Air defense troops air defense troops. Air defense - Russian air defense systems. New military "Gadfly"

Air and Missile Defense Troops

Air defense

Air Defense Forces of the Russian Federation - until 1998 independent species Armed Forces of the Russian Federation (RF Armed Forces). In 1998, the country's Air Defense Forces were merged with the Air Force in a new branch of the Russian Armed Forces - the Russian Air Force. In 2009-2010 All air defense formations of the Russian Air Force (4 corps and 7 air defense divisions) were reorganized into 11 aerospace defense brigades. In 2011, 3 air defense brigades of the Russian Air Force became part of a new branch of the Russian Armed Forces - the Aerospace Defense Forces.

It is necessary to distinguish the air defense troops of the Air Force of the Russian Federation and the aerospace defense brigade of the Russian Federation, which were previously organizationally part of the Air Defense Forces of the Russian Federation, from the Air Defense Troops of the Ground Forces.

Abbreviated name - VPVO of the Russian Armed Forces.

The tasks of the Russian Air Defense Forces (both an independent branch of the Russian Armed Forces and as part of the Russian Air Force, the Russian Air Defense Forces, the Russian Aerospace Forces) are: repelling aggression in the air sphere and protecting command posts of the highest echelons of state and military administration, administrative and political centers from air strikes , industrial and economic regions, the most important economic and infrastructure facilities of the country and groupings of troops (forces).

In 2015, the Air Force of the Russian Federation was merged with the Aerospace Defense Forces of the Russian Federation in a new branch of the RF Armed Forces - the Aerospace Forces of the Russian Federation, within which a new type of troops was organizationally allocated - the Air Defense Forces missile defense(PVO-PRO Troops).

Story

The date of formation is considered to be the date of creation of the Petrograd air defense system - December 8 (November 25), 1914.

In 1930, the Directorate (since 1940 - the Main Directorate) of Air Defense was created.

Since 1941 - air defense troops.

In 1948, the country's Air Defense Forces were removed from the subordination of the artillery commander and transformed into an independent branch of the Armed Forces.

In 1954, the High Command of the Air Defense Forces was formed.

In 1978, the transportable S-300PT air defense system was put into service (it replaced the older S-25, S-75 and S-125 air defense systems). In the mid-80s, the complex underwent a number of upgrades, receiving the designation S-300PT-1. In 1982, a new version of the S-300P air defense system was adopted into service with the air defense forces - the self-propelled complex S-300PS, new complex had a record short deployment time of 5 minutes, making it difficult to attack by enemy aircraft.

1987 became a “black” year in the history of the Air Defense Forces. On May 28, 1987, at 18.55, Matthias Rust’s plane landed in Moscow on Red Square. It became obvious that the legal basis for the actions of the duty forces of the country's Air Defense Forces was seriously imperfect and, as a consequence, the contradiction between the tasks assigned to the Air Defense Forces and the limited rights of the leadership in the use of forces and means. After the flight of Rust, three Marshals of the Soviet Union were removed from their posts (including the USSR Minister of Defense S.L. Sokolov, the Commander-in-Chief of the Air Defense Forces A.I. Koldunov), about three hundred generals and officers. The army has not seen such a personnel pogrom since 1937.

In 1991, due to the collapse of the USSR, the USSR Air Defense Forces were transformed into the Russian Federation Air Defense Forces.

In 1993, an improved version of the S-300PS complex, the S-300PM, was put into service. In 1997, the S-300PM2 Favorit air defense system was adopted.

Assessing the process of accelerating the physical aging of weapons and military equipment, the Defense Committee of the State Duma of the Russian Federation came to disappointing conclusions. As a result, a new concept of military development was developed, where it was planned to reorganize the branches of the Armed Forces by 2000, reducing their number from five to three. As part of this reorganization, two independent branches of the Armed Forces were to be united in one form: the Air Force and the Air Defense Forces. Decree of the President of the Russian Federation (RF) dated July 16, 1997 No. 725 “On priority measures to reform the Armed Forces of the Russian Federation and improve their structure” determined the formation of a new type of Armed Forces (AF). By March 1, 1998, on the basis of the control bodies of the Air Defense Forces and the Air Force, the Directorate of the Commander-in-Chief of the Air Force and the Main Headquarters of the Air Force were formed, and the Air Defense and Air Force Forces were united into a new branch of the Russian Armed Forces - the Air Force.

By the time the Armed Forces of the Russian Federation were unified into a single branch, the Air Defense Forces included: an operational-strategic formation, 2 operational, 4 operational-tactical formations, 5 air defense corps, 10 air defense divisions, 63 anti-aircraft units missile forces, 25 fighter air regiments, 35 units of radio technical troops, 6 formations and reconnaissance units and 5 electronic warfare units. It was armed with: 20 aircraft of the A-50 radar surveillance and guidance complex, more than 700 air defense fighters, more than 200 anti-aircraft missile divisions and 420 radio engineering units with radar stations of various modifications.

As a result of the measures taken, a new organizational structure of the Air Force was created. Instead of air armies front-line aviation formed air force and air defense armies, operationally subordinate to the commanders of the military districts. The Moscow Air Force and Air Defense District was created in the Western strategic direction.

In 2005–2006 Some of the military air defense formations and units equipped with S-300V anti-aircraft missile systems (ZRS) and Buk complexes were transferred to the Air Force. In April 2007, the Air Force adopted the new generation S-400 Triumph anti-aircraft missile system, designed to defeat all modern and promising aerospace attack weapons.

At the beginning of 2008, the Air Force included: an operational-strategic formation (KSpN) (formerly the Moscow Air Force and Air Defense District), 8 operational and 5 operational-tactical formations (air defense corps), 15 formations and 165 units. In 2008, the transition to the formation of a new look for the Armed Forces of the Russian Federation (including the Air Force) began. In the course of the events, the Air Force switched to a new organizational structure. Air Force and Air Defense commands were formed, subordinate to the newly created operational-strategic commands: Western (headquarters - St. Petersburg), Southern (headquarters - Rostov-on-Don), Central (headquarters - Yekaterinburg) and Eastern ( headquarters - Khabarovsk). In 2009–2010 a transition was made to a two-level (brigade-battalion) system of command and control of the Air Force. As a result, the total number of air force formations was reduced from 8 to 6, all air defense formations (4 corps and 7 air defense divisions) were reorganized into 11 aerospace defense brigades.

In December 2011, 3 brigades (4th, 5th, 6th) of the air defense forces of the operational-strategic aerospace defense command (formerly the Command special purpose The Air Force, the former Moscow Air Force and Air Defense District) became part of a new branch of the Armed Forces - the Aerospace Defense Forces.

In 2015, the Aerospace Defense Forces were merged with the Air Force and formed a new branch of the Russian Armed Forces - the Russian Aerospace Forces.

As part of the Aerospace Forces of the Russian Federation, a new branch of troops has been organizationally allocated - the Air Defense and Missile Defense Forces (PVO-PRO Troops). The air defense and missile defense troops will be represented by air defense brigades and a missile defense formation.

As part of the further improvement of the air defense (aerospace) defense system, the development of a new generation of S-500 air defense systems is currently underway, in which it is planned to apply the principle of separately solving the problems of destroying ballistic and aerodynamic targets. The main task of the complex is to combat combat equipment ballistic missiles medium-range, and, if necessary, with intercontinental ballistic missiles in the final part of the trajectory and, within certain limits, in the middle part.

The Day of the Country's Air Defense Forces was celebrated in the USSR and is celebrated in the Russian Armed Forces on the second Sunday in April.

Operational-strategic formations of air defense forces of the USSR and Russia

Air defense districts - associations of air defense troops, designed to protect the most important administrative, industrial centers and regions of the country, and armed forces groupings from air strikes. important military and other facilities within established boundaries. In the armed forces of the USSR, air defense districts were created after the Great Patriotic War on the basis of air defense fronts. In 1948, the districts were reorganized into air defense districts; in 1954, air defense districts were again created.
Moscow Air Defense District (since August 20, 1954):
Moscow Air Force and Air Defense District (since 1998);
Special Forces Command (since September 1, 2002);
Joint Strategic Aerospace Defense Command (since July 1, 2009);
Air and Missile Defense Command (since December 1, 2011);
1st Air and Missile Defense Army (since 2015).
1st Air Force and Air Defense Command
2nd Air Force and Air Defense Command
3rd Air Force and Air Defense Command
4th Air Force and Air Defense Command
Baku Air Defense District - formed in 1945 on the basis of the Baku Air Defense Army, in 1948 it was transformed into a district. Since 1954 - again a district. Abolished on January 5, 1980.

Compound

The air defense forces of the Russian Armed Forces included:
management (headquarters);
Radio technical troops;
Anti-aircraft missile forces;
Fighter aircraft;
Electronic warfare forces.

The location of the Main Headquarters of the Air Defense of Russia (USSR) is the village of Zarya, near the village of Fedurnovo, Balashikha district of the Moscow region (train from Kursky station towards Petushki station), or from the Gorkovsky highway, outside the city of Balashikha and the division named after. Dzerzhinsky.

