one of the biggest things about the complicated hypersonic aircraft. The hypersonic missiles are less complicated than hypersonic aircraft that must withstand temperature changes and the stress of the pressure. The hypersonic aircraft can raise rockets to orbital trajectory. 

They can climb to the ballistic jump outside the atmosphere. And then those things can release the satellite carrier rocket. The problem is that those systems are suitable for anti-satellite missions. And that makes hypersonic aircraft more revolutionary than anybody thought. The hypersonic aircraft can also carry hypersonic missiles and hypersonic gliders that they can use for attacking targets all around the world. The hypersonic aircraft can destroy other aircraft by using its sonic cone. The same way hypersonic aircraft’s sonic cones can be used to knock down conventional subsonic cruise missiles. 

“In 2023, General Electric demonstrated a ramjet with rotating detonation combustion. It is a turbine-based combined-cycle engine that incorporates a gas turbine, rotating detonation engine, ramjet, and scramjet.” (Wikipedia, Ramjet)

The key element in the Chinese new innovation is the dual-mode detonation. Or in other words, rotation detonation engine, RDE. That kind of engine system can make it possible to increase the speed and capacity of the Ramjet engine. Normal ramjets have their speed limit about Mach 7. The RDE can raise the speed of the aircraft higher than ever. The hypersonic aircraft must fly at a very high altitude, because that decreases friction. 

The hypersonic aircraft that can operate both air-breathing and internal oxygen can be the new tool for space systems. The ability to fly at high altitude. Change to the rocket engine, and jump out from atmosphere, allows the creation of a space plane that can travel even to the moon. The space plane can be the holy grail to space engineering and space stations. And other things, like nuclear rockets. Those space planes can be even more revolutionary than hypersonic aircraft. The hypersonic plane can act as the model for those more capable systems. 

https://www.rudebaguette.com/en/2025/07/its-not-a-missile-its-an-engine-china-reveals-12400-mph-propulsion-tech-that-can-orbit-the-planet-in-under-2-hours/

https://en.wikipedia.org/wiki/Ramjet#Aircraft_using_ramjets

The intelligent pills and nanosubs are coming to the estrade.

Intelligent pills mean systems that deliver medicine only when the body needs it. The system is a microchip-controlled capsule and sensor pack that analyses things like blood sugar and then releases diabetes medicine into the body. That is one of the most conventional uses of the intelligent pills. The intelligent pills can also detect things like the neural system’s animal functions and release medicine to the blood. 

This kind of thing can help to make people survive neurotoxin exposure. The intelligent pills can release atropine into the blood if a person is under nerve gas exposure. Theoretically, all medicines can be released from intelligent capsules. But the system must recognize the threat. And then release the right medicals. 

The intelligent pills can also map the gut and find things like harmful bacteria from the stomach. The most extreme version of the intelligent pills is the nanosubmarine that can swim in the human blood vessels. And then inject the medications into the right cells. That allows the use of new types of medicals like artificial mRNA to fix the cells.  

"Nanosubmarines, or nanosubs, are synthetic microscopic devices that can navigate and perform specific tasks within the human body. Most of the self-propelled devices will be used to detect substances, decontaminate the environment, perform targeted drug delivery, conduct microsurgery and destroy malicious cells. Nanosubmarines use a variety of methods to navigate through the body; currently the preferred method uses the electrochemical properties of molecules. There have been multiple successful tests using this technology to heal mice with inflammatory bowel diseases. The general goal of nanosubmarines is to be able to produce a machine which can sense and respond autonomously, all while being fueled by its environment."  (Wikipedia, Nanosubmarine)

Above: Artist's view in nanosubmarine in veins. 

