No one except outright tyrants would bomb civilian infrastructure or use nuclear weapons, subjecting millions of people to suffering. But there is a far more effective defensive weapon, striking in its cheapness — fiber-optic FPV kamikaze drones. They can be assembled from items sold in ordinary stores for a few thousand dollars, adding some tape and a shaped-charge warhead. You can find videos showing this deadly toy flying into the open window of a moving car or into a tank’s air intake, rendering a meter-thick frontal armor meaningless. No electronic warfare can interfere with its effective operation, and its low cost allows such drones to be used even against individual soldiers. https://www.youtube.com/watch?v=JcB4dR_8xPo
And you see a perfect picture right up to the very end, sitting somewhere 1,000 km from the front line in FPV goggles, while ordinary soldiers simply load new drones for you, and your commander monitors the overall battlefield situation from a reconnaissance drone.
The war of the future looks nothing like nuclear strikes or the destruction of dams; it is an endless web of fiber optics, with a deadly charge at the end of every strand. https://www.youtube.com/watch?v=jr7M-AmrvT4
In this war, defense surpasses offense: if you have hundreds of thousands of such drones, your defense is impenetrable, and only the ambitions of mad politicians demand the continuation of the show.
Developments in AI are very important here, because they will allow such a drone to fly without any fiber-optic cable at all, simply by recognizing and classifying military and civilian targets after receiving a short command from headquarters — “destroy the naval target approaching the borders of Taiwan”
I apologize in advance if the videos were too brutal for you, I tried to find the least shocking footage. If it is still unacceptable, I will remove the links.
No one except outright tyrants would bomb civilian infrastructure or use nuclear weapons, subjecting millions of people to suffering.
Once serious nuclear weapons are used, everyone dies (to a first approximation), civilian or not. If I recall correctly, it takes about 100 megatons worldwide to casuse nuclear winter and collapse agricultural production.
During the Cold War, the US maintained a position of “strategic ambiguity” on the question of first use. Much of the logic around NATO at the height of the Cold War was based around a first-use nuclear response to overwhelming conventional invasion (see MC 14⁄13 staged responses). This was the full-scale, Dr Strangelove, batshit-insane “end of civilization” nightmare. Strategic ambiguity was retained around what would trigger each level of response, but the endgame was pretty much total annihilation. I believe France also maintained a separate posture of strategic ambiguity, and they always wanted to ensure a nuclear deterent that didn’t rely on NATO.
China and Russia both held official policies of “no first use”, but it’s uncertain that they would have actually stuck to that in the face of a massively overwhelming conventional invasion.
I want to be clear: The logic of nuclear deterence is just as insane as Dr Strangelove made it out to be. And you may choose to call NATO, the US and France “tyrants”! But they all had policy at least as dangerous as, “Well, we haven’t promised that we won’t trigger nuclear Armageddon and the death of billions if a large enough number of tanks roll across our borders. Do you feel lucky, punk?”
So as a Westerner, that’s a missing piece of the analysis for me. Taiwan has invested heavily in long-range cruise missiles and, in the past, secret nuclear programs. Presumably they had some theory of how they would use that capacity in the face of a massively overwhelming conventional invasion.
And just in case I haven’t made it clear, I think MAD is madness. I think even the people who coined the acronym knew that. But when a country is faced with overwhelming conventional invasion, I don’t think we can automatically rule it out.
Am I missing something? It seems like defense surpasses offense in the conventional sense. But if Russia and Ukraine both had nuclear weapons, no drone would be able to prevent that once launched, right? Likewise if I flew an airplane to drop a bunker-buster on a dam (e.g. F-35s are still useful in the Russia/Ukraine war).
Maybe in the limiting case of drone-warfare defense does dominate, but it seems to me that we are some time away from that, in manufacturing capacity alone, if nothing else.
It is well known that tank assaults during World War II were able to break through almost any line of defense, turning warfare from positional into highly maneuverable.
Ukraine has no nuclear weapons; it gave them up in the 1990s at the insistence of the United States (many thanks to the American presidents—they are always on our side). But what would the destruction of a dam or a nuclear bombardment of a city with a million inhabitants give you? It does not allow you to seize territory; instead, you would face international condemnation, the imposition of sanctions, and sometimes a retaliatory nuclear strike, far more powerful.