Air defense systems in service with Russian air defense forces
S-400 air defense system (Since April 2007)
S-300 air defense system (Until 2007, the S-300P medium-range anti-aircraft missile system was the basis of the Russian Air Force anti-aircraft missile forces.)
S-350 "Vityaz" air defense system (The S-350E "Vityaz" medium-range anti-aircraft missile system will enter service with the Russian troops by 2016. The new complex is intended to replace the S-300PS air defense system with V55R type missiles, the service life of which ends in 2015.)
ZRPK Pantsir-S1
ZRPK "Pantsir-S2" (from June 2015 the complex will begin to be supplied to the Air Force air defense forces)

Missile defense

Anti-missile defense (BMD) - a set of measures of reconnaissance, radio engineering and fire or any other nature (balloon missile defense, etc.), intended for the protection (defense) of protected objects from missile weapons. Missile defense is very closely related to air defense and is often carried out by the same complexes.

The concept of “missile defense” includes protection against a missile threat of any kind and all the means that carry it out (including active protection of tanks, air defense systems fighting cruise missiles, etc.), however, at the everyday level, when talking about missile defense, they usually have type “strategic missile defense” - protection from the ballistic missile component of strategic nuclear forces (ICBMs and SLBMs).

Speaking about missile defense, we can distinguish self-defense against missiles, tactical and strategic missile defense.

Self defense against missiles

Self-defense against missiles is the minimum unit of missile defense. It provides protection from attacking missiles only to that military equipment on which it is installed. A characteristic feature of self-defense systems is the placement of all missile defense systems directly on the protected equipment, and all placed systems are auxiliary (not the main functional purpose) for this equipment. Self-defense systems against missiles are cost-effective for use only on expensive types of military equipment that suffer heavy losses from missile fire. Currently, two types of self-defense systems against missiles are actively developing: complexes active protection tanks and missile defense of warships.

Active protection of tanks (and other armored vehicles) is a set of measures to counter attack shells and missiles. The action of the complex can mask the protected object (for example, by releasing an aerosol cloud), or it can physically destroy the threat with a nearby detonation of an anti-shell, shrapnel, a directed blast wave, or in another way.

Active defense systems are characterized by extremely short reaction times (up to a fraction of a second), since the flight time of weapons, especially in urban combat, is very short.

An interesting feature is that to overcome the active protection systems of armored vehicles, the developers of anti-tank grenade launchers use the same strategy as the developers of intercontinental ballistic missiles to break through strategic missile defense - decoys.

Tactical missile defense

Tactical missile defense is designed to protect limited areas of territory and objects located on it (troop groups, industry and populated areas) from missile threats. The targets of such missile defense include: maneuvering (mainly high-precision aircraft) and non-maneuvering (ballistic) missiles with relatively low speeds (up to 3-5 km/s) and without means of overcoming missile defense. The reaction time of tactical missile defense systems ranges from several seconds to several minutes, depending on the type of threat. The radius of the protected area, as a rule, does not exceed several tens of kilometers. Complexes with a significantly larger radius of the protected area - up to several hundred kilometers - are often classified as strategic missile defense, although they are not capable of intercepting high-speed intercontinental ballistic missiles covered by powerful means of penetrating missile defense.

Existing tactical missile defense systems

Short range

Tunguska (only by external target designation through the external Command Post).
Thor
Pantsir-S1

Medium and long range:

Beech
S-300P all variants
S-300V all options
S-400 with any missiles

Strategic missile defense

The most complex, modernized and expensive category of missile defense systems. The task of strategic missile defense is to combat strategic missiles- their design and tactics of use specifically provide for means that make interception difficult - a large number of light and heavy decoys, maneuvering warheads, as well as jamming systems, including high-altitude nuclear explosions.

Currently, only Russia and the United States have strategic missile defense systems, while the existing systems are capable of protecting only from a limited strike (a single missile), and in most cases, over a limited area. In the foreseeable future, there are no prospects for the emergence of systems capable of reliably and completely protecting the country’s territory from a massive strike by strategic missiles. However, as more and more countries have, are developing, or could potentially acquire a number of long-range missiles, the development of missile defense systems that can effectively protect a country's territory from a small number of missiles appears necessary.

Types of strategic missile defense

Boost-phase intercept

Takeoff interception means that the missile defense system attempts to intercept the ballistic missile immediately after launch, while it is accelerating with its engines running.

Destroying a ballistic missile on takeoff is a relatively simple task. Advantages of this method:

The missile (unlike the warheads) is large in size, clearly visible on radar, and the operation of its engine creates a powerful infrared stream that cannot be camouflaged. It is not particularly difficult to point an interceptor at such a large, visible and vulnerable target as an accelerating missile.

It is also impossible to cover an accelerating missile with decoys or dipole reflectors.

Finally, destroying a missile during takeoff results in the destruction of all its warheads along with it in one blow.

However, takeoff interception has two fundamental disadvantages:

Limited reaction time. The acceleration duration takes 60-110 seconds, and during this time the interceptor must have time to track the target and hit it.

Difficulty in deploying interceptors within range. Ballistic missiles, as a rule, are launched from deep in enemy territory and are well covered by their defense systems. Deploying interceptors close enough to engage incoming missiles is generally extremely difficult or impossible.

Based on this, space-based or mobile interceptors (deployed on ships or mobile installations) are considered as the main means of interception on takeoff. At this stage, the use of laser systems with their short response time can also be effective. Thus, the SDI system considered orbital platforms with chemical lasers and systems of thousands of tiny Diamond Pebble satellites, designed to hit take-off missiles with kinetic collision energy at orbital speeds, as means of takeoff interception.

Midcourse interception

Mid-trajectory interception means that the interception occurs outside the atmosphere, at the moment when the warheads have already separated from the missile and are flying by inertia.

Advantages:

Long interception time. The flight of warheads outside the atmosphere takes from 20 to 40 minutes, which significantly expands the ability to respond to missile defense.

Flaws:

Tracking warheads flying outside the atmosphere is difficult task, since their sizes are small and they are not sources of radiation.

High cost of interceptors.

Warheads flying outside the atmosphere can be covered with maximum effectiveness by means of penetration. It is extremely difficult to distinguish warheads flying by inertia outside the atmosphere from decoys.

Terminal phase intercept

Re-entry interception means that the missile defense system is attempting to intercept warheads at last stage flight - when entering the atmosphere near the target.

Advantages:

Technical convenience of deploying missile defense systems on one’s own territory.

A short distance from radars to warheads, which significantly increases the effectiveness of the tracking system.

Low cost of missile defense.

Reduced effectiveness of decoys and interference during re-entry: Lighter than the warheads themselves, decoys are more decelerated by air friction. Accordingly, the selection of false targets can be performed based on the difference in braking speed.

Flaws:

Extremely limited (up to tens of seconds) interception time

Small warheads and difficulty tracking them

No redundancy: if warheads are not intercepted at this stage, no subsequent defense echelon can exist

The limited range of interception systems at the terminal stage, which allows the enemy to overcome such defenses by simply sending more missiles at the target than there are missile defenses near the target.

History of strategic missile defense

Despite great difficulties and shortcomings, in the USSR the development of missile defense systems proceeded quite systematically and systematically.

First experiments

Research into the possibility of countering ballistic missiles in the USSR began in 1945 as part of the Anti-Vow project at the Zhukovsky Air Force Academy (Georgy Mironovich Mozharovsky’s group) and at several research institutes (Pluto theme). During the creation of the Berkut air defense system (1949-1953), work was suspended, then sharply intensified.

In 1956, 2 missile defense system projects were considered:

Zonal missile defense system "Barrier" (Alexander Lvovich Mints)

In a missile-hazardous direction, three radars with antennas looking straight up were installed one after another at intervals of 100 km. The attacking warhead sequentially crossed three narrow radar beams; its trajectory was built using three notches and the point of impact was determined.

System based on three ranges “System A” (Grigory Vasilievich Kisunko)

The project was based on a complex of a heavy-duty long-range detection radar and three precision-guided radars located along the perimeter of the defended area.

The control computer continuously processed the reflected signals, aiming the anti-missile missile at the target.

The project of G.V. Kisunko was chosen for execution.

The first missile defense complex in the USSR, chief designer G. V. Kisunko. It was deployed in the period 1956-1960 at the GNIIP-10 (Sary-Shagan) training ground specially built for these purposes in the Betpak-Dala desert. Launches of ballistic missiles into the interception area were carried out from the Kapustin Yar and, later, Plesetsk test sites in a triangle with a side of 170 km, at the vertices of which (sites No. 1, No. 2, No. 3) precision guidance radars were located. The B-1000 missile defense launcher was located in the center of the triangle (site No. 6), the interception was carried out on the atmospheric section of the trajectory (altitude 25 km) on a collision course. Control was carried out by a computer center with two computers, M-40 (implementation of the automatic cycle) and M-50 (processing of system information), designed by S. A. Lebedev.

On March 4, 1961, after a number of unsuccessful attempts, the B-1000 anti-missile missile, equipped with a fragmentation warhead, destroyed the warhead of the R-12 ballistic missile with the weight equivalent of a nuclear charge. The miss was 31.2 meters to the left and 2.2 meters in height. This is the first real interception of a target by a missile defense system in world practice. Until now, ballistic missiles were considered the ultimate weapon, having no countermeasures.

Subsequently, 16 more interception attempts were carried out, 11 of which were successful. Research has also been carried out on positioning and measuring satellite trajectories. The work of System “A” ended in 1962 with a series of tests K1 - K5, as a result of which 5 nuclear explosions were carried out at altitudes from 80 to 300 km and their effect on the functioning of missile defense and early warning systems was studied.

