"Jewellery work": how Russian troops will use attack drones. Unmanned aerial vehicle Russian drones

29.10.2019

A robot cannot harm a person or by its inaction allow a person to be harmed.
- A. Asimov, Three Laws of Robotics

Isaac Asimov was wrong. Very soon, the electronic “eye” will take a person into sight, and the microcircuit will impassively order: “Fire to kill!”

A robot is stronger than a flesh-and-blood pilot. Ten, twenty, thirty hours of continuous flight - he demonstrates constant vigor and is ready to continue the mission. Even when the g-forces reach the dreaded 10 gee, filling the body with leaden pain, the digital devil will keep his mind clear, calmly counting the course and keeping an eye on the enemy.

The digital brain does not require training and regular training to maintain skill. Mathematical models and algorithms of behavior in the air are forever loaded into the memory of the machine. Having stood for a decade in the hangar, the robot will return to the sky at any moment, taking the helm in its strong and skillful “hands”.

Their time has not yet struck. In the US military (a leader in this field of technology), drones make up a third of the fleet of all aircraft in operation. At the same time, only 1% of UAVs are able to use.

Alas, even this is more than enough to sow terror in those territories that have been given over to hunting grounds for these ruthless steel birds.

5th place - General Atomics MQ-9 Reaper (“Reaper”)

Reconnaissance and strike UAV with max. take-off weight of about 5 tons.

Flight duration: 24 hours.
Speed: up to 400 km/h.
Ceiling: 13,000 meters.
Engine: turboprop, 900 hp
Full fuel capacity: 1300 kg.

Armament: up to four Hellfire missiles and two 500-pound JDAM guided bombs.

On-board electronic equipment: AN / APY-8 radar with mapping mode (under the nose cone), MTS-B electro-optical sighting station (in a spherical module) for operation in the visible and IR ranges, with a built-in target designator for illuminating targets for ammunition with semi-active laser guidance.

Cost: $16.9 million

To date, 163 Reaper UAVs have been built.

The most high-profile case of combat use: in April 2010, in Afghanistan, a third person in the leadership of al-Qaeda, Mustafa Abu Yazid, known as Sheikh al-Masri, was killed by an MQ-9 Reaper UAV.

4th - Interstate TDR-1

Unmanned torpedo bomber.

Max. takeoff weight: 2.7 tons.
Engines: 2 x 220 HP
Cruise speed: 225 km/h,
Flight range: 680 km,
Combat load: 2000 fn. (907 kg).
Built: 162 units

“I remember the excitement that gripped me when the screen charged and covered with numerous dots - it seemed to me that the telecontrol system had failed. After a moment, I realized it was anti-aircraft guns! After correcting the drone's flight, I directed it straight into the middle of the ship. At the last second, a deck flashed before my eyes - close enough that I could see the details. Suddenly, the screen turned into a gray static background ... Obviously, the explosion killed everyone on board.

- First sortie 27 September 1944

"Project Option" provided for the creation of unmanned torpedo bombers to destroy the Japanese fleet. In April 1942, the first test of the system took place - a “drone”, remotely controlled from an aircraft flying 50 km away, launched an attack on the destroyer Ward. The dropped torpedo passed exactly under the keel of the destroyer.

Takeoff TDR-1 from the deck of an aircraft carrier

Encouraged by the success, the leadership of the fleet expected by 1943 to form 18 strike squadrons consisting of 1000 UAVs and 162 command Avengers. However, the Japanese fleet was soon overwhelmed by conventional aircraft and the program lost priority.

The main secret of the TDR-1 was a small-sized video camera designed by Vladimir Zworykin. With a weight of 44 kg, she had the ability to transmit images over the air at a frequency of 40 frames per second.

“Project Option” is amazing with its boldness and early appearance, but we have 3 more amazing cars ahead of us:

3rd place - RQ-4 “Global Hawk”

Unmanned reconnaissance aircraft with max. takeoff weight of 14.6 tons.

Flight duration: 32 hours.
Max. speed: 620 km/h.
Ceiling: 18,200 meters.
Engine: turbojet with a thrust of 3 tons,
Flight range: 22,000 km.
Cost: $131 million (excluding development costs).
Built: 42 units.

The drone is equipped with a set of HISAR reconnaissance equipment, similar to what is put on modern U-2 reconnaissance aircraft. HISAR includes a synthetic aperture radar, optical and thermal cameras, and a satellite data link at a speed of 50 Mbps. It is possible to install additional equipment for electronic intelligence.

Each UAV has a set of protective equipment, including laser and radar warning stations, as well as an ALE-50 towed trap to deflect missiles fired at it.

Forest fires in California, filmed by the reconnaissance "Global Hawk"

A worthy successor to the U-2 reconnaissance aircraft, soaring in the stratosphere with its huge wings spread out. RQ-4 records include long distance flights (flight from the US to Australia, 2001), the longest flight of any UAV (33 hours in the air, 2008), a drone refueling demonstration by a drone (2012). By 2013, the total flight time of the RQ-4 exceeded 100,000 hours.

The MQ-4 Triton drone was created on the basis of Global Hawk. Marine reconnaissance with a new radar, capable of surveying 7 million square meters per day. kilometers of ocean.

The Global Hawk does not carry strike weapons, but it deserves to be on the list of the most dangerous drones for knowing too much.

2nd place - X-47B “Pegasus”

Inconspicuous reconnaissance and strike UAV with max. take-off weight of 20 tons.

Cruise speed: Mach 0.9.
Ceiling: 12,000 meters.
Engine: from the F-16 fighter, thrust 8 tons.
Flight range: 3900 km.
Cost: $900 million for X-47 R&D.
Built: 2 concept demonstrators.
Armament: two internal bomb bays, combat load 2 tons.

A charismatic UAV built according to the “duck” scheme, but without the use of PGO, the role of which is played by the carrier fuselage itself, made using the “stealth” technology and having a negative installation angle with respect to the air flow. To consolidate the effect, the lower part of the fuselage in the nose is shaped similar to the descent vehicles of spacecraft.

