Ukraine Waited for Russia to Prepare Its Victory Day Parade — Then Blew Up a Moscow Skyscraper

追加: 2026-05-14

[00:00:00]At 0422 hours local time on the 4th of May 2026, right before the celebration of Victory Day, Mosfilm tower, a symbol of Moscow's modern architecture, had just suffered a Ukrainian drone attack.

[00:00:14]One second earlier, the high-end building on Mosulovskaya Street was still glowing with Russian flag LED lights or banners congratulating Victory Day. Just 1 second later, that once brilliant 52story skyscraper was nothing more than a hazy block of concrete with columns of smoke rising and sirens echoing across the Russian capital. Kev had just proven that nowhere on Russian territory could still be considered absolutely safe. Even the center of Moscow's power could be placed under red alert. To understand how Ukrainian UAVs could penetrate Russia's dense air defense system and reach Moscow, we must look at the context. Right before the Victory Day military parade, Russian President Vladimir Putin had just announced a two-day ceasefire on May 8 and 9, 2026.

[00:01:04]But Ukraine wanted more than that. Keev wanted a long-term ceasefire. And when Russia would not compromise, Ukraine wanted to show Moscow that they were seeking peace, not because they were in a weak position, but because they wanted to bring real stability to the people of Ukraine.

[00:01:20]The special point of this operation was that the Ukrainian unmanned aerial vehicles did not launch from Ukrainian territory. They took off right inside Moscow. About 9 mi northeast of Red Square, deep inside the dense fogcovered forest of Losen Ostrov National Park, a group of eight people from Ukraine's Gur Intelligence Service was operating in absolute silence. Normally, this place is considered the green lung of Moscow, but today it became a perfect hiding position for a daring operation right in the heart of the Russian capital. These people had not come here to conduct reconnaissance, much less to observe Russia's military parade. They were preparing to create a real nightmare for Moscow's air defense system, and they were not using Western stealth aircraft worth millions of dollars. They carried only two Baba Yaga UAVs along with a secret weapon powerful enough to throw all of Moscow into panic.

[00:02:18]Imagine Baba Yaga as a mini aircraft carrier in the air created by engineers used to turning simple civilian devices into highly precise battlefield weapons.

[00:02:28]It is not a flashy UAV like stealth aircraft worth millions of dollars, but a practical, durable, and extremely dangerous flying platform. The airframe is made from lightweight composite materials and carbon fiber, helping reduce weight. This UAV weighs only 45 lbs with a wingspan of only 10 ft, making its radar signature much smaller than ordinary military targets. On a radar screen, Baba Yaga does not look like a fighter jet or a cruise missile.

[00:02:57]It only looks like a slow, small, and hard to classify flying object. Exactly the kind of target that is easily overlooked in an urban sky full of interference. Hidden beneath the payload frame of each Baba Yaga are 10 FPV kamicazi UAVs. The deadly cargo designed to dive straight into the weak points inside Moscow's center of power. It sounds insane, and the doubt is understandable. Moscow is surrounded by Pancer S1 systems, one of Russia's most important short-range air defense layers capable of tracking 300 targets at the same time and launching Mach 4 missiles at any suspicious object approaching.

[00:03:36]For any conventional military force, sending a slowflying UAV into such protected airspace would be an almost suicidal mission. But for Gur, this was not just a gamble. It was a tactical equation. Using low altitude, urban interference, a small radar signature, and the FPV kamicazi UAVs carried underneath to turn the very confidence of Moscow's air defense system into its weakness.

[00:04:04]By 0430 hours local time in the darkness of the Losen Ostrav forest, the final preparation phase began. There was no radio communication, no signal lights, only the sound of propellers being attached to the drone body, the Starlink system being checked, and the weapons being fixed to the racks beneath Baba Yaga. This mission was a risky gamble.