System “A” did not enter service due to low reliability and low efficiency: the system ensured the defeat of only single short- and medium-range ballistic missiles at short distances from a protected object, however, as a result of work on it, a specialized training ground was built and vast experience was accumulated, which served further development of missile defense systems in the USSR/Russia.

Missile defense systems of the Moscow industrial region

A-35

The creation began in 1958 with a resolution of the CPSU Central Committee. G.V. Kisunko was appointed chief designer. According to tactical and technical requirements, the system was supposed to provide defense of an area of ​​400 km² from an attack by Titan-2 and Minuteman-2 ICBMs. Due to the use of more advanced radars and anti-missiles with nuclear warheads, interception was carried out at a distance of 350 km in range and 350 km in altitude, guidance was carried out using a single-station method. The computer center operated on the basis of a dual-processor computer 5E92b (developed by V. S. Burtsev). Construction of A-35 facilities in the Moscow region began in 1962, but the placement on combat duty was delayed for a number of reasons:

The advanced improvement of attack weapons required a number of serious improvements.

The promotion of competing missile defense projects "Taran" by V. N. Chelomey and S-225 KB-1 led to a temporary halt in construction.

The growth of intrigue in the upper echelons of scientific and technical leadership led in 1975 to the removal of Grigory Kisunko from the post of chief designer of the A-35.

Upgraded A-35 system. Chief designer I. D. Omelchenko. Placed on combat duty on May 15, 1978 and in service until December 1990, the Danube-3U early warning radar continued to operate in the A-135 system until the early 2000s. In parallel, at the Sary-Shagan training ground, the A-35 “Aldan” firing range complex was built (site No. 52), which was used as a prototype and for training crews of the Moscow missile defense system in real combat shooting.

A-135

Further development of the missile defense system of the Moscow industrial region. General designer A. G. Basistov. Draft design in 1966, development began in 1971, construction began in 1980. Commissioned in December 1990. The Danube-3U long-range detection radar and the Don-2 multifunctional radar had phased array antennas. Two interception echelons, long-range transatmospheric and near-atmospheric with two types of interceptor missiles. A range shooting complex "Argun" was envisaged (sites No. 38 No. 51 of the Sary-Shagan training ground), but it was not completed. In accordance with the amendment to the ABM Treaty between the USA and the USSR of 1974 and the change of leadership, the Vympel Research and Production Association recognized this facility as unpromising, work on it was stopped, and the launchers were destroyed. The complex continued to function in a stripped-down version as the Argun-I measuring station until 1994.

A-235 "Samolet-M"

A promising missile defense system that will replace the A-135. The creation contract was signed in 1991. In August 2014, the start of testing missile defense systems for the A-235 complex was announced; completion of work on the project is scheduled for 2015.

Also in the USSR there were several unrealized projects of missile defense systems. The most significant of them are:

Missile defense system for the country's territory "Taran"

In 1961, on his own initiative, Chelomey proposed a system of defense for the entire territory of the USSR from a nuclear missile attack from the United States.

The project was based on interception in the middle section of the trajectory using a super-heavy anti-missile missile, which Chelomey proposed to create at the base intercontinental missile UR-100. It was assumed that the radar system deployed in the Far North would have to detect warheads approaching along transpolar trajectories and calculate approximate interception points. Then, anti-missile missiles based on the UR-100 were to be launched with inertial guidance at these design points. Precise guidance was supposed to be carried out using radar systems target designation and radio command guidance installed on anti-missile missiles. The interception was supposed to be using a 10-megaton thermonuclear warhead. According to Chelomey’s calculations, intercepting 100 Minuteman-class ICBMs would require 200 interceptor missiles.

The system was developed from 1961 to 1964, but was closed in 1964 by government decision. The reason was the rapid growth of the American nuclear arsenal: from 1962 to 1965, the United States deployed eight hundred Minuteman-class ICBMs, which would have required 1,600 UR-100-based interceptor missiles to intercept them.

In addition, the system was subject to a self-blinding effect, since numerous detonations of 10-megaton warheads in outer space would create huge clouds of radio-opaque plasma and powerful EMP, disrupting the operation of the radar, which made subsequent interceptions extremely difficult. The enemy could easily overcome the Taran system by dividing its ICBMs into two successive waves. The system was also vulnerable to missile defense countermeasures. Finally, the frontline early warning radars, a key component of the system, were themselves extremely vulnerable to a possible pre-emptive strike that would render the entire system useless. In this regard, Vladimir Chelomey proposed using the created A-35 and S-225 as part of his “Taran” system, receiving, in the future, leadership over all anti-missile issues in the USSR. It must be said that the Taran project was considered by many to be unfinished and adventurous. Chelomey enjoyed strong support from the leadership of the USSR; the son of the General Secretary of the CPSU Central Committee, Sergei Khrushchev, worked in his design bureau; this explains the closure of the project after the dismissal of N.S. Khrushchev in 1964.

S-225

Work began in 1961. General designer A.A. Raspletin.

An air defense and missile defense complex for protecting relatively small objects from single ICBMs equipped with means of overcoming missile defense and advanced aerodynamic targets. Active development phase from 1968 to 1978.

Distinctive features were a container transportable and quickly assembled design, the use of RTN with a phased array antenna RSN-225, new high-speed short-range interception missiles PRS-1 (5YA26) from OKB Novator (designer Lyulev). 2 testing complexes were built, “Azov” (site No. 35 Sary-Shagan) and a measuring complex in Kamchatka. The first successful interception of a ballistic target (an 8K65 missile warhead) was carried out in 1984. Presumably, due to the delay in the development of the anti-missile system and insufficient RTN energy for missile defense purposes, the topic was closed. The PRS-1 missile subsequently entered the short-range interception echelon of the A-135 complex.

I was largely inspired to write this article by the excessive jingoistic sentiments of a significant part of the visitors to the site I respect “ Military Review“, as well as the slyness of the domestic media, which regularly publish materials about the strengthening of our military power, unprecedented since Soviet times, including the Air Force and Air Defense.

For example, in a number of media outlets, including on “VO”, in the “” section, a material was recently published entitled: “Two air defense divisions have begun protecting the airspace of Siberia, the Urals and the Volga region.”

Which states: “The Assistant Commander of the Central Military District, Colonel Yaroslav Roshchupkin, stated that two air defense divisions took up combat duty, starting to protect the airspace of Siberia, the Urals and the Volga region.

“The duty forces of two air defense divisions took up combat duty to cover administrative, industrial and military facilities in the Volga region, the Urals and Siberia. New formations were formed on the basis of the Novosibirsk and Samara aerospace defense brigades,” RIA Novosti quotes him as saying.

Combat crews equipped with S-300PS anti-aircraft missile systems will cover the airspace over the territory of 29 constituent entities of the Russian Federation, which are included in the area of ​​responsibility of the Central Military District.”

After such news, an inexperienced reader may get the impression that our anti-aircraft missile defense units have received qualitative and quantitative reinforcement with new anti-aircraft systems.

In practice, in this case, no quantitative, much less qualitative, strengthening of our air defense occurred. It all just comes down to changing the staffing and organizational structure. New equipment did not enter the troops.

The anti-aircraft missile system of the S-300PS modification mentioned in the publication, with all its advantages, cannot in any way be considered new.

The S-300PS with 5V55R missiles was put into service back in 1983. That is, more than 30 years have passed since the adoption of this system. But at present, in air defense anti-aircraft missile units, more than half of the S-300P long-range air defense systems belong to this modification.

In the near future (two to three years), most S-300PS will either have to be written off or overhauled. However, it is not known which option is economically preferable, the modernization of old or the construction of new anti-aircraft systems.

The earlier towed version of the S-300PT has already either been written off or transferred “for storage” without any chance of returning to the troops.

The “freshest” complex from the “three hundredth” family, the S-300PM, was delivered to the Russian army in the mid-90s. Most of the anti-aircraft missiles currently in service were produced at the same time.

The new, widely publicized S-400 anti-aircraft missile system has only just begun to enter service. In total, as of 2014, 10 regimental sets were delivered to the troops. Taking into account the upcoming mass write-off of military equipment that has exhausted its service life, this amount is absolutely insufficient.

Of course, experts, of whom there are many on the site, can reasonably argue that the S-400 is significantly superior in its capabilities to the systems it is replacing. However, we should not forget that the air attack means of the main “potential partner” are constantly being qualitatively improved. In addition, as follows from “open sources”, mass production of the promising 9M96E and 9M96E2 missiles and the ultra-long-range 40N6E missile has not yet been established. Currently, the S-400 uses 48N6E, 48N6E2, 48N6E3 S-300PM air defense missiles, as well as 48N6DM missiles modified for the S-400.

In total, if you believe “open sources”, our country has about 1,500 S-300 family air defense launchers - this, apparently, takes into account those “in storage” and in service with the air defense units of the ground forces.

Today Russian troops Air defense (those that are part of the Air Force and Air Defense) have 34 regiments with S-300PS, S-300PM and S-400 air defense systems. In addition, not long ago several anti-aircraft missile brigades, transformed into regiments, were transferred to the Air Force and Air Defense from the air defense of the ground forces - two 2-divisional brigades of S-300V and Buk and one mixed (two divisions of S-300V , one Buk division). Thus, in the troops we have 38 regiments, including 105 divisions.

However, these forces are distributed extremely unevenly throughout the country; Moscow is best protected, around which ten regiments of S-300P air defense systems are stationed (two of them have two S-400 divisions).