A year ago, the X-47B amused the public with its flights from the decks of aircraft carriers. This phase of the program is now nearing completion. In the future, the appearance of an even more formidable X-47C drone with a combat load of over four tons.

1st place - “Taranis”

The concept of an inconspicuous strike UAV from the British company BAE Systems.

Little is known about the drone itself:
subsonic speed.
Stealth technology.
Turbojet engine with a thrust of 4 tons.
The appearance is reminiscent of the Russian experimental UAV Skat.
Two internal weapons bays.

What is so terrible in this "Taranis"?

The goal of the program is to develop technologies for creating an autonomous low-observable strike drone that will allow high-precision strikes against ground targets at long range and automatically evade enemy weapons.

Prior to this, disputes about a possible “jamming” and “interception of control” caused only sarcasm. Now they have completely lost their meaning: “Taranis”, in principle, is not ready for communication. He is deaf to all requests and entreaties. The robot is indifferently looking for someone whose appearance falls under the description of the enemy.

Flight test cycle at Woomera, Australia, 2013

Taranis is just the beginning of the journey. On its basis, it is planned to create an unmanned attack bomber with an intercontinental flight range. In addition, the advent of fully autonomous drones will open the way to the creation of unmanned fighters (since existing remotely controlled UAVs are not capable of air combat due to delays in their telecontrol system).

British scientists are preparing a worthy finale for all mankind.

Epilogue

War has no feminine face. Rather not human.

Unmanned vehicles are a flight into the future. It brings us closer to the eternal human dream: to finally stop risking the lives of soldiers and to hand over feats of arms to soulless machines.

Following Moore's rule of thumb (doubling computer performance every 24 months), the future could come unexpectedly soon...

The news about the "Russian Hulk", the SKYF drone of the Kazan Design Bureau "Aviasolutions", made a lot of noise in the world media. The British edition of the Daily Mail spoke about Russian drone that can carry up to 250 kg cargo and stay in the air until 8 ocloc'k.

But SKYF is far from the only Russian-made drone. So, only in service with the army of the Russian Federation there are more than 2,000 drones, which are controlled by specialists from 36 special units. In this article, we have collected the most interesting "birds" that probably have a great future.

The same "Russian Hulk" SKYF

SKYF is a universal air cargo platform. The developers emphasize that they did not try to make a “fashionable toy”, but started from the needs of the market.

The aircraft-grade aluminum alloy frame takes off and lands vertically. Its purpose is to deliver goods to hard-to-reach places, that is, to places where it is difficult to reach by car. He can participate in agricultural work and even evacuate people from the mountains or a blocked road. I wish I could fly to work like this!

Drone reaches speed up to 70 km/h and can overcome 350 km with a load of mass 50 kg. It is clear that if the load is larger, then the path will be reduced. The drone itself weighs 250 kg(without taking into account the mass of fuel).

The drone does not work on the energy in the battery, but on 95th gasoline- the tank is enough for approx. 8 ocloc'k flight. Engine power is transferred directly to the lift and control propellers without expensive electrical circuitry.

Of course, you can’t put such a “gift” under the Christmas tree. Drone dimensions - 5.2 x 2.2 m.

Outpost based on Searcher Mk II and Zastava based on Bird Eye 400

In April 2009, the Russian Ministry of Defense purchased two Israeli tactical drones Searcher Mk II from the Israeli company IAI. The cost of each $6 million.

The machines performed well, and soon the countries signed a contract for 300 million dollars (according to other sources - 400 million) for the assembly of such UAVs at the Ural Civil Aviation Plant JSC from Israeli parts.

The Russian version was called "Forpost". The contract also included the assembly of Zastava mini-drones based on the Bird Eye 400.

Each Outpost costs about 900 million rubles, "Zastava" - 49.6 million. Characteristics of the Outpost:

Zastava is a drone that can be carried in two backpacks. His "trick": before landing, the device makes a somersault. He flips to 180 degrees in the air so as not to damage the electronics by hitting the ground.

The UAV is powered by an electric motor and can stay in the air for up to an hour. A spring-loaded rubber catapult is used to launch the Zastava, and there is a small parachute for landing.

Both drones are designed for reconnaissance and artillery fire correction. Armament is not installed on them.

Tactical drone "Orlan-10"

The model has been mass-produced since 2013 by Special Technology Center LLC. Its strength lies in the fact that you can control the drone from a distance of up to 120 km.

"Orlan-10" weighs 14 kg and capable of 16 hours be in the air. It works from the engine on the 95th gasoline and develops speed up to 150 km/h.

The drone can be controlled from the remote control. Another option is to program it and send it on a mission. In this case, it overcomes 600 km.

UAVs do not care about rains and dust storms. Therefore, Russian troops are actively using Orlans together with Outposts for reconnaissance and targeting artillery in Syria, and they were noticed in the Donbass.

"Granat-6": almost a day in the air

The new model of the company "Izhmash - Unmanned Systems" can continuously stay in the air until 20 hours. Quadcopter weight - approx. 40 kg, he can carry up to 10 kg cargo.

The basis of "Grenade-6" is a gasoline engine connected to an electric generator. It powers four electric motors connected to propellers. Drone reaches speed up to 60 km/h.

"NELK-V8": a drone powered by hydrogen cells

An experimental drone powered by low temperature fuel cells. There is no need to fill in gasoline - instead of a tank, a hydrogen cylinder and a starting battery are installed on the UAV.

A chemical reaction takes place in the battery, during which an electric current is generated. The system issues 1 kW power and allows NELK-B8 to stay in the air up to 5 h on the 6.8 liter hydrogen tank.

Mass of "NELK-8" - 12 kg. He can carry up to 3 kg cargo.

The solution is cool - there is less vibration and noise, so the optics are aimed more accurately. Accordingly, the drone shoots more clearly, and it is more difficult to detect it.

The UAV can even use dry gases. And this will allow him to work at very low temperatures.

Bonus: disposable drone "Eye" KB-1

JSC "Design Bureau - 1" has developed an "individual system of operational reconnaissance." Simply put, a drone that can be used just once.

