Wednesday, 31 March 2021

Two strategic missile carriers Tu-160 flew over the Barents and Norwegian seas

Ruslan Denisov


Два стратегических ракетоносца Ту-160 выполнили полет над Баренцевым и Норвежским морями - Армия и ОПК - ТАСС

The flight duration was more than eight hours


MOSCOW, March 29. / TASS /. Two strategic Russian missile carriers Tu-160 flew over the Barents and Norwegian Seas, accompanied by MiG-31 fighters of the naval aviation of the Russian Navy. This was reported to reporters on Monday at the RF Ministry of Defense.

"Two strategic missile carriers Tu-160 long-range aviation performed a planned flight in airspace over the neutral waters of the Barents and Norwegian Seas. <...> The flight duration was more than eight hours," the military department said.

The ministry said that the fighter escort was provided by the crews of the MiG-31 aircraft of the naval aviation of the Russian Navy.

The military department noted that long-range aviation crews regularly fly over the neutral waters of the Arctic, North Atlantic, Black and Baltic seas, as well as the Pacific Ocean.

"All flights of aircraft of the Aerospace Forces of Russia are carried out in strict accordance with international rules for the use of airspace," the Defense Ministry emphasized.


In the Su-57's augmented reality helmet test, the pilot looks like he's in a transparent plane

Vladislav Perminov



2021/03/30 
China Times News 
Jiang Feiyu
 
Su-57 is hidden from the air superior fighter. (Photo/Russian Air Force)

 
The Russian United Aircraft Corporation (UAC) said that the Augmented Reality helmet (Augmented Reality) to be used on the Su-57 fighter has been tested. This helmet can provide pilots with a better view and even see the environment under their feet. It's like being in a transparent plane.

Air Recognition reported that augmented reality, referred to as AR, is gradually being used on military vehicles. The images returned by multiple cameras outside the fuselage are projected into the pilot’s helmet and you can see the surroundings in real time. Environment without blind spots. Coupled with helmet sights and various weapons, it can be more powerful.

Similar equipment is already available on the F-35, and the pilot can see the space outside the cockpit at night, in bad weather, and during complex maneuvers.

The Russian Air Force officially ordered the Su-57 last year, and it is expected to receive 22 aircraft by the end of 2024. All production work is at the Komsomolsk-on-Amur manufacturing plant. By 2028, 76 Su-57s must be produced.


(Zhongshi News Network)


US satellite first spotted Russian submarine Belgorod

Project 949A (Antey) / forums.airbase.ru



March 29, 2021 

AUTHOR Olga Petrenko 


An American reconnaissance satellite has identified the location of the Russian nuclear submarine Belgorod, reports the portal Avia.Pro. As evidence, the journalists published a satellite photo taken by the Pentagon. It is reported that the submarine was found near Severodvinsk. 

In fact, it is quite difficult not to find this submarine, which has impressive dimensions, from the satellite. Therefore, nothing surprising happened. Moreover, the United States knew very well that the nuclear submarine was in Severodvinsk, where it was preparing for testing. 

One of the main features of the submarine is the equipment of the Poseidon unmanned aerial vehicles, already called by the experts of the United States and China "doomsday torpedoes." The submarine will receive them into service this year. 

It is now known that two Russian submarines will be equipped with Poseidons at once. One of them will be permanently located in the Arctic waters, and the second - in the Far Eastern region. Thanks to this, in the event of aggression, Russia will be able to retaliate against the eastern and western coasts of the United States and literally wipe them off the face of the earth.



Nuclear-powered submarine Belgorod to test US defense

Tuesday, 30 March 2021

Algeria acquiring 300 BMPT-72 armored fire support vehicles

Vitaliy Kuzmin



In its latest procurement of Russian arms, the North African country has ordered the tracked vehicle with the chassis of a T-72 tank that is also called the Terminator 2

Eyal Boguslavsky | 21/03/2021 

Photo: Russian Ministry of Defense 

The Army Recognition website, citing the Stockholm International Peace Research Institute's arms trade database 2020, reported that Algeria has ordered 300 BMPT-72 armored fire support vehicles from Russia.