[00:04:26]The UAVs had to fly low along the Yaoza River at an altitude of 200 ft, taking advantage of ground interference from high-rise buildings, power lines, and Moscow's dense urban structures. At that altitude, the radar signal was no longer clean. It was broken, reflected, and drowned in the city's background interference. Ukraine was also betting on another factor. Moscow was busy preparing for the Victory Day parade. As Russian soldiers were dispersed for ceremonial security, route control, and protection of the parade area, the number of radar crews on combat duty was reduced. That gap was what Gurr wanted to exploit. Moscow's nightmare officially began when the first Baba Yaga crossed the suburban belt, rushing toward Red Square at a speed of about 170 mph. Immediately, Moscow's combat screens fell into chaos. The Pancer S1 crews finally picked up a strange signal on the 1 RS11E search radar. But the problem was that the signal was unstable. It appeared disappeared and then split into many small points on the screen. But that was not the mother UAV.

[00:05:37]It was a cloud of false targets. Ukraine had released a series of small decoys fitted with simple radar reflectors to simulate the radar signature of a cruise missile. On the Pancier S1 radar screen, the sky suddenly looked like a swarm of targets rushing in at the same time.

[00:05:54]This was when billiondoll calculations began to fail. Pancer S1 is a formidable short-range air defense system. It is equipped with 57 E6 interceptor missiles capable of reaching a distance of 15 mi along with two 30 mm two A38M automatic cannons with a firing rate of up to about 5,000 rounds per minute. In theory, this was the defensive layer born to destroy UAVs, cruise missiles, and low-flying targets. But in reality, it carried only 12 ready to launch missiles. And in a city full of high-rise buildings, power lines reflected signals and false targets, the question was no longer whether Pancer could fire. The question was what it was firing at. Under the pressure of an attack that seemed to be expanding, the Russian crews began opening fire.

[00:06:45]Expensive 57 E6 missiles shot out of their launch tubes, chasing cheap radar signals. At the same time, the two A38M cannons rotated their barrels, tearing through the night with bursts of 30 mm fire, aimed at targets that appeared and then vanished. It was an asymmetric exchange. Russia was using expensive air defense weapons to wipe out decoys that were almost worthless. And while Pancer S1 was being dragged into that cloud of interference, the first Baba Yaga dropped to only 150 ft, hugging the curve of the Yaoza River. By hiding beneath the radar's reach, blending into urban interference, and letting the decoys pull Russian fire in the wrong direction, the mother UAV had become a ghost inside Moscow's defensive machine.

[00:07:32]At 0434 hours local time, when the first Baba Yaga reached the launch line 9 miles from the target, Moscow's airspace immediately turned into an intense combat zone. The Russian defenses were no longer completely distracted. They began to wake up inside the screen of interference and false targets. Mother UAV number one released 10 FPV kamicazis from its racks. But the moment they separated from the drone body, the sky ahead lit up with white streaks of gunfire tearing across the night. A Pancer S1 system positioned on the roof of a nearby structure finally managed to get past the decoy layer, lock onto the real approach direction, and open fire with its two 30 mm, two A38M automatic cannons. These were no longer warning shots. In 10 seconds, the two 30 mm cannon barrels poured out 1,000 shells, forming a wall of high explosive and incendiary fire that swept straight through the flight corridor of the FPV swarm. The two leading FPV kamicazis had almost no chance. They flew directly into the concentrated stream of fire, torn apart in midair into a small cloud of plastic fragments, lithium batteries, and burning red carbon frames. One was shot down. The eight remaining drones immediately dropped even lower, slipping between apartment blocks and concrete strips to break the radar line of sight, but the Russians still had a backup defensive layer. On rooftops and guard posts around the target area, security teams began firing specialized AK-12 rifles into the sky, creating a wall of lowaltitude fire. The next two FPV kamicazis were hit by 5.45 mm rounds in their rear motor assemblies. They lost stability, spun violently, and then slammed into a Victory Day congratulatory billboard before exploding into a useless ball of fire.