The device does not look like a drone at all: the 30 cm long tube looks more like a school pencil case. Inside there is an accelerating unit, a stabilization system and a shooting module.

The drone fires at a height of up to 250 m, and then slowly decreases and shoots everything around. It transmits video about the area to the operator via Wi-Fi 700x700 m in FullHD resolution.

"Eye" is convenient if you need to remove the zone of radiation contamination or the place of active hostilities. It is much cheaper than conventional drones, which will not survive in such situations anyway.

Resembling giant stingrays, combat remote-controlled strike drones are considered one of the strangest flying systems ever invented by man. They represent the next evolutionary step in the art of war, as they will definitely soon become the vanguard of any modern air force, as they have a lot of undeniable advantages in frontal combat, especially when dealing with a strong symmetrical opponent.

Lessons that hardly anyone is taught

These new weapons systems are very different from the MALE (medium-altitude, long-range) drones that everyone sees around the clock on their TV screens and which are built by well-known Israeli and American companies, such as IAI and General Atomics, which are today excellent experts in the field, by the well-researched Ryan Aero with its BQM-34 Firebee remotely controlled jet aircraft… 60 years ago.

Probing the future of dogfighting: The Rafale fighter accompanies the Neuron strike drone, designed to break through heavily defended airspace. Due to the superior combat effectiveness of the new generation of surface-to-air missiles, only such stealthy strike UAVs (with a low effective scattering area) will be able to close in on a ground target and destroy it with a high probability of hitting and return home to prepare for the next battle.

A visit to the Aerospace Museum in Belgrade acts as a real revelation in this area. In 1999, during NATO operations in Yugoslavia, at least 17 American RQ-1 Predators were shot down by either MiG fighters or Strela MANPADS missiles. Even despite their discretion, once discovered, MALE drones are doomed and will not survive even an hour. It is worth recalling that in the same campaign, the Yugoslav army destroyed an American F-117 Nighthawk stealth aircraft. For the first time in the history of military aviation, an aircraft that was not detected by radar and was considered invulnerable was shot down.

For the only time in its entire combat service, the F-117 was discovered and shot down, and on a moonless night (there were only three such nights in the five-week war) by a missile of the antiquarian S-125 air defense system of Soviet production. But the Yugoslavs were not a rabble of marginals with primitive notions of military art like the Islamic State (IS, banned in Russia) or the Taliban, they were well-trained and cunning professional soldiers, able to adapt to new threats. And they have proven it.

The Northrop Grumman X-47B UAV prototype took another historic step on May 17, 2013, making several landings with immediate take-off after touching the USS George W. Bush, off the coast of Virginia.

Today, this trend is reinforced by the advent of hypersonic maneuverable missiles for engaging targets beyond the range of visual visibility, which, when launched in large numbers and in tandem with missiles of the wing aircraft, for example, leave almost no chance for evasive maneuver to any enemy flying at high altitude.

The situation is the same with modern ground-to-air weapons controlled by an instantaneously reacting network-centric air defense computer system. Indeed, the level of combat effectiveness of modern missiles, which easily enter well-defended airspace, has become higher than ever in our days. Perhaps the only panacea for this is aircraft and cruise missiles with a reduced effective reflection area (EPO) or low-flying attack weapons with the mode of flying around and around the terrain at extremely low altitude.

In April 2015, the X-47B demonstrated not only a convincing ability to operate from an aircraft carrier, but it also proved its ability to refuel in the air. The second participant in this event over the Chesapeake Bay was the Boeing KC-707 tanker. This is a real premiere for the UAV, as this test marked the first in-flight refueling of an unmanned aircraft.

Remotely controlled attack drones of a new type, using data transmission channels with enhanced encryption from frequency hopping, should be able to enter the protected "sphere" and set the work to air defense systems without risking the lives of flight crews. Their excellent maneuverability with increased g-forces (up to +/-15 g!) allows them to remain somewhat invulnerable to manned interceptors…

Aside the philosophy of "deny access / block zone"

With two advanced stealth aircraft, the F-117 Nighthawk and B-2 Spirit, presented with great fanfare and splurge, the first in 1988 and the second a decade later, the Defense Advanced Research Projects Agency DARPA and the US Air Force played an important role in in order for this new technology to be successfully implemented and demonstrated its advantages in combat conditions. Although the stealthy F-117 tactical strike aircraft has now been retired, some of the technological developments gained from the development of this unusual aircraft (which periodically became the object of indignation of zealous adherents of aesthetics) were applied to new projects, such as the F-22 Raptor and F-35 Lightning II, and to an even greater extent in the promising bomber B-21 (LRS-B). One of the most secret programs that the United States is implementing is related to the further development of the UAV family using radar absorbing materials and modern technologies for actively providing extremely low visibility.

In the process of developing the SR-72 hypersonic vehicle, the issues of safe operation of a reconnaissance UAV in protected airspace are being addressed, both through the use of its own speed and through advanced radar absorbing materials. Promising UAVs designed to break through modern (Russian) integrated air defense systems are also being developed by General Atomics; its new Avenger drone, also known as the Predator C, includes many innovative stealth elements. In fact, it is vital for the Pentagon today, as ever, to stay ahead of what Russia creates in order to maintain the current military imbalance in favor of Washington. And for the United States, the impact drone is becoming one of the means to ensure this process.

A Dassault Neuron drone returns to Istres Air Force Base from a night flight, 2014. Flight tests of the Neuron in France, as well as in Italy and Sweden in 2015, demonstrated its excellent flight and visibility characteristics, but all of them still remain classified. Armed drone Neuron is not the only European program to demonstrate UAV technology. BAE Systems is implementing the Taranis project, it has almost the same design and is equipped with the same RR Adour engine as the Neuron drone.

