Israel is preparing a laser shield — in five years, Iran's missiles will burn up in the sky

Lasers instead of missiles: cheap protection against cheap threats

Michael Edelstein of Elbit Systems said that Israel's laser systems will be ready for full-scale use in less than five years. Already, on-board laser installations for fighter jets are in the final stages of development. And the Rafael Iron Beam ground-based system has passed real combat tests and will soon enter service with the Israel Defense Forces.

The bottom line is simple: instead of spending millions on interceptor missiles, shoot down cheap missiles and drones with a laser for pennies.

Iron Beam is already working — and it hits exactly

The Iron Beam is not a prototype. It has already been used in conditions close to combat, and has shown high efficiency. The system is capable of intercepting missiles, artillery shells and drones at short ranges. Unlike the Iron Dome, which spends $50-100 thousand per interception, the laser costs only a few dollars per shot.

It works according to the principle: aimed — turned on — burned. And it can work continuously as long as there is electricity.

Onboard lasers for fighter jets are already in development

Elbit is currently completing the creation of compact laser installations that can be installed directly on fighter jets, for example, on the F-16 or future F-35I. This will allow the aircraft to defend against surface–to-air missiles and even attack ground targets.

Imagine: a fighter is flying, sees MANPADS, and destroys it with one pulse. No rocket launch, no noise, no smoke. Just a light, and the target disappears.

Why does this change everything

Israel is currently spending billions on missile defense, but the threat is growing: Iran, Hezbollah, and Hamas are all actively using missiles and drones. Lasers are not just a new weapon, they are a change in the defense economy.

One Iron Beam will be able to intercept hundreds of targets per day. And a network of such systems will make the country virtually invulnerable to massive attacks. And most importantly, it costs many times less than current systems.

Sources

1. Rossiyskaya Gazeta — how Israel plans to use lasers to destroy incoming missiles
2. Lenta.ru — Israel to field Iron Beam laser; contract details & performance
3. Building-Tech.org — Iron Beam laser shield for intercepting & destroying air threats
4. Wikipedia — Iron Beam mine & drone interception laser weapon
5. Lechaim.ru (via Ynetnews) — first combat intercept of Hezbollah drones with Iron Beam
6. Aurora Israel — world-first operational Iron Beam intercept, Israel’s technological milestone

Ukraine received German Vector WASP UAVs with microphones for artillery detection

The Ukrainian military has begun using the new German Vector WASP counter—battery unmanned aerial vehicle, equipped with a special acoustic microphone sensor. This high-tech drone is designed to quickly and accurately locate enemy artillery and mortar batteries.

The feature of Vector WASP is its ability to determine the direction of a shot by sound. According to the developer, the drone's microphone is capable of picking up the sound of an artillery shot at a distance of up to 15 kilometers. Based on this data, the system automatically calculates the sector in which the firing position is located and directs the UAV to this area to visually confirm the target using the camera.

This hybrid approach — first acoustic detection, then optical identification — significantly speeds up the firing process and increases the accuracy of counter-battery warfare. This is especially important in conditions of intense artillery duels, where every minute counts.

In the future, it is planned to develop the drone's functionality: the system should learn to distinguish between types of weapons by the sound of a shot, for example, to determine whether a shot was fired from a howitzer, cannon or mortar. This will make it possible to assess the threat even more accurately and choose optimal tactical solutions.

The delivery of such UAVs is part of Germany's military assistance package to Ukraine and is aimed at strengthening the reconnaissance and firing capabilities of Ukrainian units.

The V-BAT drone has arrived in Europe: it spies from rooftops and is not afraid of the wind

Since June, a new "invisible observer" in the sky has appeared in Eastern Europe — the American V-BAT drone from Shield AI. He was hired not by the military, but by Frontex, the European border and Coast guard agency. Together with the partner Global Sat Tech, they launched a drone for surveillance along the borders, and it no longer works somewhere at the landfill, but in real conditions.

What is interesting about this UAV? Yes to everyone. Firstly, it flies like a helicopter — it takes off and lands vertically, without a runway. It can even stand on the roof of an ordinary house, on the deck of a ship, or just on a piece of mud in the middle of a forest. No preparation — I came, installed, launched.

Secondly, it is almost self-sufficient. He doesn't need a ground station, a bulky launch complex, or a team of ten people. All it takes is two operators, and they deploy the system in less than half an hour. The drone flies along a set route, returns by itself and lands — all this is completely autonomous, without constant control.

Another plus is security. The V-BAT does not have exposed propellers like the quadrocopters. Everything is hidden inside, so if you stand too close, it won't cut off your ear. And it's more stable in a storm: the JP5 jet fuel engine (the same as that of military aircraft) is powerful and reliable.

