Russian air defense: prospects and challenges. Day of the Air Defense Forces of the Ground Forces Reaction of Western “partners” to the development of the Russian Aerospace Defense

Today marks the centenary of the formation of the troops air defense ground forces.

The beginning of the formation of units military air defense 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 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

August 16, 1958 by order (No. 0069) of the USSR Minister of Defense Marshal Soviet Union R. Ya. Malinovsky created the Air Defense Forces of the Ground Forces - 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 management missile defense in theaters of war.

4. PU 9A83 SAM S-300V


5. BM SAM "Tor-M2U"


6. Self-propelled gun of the air defense missile system "Buk-M1-2"


7. ZRPK "Tunguska-M1" fires from anti-aircraft guns


8. BM SAM "Osa-AKM"


9. BM SAM "Strela-10M3"


10. ROM of the Buk-M2 air defense system


12. SOU and ROM of the Buk-M2 air defense system


13. ZSU-23-4 "Shilka"


14. BM SAM "Strela-10"


15. BM SAM "Strela-1"


16. PU SAM "Cube"


17. Launcher of the air defense missile system "Circle"


18. ZSU-23-4 "Shilka"


18. Launcher of the air defense missile system "Kub-M3"


19. BM SAM "Tor-M2U"


20. Self-propelled gun of the Buk-M2 air defense system On December 26, the Air Defense Forces of the Ground Forces celebrate the anniversary of their formation. The beginning of the formation of military air defense units was the order of the 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 the order of the Minister of Defense of the Russian Federation dated February 9, 2007 No. 50, the date of creation of military air defense is considered to be December 26.

Military air defense formations are designed to cover troop groups and military logistics facilities, important state infrastructure facilities located in the area of ​​responsibility of the combined arms commander. 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 integral part combined arms formations from the tactical to the operational-strategic level.

In the modern Armed Forces there are more than 90 formations, military units and air defense units. As the practical actions of the troops at the training grounds have shown, the level of training of soldiers and officers has increased significantly, especially in practical terms.

The basis of the military air defense weapon system is anti-aircraft missile systems and complexes (ZRS and SAM) "S-300V3", "Buk-M2", "Tor-M1", "Osa-AKM", "Tunguska-M1", MANPADS "Igla" . The main means of automated control are the Polyana-D4M1 automation equipment complex (CAS), designed to equip command posts of military districts, armies, anti-aircraft missile brigades in mobile and stationary versions, as well as a single CSA "Barnaul-T" - to equip units Air defense of individual motorized rifle (tank) brigades.

Reconnaissance means include mobile radar stations (radars) of the standby mode “Sky-SV”, “Sky-SVU” and combat mode “Ginger”, “Obzor”, “Dome”, as well as portable radars “Garmon”. Currently, research and development work is being carried out to create a new generation of air defense weapons. The basic areas of the technological basis of such work are microelectronics, computer science and robotics.

The modernization of the S-300V air defense system made it possible to increase the range of destruction of aerodynamic air targets to 400 km, the areas covered from attacks by operational-tactical and tactical missiles (OTR and TR) by 3-4 times, and the defeat of OTR and ballistic missiles medium range with a launch range of up to 3500 km.

The Air Defense Forces of the Air Force will soon receive a modified Buk-M2 complex, which, while maintaining the same number of combat weapons, will increase the number of simultaneously fired air targets for a division from 6 to 24, the area of ​​​​covered objects and troops - by 2.5 times, the possibility of hitting TR with launch range up to 150-200 km. Work is nearing completion on the creation of a new medium-range air defense system, which will be many times greater than its predecessor in terms of destruction range, number of simultaneously hit targets and destruction speed.

In 2011, the Air Defense Forces received a new modification of the Tor-M2U air defense system, which today is the only one in the world in terms of simultaneous firing of four air targets by one combat vehicle. Compared to the previous modification, it has 1.5 times increased parameters of the affected area in height, speed and heading parameter.

In the interests of developing the command and control system, work is underway to create new unified command and control systems at various levels of command and control of troops and weapons. At the tactical level, the brigade is being planned to equip it with sets of control equipment from the Barnaul-T KSA, which in terms of its main characteristics corresponds to, and in terms of maneuverability, security, interchangeability of control equipment, and the time it takes to set a mission, it exceeds its foreign counterparts. The time it takes for commands (information) to pass from the air defense chief of a brigade to an air defense missile system (SAM) combat vehicle is no more than 1 second.

Air defense is a set of steps and actions of troops to combat enemy air attack weapons in order to avert (reduce) losses among the population, damage to objects and military groups from air strikes. To repel (disrupt) enemy air attacks (strikes), air defense systems are formed.