[00:09:28]Only at the first defensive layer, four Ukrainian FPVs had already been shot down. This was when Russia's jamming effect began to take hold. Although the FPV kamicazis had switched to AI target hunting mode, the dense electronic environment around Moscow still created false signals on thermal sensors and optical imaging. The real target, industrial heat sources and reflections from metal surfaces began blending together. FPV Kamicazi number three was deceived by the thermal signature from a nearby abandoned building. The recognition algorithm mistook it for part of the most film tower. The drone flew straight into the brick wall, leaving only a black burn mark on the exterior of that abandoned building.

[00:10:10]Five had been removed from the fight. In the first wave of the attack, only five FPV kamicazis remained, and they were racing straight into an increasingly dense rain of bullets. The mission was now standing on the edge of complete failure.

[00:10:25]But the Ukrainian control crews understood that at this moment there was no room for hesitation. The first five FPV kamicazis had been removed from the fight, but the smoke, fire, and disruption they left behind could still be turned into cover for the next strike. At 0436 hours local time, the five remaining FPV kamicazis immediately split formation. Two flew off in two different directions, emitting stronger signals to draw the attention of the radar and the Pancer S1 fire control system. The trap worked almost immediately. The two 30 mm, two A38M automatic cannons turned their barrels toward the false targets, then tore through the night with a short burst of fire. With only 100 rounds fired, both FPV decoys were crushed in midair. But that was exactly the time the three remaining drones needed. In five short seconds, they accelerated, lowered their altitude, and rushed straight toward the target building, trying to punch through the gap that had just opened in the short-range defense layer. However, the Russians were too familiar with this kind of diversion. In the protected area near Red Square, a stuper electronic suppression system immediately emitted jamming pulses, cutting into the control link and disrupting the guidance signals of the FPV swarm. The three kamicazis lost ability immediately swerved off course and fell before they could detonate. The Russian operating crews immediately breathed the sigh of relief, blending into the atmosphere of the parade rehearsal covering Moscow. On their screens, the threat seemed to have been neutralized. All 10 UAVs from the first attack wave had been shot down, and every remaining sign looked only like a minor security incident that the Kremlin propaganda machine could quickly turn into a victory. Perhaps the press release had already begun to be prepared. The heroic Pancer S1 combat crews had protected Moscow from Ukraine's provocation, but they were completely wrong. Ukraine is a master of planning UAV attacks, and they always have backup options for things like this. At 0446 hours local time, exactly 10 minutes after the first chaotic attack wave, the second Baba Yaga UAV appeared. This was not a separate attack wave. This was a double strike. A trap calculated to exploit the exact moment when Russia's air defense system was at its weakest. Reload time, cannon barrel cooling, and reorganization of the combat formation. Pancer S1 is a formidable system, but it still has limits. After consuming most of its ready to launch missiles, the operating crew needs at least 12 minutes to reload. The two 30 mm 2 A38M automatic cannons also cannot fire continuously forever. After thousands of rounds poured into decoys and UAVs in the first wave, the cannon barrels began to glow red. If they continued to fire excessively, accuracy would drop sharply and a sophisticated air defense weapon could turn into a chaotic shooting machine. Just as the Russian crews were trying to restore combat readiness, the second Baba Yaga appeared from a completely different direction. The northwest, mother UAV number two continued to release 10 FPV kamicazis at a distance of 7 mi. In only 15 seconds, the Russian defenders who were celebrating immediately panicked and ran back to their combat positions. But this time, Moscow had also prepared a surprise. The Pole 21 electronic warfare system, which was protecting the nearby Red Square area, was immediately mobilized to a bridge crossing the Yaoza River. They established an electronic jamming dome covering a wide area, disabling satellite navigation signals in the frequency range from 1,176.45 MHz to 1,575.42 42 mehertz is through spoofing and high power noise jamming, causing every precision navigation device to lose direction. The first three FPV kamicazis of the second wave flew straight into that jamming zone and were almost immediately blinded. The video signal broke into blocks of interference. The control link became unstable and the drone deviated from its course before falling into a nearby riverside treeine.

[00:14:39]At the same time, the next two FPV kamicazis were locked onto by a Russian soldier on a rooftop using an EDM 4S Skywiper jamming rifle. It was a cold confrontation between a handheld device worth $20,000 and an attack UAV costing only $3,000.