The main purpose of a nanosubmarine is to navigate the body and perform a specific task. The most speculated task is the treatment and diagnosis of diseases from within the body. This is supported by the task of detecting substances, as most diseases cause a specific type of protein or other molecule to be made in abundance within the bloodstream. Another speculated task is microsurgery. With this technology, doctors will be able to perform surgery on specific locations from within the body..One example of this could be a treatment for cancer. A nanosubmarine could be built to detect specific cancer cells within the body; after locating the cells, the nanosub would be able to kill only the mutated cells and ignore healthy cells. " (Wikipedia, Nanosubmarine)

But intelligent nanotechnical systems can also make it possible. To perform X-ray fluoroscopy. Or ultrasound research in the human body. In that case, the sensors. Those around the body can send signals that allow for mapping injuries from the body. The system can use receivers that are connected to the skin. The system can use ultrasound to make images of tissues and bones to search and report injuries. The internal systems can also observe blood pressure and oxygen level, and nutrient needs. The internal system can send acoustic or electromagnetic signals from inside the body. And that makes it a more effective way to observe tissues. The system allows real-time observation of the blood pressure, blood flow, oxygen and many other things. 

In the most radical visions, those systems are surgically implanted. That kind of system makes it possible to search injuries from the body using a system that is based on surgically implanted sensors. That system can also communicate with receivers that connect this system to BlueTooth and computers and mobile systems. That kind of tool can be effective in everyday work, military operations, and sports. People like astronauts also need a system that can search injuries in real time. The ultrasound- and X-ray systems in the suit can detect injuries and observe the health of the operator. 

https://retailpharmacymagazine.com.au/micro-submarines-inside-body-could-deliver-meds/

https://www.rudebaguette.com/en/2025/07/these-sensors-see-what-humans-cant-chinese-tech-breakthrough-unleashes-vision-chip-that-surpasses-the-human-eye-and-redefines-machine-perception-forever/

https://scitechdaily.com/caltechs-new-smart-pill-can-read-your-gut-like-never-before/

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

The AI development process continues.

One remarkable thing in modern innovations is that. AI and computing are in the middle of those systems. The difference is this. In the past, computers were only auxiliary systems. In modern systems. Computing is in the middle of the systems. That means those systems are a combination of mechanics that advanced computer programs called AI control. That requires adaptation and a new way to think. 

When progress stops, we must ask why. That is one of the things that we always forget. When somebody stops progress, there must be some reason for that. And what is the reason? We always hear tales that the supreme leaders give orders for stopping projects, or some lawmakers make laws that deny the use of new things. The problem is that we forget to ask why the old thing seems better. 

The main problem with AI development is this: when those systems and algorithms can do something new. The idea is taken from Maslow's Hierarchy of Needs. When somebody creates something new, that need that was satisfied will be replaced by some new need. The need for R&D process starts when somebody notices a new need. And then some other actor must respond to that need by making and satisfying the new need. 

This means that computers require more and more power. When the AI and computers can make something new, a new need arises for the system to do. If the customer feels that they need new tools, they will buy new machines and programs. Then the skill-scale expands, requiring new and more effective ways to compute. That means more effective microchips and more effective systems. 

The new tools should make processes easier to control, but for some reason, the innovations face resistance. When a high leader orders to stop a new project, the question is why that person makes that kind of decision.  The problem with that kind of way to think is that there are also other leaders, leaders who have different goals and different ways to think. 

When we look at things like AI and other things, we always see dystopian visions. That’s why we want to stop AI development. The arguments for that thing are sometimes very good. But the problem is that the person who gave the warning will begin his own AI development project. 

And there are always people who resist AI, because it has the ability to operate in the military field. But then the next step is that we are not prepared for the situation that some other governments are interested in, especially this and its military applications. 

The fact is that we are in the middle of the break. Old-fashion tools and actors are stepping away from people’s eyes. Actors like Intel that dominated microchip production 30 years ago are falling. And their challengers from the U.S. and other nations are rising. That means there are new actors who want to get leading positions in AI development. And why AI development is so important. AI is the soul of the machine. Everything that a robot can do depends on those tools. 

The ability to respond to needs is vital in the modern marketing ecosystem. 

The new technology called General-purpose computing on graphics processing units, GPGPU or GPU compute, means a system that delegates missions that traditionally belong to the CPU to the graphics processors. Those kinds of abilities are raising many visions in front of our eyes. That makes it possible to develop computers where main operations happen in the GPU. This technology makes it possible to create autonomous robots with complicated mission modules. 