Ukraine does not even have F-35 Lightning II fighter jets, since these aircraft were not supplied to Ukraine (once again, my deep bow and respect to the American presidents).
Russia is already producing 50,000 FPV drones per month and is capable of doubling that output; this is already comparable to the number of soldiers on the battlefield. One enemy soldier — one drone plus one drone operator, but if AI takes over control on the last mile, it will reduce the burden on drone operators. https://www.youtube.com/watch?v=tFCbNfGO4Fg
Of course, there are also other longer-range drones (copies of the Iranian Shahed, and China surely has all the blueprints), which are already being stockpiled by the thousands and can overwhelm any air defense system. https://www.youtube.com/watch?v=5XDiE9UNtiQ
I am trying to describe to you what a war between China and Taiwan would look like — it certainly will not be nuclear and civilian casualties will be minimal (compared to Dresden and Hiroshima), but even that I cannot justify.
Sure, but Ukraine wanted F-35s right, I assume because they thought they would be useful. As to the rest, it seems like you could claim that America ‘seized’ Japanese territory after a nuclear strike (rewriting the Japanese constitution, occupation, now a staunch ally, etc). Such a strike only has to break the will of the people fighting, or break the ability of command structures to function effectively, you don’t have to glass the entire country you want to invade.
In fact, breaching enemy drone defense zones is not impossible:
If military strength is severely imbalanced, one side can suppress enemy drone operators through airstrikes and artillery bombardment;
Armored vehicles equipped with directed-energy weapons, anti-drone weapon stations, and active defense systems can theoretically withstand swarm attacks and penetrate defenses—such as China’s Type 100 tank;
Disrupting enemy drone supply chains is a sound strategy. Ukraine’s ability to assemble drones using civilian 3D printers stems from its vast strategic depth and imported components from China. These components require complex, large-scale manufacturing facilities—facilities and their logistics chains that are inherently vulnerable.
Future ground warfare will not be entirely dominated by drones: Drone-guided artillery shells, rockets, and aerial bombs will strike hardened targets beyond drone capabilities; Mechanized dog-infantry demolition reconnaissance teams (DRGs) will infiltrate complex terrain to establish incremental area control, with armored units providing direct fire support; across broader fronts, tactical missiles and long-range rockets will hunt self-propelled artillery and destroy supply hubs, while medium-range missiles will neutralize enemy airfields, warehouses, and factories.
Armored vehicles equipped with directed-energy weapons, anti-drone weapon stations, and active defense systems can theoretically withstand swarm attacks and penetrate defenses—such as China’s Type 100 tank;
It seems to me that your neural network has over-imagined things. Give it the following task!
Task: To destroy one M1A1 Abrams tank, only 5 fiber-optic drones were required, which are not susceptible to any interference. How many Abrams tanks should you produce per month if the enemy is producing 50,000 drones? https://www.youtube.com/watch?v=O2FcqV-M9qM
Your tank-based economy will not withstand such competition, because drones are cheaper.
Even if China’s Type 100 tank requires 10 drones, it changes nothing. The practice of the war in Ukraine shows that even a drone flight range of 5 km is sufficient to stop any tank column. Tank assaults are a thing of the past — forget them! I would like to note that this metal “grill” mounted on the tank turret changes its moment of inertia and negatively affects the rotation mechanism, reducing its service life.
In a situation where a drone is cheaper than a soldier, your sabotage and reconnaissance groups (DRGs) will be destroyed just as cheaply as tanks (I have relevant videos, but the horror on the soldier’s face in the final seconds of his life, captured in close-up by a drone camera and transmitted via fiber‑optic cable in Full HD, is excessively shocking even for me, and I will not provide any links), even at night, since thermal imaging cameras are also inexpensive. Although it is possible that a North Korean soldier costs less than $5,000, and that is a truly serious problem — send them humanitarian aid, iPhones, and Netflix series so they can feel the value of their own existence.
Yes, I forgot to mention that Elon Musk’s Starlink network, which offers minimal signal latency, would theoretically allow you to operate a VPF drone from a smoothie bar somewhere in Costa Rica. You’re going to bomb smoothie bars in Costa Rica—seriously? I’ll have another smoothie, please, before the Type 100s go on the attack!