The full air defense complex covers the following systems:

• Reconnaissance of the air enemy, warning troops about him;
• Fighter aircraft screening;
• Anti-aircraft missile and artillery barrier;
• Electronic warfare organizations;
• Masking;
• Managerial, etc.

Air defense happens:

• Zonal - to protect individual areas within which cover objects are located;
• Zonal-objective - for combining zonal air defense with direct screening of particularly important objects;
• Object - for the defense of individual particularly important objects.

The world experience of wars has turned air defense into one of the most important components in combined arms combat. In August 1958, the air defense forces of the ground forces were formed, and later the military air defense of the Russian Armed Forces was organized from them.

Until the end of the fifties, the SV air defenses were equipped with anti-aircraft artillery systems of that time, as well as specially designed transportable anti-aircraft missile systems. Along with this, in order to reliably cover troops in mobile combat operations, the presence of highly mobile and highly effective air defense systems was required, due to the increasing use of air attack capabilities.

Along with the fight against tactical aviation, the air defense forces of the ground forces also hit combat helicopters, unmanned and remotely piloted aircrafts, cruise missiles, as well as enemy strategic aviation.

In the mid-seventies, the organization of the first generation of anti-aircraft missile weapons of the air defense forces ended. The troops received the latest missiles Air defense and the famous ones: “Circles”, “Cubes”, “Osa-AK”, “Strela-1 and 2”, “Shilka”, new radars and many other new equipment at that time. Formed anti-aircraft missile systems Almost all aerodynamic targets were easily hit, so they took part in local wars and armed conflicts.

By that time, the latest means of air attack were already rapidly developing and improving. These were tactical, operational-tactical, strategic ballistic missiles and precision weapons. Unfortunately, the weapon systems of the first generation of air defense troops did not provide solutions to the tasks of covering military groups from attacks with these weapons.

There is a need to develop and use systems approaches to the argumentation of the classification and properties of weapons of the second generation. It was necessary to create weapons systems balanced by classifications and types of targets and a list of air defense systems, combined into a single control system, equipped with radar reconnaissance, communications and technical equipment. And such weapons systems were created. In the eighties, the air defense forces were fully equipped with S-Z00V, Tors, Buks-M1, Strela-10M2, Tunguskas, Iglas and the latest radars.

Changes have occurred in anti-aircraft missile and anti-aircraft missile and artillery units, units and formations. They became integral components in combined arms formations from battalions to front-line formations and became a unified air defense system in military districts. This increased the effectiveness of combat applications in groupings of air defense forces of military districts and ensured the power of fire echeloned at heights and ranges against the enemy with a high density of fire from anti-aircraft guns.

At the end of the nineties, to improve command, changes took place in the air defense forces of the Air Force, formations, military units and air defense units of the Navy Coast Guard, military units and air defense units of the Airborne Forces, and in formations and military units of the air defense reserve of the Supreme Commander-in-Chief. They were united into the military air defense of the Russian Armed Forces.

Military air defense missions

Military air defense formations and units carry out the tasks assigned to them to interact with the forces and means of the Armed Forces and Navy.

Military air defense is assigned the following tasks:

In peacetime:

• Measures to maintain air defense forces in military districts, formations, units and air defense units of the Coast Guard of the Navy, air defense units and units of the Airborne Forces in combat readiness for advanced deployments and repulses, together with air defense forces and means of the types of the Russian Armed Forces, attacks by means of air attacks;
• Carrying out non-duty duties within the operational zone of military districts and in common systems State air defense;
• The sequence of increasing combat strength in air defense formations and units that perform missions on combat duty when the highest levels of readiness have been introduced.

In wartime:

• Measures for comprehensive, echeloned in depth cover from attacks by enemy air attacks on troop groups, military districts (fronts) and military installations throughout the depth of their operational formations, while interacting with air defense forces and means and other types and branches of the Armed Forces;
• Direct cover activities, which include combined arms formations and formations, as well as formations, units and units of the Coast Guard of the Navy, formations and units of the Airborne Forces, missile forces and artillery in the form of groupings, aviation airfields, command posts, the most important rear facilities in areas of concentration, during advances, occupation of these zones and during operations (actions).

Directions for improving and developing military air defense

The Air Defense Forces of the Ground Forces today are the main and largest component of the military air defense of the Russian Armed Forces. They are united by a harmonious hierarchical structure with the inclusion of front-line, army (corps) complexes of air defense troops, as well as air defense units, motorized rifle (tank) divisions, motorized rifle brigades, air defense units of motorized rifle and tank regiments, and battalions.

Air defense troops in military districts have formations, units and air defense units that have at their disposal anti-aircraft missile systems/complexes of different purposes and potentials.