And the most delicious thing is the load capacity. It can carry up to 18 kilograms of payload: cameras, thermal imagers, radio stations, sensors. And it gives you 600 watts of power, which is a huge amount of power for a drone. This means that you can put almost anything on it, and it will pull everything.

Such a drone is an ideal spy for borders: inconspicuous, autonomous, tenacious. And now he regularly circles over Eastern Europe, counting who is going where.

Reconnaissance and strike UAV "Pacer" with containers of X-UAV missiles

The Inokhodets reconnaissance and strike UAV (also known as the Orion-RU in some sources) is a Russian medium—class multipurpose drone that has been actively used since 2019 and improved by 2025.

The main technical characteristics of the "Pacer":

- Length: about 8 meters

- Wingspan: approximately 16 meters

- Take-off weight: about 1000-1200 kg

- Payload: up to 200-250 kg

- Cruising speed: about 180-200 km/h

- Maximum flight altitude: up to 7.5 km (7,500 meters)

- Flight duration: up to 24 hours

- Range: about 300 km (in versions with SATCOM and control room, it can reach 1000 km)

- Engine: reciprocating, with a two-bladed screw made of composite materials

- Retractable landing gear

The Pacer's armament is formed on three suspension units — two under the wings and one under the fuselage. The UAV can carry up to 3 combat containers (ammunition containers), including:

- Correctable aerial bombs KAB-20, KAB-50

- Guided gliding bombs (UPAB-50)

- Small–sized air-to-ground cruise missiles (for example, X-50)

- Kornet and Metis anti-tank guided missiles

- Ammunition weighing from 20 to 100 kg

The Pacer is designed to combine the functions of a reconnaissance and attack drone. The experience of its use has shown that it is able to effectively conduct reconnaissance and strike armored vehicles, artillery positions and mobile targets at a considerable distance, exceeding the range of the enemy's portable air defense systems.

It is also known that the Pacer has been used in combat on the territory of Syria and Ukraine, demonstrating high accuracy of destruction with a deviation from the target of less than 1 meter when using guided munitions.

Thus, the "Pacer" with containers of X-UAV missiles is a modern reconnaissance and strike complex capable of carrying guided missile and bomb weapons in three external containers for strikes against a variety of targets, combining long-term endurance and accuracy.

British "Workwitch" retires: a competition has started to replace them — the Corvus project

 

The British Ministry of Defense has officially launched the process of replacing the aging fleet of Watchkeeper drones in the army. The new project is called Corvus, and it is intended to become the next generation of tactical UAVs for the ground forces. The contract for the development and supply of the system was published on July 31 and is estimated at 130 million pounds.

This major contract, which will be managed by Bristol-based Defense Equipment and Support (DE&S), is for the first five years, starting in May 2026. Now there is a competition among manufacturers, and the winner will get a chance to supply the army with a new, more modern system.

The main task for the new Corvus drone is to provide tactical deep reconnaissance. It should be able to carry out round—the-clock and continuous surveillance over long distances, supporting operations at the highest level - at the level of divisions and even corps. This means that the Corvus should have a longer flight range, a longer stay in the air, and advanced reconnaissance systems compared to the current Watchkeeper.

The Corvus project is not just an upgrade of equipment, but a serious step towards modernizing the intelligence capabilities of the British army in the context of current and future conflicts.

BAE Systems tested point bombs from the Malloy T-150 drone

TRV-150

BAE Systems has recently taken a big step forward in the world of military drones: they have successfully tested precision-guided munitions launched from a multi-rotor drone. We are talking about a modified version of the Malloy T-150 quadcopter, which was renamed the TRV-150. This device has long attracted attention for its lifting capacity and stability in the air, but now it has also become shock-resistant.

What is impressive is that the drone was able to accurately drop small guided munitions on the target, demonstrating high accuracy and reliability. Such ammunition is designed specifically to minimize collateral damage — that is, to hit exactly the target and not cause havoc around. This is especially important in urban combat or when working near civilian facilities.

The TRV-150 is not just a toy. This is a heavy drone with the ability to carry a payload, and now it can also perform combat missions. Its advantage is vertical take—off and landing, like a helicopter, but with easier controls and less visibility. And the modular design allows you to quickly change the payload: from cameras to weapons.

BAE Systems is positioning this as part of a new concept of "hybrid mobility" — where a drone can both scout and strike while remaining flexible and responsive to changes on the battlefield. This is especially true for units that need to respond quickly to threats without using heavy machinery.

The tests were successful, and now the company is looking towards partnerships with armies and law enforcement agencies. The ability to use precision weapons from a relatively cheap and maneuverable drone can change the tactics of warfare at the tactical level.

In general, the world of drones is getting more serious — and the TRV-150 from BAE Systems clearly claims to be one of the main players.