The northern capital, St. Petersburg, is well covered. The sky above it is protected by two S-300PS regiments and two S-300PM regiments.

Google Earth satellite image. Layout of air defense missile systems around St. Petersburg

The Northern Fleet's bases in Murmansk, Severomorsk and Polyarny are covered by three S-300PS and S-300PM regiments. At the Pacific Fleet in the area of ​​Vladivostok and Nakhodka there are two S-300PS regiments, and the Nakhodka regiment received two S-400 divisions. Avacha Bay in Kamchatka, where the SSBNs are based, is covered by one S-300PS regiment.

Google Earth satellite image. S-400 air defense system in the vicinity of Nakhodka

The Kaliningrad region and the Baltic Fleet base in Baltiysk are protected from air attack by a mixed regiment of S-300PS/S-400.

Google Earth satellite image. S-400 air defense system in the Kaliningrad region at the former positions of the S-200 air defense system

IN Lately The anti-aircraft cover of the Black Sea Fleet was strengthened. Before the well-known events related to Ukraine, a mixed regiment with S-300PM and S-400 divisions was stationed in the Novorossiysk area.

Currently, there is a significant strengthening of the air defense of the main naval base of the Black Sea Fleet - Sevastopol. It is reported that in November the peninsula's air defense group was replenished with S-300PM air defense systems. Taking into account the fact that complexes of this type are currently not produced by industry for its own needs, they were apparently transferred from another region of the country.

central District In terms of air defense cover, our country resembles a “patchwork quilt” with more holes than patches. There is one S-300PS regiment in each Novgorod region, near Voronezh, Samara and Saratov. Rostov region covered by one regiment each of S-300PM and Buk.

In the Urals near Yekaterinburg there are positions of an anti-aircraft missile regiment armed with S-300PS. Beyond the Urals, in Siberia, on a gigantic territory, only three regiments are stationed, one S-300PS regiment each near Novosibirsk, in Irkutsk and Achinsk. In Buryatia, not far from the Dzhida station, one regiment of the Buk air defense system is stationed.

Google Earth satellite image. S-300PS air defense system near Irkutsk

In addition to anti-aircraft systems protecting fleet bases in Primorye and Kamchatka, Far East there are two more S-300PS regiments covering Khabarovsk (Knyaze-Volkonskoye) and Komsomolsk-on-Amur (Lian), respectively; one S-300B regiment is deployed in the vicinity of Birobidzhan.

That is, the entire huge Far Eastern federal district defended by: one mixed S-300PS/S-400 regiment, four S-300PS regiments, one S-300V regiment. This is all that remains of the once powerful 11th Air Defense Army.

The “holes” between air defense facilities in the east of the country are several thousand kilometers long, and anyone and anything can fly into them. However, not only in Siberia and the Far East, but throughout the country, a huge number of critical industrial and infrastructure facilities are not covered by any air defense systems.

In a significant part of the country, nuclear and hydroelectric power plants remain unprotected, and air strikes on them could lead to catastrophic consequences. The vulnerability of Russian strategic nuclear forces deployment sites to air attacks provokes “potential partners” to attempt a “disarming strike” with high-precision weapons to destroy non-nuclear weapons.

In addition, you yourself anti-aircraft systems long ranges need protection. They need to be covered from the air by short-range air defense systems. Today, regiments with the S-400 receive Pantsir-S air defense missile systems for this (2 per division), but the S-300P and B are not covered by anything, except, of course, for the effective protection of 12.7 mm anti-aircraft machine gun mounts.

"Pantsir-S"

The situation with airborne lighting is no better. This should be done by the radio technical troops; their functional responsibility is to provide advance information about the beginning of an enemy air attack, provide target designation for anti-aircraft missile forces and air defense aviation, as well as information for controlling formations, units and air defense units.

During the years of “reforms,” the continuous radar field formed during the Soviet era was partially, and in some places completely lost.
At present, there is practically no possibility of monitoring the air situation over the polar latitudes.

Until recently, our political and former military leadership, apparently, was occupied with other more pressing issues, such as the reduction of the armed forces and the sale of “excess” military equipment and real estate.

Only recently, at the end of 2014, Defense Minister General of the Army Sergei Shoigu announced measures that should help correct the existing situation in this area.

As part of the expansion of our military presence in the Arctic, it is planned to build and reconstruct existing facilities on the New Siberian Islands and Franz Josef Land, it is planned to reconstruct airfields and deploy modern radars in Tiksi, Naryan-Mar, Alykel, Vorkuta, Anadyr and Rogachevo. The creation of a continuous radar field over Russian territory should be completed by 2018. At the same time, it is planned to upgrade radar stations and data processing and transmission facilities by 30%.

Fighter aircraft, designed to combat enemy air attacks and carry out missions to gain air superiority, deserve special mention. Currently, the Russian Air Force formally has (including those in “storage”) about 900 fighters, of which: Su-27 of all modifications - more than 300, Su-30 of all modifications - about 50, Su-35S - 34, MiG -29 of all modifications - about 250, MiG-31 of all modifications - about 250.

It should be taken into account that a significant part of the Russian fighter fleet is included in the Air Force in name only. Many aircraft produced in the late 80s and early 90s require major repairs and modernization. In addition, due to problems with the supply of spare parts and replacement of failed avionics units, some of the modernized fighters are essentially, as aviators put it, “doves of peace.” They can still take to the air, but they can fully perform combat mission- not anymore.

The past 2014 was significant for volumes of aircraft supplied to the Russian armed forces, unprecedented since the times of the USSR.

In 2014, our Air Force received 24 multifunctional Su-35S fighters produced by the Yu.A. Aviation Plant. Gagarin in Komsomolsk-on-Amur (branch of OJSC Sukhoi Company):

Twenty of them became part of the recreated 23rd Fighter Aviation Regiment of the 303rd Guards Mixed Aviation Division of the 3rd Russian Air Force and Air Defense Command at the Dzemgi airfield (Khabarovsk Territory) shared with the plant.

All these fighters were built under a contract dated August 2009 with the Russian Ministry of Defense for the construction of 48 Su-35S fighters. Thus, the total number of vehicles manufactured under this contract by the beginning of 2015 reached 34.

The production of Su-30SM fighters for the Russian Air Force is carried out by the Irkut Corporation under two contracts for 30 aircraft each, concluded with the Russian Ministry of Defense in March and December 2012. After the delivery of 18 vehicles in 2014, the total number of Su-30SM delivered to the Russian Air Force reached 34 units.

Eight more Su-30M2 fighters were produced by the Yu.A. Aviation Plant. Gagarin in Komsomolsk-on-Amur.

Three fighters of this type entered the newly formed 38th Fighter Aviation Regiment of the 27th Mixed Aviation Division of the 4th Russian Air Force and Air Defense Command at the Belbek airfield (Crimea).

The Su-30M2 aircraft were built under a contract dated December 2012 for the supply of 16 Su-30M2 fighters, bringing the total number of aircraft built under this contract to 12, and the total number of Su-30M2s in the Russian Air Force to 16.

However, this quantity, significant by today’s standards, is absolutely insufficient to replace aircraft in fighter regiments that are being written off due to complete physical wear and tear.

Even if the current rate of supply of aircraft to the troops is maintained, according to forecasts, in five years the fighter fleet of the domestic Air Force will be reduced to approximately 600 aircraft.

Over the next five years, about 400 Russian fighters are likely to be decommissioned - up to 40% of the current roster.

This is primarily with the upcoming decommissioning of the old MiG-29 (about 200 units) in the very near future. Due to problems with the airframe, about 100 aircraft have already been rejected.

Unmodernized Su-27s, whose flight life will end in the near future, will also be written off. The number of MiG-31 interceptors will be reduced by more than half. It is planned to retain 30-40 MiG-31s ​​in the DZ and BS modifications in the Air Force, and another 60 MiG-31s ​​will be upgraded to the BM version. The remaining MiG-31s ​​(about 150 units) are planned to be written off.

The shortage of long-range interceptors should be partially resolved after the start of mass deliveries of the PAK FA. It was announced that it is planned to purchase up to 60 PAK FA units by 2020, but for now these are only plans that will most likely undergo significant adjustments.

The Russian Air Force has 15 A-50 AWACS aircraft (another 4 in “storage”), recently supplemented by 3 modernized A-50U.
The first A-50U was delivered to the Russian Air Force in 2011.

As a result of the work carried out as part of the modernization, the functionality of the aviation complex for long-range radar detection and control has significantly increased. The number of simultaneously tracked targets and simultaneously guided fighters has been increased, and the detection range of various aircraft has been increased.

The A-50 should be replaced by the A-100 AWACS aircraft based on the Il-76MD-90A with a PS-90A-76 engine. The antenna complex is built on the basis of an antenna with an active phased array.

At the end of November 2014, TANTK named after. G. M. Beriev received the first Il-76MD-90A aircraft for conversion into the A-100 AWACS aircraft. Deliveries to the Russian Air Force are scheduled to begin in 2016.

All domestic AWACS aircraft are permanently based in the European part of the country. Beyond the Urals they appear quite rarely, mostly during large-scale exercises.

Unfortunately, loud statements from high stands about the revival of our Air Force and Air Defense often have little to do with reality. In the “new” Russia, an unpleasant tradition has become an absolute irresponsibility for the promises made by high-ranking civilian and military officials.