What the developers of American UAVs today call “protected airspace” is one of the components of the concept of “denial of access / blocking the zone” or a single (integrated) air defense system successfully deployed today by the Russian armed forces, both in Russia itself and abroad. its borders in order to provide cover for the expeditionary forces. No less smart and savvy than American military developers, albeit with significantly less money, Russian researchers from the Nizhny Novgorod Research Institute of Radio Engineering (NNIIRT) created a mobile two-coordinate radar station with a circular view of the meter range (from 30 MHz to 1 GHz) P-18 ( 1RL131) "Terek". The latest versions of this station with their specific frequency ranges can detect F-117 and B-2 bombers from several hundred kilometers, and this remains no mystery to Pentagon experts!

A Taranis UAV at an air base in England, with a Typhoon fighter in the background, 2015. With almost the same size and proportions as Neuron, Taranis, however, is more rounded and does not have weapon bays.

With vast experience in developing high-end stealth target detection systems, the Russian industry is currently very active and offers new digital versions of the P-18 radar to its allies, which can often simultaneously perform the functions of an air traffic control radar. Also, Russian engineers have created new digital mobile radar systems "Sky UE" and "Sky SVU" on a modern element base, all with the ability to detect subtle targets. Similar complexes for the formation of unified air defense systems were later sold to China, while Beijing got at its disposal a good irritant for the US military.

The radar systems are expected to be deployed in Iran to defend against any Israeli attack on its fledgling nuclear industry. All new Russian radars are solid-state active phased array antennas capable of operating in fast sector/path scanning mode or traditional circular scanning mode with mechanically rotating antennas. The Russian idea of integrating three radars, each of which operates in a separate range (meter, decimeter, centimeter), is undoubtedly a breakthrough and is aimed at obtaining the possibility of detecting objects with extremely small signs of visibility.

Mobile two-coordinate all-round radar P-18

Meter radar module from the complex 55Zh6ME "Nebo-ME"

RLC 55ZH6M "Nebo-M"; decimeter radar module RLM-D

Three radar modules of the Nebo M complex are: RDM-M of the meter range, a modification of the Nebo-SVU radar; RLM-D decimeter range, modification of the radar "Opponent-G"; RLM-S centimeter range, modification of the Gamma-S1 radar. The system uses state-of-the-art digital moving target indicator and digital pulse-Doppler radar technologies, as well as a spatiotemporal data processing method, which provides air defense systems such as the S-300, S-400 and S-500 with amazingly fast response, accuracy and the power of action against all targets, except for subtle ones flying at extremely low altitudes.

As a reminder, one S-400 complex deployed by Russian troops in Syria was able to close a circular zone around Aleppo with a radius of about 400 km from allied aviation. The complex, armed with a combination of at least 48 missiles (from 40N6 long-range to 9M96 medium-range), is able to cope with 80 targets simultaneously ... In addition, it keeps Turkish F-16 fighters in good shape and keeps them from rash acts in the form attacks on the Su-24 in December 2015, since the zone controlled by the S-400 air defense system partially captures the southern border of Turkey.

For the United States, the research of the French company Onera, published in 1992, was a complete surprise. They talked about the development of a 4D (four-coordinate) RIAS radar (Synthetic Antenna and Impulse Radar - an antenna with a synthetic aperture of pulsed radiation), based on the use of a transmitting antenna array (simultaneous emission of a set of orthogonal signals) and a receiving antenna array (formation of a sampled signal in processing equipment signals providing Doppler frequency filtering, including spatiotemporal beamforming and target detection).

The 4D principle allows the use of fixed sparse antenna arrays operating in the meter band, thus providing excellent Doppler separation. The great advantage of low frequency RIAS is that it generates a stable, unreduced effective target area, provides a larger coverage area and better beam analysis, as well as improved localization accuracy and target selectivity. Enough to fight low-profile targets on the other side of the border...

China, the world champion in copying Western and Russian technologies, has made an excellent copy of the modern UAV, in which the external elements of the European Taranis and Neuron drones are well traced. First flown in 2013, Li-Jian (Sharp Sword) was developed jointly by Shenyang Aerospace University and Hongdu (HAIG). Obviously, this is one of two AVIC 601-S models that have moved beyond the show model. "Sharp Sword" with a wingspan of 7.5 meters has a jet engine (apparently, a turbofan of Ukrainian origin)

Creation of inconspicuous UAVs

The drones will be able to either carry out surveillance missions lasting up to 12 hours or carry weapons weighing up to two tons for distances up to 650 nautical miles, cruising at a speed of about 450 knots, which is ideal for suppressing enemy air defenses or launching a first strike. A few years earlier, the US Air Force brilliantly paved the way for the use of armed drones. First flown in 1994, the RQ-1 Predator MALE Piston-powered UAV was the first remotely controlled aerial platform capable of delivering air-to-ground weapons to a target with high accuracy. As a technologically advanced combat drone, armed with two AGM-114 Hellfire anti-tank missiles adopted by the Air Force in 1984, it has been successfully deployed in the Balkans, Iraq and Yemen, as well as Afghanistan. Undoubtedly vigilant sword of Damocles over the heads of terrorists around the world!

Developed with funds from the secret DARPA fund, the Boeing X-45A became the first “purely” strike drone to fly. He is pictured dropping a GPS-guided bomb for the first time in April 2004.

The fleet was also interested in purchasing UAVs for reconnaissance tasks, in particular, for penetrating into protected airspace in order to identify targets for subsequent attacks on them. Northrop Grumman's X-47A Pegasus, which became the basis for the development of the X-47B J-UCAS platform, first flew in 2003. The US Navy and Air Force ran their own UAV programs. The Navy selected the Northrop Grumman X-47B platform as the UCAS-D unmanned combat system demonstrator. In order to conduct realistic tests, the company manufactured a device of the same size and mass as the planned production platform, with a full-size weapons bay capable of accepting existing missiles.

The X-47B prototype was rolled out in December 2008, and taxiing with its own engine took place for the first time in January 2010. The first flight of the X-47B drone, capable of semi-autonomous operation, took place in 2011. Later, he took part in real sea trials aboard aircraft carriers, performing tasks together with F-18F Super Hornet carrier-based fighters and refueling in the air from the KS-707 tanker. What can I say, a successful premiere in both areas.