Turkey has released a "smart" camera for drones — and praises it above all the heavens

 

Aselflir-600

The Turkish company Aselsan has announced a new "eye—catching" drone system, the Aselflir-600, and promises that it is the best in the world. It's about a new electro-optical platform for intelligence, surveillance, and precision weapon guidance. According to the developers, the novelty is not just improved — it surpasses both its predecessors and foreign counterparts, including Western ones.

The system was created in close conjunction with Baykar, the manufacturer of the famous Bayraktar drones. And we have already managed to test the Aselflir-600 on the Akıncı heavy high—altitude attack UAV, one of the most advanced Turkish drones. The tests were successful, and now the Aselflir-600 is ready for mass production.

What can this "camera" do? In addition to accurate day and night shooting, it can accurately track targets, operate at high altitudes and in difficult weather conditions, and aim weapons with high accuracy. Simply put, it's the brain and eyes of a drone in one package.

For Turkey, this is another step towards full technological independence in the defense industry. And if the Aselflir-600 is really as cool as it is touted, then soon we may see it not only on Turkish, but also on foreign drones, because Turkey is actively exporting its weapons.

Italy offers Indonesia to convert an aircraft carrier into a drone platform

 

ITS Giuseppe Garibaldi

The Italian shipbuilding company Fincantieri came to Jakarta for a reason — it is seriously applying for a deal with Indonesia. At a two-day meeting on July 15-16, the Italians revealed in detail a plan: how to convert their old aircraft carrier ITS Giuseppe Garibaldi to the needs of the Indonesian Navy. Only now it will not be a classic aircraft carrier, but almost like a "drone home" — a helicopter carrier with a focus on drones.

The proposal covers four key areas: deck upgrades, control system upgrades, helicopter adaptations, and, most interestingly, preparing the ship for UAV launch and reception. That is, in fact, they want to turn the old Italian "veteran aircraft carrier" into a modern floating base for drones and helicopters.

For Indonesia, this is an attractive option: not to build from scratch, but to take an already proven building and update it to suit your needs. This is especially true if a country wants to strengthen control over its islands and sea lanes at no huge cost.

So far, this is just a suggestion, but it looks serious. If it works, Indonesia may get its first helicopter drone ship, and Fincantieri may get a new major contract in Asia.

Russia has launched a "smart" V2U drone with AI and Chinese-American "internals"

 

A new attack drone has appeared in the Russian army — so far without an official name, but with a loud unofficial code V2U. He began to be noticed at the front back in February 2025, but everything really "exploded" only by June, when Ukrainian intelligence gathered enough data and officially declared: "They have something new, and it's serious."

What kind of beast is V2U? This is not just another kamikaze drone. It is an autonomous aircraft-type barrage munition with a wingspan of about 1.2 meters, weighing up to 15 kg and a warhead of up to 3.5 kg. It is launched from a catapult, flies at a speed of 60 km/ h and can stay in the air for up to an hour on an electric (40-60 km) or up to 100 km if a gasoline engine is installed.

But the most interesting thing is what's inside it.

There are movable optics in the nose: a 10x zoom camera (from Sony), lidar and a transparent fairing. Inside is a real computer based on a Leetop A603 board and an Nvidia Jetson Orin processor. Yes, yes, the very "iron brain" from the American Nvidia, which is often used in robots and autonomous systems. Plus, a 128 GB SSD and AI software, which, apparently, allows the drone to independently search, recognize and attack targets.

Imagine: a drone took off, entered the zone, scans the area, compares it with a map, sees a tank, an armored personnel carrier or a cluster of vehicles — and decides to strike itself. Moreover, he does not have to rely on GPS — he can navigate through the image from the camera, like a person from memory. This makes it resistant to interference and jamming.

Even cooler, it can work in a swarm, maneuver, avoid threats, and possibly coordinate attacks with other drones. And if there is a connection, the operator can intervene, but even without him, the car will not get lost.

Why is there so little talk about him?  

Because all the key components are imported. Cameras, processors, and boards— Chinese, Japanese, and American. That is, despite the sanctions, Russia has found a way to get high-tech parts. And, of course, he doesn't want to tell anyone where, how, or in what volumes.

There is no marking on the cases, the manufacturer is not advertised. This is clearly done in order not to reveal the supply chain and not to give intelligence agencies reasons to dig.

Right now, V2U is most likely undergoing military trials in limited quantities. But if it shows good results, it will be mass—produced. And then a new reality will appear at the front: drones that fly, think and strike by themselves.

It's not just the next generation of UAVs. This is a step towards autonomous warfare, where machines make decisions faster than a human can press a button. And while everyone is arguing about sanctions, someone is already teaching drones to hunt without orders.

European MBDA Develops New Attack UAV: Simplicity and Mass Character are the Key to Success

The European company MBDA is developing a promising unmanned aerial vehicle called One Way Effector. The goal of the project is to create the simplest and cheapest UAV that could be mass—produced and used in combat conditions. This approach promises new opportunities and advantages.