According to the website, since 2013 Algeria has bought a significant amount of ground-based military equipment from Russia including 38 Pantsir-S1 air defense missile/cannon systems, 100 SA-17 Buk-M2 air defense missile systems installed on tracked vehicles, 12 Iskander mobile short-range ballistic missile systems, and 203 T-90SA main battle tanks.

The tracked BMP-72, also called the Terminator 2, which was entirely developed and designed by the Uralvagonzavod company, was unveiled to the public in 2013. It has the chassis of a Russian T-72 main battle tank. The vehicle offers new protection and firepower, especially in urban operations, according to the website.

The main weapon systems of the BMPT-72 are a 30mm 2A42 automatic gun and a PKTM 7.62mm coaxial machine gun. Ataka-T anti-tank guided missile launchers are mounted on each side of the turret. The anti-tank missile can engage targets at a maximum distance of 6,000m, while the guns have a maximum range of 2,500m against light armored vehicles and 4,000m against light tactical vehicles and troops. The vehicle is fitted with an advanced automatic fire control system, which can be used for terrain observation, target location and detection while on the move, day or night. A laser range finder is also available. The BMPT-72's crew consists of the driver, the commander, and the gunner.

Source israeldefense.co.il


BMPT-72 Terminator 2: Details

Air Force asks industry for artificial intelligence (AI) cognitive electronic warfare (EW) for F-15 jets

US Air Force / Airman 1st Class Codie Trimble



AI and machine learning could help F-15 EW avionics handle emitter ambiguities and emerging threats in sparse and dense signal environments.

John Keller
Mar 15th, 2021


WRIGHT-PATTERSON AFB, Ohio – U.S. Air Force airborne electronic warfare (EW) experts would like to apply artificial intelligence (AI) and machine learning technologies to existing and developmental EW avionics for the Air Force F-15 combat jet.

Officials of the Air Force Lifecycle Management Center at Wright-Patterson Air Force Base, Ohio, issued a request for information (AFLCMC-WAQ-F15) on Thursday for the AFLCMC Cognitive EW project.

This project is surveying industry to find companies able to apply cognitive AI and machine learning algorithms to advance the capabilities of F-15 airborne electronic warfare (EW) systems in development or in production.

The Air Force wants to find companies with strong EW experience in algorithms and technologies that could enable EW systems aboard the F-15 to respond to emitter ambiguities and emerging threats quickly and intelligently in sparse and dense signal environments.

The goal is to develop and build cognitive EW technologies at least as mature as a laboratory breadboard version (TRL-4), and investigate challenges of adaptive, agile, ambiguous, and out-of-library complex emitters that operate inside RF background noise. The Air Force also is interested in cognitive technologies that provide rapid EW reprogramming and learning capability for improved system performance.

The Air Force F-15 Program Office is looking for cognitive EW technologies that could be installed in the next two years into EW systems in development for the F-15 combat jet.

EW systems aboard the F-15 aircraft today include the BAE Systems Eagle Passive Active Warning Survivability System (EPAWSS), which this year entered low-rate initial production; the Northrop Grumman AN/ALQ-135 automatic EW system that manages and defeats several different threats simultaneously; and the Northrop Grumman externally mounted ALQ-131 self-protection jammer pod.

Companies interested in participating on this airborne cognitive EW project should email responses no later than 12 April 2021 to the Air Force's Michael Crane at michael.crane.11@us.af.mil. Those responding should use the RFI response form that is available online at https://beta.sam.gov/api/prod/opps/v3/opportunities/resources/files/2d27b6e793cf4b3096e0892b920e4fc1/download?api_key=null&token=.

Email questions or concerns to the Air Force's Capt. Max Harkavy at maxim.harkavy@us.af.mil, Maj. Joel Sanders at joel.sanders.3@us.af.mil, or David Black at david.black@us.af.mil.

More information is online at https://beta.sam.gov/opp/db33f3c0d6b749cb9bd5e577d4195886/view.