[00:14:59]This time, the jamming device won. The drone's flight controller lost stability, causing them to dive into the Yaoza River before they could reach the target. The Russian commanders thought they had regained control. But they had forgotten one thing. Ukrainian engineers did not design these FPV kamicazis only to fly while signal still existed. The five remaining drones immediately activated emergency artificial intelligence autonomous mode. When GPS, Starlink, and radio links were all jammed, they stopped trying to communicate with the operator. Instead, the onboard processor began comparing images of Moscow streets with the 3D model and the pre-loaded reconnaissance image data. The AI artificial intelligence began analyzing. They captured the part of the image they were seeing and began feeding it into the system to see which preloaded area on the map it resembled. You can jam radio waves, but you cannot transform the shape of a street, the position of a bridge, or the outline of a building.

[00:15:58]When the Russians realized the drones were still continuing to fly, they were forced to deploy the final defensive layer. A TOR M2 system assigned to protect the parade was forced to change its combat plan. If Pancer S1 was the close-range shield, then TOR M2 was the more precise scalpel, fast, compact, and dangerous at short range. TOR M2 launched 29 M31 interceptor missiles.

[00:16:24]Two FPV kamicazis tried to change direction at the final second, but the proximity fuse detonated near the drone body, throwing lethal fragments that tore apart in midair. The ratio now became fragile. The three remaining FPV kamicazis still continued rushing toward the target. Ahead of them was Moscow's final defensive layer and their main mission, strike Russia's iconic skyscraper.

[00:16:50]At 0448 hours local time, kamicazi number one acted as the final sacrificial decoy. It deliberately surged up to an altitude of 600 ft, turning itself into a large clear target on the Russian radar screen. In that moment, the air defense crew thought they had found the main threat. A final interceptor missile that had just been brought into ready status was immediately launched. Kamicazi number one was destroyed in midair, but its mission was to pull the attention of Russian radar, missiles, and operators away from the real approach direction.

[00:17:23]That sacrifice gave the last two drones exactly 11 seconds of silent flight. At 0449 hours local time, Kamicazi's number two and three were less than 500 yd from the target. They were no longer simply flying. They were almost screaming through the Moscow night, sliding between streams of smoke, chaotic lights, and jamming signals covering the entire area. Their optical and thermal sensors locked onto the 36th floor of Mossfilm Tower, the central position where the Russian flag was being displayed by a giant LED system on the building's exterior. It was a precise strike point located between the glass steel frame, LED panels, and decorative electrical system running along the outside of the structure. Russian security teams immediately poured fire into the sky. AK-12s, light machine guns, search lights, and flares all turned toward the final two drones at the same time. Bursts of 5.4 5mm rounds tore through the mist, building a chaotic wall of fire in front of Mosfilm Tower. Kamicazi number two was hit directly in the battery pack. The lithium battery caught fire. The drone body shook violently and its trajectory began to drift away from the center of the target. But inertia still pulled it forward. It slammed into the technical area on the side of the upper floor where cables, control boxes, and the secondary frame of the LED screen were concentrated. An orange fireball erupted on the building's exterior. Glass shattered. Metal frames deformed. Black smoke poured out from the upper floors and that offc center strike itself created the perfect cover for the final drone to approach the target. At 0450 hours, local time, kamicazi number three emerged from the smoke of the fallen drone like a ghost. It had only 3% battery left. One front motor vibrated violently after a near collision with debris. The control signal had weakened.