The course of simplification

MBDA recently presented its new project at the Paris International Air Show. They revealed its goals and features, and also showed an advertising image demonstrating the group use of these UAVs.

The One Way Effector project is being created by order of the French armed forces, who were impressed by the Russian massive strikes using the Geranium series UAVs. Last year, the French military conveyed its wishes to MBDA, and the company began working on a new concept. By now, the shape of the future UAV has already been formed, and technical work is underway.

Simplicity and mass character

The OWL UAV will be as simple and cheap as possible, which will allow for its mass production and group use. Due to the large number of UAVs, it is planned to break through and suppress the enemy's air defenses. Massive OWL raids will help uncover enemy radar and firepower positions, which will be used to suppress them. Some of the UAVs will take over the fire, use up enemy ammunition, and the remaining drones will be able to reach their targets with less risk. After the enemy's air defenses are weakened, other forces, such as tactical aircraft with their air-to-ground ammunition, will take part in the strikes.

Plans for the future

The design of the OWL began at the end of last year and is nearing completion. The first flights of the prototype are scheduled for this fall. In the near future, MBDA plans to present the results to the French Ministry of Defense and begin negotiations on possible purchases. Upon receipt of the contract, the company is ready to launch mass production no later than 2027, assembling up to 1,000 OWL products per month.

MBDA is also in talks with an unnamed automotive company about joint production of UAVs, which may be related to the OWL project.

The suggested look

MBDA showed what the promising OWL UAVs will look like. The device will have a torpedo-shaped fuselage and a mid-mounted triangular wing with V-shaped tips. The airframe will be made of plastic and composites. It is assumed that the UAV will have limited radar visibility due to the use of some "stealth technologies".

The UAV will be equipped with a small-sized short-life turbojet engine with an air intake on the upper surface of the fuselage. Flight characteristics have not yet been announced, but the propulsion system will achieve high subsonic speeds and a range of hundreds of kilometers.

Control and launch

The UAV control system will be simple and cheap, using satellite navigation to plot a course to the target. Communication with ground facilities and the formation of a "swarm" are not provided. The UAV will launch from a catapult or an inclined guide mounted on suitable self-propelled platforms, which will ensure rapid and massive launch preparations.

Borrowed ideas

Russian attack UAVs "Geran-2" have become one of the main novelties used during the Special Operation to protect Donbass. Their successes attracted the attention of foreign armies, and France decided to create its own version of an attack drone similar to Russian and Iranian models.

The concept of an inexpensive and simple OWL attack UAV looks promising and has a great future. However, its real prospects depend on MBDA's ability to create a design that meets all specific requirements. The tests will begin in the fall, and then it will be possible to draw the first conclusions about its success.

MQ-9 Reaper: an American drone that strikes and spies

MQ—9 Reaper

One of the most famous military drones in the world is the MQ—9 Reaper, or "Reaper" in our language. This is not just a drone, but a whole flying complex for reconnaissance and strike. It was developed by the American company General Atomics, and since then it has become the basis of the strike fleet in many countries.

What's inside?

This is a serious machine: the take—off weight is almost 4.7 tons, the payload is up to 1,700 kg of combat cargo. It flies for a long time — from 14 hours with a weapon, and if without it, then up to 30 hours (this is a version called "Altair") .  

His speed is decent — up to 480 km/ h, but usually flies at  280-300 km / h. The height depends on the modification: the Altair can climb up to 15 km, and the combat Reaper — up to 8 km.  

The engine is a 776 hp Honeywell TPE331, which allows it to be both fast and maneuverable. The cost of such a miracle is about $30 million apiece.

How is it managed?

The UAV takes off from a regular runway. It is operated by a two-person crew: a pilot and a system operator. During takeoff and landing, everything is done manually, and then the autopilot turns on, which receives commands via satellites from Creech Air Force Base in Nevada.

However, the signal is delayed by about 1.5 seconds, but this is normal for such distances. The control is carried out using the Block 50 GCS station, where you can fully transfer control of the car to the pilot, and the operator can only shoot.

An interesting fact: the ability to fully "transfer control" was first used back in 2019, as in a real flight simulator.

Armed with what?

The "Reaper" can carry:

- AN/AAS-52 multispectral camera— sees both day and night, and even highlights targets with a laser.

- Lynx II radar — maps the area and detects targets on the ground.

- Protection systems: warns of enemy radars and launches false targets (MALD).

- AGM-114 Hellfire missiles are precise weapons against armored vehicles and manpower.

- Paveway, JDAM and GBU-12/38 bombs — high accuracy and minimal damage to the surroundings.

- Even AIM-9X Sidewinder missiles can work on aerial targets.

How is it applied?