As part of the state armaments program, it was planned to have twenty-eight 2-division S-400 regiments and up to ten divisions of the latest S-500 air defense system (the latter should perform the tasks of not only air defense and tactical missile defense, but also strategic missile defense) by 2020. There is now no doubt that these plans will be thwarted. The same fully applies to plans regarding the production of the PAK FA.

However, as usual, no one will suffer serious punishment for disrupting the state program. After all, we “don’t hand over our own,” and “we’re not in 1937,” right?

P.S. All information given in the article regarding Russian Air Force and air defense, taken from open public sources, a list of which is given. The same applies to possible inaccuracies and errors.

Information sources:
http://rbase.new-factoria.ru
http://bmpd.livejournal.com
http://geimint.blogspot.ru
Satellite imagery courtesy of Google Earth

Today marks the centenary of the formation of the Ground Forces Air Defense Forces.

The beginning of the formation of military air defense units was the order of General Alekseev, Chief of Staff of the Supreme Commander-in-Chief, dated December 13 (26), 1915, No. 368, which announced the formation of separate four-gun light batteries for firing at the air fleet. According to Order No. 50 of the Minister of Defense of the Russian Federation dated February 9, 2007, December 26 is considered the date of creation of military air defense.

1. Launcher 9A83 SAM S-300V - long-range universal anti-aircraft air defense system of the SV with theater missile defense capability

On August 16, 1958, by order (No. 0069) of the USSR Minister of Defense, Marshal of the Soviet Union R. Ya. Malinovsky, the Air Defense Forces of the Ground Forces were created - a branch of the military that became an integral part of the Ground Forces.


2. War vehicles The Tor-M2U air defense system provides multi-channel fire at air targets, including high-tech weapons elements

In 1997, in order to improve the leadership of air defense troops, the air defense forces of the Ground Forces, formations, military units and air defense units of the Coastal Forces of the Navy, military units and air defense units of the Airborne Forces, as well as formations and military units of the air defense reserve of the Supreme Commander-in-Chief were united into military air defense forces Armed Forces of the Russian Federation.


3. ZRPK "Tunguska-M1" ensures the destruction of air and ground targets in the near zone

Air Defense Forces of the Ground Forces (Air Defense Forces) - a branch of the Ground Forces of the Russian Federation, designed to cover troops and objects from the actions of enemy air attack weapons when combined-arms formations and formations conduct operations (combat operations), perform regroupings (march) and are positioned on the spot . It is necessary to distinguish the Military Air Defense from the Air Defense Forces (aerospace defense brigades) of the Air Force and Air Defense Forces, which until 1998 were part of an independent branch of the Armed Forces - the country's Air Defense Forces (USSR Air Defense and Russian Air Defense).

The Air Defense Forces of the Ground Forces are entrusted with the following main tasks:

• carrying out combat duty in air defense;


• conducting reconnaissance of enemy air and alerting covered troops;


• destruction of enemy air attack weapons in flight;


• participation in the conduct of missile defense in theaters of military operations.

Alexey Leonkov

The Russian Federation is the only country in the world that has a full-scale, layered, integrated aerospace defense system. The technical basis of aerospace defense are complexes and systems of air defense and missile defense, designed to solve all types of problems: from tactical to operational-strategic. The technical parameters of aerospace defense complexes and systems make it possible to organize reliable cover for troops and critical facilities government controlled, industry, energy and transport.

2016 turned out to be a “fruitful” year for news about air defense systems that are entering service within the framework of the State Armament Program (GPV-2020). Many experts and military specialists call them the best among existing air defense systems. The Russian Aerospace Defense Concern Almaz-Antey, the lead developer and manufacturer of aerospace defense complexes and systems, does not stop there; it has begun developing fifth-generation anti-aircraft missile systems and is creating a scientific and technical foundation for the future.
In 2016, the Arsenal of the Fatherland magazine devoted a number of articles to the topic of air defense, starting with the history of its creation (see “Military Academy in the 100-year history of military air defense” in No. 1 (21) 2016), spoke about the basics of the combat use of military air defense (see “Military air defense: basics of combat use” in No. 4 (24) 2016) and military air defense systems of the armies of the world (see “Military air defense systems of the armies of the world” in No. 3 (23) 2016).
Such attention is paid to this type of defense for a reason. The fact is that, within the framework of the Military Doctrine adopted in 2008, air defense systems and complexes occupy one of the key places in the defense construction and modernization of the Russian army.
Interim results of building a modern layered air defense were discussed at the XXIV Military Scientific Conference of Military Air Defense, held in May 2016 in Smolensk. In the report of the head of the military air defense of the RF Armed Forces, Lieutenant General A. P. Leonov, “Development of the theory and practice of using military air defense of the Armed Forces of the Russian Federation in modern conditions“It was noted that the combat potential of military air defense has increased significantly with the supply of the latest highly effective anti-aircraft missile systems and complexes. These are, first of all, the S-300V4 air defense system, the Buk-M2/M3 air defense system and the Tor-M2/M2U air defense system. These systems differ from their predecessors in higher noise immunity and effectiveness in defeating various air attack weapons (AEA), multi-channel, increased rate of fire and increased ammunition capacity of anti-aircraft missiles.
Doctor of Military Sciences, Lieutenant General A. D. Gavrilov, in the article “Military Air Defense: Fundamentals of Combat Use” noted the following: “No matter how highly effective technical means the air defense system possesses, the achievement of the assigned tasks is achieved by the skillful combat use of formations, units and subunits in battle and operations. The entire 100-year history of the existence of military air defense testifies to the high level of professionalism of commanders and staffs, the awareness of personal responsibility of each anti-aircraft gunner for the assigned task of protecting the peaceful sky.”
The development and production of highly effective equipment in parallel with participation in the training of personnel of military air defense units is a distinctive feature practical work Russian defense association - Concern VKO "Almaz-Antey".

Results of the work of Almaz-Antey

In November 2016, Almaz-Antey summed up the results of the year. As part of the fulfillment of state defense orders (GOZ), the Ministry of Defense received five regiments of the S-400 Triumph air defense system, three divisions of the Buk-M2 medium-range air defense system, four divisions of the Tor-M2 short-range air defense system, a brigade set of the latest Buk-M2 air defense systems. M3", as well as a number of different radars. In addition, in the past year, Almaz-Antey specialists carried out the necessary service activities for the maintenance and repair of more than two thousand weapons, military and special equipment (VVST) previously transferred to the Armed Forces of the Russian Federation, and also supplied simulators for training combat crews of the complexes Air defense.
“Already, the annual targets for the supply of basic weapons have been completed by 70 percent, and for the purchase of missiles and ammunition - by more than 85 percent.
The troops received over 5.5 thousand units of weapons and military equipment, including more than 60 new and 130 modernized aircraft and helicopters, multi-purpose Submarine, more than 60 anti-aircraft missile systems and complexes, 55 radar stations, 310 new and 460 modernized tanks and armored vehicles,” Supreme Commander-in-Chief, President of Russia Vladimir Vladimirovich Putin noted in his speech at a meeting with the leadership of the Russian Ministry of Defense, federal departments and defense industry enterprises, which took place on November 15, 2016 in Sochi.
At the same meeting, the Concern’s contribution to ensuring the security of the Khmeimim airbase and the Tartus naval base was noted, after the deployment of the S-400 air defense system and the S-300V4 air defense system. According to the Russian Minister of Defense, Army General Sergei Kuzhugetovich Shoigu, these systems reliably protect our bases in Syria both from sea and from land. In addition, the Concern’s specialists restored the Syrian S-200 air defense systems.
The concern continued work on supplying the troops with the modernized and latest air defense systems of the S-300V4 air defense system, the Buk-M3 air defense system and the Tor-M2U air defense system. Without going into listing the technical characteristics of these complexes, we will briefly highlight their key features.

ZRS S-300V4
This air defense system represents a deep modernization of the S-300 complex, which has been produced by the enterprises of the Almaz-Antey Aerospace Defense Concern since 1978. The heavy 9M83VM missile of the modernized S-300V4 is capable of reaching a speed of Mach 7.5 and can hit air targets at a distance of up to 400 kilometers. The “small” missile has a range of up to 150 km. The destruction of all existing and future aerospace attack weapons is ensured, including tactical ballistic missiles (at a range of up to 200 km). In general, the combat effectiveness of the S-300V4 has increased by 2.3 times compared to previous generations of the S-300.
Another feature of the system is increased mobility. Elements of the S-300V4 are placed on a tracked chassis, which allows for maneuver and deployment in the operational formation of formations, marching and order of battle formations of the Ground Forces off roads, on rough terrain.
The anti-aircraft missile division is capable of simultaneously firing at up to 24 targets, aiming 48 missiles at them. The rate of fire of each launcher is 1.5 seconds. The entire complex is transferred from standby mode to combat mode in 40 seconds, and the deployment time from the march takes 5 minutes. The battalion's ammunition load is 96–192 anti-aircraft missiles.
According to data from open sources, one of the first S-300V4s was received by the recently formed 77th separate anti-aircraft missile brigade of the Southern Military District, based in the Krasnodar Territory. In the fall of 2016, the S-300V4 air defense system was relocated to Syria to the Khmeimim airbase to strengthen the air defense potential of the Russian Aerospace Forces group.