[00:19:21]The return data was almost broken, but the guidance algorithm no longer needed operator intervention. It saw the 36th floor of most film tower. It reacquired the center of the Russian flag glowing on the LED screen. Then it made its final course correction and dived at a speed of about 140 mph. The shape charge, weighing about 2 lb, detonated directly on the exterior of the building's 36th floor. At an approach speed of about 140 mph, the kamicazi did not merely hit the glass. It forced all of its impact energy into a narrow point on the facade system. The shock wave tore through the thick multi-layer tempered glass, penetrated the metal frame holding the LED screen, and destroyed the electrical control clusters located behind the facade layer. Within a few thousand of a second, the temperature at the blast point surged to 4,000° C. The blast pressure spread along the technical boxes, shortcircuiting the power supply system of the LED strip that was displaying the victory symbol. The chain reaction began almost immediately. The LED panels on the 36th floor flashed violently with sections of light torn away from the overall image. A blue white glow flashed through the black smoke, reflecting down onto the glass surfaces below and turning the middle body of the tower into a cold streak of light in the Moscow night. Inside the building's technical system, protective circuit breakers tried to cut the surging current, but the short circuit had spread too quickly through the decorative cable routes, LED power supplies, and secondary distribution boxes. The sound did not resemble a single explosion. It sounded like a long, dry, rapid chain of electrical cracking echoing inside the glass shell of a modern architectural symbol. For about 5 seconds, the exterior of the 170 m tall Mosfilm tower flared like an artificial torch. Then the entire large LED screen began to flicker, distort, and sink into darkness. The image of the Russian flag disappeared. The Victory Day congratulatory text also went completely dark. What remained was only smoke, shattered glass, and red emergency lights blinking on the upper floors.

[00:21:37]Back in central Moscow, the propaganda performance that everything was still fine began to collapse before the eyes of the people. 1 second earlier, most film tower was still a glowing backdrop for the atmosphere of the parade. 1 second later, the 170 m tall building was swallowed in smoke. The LED screen went black. There were no more congratulatory banners, no more Russian flag glowing on the glass facade. No more image of victory projected into the capital sky. There were only sirens, the lights of emergency vehicles, and the freezing mist surrounding the body of the tower. In that mist, the silence was heavier than any propaganda words.

[00:22:18]Ukraine did not only strike an LED screen on the exterior of most film tower. They struck the very sense of safety that the Kremlin has always tried to build around Moscow. A70 m tall building once shining with Victory Day congratulatory banners and the image of the Russian flag sank into smoke, shattered glass, and darkness within just a few seconds. The most important thing is there were no human casualties.

[00:22:45]This strike was not aimed at civilians.

[00:22:47]It was designed as a controlled political and military warning, strong enough to make Moscow listen, but precise enough to avoid turning the message into a tragedy. While Russian media may call it a minor incident or a failed provocation, the image of Mosfilm tower going dark tells a different story. Ukraine proved that the air defense layers around the Russian capital no longer create an inviable zone. Pancer S1, Pole 21, TOR M2, ground security teams, and the entire urban surveillance network were forced to react to small UAVs far cheaper than the systems used to stop them. Militarily, this is a cold lesson of modern warfare.

[00:23:29]The biggest missile, the strongest radar, or the most expensive system does not always decide the outcome. Sometimes what makes the difference is an autonomous algorithm, a low flight path, cheap decoys, precise attack timing, and the ability to turn the enemy's own confidence into a weakness.

[00:23:47]Psychologically, the message is far heavier. If a UAV can reach a symbol right in the middle of Moscow, then nowhere can still be considered absolutely safe. Not the outskirts, not the center of the capital. Even in the minds of Russian planners, the area around the Kremlin itself is no longer an immune fortress. But Ukraine's message is not destruction for the sake of destruction. The message is Ukraine has the ability to respond. But what they truly want is a lasting ceasefire, sustainable peace, and safety for the Ukrainian people. Keev wants Moscow to understand that Ukraine seeks peace not because it is weak but because it is already paid too much in blood. Spring seasons, destroyed cities, and families forced to live under the sound of air raid sirens. The strike on most film tower therefore was not only a UAV attack. It was a warning written in smoke and darkness across the Moscow sky. If Russia continues to reject a real agreement, war will no longer be something that happens only far from its borders. And that is the greatest meaning of this operation. Ukraine does not need to prove that it wants the war to last. It only needs to prove that it has enough capability to force the other side to take peace seriously. Okay.