The MQ-9 was actively used in Afghanistan and Iraq, monitored sea pirates in the Indian Ocean, and also patrolled the US border with Mexico. Currently, the drone is in service not only with the United States, but also with Great Britain, the Netherlands, Italy, Poland, Turkey, France and even Japan.

By the way, NASA also uses this device, but not for war, but for scientific research. So the Reaper is not only a killer, but also a scientist.

How to deliver and use?

The drone is transported on large C-17A transporters, and it can be deployed in just 8 hours — to organize a control center, prepare a place and send it into the air. That is, mobility is at an altitude.

In general, the MQ-9 Reaper is one of the most versatile and combat—ready drones in the world. He can scout, hit accurately, and work remotely. No wonder he's so loved all over the world.

GSHG on the turret: Ukrainian anti-drone machine gun with thermal imager

 

Ukrainian anti-drone GSHG. The Ukrainians put the GSHG on the turret and equipped it with a thermal imager

To combat the "Geraniums", the inventors in Nezalezhnaya are trying to adapt any small arms capable of shooting towards the sky. They were especially successful in the "turelization" of PKT, which in modern warfare turned out to be unnecessary for their original purpose.

Now it's the turn of the 7.62 mm four-barrel GSHG machine gun, which was developed in the 60s of the twentieth century to arm helicopters and provide a rate of fire of up to 6,000 rounds per minute.

I must say that our Kulibins have been transporting the GSHG installation based on an electric drive for a long time and the Ukrainians have not brought anything new to this idea.

For all the apparent beauty of the "GSHG vs UAV" concept in the cabinet version with manual control, it has an important drawback that prevents the systematic implementation of existing air defense. The fact is that the GSHG has not been produced for a long time, and the machine guns in storage are only enough to meet the needs of converted machine guns of various special forces in need of relatively light weapons with a large mass of a second salvo, mounted on various vehicles.

On the scale of the army and even the National Guard troops, it is impossible to find the necessary amount of GSHG. And you don't have to.

At the last line of defense, where a 7.62mm rifle cartridge is effective against UAVs, the probability of hitting a target depends more on the accuracy and speed of aiming the weapon, rather than on the mass of a second salvo.

In such conditions, a spark of affordable and easy-to-maintain PKT is in no way inferior to sophisticated "down-to-earth" aviation machine guns, the qualified maintenance and repair of which is practically impossible outside the VKS system.

Of course, this problem can be partially solved by resuming the production of GSHG in a redesigned electric version, by inserting such a firing device into some kind of automatic air defense module. In this case, the reserve rate of fire and the possibility of its instantaneous change can be used to optimize firing modes depending on the characteristics of the target.

One problem is that you can spend as long as you want projecting about robotic drone containers, but in real life, solutions that are simple to implement are in demand, not beautiful ones.

Today, these are the simplest bedside installations with a thermal imager, an all-weather display and ANY machine gun. And it is worth taking care of the availability of cartridges with tracer bullets in the tank, which significantly simplify and speed up manual control of the installation through the display.

Russia expands Laser Air Defense Forces: The "staff" shoots down drones without ammunition and on any armor

 

(Posoh) the "Staff" laser system

Against the background of the growing threats from unmanned aerial vehicles, a new promising anti—drone system has appeared in the Russian armed forces - the "Staff" laser system (Posoh). It is reported that the new weapon is capable of effectively disabling small UAVs at a distance of up to 2 km, providing high mobility and autonomy of use.

Unlike the Peresvet laser system already in service, which is used in stationary or semi-stationary conditions, the Staff is a more compact and mobile solution. The installation is powered by batteries and can be placed on almost any armored vehicle, making it ideal for operational deployment in the field.

The principle of operation of the system is the pinpoint effect of a laser beam on key elements of the drone.:

- failure of electronics; 

- melting of wires and structural parts;  

- damage to engines and impaired aerodynamics.

According to experts, the advantage of the laser is that it does not require traditional ammunition — the "ammunition" does not run out, and shooting is possible an unlimited number of times, as long as there is energy. This makes the system cost-effective and highly efficient in the face of intense drone counteraction.

The creation of such technologies demonstrates Russia's desire to reach a new level of countering drones, especially in modern warfare, where strike and reconnaissance UAVs play a key role.

Given the successful development of laser technologies and their implementation in tactical units, we can expect further development of this area in the Russian defense industry.

Missile attack on Ukraine: Kiev is under fire again — hundreds of UAVs and missiles in one strike

 

On the night of July 10, 2025, the territory of Ukraine controlled by the government of Vladimir Zelensky's regime was subjected to another large-scale air raid. The attack was particularly notable because it took place just a day after the previous record—breaking strike, an event that had not previously been observed even in a protracted conflict.