Navy to build new F-35C simulation facility at West Coast base, which is likely to include networking

F-35C / Gary R @flickr


simulation and training F-35C networking | Military & Aerospace Electronics

New F-35C simulator facility should be completed by 2023, and will house four simulators, administrative spaces, server rooms, and other support spaces.

John Keller
Mar 29th, 2021


LEMOORE NAS, Calif. – U.S. Navy combat aircraft experts are ready to expand simulation and training capacity at Lemoore Naval Air Station, Calif., to enable Navy pilots of the Lockheed Martin F-35C carrier-based jet fighter-bomber to train together for combat missions without ever leaving the ground.

Officials of the U.S. Naval Facilities Engineering Systems Command Southwest in San Diego announced a $25.4 million contract Thursday to Soltek Pacific Construction Co. in San Diego to design and build a new F-35C simulator facility at the Central California jet base, which is headquarters for the Navy Pacific Fleet Strike Fighter wing.

The new F-35C simulator facility, which should be completed by October 2023, will house four simulators, administrative spaces, server rooms, and other support spaces. The new facility will be next to an simulator center at Lemoore NAS for pilot training and mission planning.

Lemoore NAS is home base for the Navy Pacific Fleet's growing number of F-35C fighter-bombers, which are to replace the Navy's inventory of F/A-18E/F Super Hornet jet fighter-bombers. The F-35C has a tail hook and reinforced structure that enable it to take off and land from aircraft carriers.

Lemoore has 19 strike fighter squadrons, two of which have the F-35C, and the rest that still fly the Super Hornet. The base has hosted F/A-18 simulation and training facilities since the early 1980s.

The new four-simulator F-35C training facility will enable Navy pilots to fly a variety of different missions, ranging from elementary flight-control training to full-up synchronized missions and adversarial dogfighting.

Pilots should be able to fly the future simulators on their own, or with other pilots in the additional simulators either as teams or as adversaries. In addition, it's likely these simulators will have networking capabilities that will enable F-35C pilots at Lemoore train together with F/A-18E/F Super Hornets in other simulators on the base, or with other military pilots at other bases in the U.S. and throughout the world.

The Lockheed Martin Training and Logistics Solutions segment in Orlando, Fla., is responsible for designing, building, and installing the F-35C flight simulators.

For more information contact Lockheed Martin Training and Logistics Solutions online at www.lockheedmartin.com, Naval Air Systems Command at www.navair.navy.mil, or Soltek Pacific Construction at www.soltekpacific.com.


Monday, 29 March 2021

First Nigerian JF-17 Thunder arrives home

Mark Rourke


First Nigerian JF-17 Thunder arrives home - defenceWeb

Written by defenceWeb -26th Mar 2021918

A Nigerian Air Force JF-17 Thunder.

The Nigerian Air Force appears to have taken delivery of its first JF-17 Thunder fighter jet from Pakistan.

Video emerged on social media showing a Pakistan Air Force Il-76 transport aircraft (R09-001) unloading a JF-17 fuselage, apparently on 21 March. Further video subsequently showed the fuselage being moved into a hangar, believed to be at Makurdi. Flight tracking data showed the Il-76 depart Pakistan for West Africa on 21 March.

The Nigerian Air Force has ordered three JF-17s from Pakistan and these have been manufactured, with registrations NAF-720, NAF-721 and NAF-722.

In 2018 Pakistan’s Economic Coordination Committee (ECC) approved a $184.3 million sovereign guarantee for the production of three Pakistan Aeronautical Complex (PAC)/Chengdu JF-17 fighters, according to the Pakistan Express Tribune.

The newspaper at the time reported that Ministry of Defence Production officials had said PAC Kamra had signed a contract for the sale off three JF-17s to Nigeria. It is not clear how many JF-17s Nigeria will ultimately order, as it has only made small payments over the last several years towards the fighters. More are likely to be ordered to replace or supplement its F-7Ni fleet – a third of its 15 F-7Ni/FT-7Ni aircraft have been lost in crashes.

The Nigerian acquisition of the JF-17 Thunder multi-role fighter jets is part of an ongoing fleet modernisation programme that includes the procurement of eight Russian-made Mi-35M attack helicopters and 12 A-29 Super Tucano close air support aircraft from the US.