1: As I’ve repeatedly emphasized across multiple platforms, I did not employ generative AI technology to compose these texts. If they resemble LLM output, it likely stems from my writing style.
2: If tanks can employ directed-energy weapons and cannon-mounted programmed munitions to shoot down hundreds of drones, while striking fortified positions from thousands of meters away under infantry or drone guidance, the enemy assets they destroy and the infantry lives they protect may far outweigh their own cost.
Armor itself serves as an excellent drone deployment platform: it can maneuver upon detection, possesses surplus defensive firepower, and offers at least splinter protection. Without such platforms, drone operators must either remain in rear areas—depleting drone range and reducing sortie frequency—or face certain death upon exposure.
3: DRG units can consist of relatively few humans and numerous robotic platforms, operating covertly whenever possible to minimize drone casualties. If smaller platforms can also deploy effective anti-drone weapons, their casualty rates would be even lower. These teams remain irreplaceable because FPV drones are poorly suited for clearing buildings and tunnels, and struggle to launch attacks from many routes (such as abandoned oil and gas pipelines). Additionally, FPV requires units to mark targets—including by drawing enemy fire—otherwise they prove ineffective against concealed adversaries.
4: Using Starlink to remotely control frontline units is a sound concept but imperfect: During large-scale warfare, frontline units operate in complex electromagnetic environments. You may need to position Starlink receivers tens of kilometers behind the contact line and connect them to frontline units via fiber optics. However, frontline units still require human operators at present.
5: These assumptions are based on cutting-edge technology projected for 2026. Should artificial intelligence advance to solve complex frontline combat challenges, we’ll all soon be turned into paperclips.
These teams remain irreplaceable because FPV drones are poorly suited for clearing buildings...
Drones are perfectly suited for clearing buildings — once again, watch the video: https://www.youtube.com/watch?v=tFCbNfGO4Fg&t=115s This is not a person with a camera; it is a fiber-optic FPV drone flying through an open door. The video cuts off at the moment the drone’s warhead detonates.
This once again fully confirms that your response was generated by an LLM that cannot watch or analyze YouTube videos. Try teaching it to do so, so your answer better reflects the actual situation on the battlefield rather than assumptions based on LLM hallucinations.
No one except outright tyrants would bomb civilian infrastructure or use nuclear weapons, subjecting millions of people to suffering. But there is a far more effective defensive weapon, striking in its cheapness — fiber-optic FPV kamikaze drones. They can be assembled from items sold in ordinary stores for a few thousand dollars, adding some tape and a shaped-charge warhead. You can find videos showing this deadly toy flying into the open window of a moving car or into a tank’s air intake, rendering a meter-thick frontal armor meaningless. No electronic warfare can interfere with its effective operation, and its low cost allows such drones to be used even against individual soldiers.
https://www.youtube.com/watch?v=JcB4dR_8xPo
And you see a perfect picture right up to the very end, sitting somewhere 1,000 km from the front line in FPV goggles, while ordinary soldiers simply load new drones for you, and your commander monitors the overall battlefield situation from a reconnaissance drone.
The war of the future looks nothing like nuclear strikes or the destruction of dams; it is an endless web of fiber optics, with a deadly charge at the end of every strand.
https://www.youtube.com/watch?v=jr7M-AmrvT4
In this war, defense surpasses offense: if you have hundreds of thousands of such drones, your defense is impenetrable, and only the ambitions of mad politicians demand the continuation of the show.
Developments in AI are very important here, because they will allow such a drone to fly without any fiber-optic cable at all, simply by recognizing and classifying military and civilian targets after receiving a short command from headquarters — “destroy the naval target approaching the borders of Taiwan”
I apologize in advance if the videos were too brutal for you, I tried to find the least shocking footage. If it is still unacceptable, I will remove the links.
Once serious nuclear weapons are used, everyone dies (to a first approximation), civilian or not. If I recall correctly, it takes about 100 megatons worldwide to casuse nuclear winter and collapse agricultural production.