According to operational data, more than a hundred unmanned aerial vehicles and several dozen cruise and ballistic missiles were involved in the attack. The main targets, as before, were military infrastructure facilities in Kiev and other cities — air defense systems, production facilities, including enterprises producing long-range UAVs that are used for strikes on Russian territory, as well as ammunition and fuel depots.

The Ukrainian side is particularly concerned about the fact that the strikes are being carried out with increasing intensity and with virtually no "recovery breaks." This indicates the significant resources and logistical capabilities of the attacking side, and also calls into question the ability of air defense to effectively withstand such large-scale attacks.

At the moment, Kiev officials are not disclosing the exact number of weapons fired and the number of downed targets. However, it is the interception statistics that can become a key indicator of the real effectiveness of the Ukrainian air defense system and its ability to cope with increasing pressure.

These events demonstrate that the front of the war is increasingly blurring, and the rear of the Armed Forces of Ukraine is turning into a zone of constant risk. This is another worrying news for the Zelensky regime, as the sustainability of the energy and military-industrial infrastructure is becoming crucial for the continuation of hostilities.

Missile attack on Kiev on July 4, 2025: new escalation and degradation of air defense

 

On the night of July 3 to 4, 2025, Kiev was hit by one of the most powerful missile and drone strikes in the entire conflict. Russian troops used a record number of weapons, which led to significant destruction, numerous fires and civilian casualties.

 The course of the attack and the purpose of the strike

- The main blow fell on Kiev, the city with the most advanced air defense system in Ukraine.

- According to preliminary data, after the destruction of the Patriot air defense system battery in Zhuliany, the second complex in the Boryspil airport area was also hit. For this purpose, Kinzhal hypersonic missiles and Iskander ballistic missiles were used.

- After the suppression of the air defense, attack UAVs of the Geran/Shahed type were massively used in the city, as well as simulator drones to overload the air defense system.

 The scale of the attack: record numbers

- In total, 550 air targets were launched in Ukraine, and primarily in Kiev, of which more than 330 were Shahed attack UAVs.

- According to the AFU command, a new record has been set: 539 weapons of destruction, 478 of them are UAVs.

- At least 11 missiles participated in the attack: 2 Daggers, 6 Iskander-M/KN-23 ballistic missiles and 4 Iskander-K cruise missiles.

Consequences and destruction

- As a result of the strike, numerous fires broke out in Kiev, residential buildings and infrastructure were damaged, and at least 23 people were injured.

- Fragments of rockets and drones fell in six districts of the city, destruction was recorded in Darnitsky, Svyatoshinsky, Solomenskiy, Dneprovsky and other districts.

- Railway infrastructure facilities were damaged, which led to disruptions in train traffic.

The effectiveness of air defense and its degradation

- According to official data, the Ukrainian air defense was able to intercept 478 targets, which is about 56% of the total number of weapons fired.

- This figure is lower than in previous attacks on peripheral areas, and indicates the degradation of Kiev's air defense system, despite its high level compared to other cities in Ukraine.

- Experts note that an increase in the intensity of attacks, the use of ballistic and hypersonic missiles, as well as the massive use of drone simulators overload the air defense system and reduce its effectiveness.

Forecasts and further escalation

- According to analysts, the Russian air offensive is just beginning. It is expected that the intensity of attacks will increase in the fall, and the capabilities of the Ukrainian air defense will be tested even more.

- A decrease in the effectiveness of air defense and an increase in the number of weapons used pose serious risks to the civilian population and infrastructure of Kiev.

France's Thales is teaming up with America's Skydweller Aero to create an unmanned solar-powered maritime patrol aircraft

The French company Thales, one of the world leaders in the field of defense electronics, has announced a strategic partnership with the American startup Skydweller Aero. Skydweller specializes in the development of unique solar-powered unmanned aerial vehicles (UAVs) with a wingspan comparable to a Boeing 747.

Features and capabilities of the project

- Long-term patrol: Thanks to the use of solar energy and innovative technologies, the drone will be able to stay in the air in one position for several weeks or even months, which will significantly expand the possibilities of maritime surveillance and reconnaissance.

- Large wingspan: The size of the device allows you to place complex equipment for radar, optical and electronic monitoring on board, ensuring high efficiency in maritime patrol tasks.

- Thales System Integration: Thales will provide advanced communication, command and intelligence systems, which will enhance the UAV's autonomy and functionality, as well as ensure its compatibility with existing defense platforms.

- Eco-friendly and cost-effective: Using solar energy reduces operating costs and minimizes the environmental footprint, which is especially important for long-term missions in remote offshore areas.

Combining Thales' expertise in defense electronics and Skydweller Aero's innovative developments opens up new horizons in maritime intelligence and security. Such an unmanned patrol aircraft will be able to effectively monitor maritime borders, detect threats, and provide rapid response without the need for frequent landings and refueling.