A demonstrator of the X-47B strike drone being unloaded from the side lift of the USS George H.W. Bush (CVN77), May 2013. Like all US Navy fighters, the X-47B has folding wings.

Bottom view of the UAV Northrop Grumman X-47B, demonstrating its very futuristic contours. The drone with a wingspan of about 19 meters is equipped with a Pratt & Whitney F100 turbofan engine. It represents the first step towards a fully operational maritime strike drone, which is scheduled to appear on the list of regular aircraft after 2020.

While the American industry was already testing the first models of its UAVs with might and main, other countries, albeit with a ten-year delay, began to create similar systems. Among them are the Russian RAC "MiG" with the device "Skat" and the Chinese CATIC with a very similar "Dark Sword". In Europe, the British company BAE Systems went its own way with the Taranis project, while other countries joined forces to develop a project with the rather apt name nEUROn. In December 2012, nEUROn made its first flight in France. Flight tests for operating ranges and evaluating stealth characteristics were successfully completed in March 2015. These tests were followed by avionics tests in Italy, which were completed in August 2015. At the end of last summer, the last stage of flight tests took place in Sweden, within the framework of which tests were carried out on the use of weapons. Classified test results are called positive.

The contract for the nEUROn project worth 405 million euros is being implemented by several European countries, including France, Greece, Italy, Spain, Sweden and Switzerland. This allowed the European industry to begin a three-year phase of refining the concept and design of the system, with related research into visibility and data rate enhancement. This phase was followed by a development and assembly phase ending with first flight in 2011. In two years of flight testing, about 100 sorties were made, including the release of a laser-guided bomb. The initial budget of 400 million euros in 2006 increased by 5 million because a modular bomb bay was added, including a target designator and the laser-guided bomb itself. France at the same time paid half of the total budget.

With a pair of 250 kg bombs stowed in a modular bomb bay, a Neuron drone takes off from an airfield in Swedish Lapland, summer 2016. Then the capabilities of this UAV as a bomber were successfully assessed. You can see the rarely seen registration designation F-ZWLO (LO stands for small EPO) applied to the door of the front landing gear compartment

A 250 kg bomb dropped by a Neuron drone over a test site in Sweden in the summer of 2015. Five bombs were dropped, confirming Neuron's ability as a stealthy strike drone. Some of these real-life tests were carried out under the control of Saab, which, along with Dassault, Aiema, Airbus DS, Ruag and HAI, is implementing this advanced UAV program, which is likely to culminate in the creation of a promising air strike system FCAS (Future Combat Air System) around 2030

The potential of the British-French UAV

Since 2010, Dassault Aviation, together with its partners Alenia, Saab and Airbus Defense & Space, has been working on the nEUROn project, and BAE Systems on its own Taranis project. Both flying wing craft are powered by the same Rolls-Royce Turbomeca Adour turbofan engine. The decision adopted in 2014 gives a new impetus to joint research already being implemented in this direction. It is also an important step towards British-French cooperation in the field of military aircraft construction. It is possible that it could become the basis for another first-class achievement like the Concorde aircraft project. This decision will undoubtedly contribute to the development of this strategic area, since UAV projects will help maintain technological experience in the aviation industry at the level of world standards.

A drawing of what could turn into a promising FCAS (Future Combat Air System) strike air system. The project is being developed jointly by the UK and France based on the experience of implementing the Taranis and Neuron projects. New undetectable strike drone may not appear before 2030

Meanwhile, the European FCAS program and similar American UAV programs are facing certain difficulties, since defense budgets on both sides of the Atlantic are quite tight. It will take more than 10 years before stealth UAVs begin to take over from manned combat aircraft, performing high-risk missions. Experts in the field of military drones are confident that the air force will begin to deploy stealth attack drones no earlier than 2030.

Lessons that hardly anyone is taught

Essentially seen as a means of getting crews out of danger in areas with dense air defenses, where the chances of survival are not so great, attack unmanned aerial vehicles (UAVs) are essentially the brainchild of countries with strong defense industries and solid annual budgets and often with high moral standards regarding the cost of the lives of its soldiers. In the past few years, the United States, Europe and Russia have been actively developing subsonic stealth UAVs, followed by China, always ready to copy and adapt everything that is invented in the world. These new weapons systems are very different from the MALE (medium-altitude, long-range) drones that everyone sees around the clock on their TV screens and which are built by well-known Israeli and American companies, such as IAI and General Atomics, which are today excellent experts in the field, by the well-researched Ryan Aero with its BQM-34 Firebee jet remotely controlled aircraft... 60 years ago.

UAVs are not just "armed" drones, as it might seem, even if today it is customary to classify UAVs like the armed MQ-1 Predator or MQ-9 Reaper, for example, as strike systems. This is a completely misused term. Indeed, apart from participating in offensive operations in safe or allied controlled airspace, UAVs are completely incapable of passing through the battle formations of properly manned opponent systems. A visit to the Aerospace Museum in Belgrade acts as a real revelation in this area. In 1999, during NATO operations in Yugoslavia, at least 17 American RQ-1 Predators were shot down by either MiG fighters or Strela MANPADS missiles. Even despite their discretion, once discovered, MALE drones are doomed and will not survive even an hour. It is worth recalling that in the same campaign, the Yugoslav army destroyed an American F-117 Nighthawk stealth aircraft. For the first time in combat aviation, an aircraft that was not detected by radar and considered invulnerable was shot down. For the only time in its entire combat service, the F-117 was discovered and shot down, and on a moonless night (there were only three such nights in the five-week war) by a missile of the antiquarian S-125 air defense system of Soviet production. But the Yugoslavs were not a rabble of marginals with primitive notions of military art like the Islamic State (IS, banned in Russia) or the Taliban, they were well-trained and cunning professional soldiers, able to adapt to new threats. And they have proven it.