During the Cold War, the US maintained a position of “strategic ambiguity” on the question of first use. Much of the logic around NATO at the height of the Cold War was based around a first-use nuclear response to overwhelming conventional invasion (see MC 14⁄13 staged responses). This was the full-scale, Dr Strangelove, batshit-insane “end of civilization” nightmare. Strategic ambiguity was retained around what would trigger each level of response, but the endgame was pretty much total annihilation. I believe France also maintained a separate posture of strategic ambiguity, and they always wanted to ensure a nuclear deterent that didn’t rely on NATO.
China and Russia both held official policies of “no first use”, but it’s uncertain that they would have actually stuck to that in the face of a massively overwhelming conventional invasion.
I want to be clear: The logic of nuclear deterence is just as insane as Dr Strangelove made it out to be. And you may choose to call NATO, the US and France “tyrants”! But they all had policy at least as dangerous as, “Well, we haven’t promised that we won’t trigger nuclear Armageddon and the death of billions if a large enough number of tanks roll across our borders. Do you feel lucky, punk?”
So as a Westerner, that’s a missing piece of the analysis for me. Taiwan has invested heavily in long-range cruise missiles and, in the past, secret nuclear programs. Presumably they had some theory of how they would use that capacity in the face of a massively overwhelming conventional invasion.
And just in case I haven’t made it clear, I think MAD is madness. I think even the people who coined the acronym knew that. But when a country is faced with overwhelming conventional invasion, I don’t think we can automatically rule it out.
Am I missing something? It seems like defense surpasses offense in the conventional sense. But if Russia and Ukraine both had nuclear weapons, no drone would be able to prevent that once launched, right? Likewise if I flew an airplane to drop a bunker-buster on a dam (e.g. F-35s are still useful in the Russia/Ukraine war).
Maybe in the limiting case of drone-warfare defense does dominate, but it seems to me that we are some time away from that, in manufacturing capacity alone, if nothing else.
It is well known that tank assaults during World War II were able to break through almost any line of defense, turning warfare from positional into highly maneuverable.
Ukraine has no nuclear weapons; it gave them up in the 1990s at the insistence of the United States (many thanks to the American presidents—they are always on our side). But what would the destruction of a dam or a nuclear bombardment of a city with a million inhabitants give you? It does not allow you to seize territory; instead, you would face international condemnation, the imposition of sanctions, and sometimes a retaliatory nuclear strike, far more powerful.
Ukraine does not even have F-35 Lightning II fighter jets, since these aircraft were not supplied to Ukraine (once again, my deep bow and respect to the American presidents).
Russia is already producing 50,000 FPV drones per month and is capable of doubling that output; this is already comparable to the number of soldiers on the battlefield. One enemy soldier — one drone plus one drone operator, but if AI takes over control on the last mile, it will reduce the burden on drone operators.
https://www.youtube.com/watch?v=tFCbNfGO4Fg
Of course, there are also other longer-range drones (copies of the Iranian Shahed, and China surely has all the blueprints), which are already being stockpiled by the thousands and can overwhelm any air defense system.
https://www.youtube.com/watch?v=5XDiE9UNtiQ
I am trying to describe to you what a war between China and Taiwan would look like — it certainly will not be nuclear and civilian casualties will be minimal (compared to Dresden and Hiroshima), but even that I cannot justify.
Sure, but Ukraine wanted F-35s right, I assume because they thought they would be useful. As to the rest, it seems like you could claim that America ‘seized’ Japanese territory after a nuclear strike (rewriting the Japanese constitution, occupation, now a staunch ally, etc). Such a strike only has to break the will of the people fighting, or break the ability of command structures to function effectively, you don’t have to glass the entire country you want to invade.
In fact, breaching enemy drone defense zones is not impossible:
If military strength is severely imbalanced, one side can suppress enemy drone operators through airstrikes and artillery bombardment;
Armored vehicles equipped with directed-energy weapons, anti-drone weapon stations, and active defense systems can theoretically withstand swarm attacks and penetrate defenses—such as China’s Type 100 tank;
Disrupting enemy drone supply chains is a sound strategy. Ukraine’s ability to assemble drones using civilian 3D printers stems from its vast strategic depth and imported components from China. These components require complex, large-scale manufacturing facilities—facilities and their logistics chains that are inherently vulnerable.