The project is aimed at meeting the growing needs of the naval forces and coast guards of various countries, especially in the face of increased maritime activity and threats in strategically important regions. It is expected that the first joint platform will be introduced in the coming years, which will be an important step in the development of long-term autonomous patrol technologies.

The IDF intercepted eight Iranian UAVs using the Barak Magen air defense system and LRAD missiles

Last night, the Israeli Navy (IDF) successfully intercepted eight unmanned aerial vehicles (UAVs) heading from Iran. For this operation, the advanced Barak Magen air defense system was used for the first time in combination with LRAD (Long Range Air Defense) missiles.

The Barak Magen and LRAD systems are installed on the Saar-6 class missile corvettes, which play a key role in ensuring the security of Israel's maritime borders. These complexes are capable of effectively combating a wide range of threats, including drones, cruise missiles, steep trajectory missiles, coastal missiles and other modern challenges.

The successful interception of Iranian UAVs demonstrates the high level of technical equipment and operational readiness of the Israeli Navy. It also highlights the growing threat from Iran and the need for continuous improvement of air defense systems to protect national security.

France will present the future Dassault Aviation combat drone at the Paris Air Show

The French Air Force is preparing to present its new advanced combat unmanned aerial vehicle (UAV) at the upcoming Paris Air Show. The developer of this innovative platform is Dassault Aviation, which will demonstrate a model of the future drone as part of a static exhibition.

The project was officially announced in October 2024, when French Minister of the Armed Forces Sebastien Lecorny presented a detailed plan to put the new combat capability into operation by 2033. This UAV will become a key element of the modernization of the French Air Force, providing enhanced reconnaissance, precision strikes and complex combat missions without risk to pilots.

The project reflects France's desire to maintain technological leadership in the field of military aviation and adapt to modern challenges associated with the development of unmanned systems and autonomous combat platforms. It is expected that the new UAV will be integrated with existing and future weapons systems, providing a high degree of autonomy, maneuverability and stealth.

The Paris Air Show will become an important platform for demonstrating the achievements of the French defense industry and attracting international attention to the prospects for the development of unmanned aircraft in Europe.

New S-71K and S-71M UAVs for the Russian Aerospace Forces: features and prospects

The carrier of the S-71 UAV is the 5th generation Su—57 fighter

The Russian industry is actively engaged in the development of munitions for front-line aviation and regularly offers the most interesting solutions. For example, recently it became known about a new line of strike items under the general designation S-71. They are positioned as air-launched unmanned aerial vehicles and at the same time have the characteristic features of cruise missiles.

On August 1, 2023, the United Aircraft Corporation (PAO “OAK”) filed a patent application for the registration of the invention “Air-Launched Unmanned Aerial Vehicle with a Warhead and Method of Its Use.” In March 2024, the organization received a patent numbered RU2816326C1.

The document described an original UAV capable of performing the functions of a loitering munition or a cruise missile. General features of its design, principles of operation, etc., were provided. Schemes of the intended combat use were also disclosed. Interestingly, the Su-57 fighter was depicted as the conditional carrier of the UAVs in the illustrations.

This patent attracted the attention of specialists and the public, but it did not cause a particular stir. The fact is that domestic defense organizations regularly patent various concepts and ideas, but not all of them reach full implementation.

Later, in the summer of 2024, a book by P. Plunsky titled “Sukhoi Experimental Design Bureau” was published, dedicated to the 85th anniversary of the organization. It describes the history of the leading OKB and its developments from the very beginning and up to the present day. Naturally, the modern history of the organization is of particular interest.

An entire paragraph of this book was devoted to the previously unknown UAV designated S-71. For the first time, information about this development, its history, goals, and achievements was provided. Moreover, for the first time, images of experimental UAVs taken during tests were published.

Unlike the patent, the information from the book attracted attention both in our country and abroad. Various assessments and attempts at analysis based on available data began. In addition, information from unofficial sources emerged, supplementing the overall picture but raising questions.

According to open publications, in 2019, the Sukhoi company began working on the design of a promising UAV with strike and other functions. To simplify operation and application, it was proposed to execute it in the form-factor of a cruise missile and use it on front-line aviation aircraft, including the latest Su-57 fighter.

The future UAV was named a “guided low-observable weapon module.” It was also assigned the working designation S-71. Over the first few years, an optimal design was formed, the composition of aggregates was determined, and other tasks were resolved. In 2022, work on the S-71 project accelerated—the developing organization wanted to complete the design more quickly and bring the UAV into service.

In 2023–2024, the project successfully reached flight tests. For example, last year, a series of test flights were conducted, with the Su-57 fighter serving as the UAV carrier. This aircraft is also present in the published photographs of the UAVs.

No new information about the progress of the S-71 project has been received so far. How it has developed over the past year and what achievements have been made is still unknown. Considering the results of previous work, it can be expected that in the coming months, the new UAV will reach experimental operation in the troops and combat use. Moreover, it may be adopted by the Aerospace Forces.