Military aviation is only a hundred years old, but it is already replete with spectacular inventions, the latest ones include attack unmanned aerial vehicles or combat drones. Over the course of a century, the concept of aerial combat has changed radically, especially since the end of the Vietnam War. The dogfights of the First and Second World Wars, using machine guns to destroy the enemy, have now become a page of history, and the advent of second-generation air-to-air missiles have turned cannons into a rather obsolete tool for this task, and now they are only useful as auxiliary weapons for shelling the earth from the air. Today, this trend is reinforced by the advent of hypersonic maneuverable missiles for engaging targets beyond the range of visual visibility, which, when launched in large numbers and in tandem with missiles of the wing aircraft, for example, leave almost no chance for evasive maneuver to any enemy flying at high altitude. The situation is the same with modern ground-to-air weapons controlled by an instantaneously reacting network-centric air defense computer system. Indeed, the level of combat effectiveness of modern missiles, which easily enter well-defended airspace, has become higher than ever in our days. Perhaps the only panacea for this is aircraft and cruise missiles with a reduced effective reflection area (EPO) or low-flying attack weapons with the mode of flying around and around the terrain at extremely low altitude.

At the turn of the new millennium, American pilots began to think about what could be done with remotely piloted aircraft, which had become quite a fashionable topic after its expanded use in military operations. As entry into well-defended airspace became more and more dangerous and associated with great risk to combat pilots, even those flying the latest jet fighter-bombers, the only way to solve this problem was to use weapons that were used outside the reach of enemy weapons. , and/or the creation of low-observable high subsonic attack drones capable of disappearing into the air through the use of special radar avoidance technologies, including radar absorbing materials and advanced jamming modes. Remotely controlled attack drones of a new type, using data transmission channels with enhanced encryption from frequency hopping, should be able to enter the protected "sphere" and set the work to air defense systems without risking the lives of flight crews. Their excellent maneuverability with increased g-forces (up to +/-15 g!) allows them to remain somewhat invulnerable to manned interceptors...

Aside the philosophy of "deny access / block zone"

With the creation of two advanced stealth aircraft, the F-117 Nighthawk and B-2 Spirit, presented with great fanfare and splurge - the first in 1988, and the second a decade later - the Defense Advanced Research Projects Agency DARPA and the US Air Force played an important role in in order for this new technology to be successfully implemented and demonstrated its advantages in combat conditions. Although the stealthy F-117 tactical strike aircraft has now been retired, some of the technological developments gained from the development of this unusual aircraft (which periodically became the object of indignation of zealous adherents of aesthetics) were applied to new projects, such as the F-22 Raptor and F-35 Lightning II, and to an even greater extent in the promising bomber B-21 (LRS-B). One of the most secret programs that the United States is implementing is related to the further development of the UAV family using radar absorbing materials and modern technologies for actively providing extremely low visibility.

Building on UAV technology demonstration programs, the Boeing X-45 and Northrop Grumman X-47, whose accomplishments and results remain largely classified, Boeing's Phantom Works division and Northrop Grumman's secret division continue to develop attack drones today. A special mystery is shrouded in the RQ-180 UAV project, apparently being developed by Northrop Grumman. It is assumed that this platform will enter the closed airspace and conduct constant reconnaissance and surveillance, while simultaneously performing the tasks of active electronic suppression of enemy manned aircraft. A similar project is being implemented by the Skunks Works division of Lockheed Martin. In the process of developing the SR-72 hypersonic vehicle, the issues of safe operation of a reconnaissance UAV in protected airspace are being addressed, both through the use of its own speed and through advanced radar absorbing materials. Promising UAVs designed to break through modern (Russian) integrated air defense systems are also being developed by General Atomics; its new Avenger drone, also known as the Predator C, includes many innovative stealth elements. In fact, it is vital for the Pentagon today, as ever, to stay ahead of what Russia creates in order to maintain the current military imbalance in favor of Washington. And for the United States, the impact drone is becoming one of the means to ensure this process.

Starting in 1975, NNIIRT developed the first three-coordinate radar station capable of measuring the height, range and azimuth of a target. As a result, the surveillance radar 55ZH6 "Sky" of the meter range appeared, the deliveries of which to the armed forces of the USSR began in 1986. Later, after the demise of the Warsaw Pact, NNIIRT designed the 55Zh6 Nebo-U radar, which became part of the S-400 Triumf long-range air defense system currently deployed around Moscow. In 2013, NNIIRT announced the next model 55Zh6M Nebo-M, in which VHF and UHF radars are combined in a single module. With vast experience in developing high-end stealth target detection systems, the Russian industry is currently very active and offers new digital versions of the P-18 radar to its allies, which can often simultaneously perform the functions of an air traffic control radar. Also, Russian engineers have created new digital mobile radar systems "Sky UE" and "Sky SVU" on a modern element base, all with the ability to detect subtle targets. Similar complexes for the formation of unified air defense systems were later sold to China, while Beijing got at its disposal a good irritant for the US military. The radar systems are expected to be deployed in Iran to defend against any Israeli attack on its fledgling nuclear industry. All new Russian radars are solid-state active phased array antennas capable of operating in fast sector/path scanning mode or traditional circular scanning mode with mechanically rotating antennas. The Russian idea of integrating three radars, each of which operates in a separate range (meter, decimeter, centimeter), is undoubtedly a breakthrough and is aimed at obtaining the possibility of detecting objects with extremely small signs of visibility.

Mobile two-coordinate all-round radar P-18

Meter radar module from the complex 55ZH6ME "Nebo-ME"

RLC 55ZH6M "Sky-M"; decimeter radar module RLM-D

The Nebo-M radar system itself is radically different from previous Russian systems, since it has good mobility. Its design was originally designed to avoid unexpected blitz destruction by American F-22A Raptor fighters (armed with GBU-39 / B SDB bombs or JASSM cruise missiles), whose primary task is to destroy the low-frequency detection systems of the Russian air defense system in the first minutes of the conflict. The 55ZH6M Nebo-M mobile radar complex includes three different radar modules and one signal processing and control machine. Three radar modules of the Nebo M complex are: RDM-M of the meter range, a modification of the Nebo-SVU radar; RLM-D decimeter range, modification of the radar "Opponent-G"; RLM-S centimeter range, modification of the Gamma-S1 radar. The system uses state-of-the-art digital moving target indicator and digital pulse-Doppler radar technologies, as well as a spatiotemporal data processing method, which provides air defense systems such as the S-300, S-400 and S-500 with amazingly fast response, accuracy and the power of action against all targets, except for subtle ones flying at extremely low altitudes. As a reminder, one S-400 complex deployed by Russian troops in Syria was able to close a circular zone around Aleppo with a radius of about 400 km from allied aviation. The complex, armed with a combination of at least 48 missiles (from 40N6 long-range to 9M96 medium-range), is able to cope with 80 targets simultaneously ... In addition, it keeps Turkish F-16 fighters in good shape and keeps them from rash acts in the form of an attack on the Su-24 in December 2015, since the zone controlled by the S-400 air defense system partially captures the southern border of Turkey.