Future ground warfare will not be entirely dominated by drones: Drone-guided artillery shells, rockets, and aerial bombs will strike hardened targets beyond drone capabilities; Mechanized dog-infantry demolition reconnaissance teams (DRGs) will infiltrate complex terrain to establish incremental area control, with armored units providing direct fire support; across broader fronts, tactical missiles and long-range rockets will hunt self-propelled artillery and destroy supply hubs, while medium-range missiles will neutralize enemy airfields, warehouses, and factories.
It seems to me that your neural network has over-imagined things. Give it the following task!
Task:
To destroy one M1A1 Abrams tank, only 5 fiber-optic drones were required, which are not susceptible to any interference. How many Abrams tanks should you produce per month if the enemy is producing 50,000 drones?
https://www.youtube.com/watch?v=O2FcqV-M9qM
Your tank-based economy will not withstand such competition, because drones are cheaper.
M1A1 Abrams cost = 10,000,000
Drone cost (each) = 5,000
5 drones = 25,000
Even if China’s Type 100 tank requires 10 drones, it changes nothing. The practice of the war in Ukraine shows that even a drone flight range of 5 km is sufficient to stop any tank column. Tank assaults are a thing of the past — forget them!
I would like to note that this metal “grill” mounted on the tank turret changes its moment of inertia and negatively affects the rotation mechanism, reducing its service life.
In a situation where a drone is cheaper than a soldier, your sabotage and reconnaissance groups (DRGs) will be destroyed just as cheaply as tanks (I have relevant videos, but the horror on the soldier’s face in the final seconds of his life, captured in close-up by a drone camera and transmitted via fiber‑optic cable in Full HD, is excessively shocking even for me, and I will not provide any links), even at night, since thermal imaging cameras are also inexpensive. Although it is possible that a North Korean soldier costs less than $5,000, and that is a truly serious problem — send them humanitarian aid, iPhones, and Netflix series so they can feel the value of their own existence.
Yes, I forgot to mention that Elon Musk’s Starlink network, which offers minimal signal latency, would theoretically allow you to operate a VPF drone from a smoothie bar somewhere in Costa Rica. You’re going to bomb smoothie bars in Costa Rica—seriously? I’ll have another smoothie, please, before the Type 100s go on the attack!
1: As I’ve repeatedly emphasized across multiple platforms, I did not employ generative AI technology to compose these texts. If they resemble LLM output, it likely stems from my writing style.
2: If tanks can employ directed-energy weapons and cannon-mounted programmed munitions to shoot down hundreds of drones, while striking fortified positions from thousands of meters away under infantry or drone guidance, the enemy assets they destroy and the infantry lives they protect may far outweigh their own cost.
Armor itself serves as an excellent drone deployment platform: it can maneuver upon detection, possesses surplus defensive firepower, and offers at least splinter protection. Without such platforms, drone operators must either remain in rear areas—depleting drone range and reducing sortie frequency—or face certain death upon exposure.
3: DRG units can consist of relatively few humans and numerous robotic platforms, operating covertly whenever possible to minimize drone casualties. If smaller platforms can also deploy effective anti-drone weapons, their casualty rates would be even lower. These teams remain irreplaceable because FPV drones are poorly suited for clearing buildings and tunnels, and struggle to launch attacks from many routes (such as abandoned oil and gas pipelines). Additionally, FPV requires units to mark targets—including by drawing enemy fire—otherwise they prove ineffective against concealed adversaries.
4: Using Starlink to remotely control frontline units is a sound concept but imperfect: During large-scale warfare, frontline units operate in complex electromagnetic environments. You may need to position Starlink receivers tens of kilometers behind the contact line and connect them to frontline units via fiber optics. However, frontline units still require human operators at present.
5: These assumptions are based on cutting-edge technology projected for 2026. Should artificial intelligence advance to solve complex frontline combat challenges, we’ll all soon be turned into paperclips.
Drones are perfectly suited for clearing buildings — once again, watch the video:
https://www.youtube.com/watch?v=tFCbNfGO4Fg&t=115s
This is not a person with a camera; it is a fiber-optic FPV drone flying through an open door. The video cuts off at the moment the drone’s warhead detonates.
This once again fully confirms that your response was generated by an LLM that cannot watch or analyze YouTube videos. Try teaching it to do so, so your answer better reflects the actual situation on the battlefield rather than assumptions based on LLM hallucinations.