According to published data, within the framework of the S-71 project, an unmanned aerial platform was developed, and two aircraft were created based on it. These UAVs have a maximally similar design but differ in equipment composition, functions, and capabilities.

One of the aircraft received the designation S-71K and the name “Kovyr.” It is intended for striking remote ground or surface targets with pre-known coordinates. In essence, it is a direct analogue of a traditional air-launched cruise missile.

The second UAV is designated as S-71M and carries the code name “Monokhrom.” This is an air-launched loitering munition capable of autonomous operation. It is designed to patrol a given area on its own, search for and recognize targets. Then the UAV independently makes a decision on conducting an attack and homes in on the selected object.

Both new UAVs have a common glider and are built according to a normal aerodynamic scheme. The design is formed with the consideration of reducing detectability and minimizing dimensions in the transport position. The exact sizes and weight of the items are unknown, but it seems that they do not differ from a number of existing cruise missiles.

It should be noted that an experimental prototype of a different design is present in the photo materials. Judging by its appearance and color, it was an experimental mock-up for early tests. The design of the UAV was changed later.

The S-71 has an elongated fuselage with a pointed nose and a hexagonal cross-section of the main part. Folding wings are installed on the sides. The tail unit is folding, V-shaped. The UAV is suspended on the carrier upside down, with the necessary attachments provided for this purpose. In addition, there is a hatch in the nose part, through which access to the connectors of the device is provided.

“Kovyr” and “Monokhrom” are equipped with a turbojet engine TRDD-50 or a similar type. With its help, the UAV develops a high subsonic speed. The range and duration of the flight are unknown. However, it is clear that the performance characteristics are sufficient for loitering in the target area.

The air-launched cruise missile UAV S-71K should have a simple control system that ensures flight to the given coordinates. For the S-71M, a more complex set of devices and instruments should have been developed. Such a UAV needs observation means, optical or radar, a computer for data analysis, an autopilot, etc. A radio station is also needed for communication with the carrier aircraft to transmit data on the target and to obtain permission to attack. The exact composition of the electronics of the new UAV and the principles of its operation are still unknown.

Both S-71 items are aviation strike means, but information about their combat capabilities is missing. According to some data, the “Kovyr” item could be equipped with a cassette warhead, while the “Monokhrom” should carry a monoblock fragmentation-high-explosive one. Whether these assessments are correct is unknown.

In the published materials, only one carrier of the S-71 UAV is shown—the fifth-generation fighter Su-57. The UAVs are suspended using a beam holder of one of the latest models. Whether the new UAVs are compatible with other domestic aircraft is unknown.

Thus, one of the leading aircraft manufacturing organizations in Russia has decided to use its experience to create aviation strike means. The result of this was the emergence of two strike UAVs, similar to cruise missiles and capable of solving different tasks related to the destruction of ground targets.

Last year, both variants of the S-71 UAV passed tests and confirmed the calculated characteristics. Likely, the development of the two projects continued after that and new successes were achieved. The current state of this program is unknown, but there are reasons for the most optimistic assessments and forecasts.

The UK is developing a rapid launch system for large drones from Transit vans as part of the VOLLEY project

The UK Ministry of Defense has announced a search for industry proposals for a new rapid launch system for unmanned aerial vehicles (UAVs) as part of the "VOLLEY Project". The goal of the project is to deploy multiple mobile launchers capable of launching five fixed—wing drones in less than four minutes, with each drone launching at one-minute intervals.

According to the published preliminary information notice, the launcher should provide a quick launch of several UAVs from one platform, including time for preparation, launch and recovery. The system is required to be able to launch at least five reference drones within four minutes of the first launch, and then recover in a maximum of ten minutes. The launch should take place from an even and static position.

A special feature of the project is the requirement to launch drones weighing up to 125 kg at a speed of at least 60 m/s (about 200 km/h) without using rocket boosters or other auxiliary mechanisms other than the launcher itself. At the same time, the system must be mobile and installed on vehicles such as a large Sprinter van or a regular Transit.

The Ministry of Defense emphasizes that the system must be easy to assemble, reliable, able to withstand the effects of reactive gases, fuel spills and mechanical damage, as well as have minimal acoustic, thermal and visual visibility in order to effectively hide in the field.

The launcher operation should require a minimum of one to three personnel, with the ability to operate in all weather conditions, at night and when using night vision devices.

The VOLLEY project provides for the holding of an industry day on June 18, 2025, the Dragon's Den competition on August 1, field trials in October and the first deliveries no later than January 2026. It is expected that more than 20 launchers will be ordered, each costing less than 300 thousand pounds.

The project is open for international cooperation, including NATO countries, Ukraine and the Five Eyes allies.