For the United States, the research of the French company Onera, published in 1992, was a complete surprise. They talked about the development of a 4D (four-coordinate) radar RIAS (Synthetic Antenna and Impulse Radar - an antenna with a synthetic aperture of pulsed radiation), based on the use of a transmitting antenna array (simultaneous emission of a set of orthogonal signals) and a receiving antenna array (formation of a sampled signal in the processing equipment signals, providing Doppler filtering, including spatiotemporal beamforming and target detection). The 4D principle allows the use of fixed sparse antenna arrays operating in the meter band, thus providing excellent Doppler separation. The great advantage of low frequency RIAS is that it generates a stable, unreduced effective target area, provides a larger coverage area and better beam analysis, as well as improved localization accuracy and target selectivity. Enough to fight low-profile targets on the other side of the border...

China, the world champion in copying Western and Russian technologies, has made an excellent copy of the modern UAV, in which the external elements of the European Taranis and Neuron drones are clearly visible. First flown in 2013, Li-Jian (Sharp Sword) was developed jointly by Shenyang Aerospace University and Hongdu (HAIG). Obviously, this is one of two AVIC 601-S models that have moved beyond the show model. "Sharp Sword" with a wingspan of 7.5 meters has a jet engine (apparently, a turbofan of Ukrainian origin)

Creation of inconspicuous UAVs

Well-informed about a new effective barring system that would counter Western manned aircraft in wartime, the Pentagon settled at the turn of the century on a new generation of stealth jet-powered flying wing attack drones. New unmanned vehicles with low visibility will be similar in shape to a stingray, tailless with a body smoothly turning into wings. They will have a length of approximately 10 meters, a height of one meter and a wingspan of about 15 meters (the naval version is suitable for standard American aircraft carriers). The drones will be able to either carry out surveillance missions lasting up to 12 hours or carry weapons weighing up to two tons for distances up to 650 nautical miles, cruising at a speed of about 450 knots, which is ideal for suppressing enemy air defenses or launching a first strike. A few years earlier, the US Air Force brilliantly paved the way for the use of armed drones. First flown in 1994, the RQ-1 Predator MALE Piston-powered UAV was the first remotely controlled aerial platform capable of delivering air-to-ground weapons to a target with high accuracy. As a technologically advanced combat drone, armed with two AGM-114 Hellfire anti-tank missiles adopted by the Air Force in 1984, it has been successfully deployed in the Balkans, Iraq and Yemen, as well as Afghanistan. Undoubtedly vigilant sword of Damocles over the heads of terrorists around the world!

Developed with funds from the secret DARPA fund, the Boeing X-45A became the first “purely” strike drone to fly. He is pictured dropping a GPS-guided bomb for the first time in April 2004.

If Boeing was the first creator of the X-45 UAV capable of dropping a bomb, then the US Navy did not engage in practical work on UAVs until 2000. Then he issued contracts to Boeing and Northrop Grumman for a program to study this concept. The design requirements for a maritime UAV included operation in a corrosive environment, takeoff and landing on the deck of an aircraft carrier and related maintenance, integration into command and control systems, as well as resistance to high electromagnetic interference inherent in aircraft carrier operating conditions. The fleet was also interested in purchasing UAVs for reconnaissance tasks, in particular, for penetrating into protected airspace in order to identify targets for subsequent attacks on them. Northrop Grumman's X-47A Pegasus, which became the basis for the development of the X-47B J-UCAS platform, first flew in 2003. The US Navy and Air Force ran their own UAV programs. The Navy selected the Northrop Grumman X-47B platform as the UCAS-D unmanned combat system demonstrator. In order to conduct realistic tests, the company manufactured a device of the same size and mass as the planned production platform, with a full-size weapons bay capable of accepting existing missiles. The X-47B prototype was rolled out in December 2008, and taxiing with its own engine took place for the first time in January 2010. The first flight of the X-47B drone, capable of semi-autonomous operation, took place in 2011. Later, he took part in real sea trials aboard aircraft carriers, performing tasks together with F-18F Super Hornet carrier-based fighters and refueling in the air from the KS-707 tanker. What can I say, a successful premiere in both areas.

A demonstrator of the X-47B strike drone being unloaded from the side lift of the USS George H.W. Bush (CVN77), May 2013. Like all US Navy fighters, the X-47B has folding wings.

The potential of the British-French UAV

In November 2014, the governments of France and the UK announced a two-year study into the feasibility of a €146 million advanced strike drone project. This may lead to the implementation of a stealth UAV program, which will combine the experience of the Taranis and nEUROn projects in order to create a single promising strike drone. Indeed, in January 2014, at the British air base Brize Norton, Paris and London signed a statement of intent on a promising strike air system FCAS (Future Combat Air System). Since 2010, Dassault Aviation, together with its partners Alenia, Saab and Airbus Defense & Space, has been working on the nEUROn project, and BAE Systems on its own Taranis project. Both flying wing craft are powered by the same Rolls-Royce Turbomeca Adour turbofan engine. The decision adopted in 2014 gives a new impetus to joint research already being implemented in this direction. It is also an important step towards British-French cooperation in the field of military aircraft construction. It is possible that it could become the basis for another first-class achievement like the Concorde aircraft project. This decision will undoubtedly contribute to the development of this strategic area, since UAV projects will help maintain technological experience in the aviation industry at the level of world standards.