Buk-M3 air defense system
The Buk-M3 target detection station (STS) now tracks up to 36 targets at a distance of up to 70 kilometers across the entire altitude range. The new 9Р31М (9М317М) missile has more high speed and maneuverability characteristics. It is placed in a transport and launch container (TPC), which provides additional protection for the missile and improves the camouflage characteristics of the launcher. The number of missiles on one launcher has increased from 4 to 6. In addition, 9A316M transport-launchers can also hit targets; they carry 12 missiles in a TPK.
The Buk-M3 equipment is built on a new element base; digital communications ensure a stable exchange of voice and combat information, as well as integration into the air defense technical control system.
The Buk-M3 air defense system intercepts almost all modern air defense systems that fly at speeds of up to 3000 m/s, thereby exceeding the capabilities of the Patriot air defense system (USA) by almost two times. In addition, the “American” is inferior to the “Buk” in terms of the lower limit of target fire (60 meters versus 10 meters) and in the duration of the target detection cycle at distant approaches. The Buk-M3 can do this in 10 seconds, and the Patriot in 90 seconds, while requiring target designation from a reconnaissance satellite.

SAM Tor-M2U
Tor-M2U short-range air defense missiles effectively destroy targets flying at extremely low, low and medium altitudes at speeds of up to 700 m/s, including in conditions of a massive air attack and active counteraction to enemy electronic warfare.
The complex's SOC can detect and track up to 48 targets at a range of up to 32 kilometers. The complex's launcher can simultaneously fire at 4 targets at an azimuth of 3600, i.e., all around. A special feature of the Tor-M2U air defense system is the fact that combat work it can drive on the move at speeds up to 45 km/h. Modern Tora equipment automatically identifies the ten most dangerous targets, and the operator only has to give the command to defeat them. Moreover, our newest Tor-M2U detects aircraft created using stealth technology.
The Tor-M2U air defense system battery consists of six launchers that can exchange combat information with each other automatically. Thus, by receiving information from one launcher, the others can repel a massive air attack from any direction. Retargeting time takes no more than 5 seconds.

Reaction of Western “partners” to the development of Russian aerospace defense
The successes of Russian air defense, which operates the products of the Almaz-Antey Aerospace Defense Concern, have long worried the minds of military leaders of NATO countries. In the early 2000s, they did not believe that Russia would be able to create effective air defense systems and continued to purchase “reliable and time-tested” air attack weapons (AEA) from their countries’ defense industry enterprises. Development of new aviation complexes, such as the fifth-generation fighter F-35 and the promising bomber B-21, proceeded at a leisurely pace.
The first alarming signals for NATO sounded after 2010, when the revival of Russia’s military power began. Since 2012, military exercises began to occur much more frequently, and new military air defense systems were actively involved in these exercises. They regularly hit complex, high-speed and maneuvering targets with 100% results, at maximum ranges and without the use of additional target designation equipment. Thanks to the S-400 and S-300V4 air defense systems, the long-range line of destruction at the operational-tactical level has increased to 400 kilometers, which means that modern and promising air defense systems of NATO countries are guaranteed to fall into the firing zone of Russian air defense systems. NATO generals sounded the alarm. At the same time, purely defensive air defense systems in Western media characterized as “means of aggression.” True, there were also more pragmatic assessments.
In 2015, American military expert Tyler Rogoway discussed the topic of countering Russian air defense systems on his Foxtrot Alpha blog. In particular, he paid a lot of attention to working at a safe distance beyond the reach of weapons: “The capabilities of air defense detection devices (Russia - author’s note) are only getting better, just as the range of destruction of surface-to-air missiles is growing.” Therefore, it may be necessary to use long-range stealth missiles combined into one information network. Or long-range stealth aircraft and other techniques, including suppression (at a distance), to weaken and ultimately destroy the air defense system. As a result, working outside the range of enemy weapons, you can weaken his air defense. Then, for example, you can fly closer and use a fighter with medium-range stealth missiles, instead of launching long-range missiles. At the same time, regular (non-stealth) aircraft can attack with long-range missiles, thus freeing up space for the stealth aircraft to attack. And drones, decoys with electronic warfare equipment on board, can be used together with attacking combat units to delve deeper into enemy territory, disabling air defense systems along the way.”
In addition to the widespread use of “stealth technologies,” the Americans are relying on electronic warfare and electronic warfare systems. For example, the US Navy is working to develop a method to counter modern air defense systems with phased array radars, such as the S-400 or the Chinese FD-2000 air defense system. They are going to equip EA-18G Growler aircraft (a carrier-based electronic warfare aircraft based on the F/A-18 Super Hornet) with Next Generation Jammer (NGJ) electronic countermeasures systems. It is assumed that such electronic warfare systems will allow American strike aircraft to destroy enemy targets without the risk of being noticed by anti-aircraft missile systems, the American magazine The National Interest reported in October 2016. The development of a new version of NGJ is being carried out by Raytheon, which has already received a contract from the US Department of Defense for one billion dollars.
American experts believe that the electronic warfare system will be able to jam signals at any frequency in which the phased array operates, and that this will be enough to be able to freely attack Russian air defense systems. According to plans, the NGJ should enter service in 2021.
In the next 5–10 years, the military-industrial complex of NATO countries intends to develop means of overcoming and suppressing our air defense systems. However, the scientific and technical groundwork implemented in air defense systems by the enterprises of the Almaz-Antey Aerospace Defense Concern makes it possible to neutralize the efforts of Western specialists.

Prospects for the development of Russian air defense systems
Fourth generation air defense automated control system
Currently, automated control systems for troops (ACCS), air defense forces and means (ACS) are at the fourth technological stage development. In conditions of the rapidity of enemy air defense attacks, modern air defense cannot be effective without automated systems for controlling forces and means.
This stage of rearmament is taking place in the context of organizational and staffing changes in the structure of the command and control system of the Russian Armed Forces. Requirements for efficiency, continuity, stability and secrecy of command and control of troops are being tightened, new combat and information means for air defense, air defense, radio and electronic warfare with higher capabilities are being developed and put into service.
Enterprises of the Almaz-Antey Aerospace Defense Concern are already supplying the armed forces with systems and complexes that are integrated with automated control systems and ESU TK, information from which is sent to the National Defense Control Center (NDCUO RF).
Currently, the means and complexes that ensure information interaction are undergoing field testing from the level of the anti-aircraft missile division to the district air defense automated control system. Numerous military and command post exercises make it possible to identify “ weak spots» information exchange, which are transformed into specific technical assignments to eliminate them and are sent to the Concern’s enterprises. This allows you to quickly and efficiently make changes to manufactured kits and carry out work to modernize existing air defense systems.
Fifth generation air defense system
In addition to improving information interaction systems, fifth-generation air defense systems will begin to enter service with the anti-aircraft missile forces in the near future. It's about, first of all, about the continuation of the line of medium-range air defense systems "Buk", developed by NIIP named after. Tikhomirov (part of the Almaz-Antey East Kazakhstan Concern).
This is how they are characterized by a military expert, member of the expert council of the Russian military-industrial complex, editor-in-chief of our magazine Viktor Ivanovich Murakhovsky: “If we talk about the principles on which the next generation systems will be developed, then, in my opinion, they will combine the properties of fire systems , primarily the ability to fire targets, and means of electronic destruction. Those functions that we currently have divided between air defense and electronic warfare systems will be integrated into one system.
And secondly, the fifth generation air defense system will feature almost complete automation and robotization of all reconnaissance, control and fire cycles. In fact, a person will only make a decision whether to open the fire cycle or not.”
The Almaz-Antey Aerospace Defense Concern has already reported that the fifth-generation medium-range air defense system will have the ability to be deeply integrated into a single layered air defense system.

Interaction with the Russian Aerospace Forces
The layered air defense system of Russia, in addition to electronic warfare and electronic warfare systems, will actively interact with the air strike and reconnaissance complexes of the Russian Aerospace Forces. We are talking about the interaction of the air defense automated control system and the Postscriptum automated control system.
ACS "Postscript" is a unique information system that transmits all information about the air and ground enemy to the fighter aircraft. Information about all objects and targets located in the area of ​​the aircraft’s combat zone is received in real time. At the same time, the aircraft will receive information not only from long-range radar detection aircraft (AWACS), but also from ground-based air defense radar stations, as well as from ground-based RTR complexes of the ground forces.

Brief conclusions
The results of the work of the Almaz-Antey Concern in 2016 are generally assessed as successful. The plans for the supply of equipment and the requirements of the Ministry of Defense of the Russian Federation are being met, which does not exclude “working on mistakes” that are inevitably revealed during intensive testing and military operation of air defense systems, including in combat conditions. Next year, taking into account the prospects for the development of air defense systems of NATO countries, the intense tasks of implementing the state defense order and creating a scientific and technical reserve, the management and team of the Concern will have to go through a difficult path. There is no doubt that the assigned tasks will be completed successfully, which is guaranteed by the glorious traditions of the Almaz-Antey East Kazakhstan Concern.