Since mid-2020, Nigerian Air Force pilots and crew for the JF-17 have been training in Pakistan.



JF-17 “Thunder” fighter: Details

Sunday, 28 March 2021

Navy carrier-based fighter

Alexander Martynov



20 March 2021


At the beginning of 2021, there were 18 Su-33 fighters, 19 MiG-29K fighters and 3 MiG-29KUB aircraft in the 279 separate shipborne fighter aviation regiment of the Northern Fleet naval aviation and 100 separate shipborne fighter aviation regiment of the Northern Fleet naval aviation. If desired or necessary, all these 40 vehicles can be simultaneously deployed on the Northern Fleet's only heavy aircraft-carrying cruiser.


Let us take it as an axiom that in the thirties of our century, the Russian fleet will rotate an aircraft-carrying heavy cruiser to a full-fledged aircraft carrier, the promising appearance of which is undergoing uncompromising discussions. And he, of course, will need airplanes.

They will be discussed in this article.

The trend towards choosing a single type of aircraft for a specific aircraft carrier is becoming a good form in the modern world. And only the desire to achieve maximum results in any particular niche or area of ​​use pushes developers and customers to expand the range of aircraft types in the air group.

Three or four years ago, when the author was working on the article "Aircraft Carrier of the Russian Fleet", there was no clear idea of ​​which domestic aircraft to choose as a prototype for developing a deck version. The newest (at that time) Su-35, brought to mass production and entering the troops, surpassed the already rather big Su-33 in size. And choosing it as a prototype would not look unambiguously successful for the type of aircraft carrier proposed in this article.

The lack of publicly available reliable information about the passing tests of the Su-57 inspired only confident optimism about the country's receiving a fifth-generation fighter.

At the moment, in terms of specific figures, we can confidently assert the validity of the choice of the Su-57 as a prototype for the development of a new generation carrier-based fighter, conventionally called the Su-57K, to replace the Su-33 and the armament of the new aircraft carrier.

The table under the name Su-57K gives the characteristics of the production Su-57.

Such a loose assumption allows us to extrapolate the parameters of the future aircraft, which at the stage of implementation in metal a few years later should not differ significantly from the prototype.


The advantages in terms of the characteristics of the Su-57K over its classmate (heavy carrier-based fighter) of the previous generation are visible, as they say, with the naked eye. And they can hardly be disputed even by fans of the Su-33.

The old dilemma regarding the choice of a heavy or light fighter to arm the future Russian aircraft carrier looks not so unambiguous. If we consider an aircraft carrier as an armament system consisting of a ship and an aircraft, then I would like to find criteria by which it would be possible to assess the harmony of the combination of such different products.

How, for example, do we rate an artillery piece?

First of all, its caliber is mentioned in millimeters, and only then the relative length of the barrel in those very calibers.

Let's go from afar.

What is the main task of a Russian aircraft carrier or two in the navy, what should be given priority, strike capabilities or cover for ship groups from air threats on the high seas?

Fig. 1 Projections of the Su-57 as a future prototype of the Su-57K

The US aircraft carrier fleet, having seized dominance in the world's oceans since World War II, is still attacking various coastal states with massive use of the good Super Hornet carrier-based fighter-bombers.

The example of the rotation of aircraft carriers in the Vietnam War has become a classic. As a result of the Cold War, the last F-14 interceptor fighters have been decommissioned from American aircraft carriers since 2006. The air defense capabilities of escort ships with the Aegis system on board have significantly increased. And with a few third-fourth generation fighter-bombers over the ocean, the universal F / A-18 could also cope.

Is this concept of using aircraft-carrying ships suitable for our country?

Of course not!

Firstly, for economic reasons, Russia will not pull the construction and maintenance of three aircraft carrier strike groups in the Northern and Pacific fleets.

Secondly, the concept and strategy of using the Armed Forces in general and the Navy in particular does not provide for their use in overseas theaters of military operations in full-scale conflicts like the Vietnam or Iraqi war.

Third, for objective reasons, it has historically developed so that the basis of the striking power of our fleet is made up of submarines and surface ships.