The problem with killer robots is that somebody makes them. Somebody wants to change warehouse robots into general-purpose terminators. The problem with robots is that they are multipurpose tools. The same robot that operates in warehouses can also operate on the battlefield. This is the new type of threat. But the problem is that nobody controls AI development. Even if there are some rules in the Western world, there are always governments that don’t have the same values. Those governments' prime objective for AI and its use is to use it as a control tool.

The problem with the human operators is that they can turn rebellious. But in the same way, machines can rebel. If some hackers can put the wrong programs in those systems. There is a theoretical possibility that a hacker can attack the robot army, and then turn those robots against their masters. Or somebody can slip a combat program in the computers that control warehouse robots. Robots are not toys anymore. They are systems that can make many things. 

And one of them is to go to war for humans who made them.  When we make decisions, we must remember that we live in the Western world. Not all people live in countries where laws and values are like those we are accustomed to. Some leaders think differently from our leaders.  Denying things doesn't end their existence. 

Hacking threats to military and civil systems.

Hacking is the new threat in the military and civil world. We can say that the new threat is cyber warfare. And if we are not prepared, that thing can cause many problems. Cyber warfare itself is not a new phenomenon. The idea in that kind of warfare is that the enemy’s computers are infected with computer viruses. Or things. Like homepages that the opposite side uses for sharing information can be loaded with disinformation. 

Cyber intelligence can search for information from enemy equipment, tactics, or key personnel's positions, so that they can be targeted for special forces attacks. Hackers can also search for the positions of important installations. 

Things like energy supply systems are targets for cyber attacks. The modern military uses more and more electricity. The effective combat control systems, like radars and communication platforms, require electricity. But things like new tools, such as laser weapons and drones, also require electricity. The entire system must be protected against cyberattacks. There is a possibility that a hacker who has access to the wrong databases can simply remove those people's access to some systems. Or they can remove the data of the entire military crew. Or in some scenarios, hackers can simply report the key people, like nuclear weapon operators, as dead in an accident, into the system. 

What if the system will not allow them access to the command center?

One example of a destructive cyber attack is an attack that activates power plants' emergency shutdowns. That system can close the energy production in those systems immediately. Basically, hackers can break down things like electric networks by shutting down the main energy production units, like nuclear power plants. That thing activates auxiliary power immediately. When auxiliary power is on, the main energy production units will be activated again. 

Suppose the electric network is not protected against such a situation that causes an overload. So, that is the reason why the electricity must never be loaded onto the electric network from the generator. The other thing is that the electric networks must be based on many small platforms rather than one big central platform. If one of those systems is shut down, the effect on the entire network is smaller. Basically, in the case of a nuclear reactor, only anonymous phone calls to the control room can cause an emergency shutdown. The hacker can say that there is a logic bomb, which means a computer virus that destroys the control program immediately. So, would the reactor crew start to test if those computer viruses are really in the system? 

We have firewalls and antivirus programs. The fact is, if we want to put the computer viruses into the systems, what is needed is a reprogrammed RFID chip or some access card whose microchip is reprogrammed. That thing can transmit a small code that can open the gate to the system. In that case, the small virus will not break the system. It just opens the path to a targeted system. And in some scenarios, the hacker could use the faked VPN connection for that operation if a hacker can somehow fake the computer’s identity to match the computer that has access to the target computer and use a trusted VPN that can allow it to inject malicious code into the system. 

In hacking and computer crimes, productive thinking is the key element. If the hacker can hijack some screens, they can send fake malfunction reports. If the error level of a computer rises and the system reports a damaged hard disk, the system requires service. The attacker can simply try to put an infected hard disk in the computer center. That is one of the threats in computing. If hackers can make their own computer that has access to a targeted system, it can open the road to all data that travels through it. 