According to the websites:
www.nationaldefensemagazine.org
www.ga.com
www.northropgrumman.com
www.dassault-aviation.com
www.nniirt.ru
www.hongdu.com.cn
www.boeing.com
www.baesystems.com
www.wikipedia.org

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The advent of unmanned aerial vehicles (UAVs) has significantly expanded the capabilities of the armed forces and reduced human losses. Their use made it possible to perform dangerous tasks without risking the lives of pilots.

For a long time, drones were assigned the role of targets for military pilots and anti-aircraft installation operators. However, the scientific and technological revolution in the field of radio engineering, optics and electronics has become the foundation for the creation of heavy multi-purpose vehicles capable of reconnaissance and strikes for several days.

The United States and Israel have achieved the greatest success in this field. The US Army has about 500 attack drones. The experience of their use, according to experts, will be taken into account by Russia in the fight against illegal armed groups in Syria.

Scope of application

At the moment, the Russian army does not have attack drones. About 70 UAVs are involved in the Syrian operation - light tactical vehicles Orlan-10 and Eleron-3 and heavy Outposts.

The devices perform the tasks of patrolling the territory around the Khmeimim airbase and the port of Tartus, searching for and reconnaissance of targets, and monitoring the area after airborne missile and bomb strikes. In particular, the use of "Forposts" allows you to keep track of hit targets and demonstrate to the whole world the work of the Aerospace Forces.

Director of the Center for Analysis of Strategies and Technologies (CAST) Ruslan Pukhov told RT that the Syrian campaign made it possible to realize the need for several new types of weapons, including attack drones, to appear in the Russian Armed Forces.

Unmanned aerial vehicles "Zastava", "Orlan"
Press Service of the Ministry of Defense of the Russian Federation

Anton Mardasov, Head of the Department for Research on Middle East Conflicts and the Armed Forces of the Region at the Institute for Innovative Development, is sure that the use of strike drones is in demand in Syria both today and in the future.

The expert explained that after the end of the main phase of the operation, the scope of the UAV may expand. According to him, the disappearance of the military structure of the IS * and the withdrawal of gangs into the underground "will require the Russian group to do more jewelry work to destroy ground targets."

Mardasov believes that the lion's share of tasks in the ATS will be able to perform domestic strike drones, which should soon enter service. Heavy UAVs are best suited for limited missions, for example, to destroy a command post, individual moving targets, a congestion of manpower in an urban area, or a militant warehouse.

Application perspective

The American experience in Afghanistan shows that strike UAVs can minimize the risk to the lives of personnel and civilians. However, the key to the combat effectiveness of drones is well-conducted reconnaissance.

In Afghanistan, due to a lack of intelligence from January 2012 to February 2013, out of 200 “militants” eliminated by drones, 35 turned out to be civilians. The reason for the errors was not malicious intent, but the lack of complete information about the targets being hit.

It is assumed that attack UAVs will be able to stay in the air for several days, monitoring the area, and hit unexpectedly appearing mobile groups of terrorists before the aircraft arrives. Such tactics can increase the level of responsiveness of the Russian Aerospace Forces grouping and reduce the likelihood of unexpected counterattacks by militants, from which the Syrian army constantly suffers.

Mardasov believes that the prospect of using UAVs in modern warfare was realized by the Russian command during the South Ossetian conflict in 2008, during which Georgian troops used UAVs of American and Israeli production. Now, according to him, in Russia there is a reassessment of the attitude towards percussion devices.

“In order to close the gap in the range of weapons as quickly as possible, Israeli light drones Bird Eye 400 and heavy IAI Searcher 2 were purchased. ", - said Mardasov.

The expert noted that Israel sold a UAV with limited functionality to Moscow. This stimulated Russia to make active efforts to create its own heavy vehicles, corresponding to foreign counterparts.

“The Syrian campaign confirmed the need for the appearance in the Russian army of not only light, but also heavy UAVs. The larger the device, the more equipment of the best quality it can carry and, accordingly, the wider the range of tasks performed by the drone and the higher the efficiency of its use,” said Mardasov.

"Orion", "Altair", "Hunter"

The editor-in-chief of UAV.ru, aviation expert Denis Fedutinov, explained to RT that heavy UAVs, as a rule, combine reconnaissance and strike functions. In the United States, the first mass-produced drone of this type was the MQ-1 Reaper ("Reaper"). In 2007, the first strike squadron in the United States was formed from these devices at Creech Air Force Base in Nevada.

The expert said that several complexes of heavy UAVs are currently being developed in Russia. We are talking about the devices "Orion" of the company "Kronstadt", "Altair" OKB im. Simonov and "Hunter" of the Sukhoi Design Bureau.

A prototype demonstrator of the Altair heavy class unmanned aerial vehicle developed by JSC NPO Design Bureau named after M.P. Simonov.
americanmilitaryforum.com

“Drawing certain parallels with foreign UAV systems close in their class, it can be assumed that, due to their size and related capabilities, they can potentially carry not only reconnaissance equipment, but also weapons,” Fedutinov said.

According to him, the Russian army has gained some experience in using light vehicles, which will be useful when heavy reconnaissance and strike UAVs enter the troops. In particular, the practical skills of technical operation of Eleron-3, Orlan-10, Zastava and Outpost can be transferred to new drones.

“I believe that for the operation of reconnaissance and strike UAVs of a sufficiently heavy class, separate units will be created in the structure of the Air Force, in which military personnel will specialize exclusively in the use of drones and their maintenance,” Fedutinov said.

UAVs not only expand the capabilities of existing types of weapons through interaction in a single reconnaissance and information field, but are also gradually becoming independent combat units. Drones are one of the key elements of the coming replacement of people with machines on the battlefield, Fedutinov said.

“Due to a number of objective circumstances, Russia lagged behind in the development of UAVs. Now the situation is changing for the better, since there are opportunities not only to apply the best of the developments of the past, but also to work them out in practice, that is, in combat conditions, ”concluded the interlocutor of RT.