If we agree with the correctness of these postulates, then it is necessary to draw the correct conclusions.

In the historicalFor the next thirty years, the priority program for the maximum development of the fleet should be the need to create two aircraft carriers as the basis for the stability of ship groups in the far sea zone.

When designing, building and operating them, the geographical and climatic conditions of the areas of responsibility of the Northern and Pacific fleets of the Russian Federation must be taken into account.

The parameters of autonomy, combat stability and versatility of the tasks performed by ships should be given priority over considerations of building a budget option.

The concept of "autonomy" means equipping ships with a nuclear power plant and the maximum possible supply of fuel and ammunition to perform tasks with maximum intensity, limited by the time of a specific operation on a fleet scale. And not the ability to circumnavigate the world on food and water supplies for personnel, accompanied by tankers, tugs and a hospital ship.

So, the declared (and actually conditional) autonomy of the TAVKR "Kuznetsov" in 45 days does not agree well with the autonomy of other ships of the first rank of our fleet in 30 days. And it really cannot be achieved without a universal supply vessel, especially when it is necessary to use the maximum speed of the course and intensive flights of the based air group.

The well-known principle of building ships of the American Navy

"all or nothing"

and is currently visible in all its glory.

The refusal of the United States at one time from the construction of nuclear destroyers and cruisers did not affect nuclear aircraft carriers. To ensure the highest possible intensity of assault aircraft flights from the deck of a giant ship, it is equipped with four steam catapults. Each of these monsters weighs 2800 tons without auxiliary equipment, occupies a volume of 2265 cubic meters and consumes up to 80 tons of fresh water in the form of superheated steam per flight shift.

The energy consumption for their operation with an efficiency of only 4-6 percent can be provided only by nuclear reactors. And then with the loss of speed of the ship. Let's mention the 18,200 square meters of the flight deck and the 6,814 square meters of the under-deck hangar. And these are not all the characteristics from the "most" series.

So it is, for the aircraft on the ship "everything" has been done and more "nothing" !

Other warship functions are performed by other ships.

Thus, it is possible to deliver a powerful, time-focused strike, both against ground targets and enemy ship groups.

The invulnerability of a defenseless ship is ensured by the maneuverable capabilities of the AUG, good awareness of the air situation and a multilayer air defense system, including aviation, long and short-range air defense systems, and REP systems. Such an effective, debugged and proven system for decades can only be resisted by creating something similar, using the enemy's shortcomings and weaknesses (which, of course, there are), relying on other tactics and existing or created elements of superiority.

Fig.  2 This is how the future Su-57K might look like

Taking the excellent fifth-generation Su-57 aircraft as the basis for the development of the carrier-based fighter, we can immediately get a machine in the form of the Su-57K, which in a number of parameters will surpass the latest American fifth-generation carrier-based fighter F-35С.

The maximum thrust of the second stage engines (2 * 18000 kgf) and the maximum takeoff weight of the Su-57K (35500 kg) with a wing area of ​​82 square meters provides an advantage for our aircraft

in maximum speed (2500/1930 km / h),
in terms of practical ceiling (20,000 / 18200 m),
in terms of thrust-to-weight ratio (1.0 / 0.64),
in wing loading at maximum take-off weight (433/744 kg / m 2 ),
maximum operational overload (+ 9 / + 7.5 G)
compared to a single-engine (1 * 19500) F-35C with a maximum take-off weight (30320 kg) and a wing area of ​​58.3 square meters.

But that's not all and not the main thing!

The Su-57K can and should definitely surpass its counterpart in range and flight duration.

The Su-57K prototype surpasses the F-35S both in flight range without outboard fuel tanks (4300/2520 km) and in flight duration (5 h 40 min / 2 h 36 min).

Even if we assume a 10 percent deterioration in the process of creating a carrier-based aircraft (which we observe when comparing versions A, B, C of the F-35), then the advantages for many years will still be on the side of our fighter.

Let's return to the question of choosing between a heavy and light fighter for our aircraft carrier.

Those interested can easily independently conduct a similar short express analysis of the American F35C with our already existing MiG-29K and possible - the MiG-35K.