DEFENSE FORCES ARMY

07.01.2016

Since 2015, the Air Defense Forces of the Ground Forces began using a new type of target missile in exercises that simulates high-speed targets. This was announced by the head of the Air Defense Forces of the Ground Forces, Lieutenant General Alexander Leonov.
“To create a complex target environment during tactical live-fire exercises, the new Pincene target missile was used for the first time, simulating high-speed targets with the characteristics of modern air attack weapons,” explained Alexander Leonov.
The main advantage of this target missile, according to him, is the ability to “carry out full cycle fire control using automation tools.”
In addition, to objectively assess the combat performance of crews and the results of live firing, the Conglomerat-1P mobile control system was used. It provides digital video recording and processing of the flight trajectory of anti-aircraft guided missiles and artillery shells of short-range and short-range anti-aircraft systems.
In 2015, 65 tactical live-fire exercises of the Air Defense Forces of the Ground Forces were planned and conducted. They were carried out at the Kapustin Yar and Ashuluk training grounds in the Southern Military District and the Telemba training ground in the Eastern Military District.
In total, more than 10 thousand military personnel, including 1.5 thousand officers, took part in the training events; up to 3.5 thousand units of weapons, military and special equipment were involved.
Directorate of Press Service and Information of the Ministry of Defense of the Russian Federation

25.12.2016


The military air defense (air defense) of the Russian Armed Forces conducted 120 exercises, during which 1043 target missiles were hit, the head of the air defense troops of the Russian Ground Forces, Lieutenant General Alexander Leonov, said on the Ekho Moskvy radio station.
The Air Defense Forces of the Ground Forces (SV) of the Russian Armed Forces celebrate the anniversary of their formation on Saturday. The formation of military air defense units began with the order of the Chief of Staff of the Supreme Commander-in-Chief of the Russian Army dated December 13 (26), 1915 on the formation of separate four-gun light batteries for firing at the air fleet. According to the order of the Minister of Defense of the Russian Federation dated February 9, 2007, the date of creation of military air defense is considered to be December 26.
“In total, 129 exercises were conducted in 2016,” Leonov said. He noted that during these exercises, 1,043 target missiles were destroyed.
RIA News

25.12.2016


Russia has begun the development of a new man-portable anti-aircraft missile system (MANPADS). Interfax reports this with reference to the head of the air defense of the Ground Forces of the Russian Armed Forces, Lieutenant General Alexander Leonov.
“The development of a new MANPADS is underway,” Leonov said on the Ekho Moskvy radio station, adding that domestic MANPADS are now significantly superior to any foreign analogues.
Man-portable anti-aircraft missile system (MANPADS) is an anti-aircraft missile system designed to be transported and fired by one person. In Russia, the Igla and Verba MANPADS are in service. The Strela and Igla missile systems developed in the USSR were exported to dozens of countries around the world and are still actively used in armed conflicts.
https://lenta.ru

25.12.2016


Buk-M2 anti-aircraft missile systems will no longer be supplied to the Russian Ground Forces; re-equipment with Buk-M3 systems is underway.
This was announced by the head of the military air defense of the Russian Ground Forces, Lieutenant General Alexander Leonov.
“There will be no more deliveries of Buk-M2 (to the Ground Forces). At the beginning of next year, retraining for the Buk-M3 complexes will begin,” he said on the Ekho Moskvy radio station.
TASS

Anti-aircraft missile system 9K317M "BUK-M3"


26.12.2016


Three new anti-aircraft missile brigades have been formed in two military districts, the head of the military air defense (air defense) of the Russian Armed Forces, Lieutenant General Alexander Leonov, said on Saturday on the Ekho Moskvy radio station.
“The formation of our new connections continues. To date, three anti-aircraft missile brigades have been formed: one long-range anti-aircraft missile brigade in the Southern (military) district and two medium-range anti-aircraft missile brigades in the Southern and Eastern military districts,” Leonov said.
He noted that, in addition, military air defense units and formations are being re-equipped with new equipment.
“We are re-equipping the existing one air defense missile system and regiment. Seven anti-aircraft missile divisions have been re-equipped with the new short-range Tor-M2 complex, and a planned re-equipment of the short-range system is underway - anti-aircraft missile system“Strela-10MN”, “Verba” MANPADS,” Leonov said.
RIA News

12.01.2017


According to the head of the air defense troops of the Armed Forces of the Russian Federation, Lieutenant General Alexander Leonov, the main efforts of combat training of military air defense in the past academic year were focused on organizing and conducting planned training of formations, military units and subunits in accordance with their intended purpose.
In total, 129 tactical live-fire exercises were conducted in 2016. Of these, 98 are with anti-aircraft missile (anti-aircraft) units and units of military districts and the Northern Fleet and 31 are with units Airborne troops.
At the same time, more than 50% of formations, military units and subunits were rated “good” and “excellent” based on the results of tactical exercises. The total consumption of missiles was more than 1000, ammunition - more than 40 thousand, target missiles - more than 1000.
Over 15 thousand military personnel were involved in the exercises, more than 3.5 thousand units of weapons, military and special equipment were involved.
During the exercise, several innovative approaches were tested for the first time.
Firstly, it is the use of unmanned aerial vehicles to create a complex air situation that meets modern realities, as well as to monitor the actions of inspected formations, military units and subunits. For the first time, the Conglomerat-1P complex, which has no analogues in the world, was used to objectively assess the results of firing.
Secondly, during tactical live-fire exercises, they were widely used modern means automated control "Barnaul-T", which made it possible to significantly reduce the time for assessing the situation and making decisions.

13.01.2017


By the end of 2020, formations, units and air defense units of the Ground Forces will be re-equipped with anti-aircraft missile systems (SAM) S-300V4 (long-range), Buk-M3 (medium-range) and Tor-M2 (short-range), anti-aircraft artillery systems and man-portable anti-aircraft missile systems (MANPADS) of a new generation (short-range).
This was announced by the head of the air defense troops of the Armed Forces of the Russian Federation, Lieutenant General Alexander Leonov.
In accordance with the decree of the President of the Russian Federation, the share of modern models of military air defense equipment included in the list of priorities and determining the appearance of promising weapons systems will be more than 70%.
Building up combat personnel and complete re-equipment will lead to an increase in the combat capabilities of the air defense forces of the ground forces almost twice (1.8 times), which will significantly increase the effectiveness of air defense.
As a result, a reliable air defense system will be created in all strategic directions to cover not only troop groups, but also important government facilities in the areas of responsibility.
Department of Information and mass communications Ministry of Defense of the Russian Federation

14.05.2017


Military air defense (air defense) specialists of the Ground Forces are being retrained for new types of weapons, this was stated by the head of the combat training department of the Ground Forces, Colonel Roman Benyukov.
“During the winter training period, specialists were trained for seven types of basic equipment. Today, the number of trained military personnel corresponds to the amount of new equipment received, which ensures its high-quality operation,” emphasized Colonel Roman Benyukov.
He also said that the main efforts of the military air defense of the Army were aimed at training junior specialists and retraining formations, military units and units on the latest types of weapons and military equipment (anti-aircraft missile systems and complexes S-300V4, Buk-M2, Buk- M3", "Tor-M2U", "Tor-M2", man-portable anti-aircraft missile systems "Verba"), and for the missile forces and artillery, about 1.5 thousand people were trained in four training centers during the winter training period.
The created combat training system includes three areas: training of conscripted and contract military personnel and university students, added the head of the combat training department of the Army.

06.01.2018


In the interests of the Ground Forces, a universal mechanized training complex has been developed and is completing tests, intended for training military air defense units and testing promising air defense systems.
The complex created software and remotely controlled reusable targets that simulate a cruise missile, tactical UAV, jet aircraft and hovering attack helicopter.
The complex also allows you to create a dynamically changing air situation, such as a “star” raid, for practicing electronic and combat launches by air defense missile crews.


Department of Information and Mass Communications of the Ministry of Defense of the Russian Federation

09.01.2018


Based on the results of combat training in 2017, more than ten military air defense units of the Ground Forces were awarded the honorary title “Shock”.
About 90 tactical exercises were conducted with military air defense units of the Ground Forces in 2017, in which more than 14.5 thousand military personnel and more than 3.5 thousand weapons and special equipment took part.
The military air defense training centers of the Ground Forces have trained about 2 thousand junior specialists, of whom more than 250 are serving military personnel military service by contract.
In addition, in 2018 it is planned to equip modern weapons and equipment, including: two military air defense formations - the Tor-M2 short-range anti-aircraft missile system; air defense units operating in the Arctic and Far North - the Tor-M2DT short-range anti-aircraft missile system; air defense units of combined arms formations - the Verba portable anti-aircraft missile system.
The systematic and annual increase in the combat strength of troops, the implementation of complete rearmament with modern anti-aircraft missile systems will make it possible by 2020 to increase combat capabilities air defense troops.
Department of Information and Mass Communications of the Ministry of Defense of the Russian Federation

09.03.2018


The air defense systems and complexes of the Ground Forces of the Russian Armed Forces are capable of fighting all existing means of air attack; they have no analogues in the world, which is confirmed by their high competitiveness in the arms market, said Colonel-General Oleg Salyukov, Commander-in-Chief of the Ground Forces.
“The modern weapons of the Air Defense Forces of the Ground Forces are in many ways superior to their predecessors and have no analogues in the world, which is confirmed by their high competitiveness in the arms market. According to their characteristics, the anti-aircraft missile systems and complexes in service with the branch of the armed forces are capable of combating all existing means of air attack,” Salyukov said in an interview with the newspaper of the Russian Armed Forces “Red Star”, published on the publication’s website on Wednesday.
He noted that now the air defense forces of the Ground Forces have received a new impetus for development. “New anti-aircraft missile formations have been formed, armed with the S-300V4 anti-aircraft missile system (the most long-range in its class of weapons, capable of hitting ballistic targets in the extra-atmospheric zone) and the Buk-M2 complex. Re-equipment is being carried out with the Buk-MZ and Tor-M2 anti-aircraft missile systems and the Verba man-portable anti-aircraft missile system. Currently, the Armed Forces maintain two brigades of the Buk-M3 air defense system, two regiments and seven divisions of the Tor-M2 (M2U) air defense system and eight units of the Verba MANPADS,” the commander-in-chief said.
According to him, the prospect further development type of troops is to equip them with the latest highly effective anti-aircraft missiles and artillery systems, in implementing the latest developments that will significantly increase the effectiveness of anti-aircraft weapons in the fight against modern air enemies, in increasing the level of combat training of troops, in improving the system for training highly qualified air defense specialists.
RIA News