 The AI-based firewalls can protect military systems against traditional computer viruses and hackers. But the new threat is nanotechnology. The nanotechnical systems can slip into the computer rooms. They can search the microchips, and then those nanorobots can transmit data that travels through the processors to the controllers. Nanorobots can transmit data to the computers through those microcircuits. Or they can cut microchips off the microcircuits. And then start to transmit their own code to the system. The new tools require new resistance. The nanorobot, or maybe a matchbox-size drone, can travel to the cable connection and detonate itself. That thing can damage the power supply to the computer, or it can cut data communication outside the computer. The drone acts like an anti-radiation missile that can search the WLAN stations and detonate them. 

Underwater drones and flying aircraft carriers are the new tools for drone systems.

"Illustration of the USS Delaware deploying the Yellow Moray spy robot underwater. Image generated by AI" (Sustainability Times, “US Navy Breaks the Silence”: World’s First Reusable Underwater Spy Robot Deployed on Nuclear Submarine"

The U.S Navy released and returned the underwater spy drone to the torpedo tube. That is the new age for the UUV (Underwater unmanned vehicles). The underwater drone or autonomous underwater vehicle, AUV, can operate in exactly the same missions as ground-launched drones. But they have one advantage. Those drones can also operate underwater.  Those small-sized drones can also carry sub-drones. And that thing makes those systems more deadly than anybody expects. 

There is a possibility that just before landing, troops arrive, and small drones can be deployed near the beach. And when orders arrive, those systems can release that drone swarm to sweep the enemy out from the beach. When we think about those systems and their capacity, those drones are mainly platform-independent. They can operate with tanks and against them. Drone swarms can give fire support to other units. 

And they can be carried in any box. Those independently operating kamikaze-drones can use the images of the targets to aim and destroy them. The drone swarms can travel to harbors underwater and then attack against ship’s underwater structures, or they can rise to airborne and cause damage to radars and other systems. Or they can explode themselves on missiles, depth charges, or torpedoes. That can increase damages. The drone is the next-generation system. 

There are plans to use drone motherships. The drones can be multi-level systems. The drone carrier can operate autonomously. The carrier and submarines can operate as data centers for those drones. The human-looking robots can operate on those giant robots. And small-sized drones can also have wireless reload systems. Those carriers can also carry things like 3D printers that allow them to build new quadcopters. 

"Uncrewed Submarine Will Launch, Recover Drone That Can Swim, Fly

Uncrewed submarines loaded with 'multi-domain' drones could offer a new dimension for hunting for enemy naval forces and mines, and more." (Twz.com)

The Chinese are testing a new large mothership drone that is similar to NATO Global Hawk drones, but this drone can launch thousands of kamikaze drones over the battlefield. When we think about flying aircraft carriers. The VTOL aircraft that can hover in the air can allow the smaller drones to fly into their cargo bay and reload their batteries. The idea is taken from The Jetsons and their flying aircraft carrier. The fact is that Chinook or V-22 “Osprey” can operate in that role. The helicopter or aircraft can hover above the operational area, and those drones can fill their electric load in its cargo bay. 

There is no limit to the size of the quadcopters. And that means the nuclear-powered, large-size quadcopters can make it possible to operate drones or even larger aerial vehicles at airborne. The spaceborne aircraft carrier can be a spacecraft or a satellites that operate miniature satellites. Those satellites can operate at the orbiter more or less independently, and when their propellant is finished, those systems can fly to the larger satellite that fills their propellant tank. 

Miniature satellites can act as space spies that observe other satellites. And in wartime, those satellites can act as kinetic energy killer satellites that impact with other satellites. Miniature satellites can also protect bigger satellites. When the kinetic energy ASAT missile closes the satellite, the miniature satellites can impact with that satellite killer. 

https://www.livescience.com/technology/engineering/china-has-developed-the-largest-drone-carrier-in-the-world-and-its-getting-ready-for-takeoff

https://nationalinterest.org/blog/buzz/chinas-drone-aircraft-carrier-what-you-need-know-and-why-it-matters-211085

https://pentoz.com/mothership-drones/

https://www.sustainability-times.com/energy/us-navy-breaks-the-silence-worlds-first-reusable-underwater-spy-robot-deployed-on-nuclear-submarine/

https://www.twz.com/drones-that-swim-and-fly-to-be-launched-recovered-by-uncrewed-submarine

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

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

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