Honest conclusions will not be so clear and convincing.

Su-57K, having an advantage in speed, range and duration of flight, but numerically inferior to fighter-bombers from an American aircraft carrier, is able to provide reliable interception and oncoming air combat with them before the launch line of anti-ship missiles against our naval strike group at sea under two conditions:

competent tactics of use and the presence of no worse than the Americans' awareness of the air situation at all stages of the operation.

The latter condition is considered necessary by experts on both sides. And it is provided by the American side by carrier-based AWACS "Hawkeye".

Modifications KUB, AWACS and EW

On the basis of a single-seat carrier-based fighter, a two-seat version should be created in parallel over time.

Due to some deterioration in flight performance, this model should take on tasks that in the past required the creation of a few, but highly specialized aircraft of other types and models.

The availability of a workplace for the second crew member is, first of all, necessary for solving combat training tasks with young replenishment of deck aviation pilots, where the cost of an unintentional error can be much higher.

Old F-14Ds and modern Su-34s with a crew of two professionals cannot be called bad. The modification of the Su-57KUB is practically not much inferior to a single combat vehicle when performing combat missions. But it becomes indispensable if suspended containers with side-looking radar and containers with REP equipment are developed, which can be controlled by a second crew member in flight.

The side-looking radar for the two-seat version of the Su-57DRLOU fighter can be created on the basis of the construction (and the element base) of the NO36 "Belka" radar, which is native to it.

Based on the need to obtain a carrier-based AWACS aircraft that is not inferior to the American Hawkeye, we select the same range for the side-looking radar as that of the Belka (frequency range X, with carrier frequencies 8-12 GHz and wavelengths 3.75-2 , 5 cm). Only with the optimization of the radar operation at a wavelength of 3.4 centimeters to reduce the influence of attenuation in the atmosphere.

The AFAR fabric, consisting of 4032 transmitting and receiving modules (PPM), located in 28 horizontal rows of 144 PPM in each, will fit into a rectangle with a height of 0.6 by 3 meters in size and will provide a horizontal beam width of 0.70 and vertical 3.60.

It is possible to fit two such AFAR designs into conformal, triangular-section suspended containers installed under the air intakes and aircraft engines.

The inclination of the antenna curtain in containers at 15 degrees from the vertical will provide optimal viewing angles of the radar in the elevation plane. If we conditionally accept the possibility of scanning AFAR within 90 degrees vertically and horizontally from the perpendicular to the plane of the antenna canvas, then with an aircraft patrolling altitude of 12000 meters (which is impossible for competitors in the face of E-2D Hawkeye and E-3C Sentry) at zero deflection, the radar beams will be directed to the sea surface at a distance of 50 kilometers to the right and left of the aircraft's course.

At such an altitude, the radio horizon of aircraft radars will expand to 450 kilometers, and in combination with a high patrol speed (900 km / h) and inaccessibility for short-range air defense systems, we get an almost ideal naval reconnaissance system for targets such as: surface ships of all classes, subsonic and supersonic anti-ship missiles and aircraft, all helicopters by definition and anti-submarine aircraft searching at low altitudes.

Placement of the aforementioned competitors of surveillance radars in fairings over the body and wings of the carrier creates a rather extensive so-called dead funnel under the aircraft. Practically the absence of this drawback in our scout gives him the ability to detect missile launches from enemy submarines, which, according to their hydroacoustics, could carry them out on a guarded order or on targets on the coast.

The possibility of early detection of such a threat will provide a time gap for the response of a pair of interceptors on duty and to alert the ships' self-defense equipment.

There is no reason to doubt the provision of information awareness of the aircraft in the forward hemisphere, which is provided by the most advanced domestic radar with AFAR NO36 "Belka" at present.

Some doubts among skeptics may be caused by design restrictions associated with the placement of containers with APAR at the lowest points of the aircraft's suspension. The simplest geometry and knowledge of the radius of the earth's surface make it possible to come to terms with optimism with the shortcomings inherent in the chosen layout of locators.