06.01.2019


In 2019, military air defense units of the Ground Forces will receive five anti-aircraft missile systems and anti-aircraft missile systems. As part of the execution of the state defense order, manufacturing enterprises will transfer to the Russian Ministry of Defense a brigade set of S-300V4 air defense systems, divisional sets of BUK-M3 and TOR-M2 air defense systems.
The systematic and annual increase in the combat strength of the troops, the implementation of complete rearmament with modern anti-aircraft missile systems will make it possible by 2020 to increase the combat capabilities of the air defense forces by more than 1.3 times.
Russian Ministry of Defense

THE GROUND FORCES WILL RECEIVE S-300V4 AND BUK-M3 ANTI-AIRCY COMPLEXES IN 2019

AIR DEFENSE FORCES OF THE GROUND FORCES

Air Defense Forces (Air Defense Forces) are a branch of the Ground Forces, designed to cover troops and objects from the actions of enemy air attacks when combined arms formations and formations conduct operations (combat operations), perform regroupings (march) and are stationed on the spot. They are responsible for the following main tasks:
carrying out combat duty in air defense;
conducting reconnaissance of enemy air and alerting covered troops;
destruction of enemy air attack weapons in flight;
participation in the conduct of missile defense in theaters of military operations.
Organizationally, the Air Defense Forces of the Army consist of military command and control bodies, air defense command posts, anti-aircraft missile (missile and artillery) and radio technical formations, military units and subunits. They are capable of destroying enemy air attack weapons in the entire range of altitudes (extremely low - up to 200 m, low - from 200 to 1000 m, medium - from 1000 to 4000 m, high - from 4000 to 12000 m and in the stratosphere - more than 12000 m) and flight speeds.

Formations, military units and air defense units of the Air Force are equipped with anti-aircraft missiles, anti-aircraft artillery, anti-aircraft missiles, different in reach, channel and methods of missile guidance. gun-missile systems(systems) and man-portable anti-aircraft missile systems. Depending on the range of destruction of air targets, they are divided into short-range systems - up to 10 km, short-range - up to 30 km, medium-range - up to 100 km and long-range - more than 100 km.

Further development of the air defense forces of the ground forces is carried out by increasing mobility, survivability, secrecy of operation, degree of automation, fire performance, expanding the parameters of the affected area, reducing reaction time and weight-dimensional characteristics of anti-aircraft missile (missile and artillery) systems.

THE RUSSIAN ARMED FORCES CELEBRATE THE 100TH ANNIVERSARY OF MILITARY AIR DEFENSE

On December 26, 2015, the Armed Forces of the Russian Federation celebrate the 100th anniversary of the formation of military air defense (air defense). Exactly a century ago, in accordance with the order of the Chief of Staff of the Supreme Commander-in-Chief dated December 13 (26), 1915 No. 368, the formation of separate four-gun light batteries for firing at air targets began.
On the official website of the Russian Ministry of Defense, on the occasion of the 100th anniversary of the Air Defense Forces of the Ground Forces, a special information section “100 years of military air defense” was opened.
The section opens with congratulations to the personnel on the anniversary of the Minister of Defense of the Russian Federation, Army General Sergei Shoigu.
The section is based on numerous historical documents and memories of military veterans about the stages of formation and development of the oldest special branch of the armed forces in the Armed Forces.
Currently, the basis of military air defense consists of formations, military units and air defense units of the Ground Forces, Airborne Forces and Coastal Forces Navy. They are designed to conduct reconnaissance and repel enemy air attacks, protect troop groups and facilities from air strikes in all types of combat operations.
In the context of the rapid development of aerospace attack means of the armies of foreign states, formations, military units and air defense units have become an integral part of combined arms formations from the tactical to the operational-strategic level.
In 2015, 65 tactical exercises with military air defense formations and units with live fire were planned and conducted. They were carried out at the Kapustin Yar and Ashuluk training grounds on the territory of the Southern Military District and the Telemba training ground on the territory of the Eastern Military District.
In total, more than 10 thousand people were involved in the maneuvers, including 1.5 thousand officers and up to 3.5 thousand weapons, military and special equipment.
Currently, the planned re-equipment of formations, military units and military air defense units with new anti-aircraft missile systems and complexes “S-300V4”, “Buk-M2”, “Tor-M2U”, man-portable anti-aircraft missile systems “Verba” is underway. New complexes and systems have absorbed the best qualities of their predecessors and are capable of hitting both aerodynamic and ballistic targets, cruise missiles, aerial reconnaissance and electronic warfare systems.
In 2016, the first brigade set of the Buk-M3 medium-range anti-aircraft missile system is planned to be delivered to the Ground Forces.
For the period until 2020, the main directions for the development of military air defense are:
improving the organizational and staffing structures of military command and control bodies, formations, military units and air defense units of the Ground Forces in order to maximize the use of the combat capabilities of the incoming and developed anti-aircraft missile weapons;
development of new generation air defense weapons and military equipment capable of effectively combating all types of air attack weapons, including those created on the basis of hypersonic technologies.
improving the system for training highly qualified personnel for military air defense, including junior specialists studying in specialized training centers of the Air Defense Forces of the Ground Forces.
The most important task for the High Command of the Ground Forces is to train the main core of personnel for the Air Defense Forces - specialist officers.
Training of personnel for military air defense is carried out at the Military Academy of Military Air Defense of the RF Armed Forces named after Marshal of the Soviet Union A. M. Vasilevsky. Today, the Military Academy of Military Air Defense of the Armed Forces of the Russian Federation is a single educational and scientific center that provides multi-level training of air defense officers with the highest operational-tactical training and full military special training for the air defense forces of the Ground Forces, the Airborne Forces, the coastal forces of the fleets, as well as other ministries and departments of the Russian Federation, as well as conducting scientific research, training scientific and scientific-pedagogical personnel. The Academy has 17 departments, five faculties and a research center. The training of military specialists at the academy is carried out in 38 specialties.
In addition, the training of officers for military air defense is carried out at five military departments and in two military training centers at civilian universities.
Training of junior specialists is carried out in two training centers for air defense troops of the Ground Forces and two training centers for training air defense specialists from the training center according to 4-month training programs (including 1 month of combined arms training and 3 months of specialty training).
More than 4.5 thousand specialists are trained annually in 25 military accounting specialties.
Since 2014, for the Air Defense Forces of the Ground Forces, the training of reserve soldiers and sergeants has been carried out at military departments and military training centers in 5 higher educational institutions vocational education in 20 military registration specialties. Currently, over 1,300 people are undergoing training; from August 2016, the number of trainees will increase to 2,000 thousand.
As part of the International Army Games 2015, Russian air defense specialists took part in the “Masters of Anti-Aircraft Combat” competition, showed good results and took first place.
The “Masters of Anti-Aircraft Combat” competition was held in Yeisk, Krasnodar Territory, on the basis of the 726th training center of the Air Defense Forces of the Ground Forces. 6 teams from Europe, Asia, Africa and Latin America took part in the competition, these are the Republic of Belarus, the Bolivarian Republic of Venezuela, the Arab Republic of Egypt, the People's Republic of China, the Islamic Republic of Pakistan and the team of the Russian Federation.
Currently, the methods developed during the training of the team for the training of air defense troops specialists are actively being implemented and used in organizing and carrying out combat training activities.
In 2016, the name of the competition itself and its program changed. The competition will now be called “ Clear sky- 2016.” This is due to changes in team composition and weapons. In addition to a unit armed with man-portable anti-aircraft missile systems, a unit armed with anti-aircraft guns with a caliber of up to 25 mm will also take part. Also, the number of competitive disciplines has been increased. Teams will compete in the sprint (with shooting from MANPADS and ZU), the pursuit (with shooting from MANPADS and ZU) and the combined relay.
All changes to the program were made taking into account the wishes of foreign colleagues - participants in the last competition.

As part of the celebration of the 100th anniversary of military air defense in all military districts, at the Military Academy, training centers of air defense forces, festive and military-patriotic events were and are being held in December with the participation of military personnel, veterans of military air defense, public figures and youth.
Significant events for the Air Defense Forces of the Ground Forces, held as part of the celebration of the 100th anniversary of military air defense, are:
laying flowers at the Tomb of the Unknown Soldier (December 26, Moscow);
a ceremonial meeting at the cultural and leisure center of the Ministry of Defense of the Russian Federation “Preobrazhensky”, with the participation of the senior staff of the Ministry of Defense of the Russian Federation (December 26, Moscow);
opening of the bust of the first chief of the air defense troops of the Ground Forces, Hero of the Soviet Union, Marshal of Artillery V.I. Kazakov (December 19, 726 The educational center Air Defense Forces of the Ground Forces (Yeysk, Krasnodar region);
laying a capsule with a message to descendants at the memorial complex named after Hero of the Soviet Union, Marshal of Artillery V.I. Kazakov (December 25, 106th Air Defense Training Center of the Ground Forces (Orenburg).