So, rather widely spaced engines and air intakes, under which they are located, and a rather compact wing allow, in the most extreme case, to ensure the rise of the radar beam at an angle of 9 degrees from the horizontal. Thus, when patrolling at an altitude of 12 kilometers, target detection is ensured at an altitude of 20 kilometers from a range of 50 km and at an altitude of 27 kilometers from a range of 100 km.

And, ending on an optimistic note, I would like to note that the detection ranges of typical air targets will be limited only by the energy potential, radio horizon and EPR!

Unity and struggle of compromise opposites

Having achieved not excellent, but remarkable capabilities of a carrier-based fighter in the AWACS version, for objectivity it is necessary to note both the resulting shortcomings and difficulties.

We will take it for granted that when designing the deck-mounted Su-57K, the Su-57 parachute-braking system will be replaced with a brake hook for an aerofinisher on the deck of an aircraft carrier, the tricycle landing gear will be reinforced, folding wings and rear horizontal tail will be made.

In addition, in the two-seater version of the aircraft, which in itself will entail an increase in size and weight, it will be necessary to provide for a serious increase in energy costs to ensure the operation of containers with radar or electronic warfare equipment.

And now, since we have decided to equip the deck version of the aircraft with additional suspension points for conformal containers with radio electronics, we will be consistent in the development of this solution.

The carrier-based fighter is designed to gain air supremacy and conduct aerial combat over the sea by definition. But, while remaining the only type of fighter on an aircraft carrier and in an aircraft carrier strike group, it must also be able to carry out an attack on a surface target.

Of course, one can dream of pairing the Su-57K with the Dagger or Zircon missiles, which may be implemented in subsequent versions and modifications. And upon acceptance into service and a serial batch for new aircraft carriers, the aircraft should be capable of carrying a pair of Onyx anti-ship missiles in the aviation version.

For the sake of all the variety of equipment and armament of the aircraft, you will definitely have to sacrifice an aircraft cannon with ammunition on the two-seater version of the Su-57K.

Modern American Air Force F-22 Raptor and F-35 Lightning aircraft, taught by the sad experience of fighting in Vietnam between MiG-21 and F-4, are still equipped with 20 and 25 mm cannons with a considerable ammunition of 480 and 180 shells, respectively. Only now the naval version of the F-35B and C can carry a lightweight version of a 25-mm four-barreled gun with 220 rounds of ammunition in a container version.

Or they may not!

Both for reasons of stealth and giving priority to other weapons (depending on the task at hand). The serial Su-57 carries a single-barreled 30-mm cannon 9-A1-4071K (a modernized version of the GSh-30-1).

Maybe it's time for trial and error to try to revert to the 23mm caliber or the new 27mm on a carrier-based fighter?

The next concession to the deck version of the aircraft (or the pursuit of perfection) may be a complete rejection of the underwing suspension points for weapons. This measure will simplify the already complex design of the folding wing and will have a positive effect on the characteristics of the radar signature of the aircraft, as well as on the operation of the side-looking radar of the AWACS version in particular.

The creation on the basis of the fifth generation fighter of the entire range of vehicles for arming future Russian aircraft carriers will not only simplify the logistics of their operation, but also as a harmonious carrier-aircraft system may interest foreign buyers in the face of China and India.

The first will certainly not stop at the construction of three aircraft carriers based on the concept of the Soviet "Varyag". He may be interested in modern technologies for building nuclear reactors for Russian aircraft carriers and the created system of deck weapons based on a modern fifth-generation fighter base. And if they do not acquire a complete set for the armament of the next generation of their aircraft carriers, then, according to custom, they can purchase single copies for future cloning or in parts in the form of engines, radars or weapons.

India at one time financed the birth of the MiG-29K to arm its aircraft carrier acquisitions. Now, having before the eyes of the Chinese the experience of building and operating aircraft-carrying ships and their carrier-based aircraft, one can assume the emergence of a desire to acquire or build such ships for their own Navy. And in order not to reinvent the wheel, an appeal to Russia for advanced technologies may follow.

The main thing is that we ourselves, in our country, do not allow the accounting approach and effective management to stall the correct direction of development of the domestic fleet for decades.

Author: Andrey Kononov