They are connected by reconnaissance and information complexes and control complexes. This makes it possible, in certain circumstances, to form effective multifunctional air defense systems. Until now, the weapons of Russian military air defense are among the best on the planet.

The most important areas in the improvement and development of military air defense include:

• Optimization of organizational structures in command and control bodies, formations and air defense units, in accordance with the assigned tasks;
• Modernization of anti-aircraft missile systems and complexes, reconnaissance assets in order to extend the service life and their integration into a unified aerospace defense system in the state and in the armed forces, endowing them with the functions of non-strategic anti-missile weapons in theaters of military operations;
• Development and maintenance of a unified technical policy to reduce the types of weapons, military equipment, their unification and avoidance of duplication in development;
• Providing promising air defense weapons systems with the latest means of automated control, communications, active, passive and other non-traditional types of intelligence activities, multifunctional anti-aircraft missile systems and new generation air defense systems using the criteria of “efficiency - cost - feasibility”;
• Maintaining a complex of collective used training of military air defense with other troops, taking into account the upcoming combat missions and the characteristics of deployment areas, with the concentration of the main efforts in the preparation of high-readiness air defense formations, units and subunits;
• Formation, provision and training of reserves for a flexible response to changing circumstances, strengthening air defense force groups, replenishing losses personnel, weapons and military equipment;
• Improving the training of officers in the structure of the military training system, increasing the level of their fundamental (basic) knowledge and practical training and consistency in the transition to continuous military education.

It is planned that the aerospace defense system will soon occupy one of the leading areas in the strategic defense of the state and in the Armed Forces, and will become one of the components, and in the future it will become almost the main deterrent in starting wars.

Air defense systems are one of the fundamental ones in the aerospace defense system. Today, military air defense units are able to effectively resolve missions of anti-aircraft and, to some extent, non-strategic missile defense measures in groupings of troops in operational-strategic directions. As practice shows, on tactical exercises With the use of live fire, all available Russian military air defense systems are capable of hitting cruise missiles.

Air defense in the aerospace defense system of a state and in its Armed Forces tends to grow in proportion to the increase in the threat of air attacks. When resolving aerospace defense tasks, a coordinated general use of multi-service air defense forces and missile and space defense forces in operational-strategic areas will be required as the most effective than individual use. This will happen due to the possibility, with a single plan and under unity of command, to combine strength with the advantages of different types of weapons and mutual compensation for their shortcomings and weaknesses.

Improving air defense systems is impossible without further modernization of existing weapons, rearmament of air defense troops in military districts with the most modern air defense systems and air defense systems, and the supply of the latest automated control and communication systems.

The main direction in the development of Russian air defense systems today is:

• Continue development work to create highly effective weapons that will have quality indicators that cannot be surpassed foreign analogues for 10-15 years;
• Create a promising multifunctional military air defense weapons system. This will give impetus to create a flexible organizational structure for the execution of specific tasks. Such a system needs to be integrated with the main weapons of the ground forces, and act in an integrated manner with other types of troops in the course of solving air defense problems;
• Implement automated control systems with robotics and artificial intelligence to reflect further increases in enemy capabilities and increase the effectiveness of used air defense forces;
• Provide samples of air defense weapons with electro-optical devices, television systems, thermal imagers to ensure the combat effectiveness of air defense systems and air defense systems in conditions of intense interference, which will minimize the dependence of air defense systems on the weather;
• Widely use passive location and electronic warfare equipment;
• Reorient the concept of the future development of weapons and military equipment for air defense, carry out a radical modernization of existing weapons and military equipment in order to provide a significant increase in the effectiveness of combat use at low cost.

Air Defense Day

Air Defense Day is a memorable day in the Russian Armed Forces. It is celebrated every year, every second Sunday in April, in accordance with the Decree Russian President dated May 31, 2006.

For the first time this holiday was determined by the Presidium Supreme Council USSR in the Decree of February 20, 1975. It was established for the outstanding services shown by the air defense forces of the Soviet state during the Second World War, as well as for the fact that they carried out particularly important tasks in times of peace. It was originally celebrated on April 11, but in October 1980 Air Defense Day was moved to be celebrated every second Sunday in April.

The history of establishing the date of the holiday is connected with the fact that, in fact, in the April days, the most important government resolutions on the organization of air defense of the state were adopted, which became the basis for the construction of air defense systems, determined the organizational structure of the troops included in it, their formation and further development.

In conclusion, it is worth noting that as the threat of air attacks increases, the role and importance of military air defense will only increase, which has already been confirmed by time.

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Air and Missile Defense Troops

Air defense

The Air Defense Forces of the Russian Federation were, until 1998, an independent branch of the Armed Forces of the Russian Federation (RF Armed Forces). In 1998, the country's air defense forces were merged with Air Force in the new form of the RF 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, which organizationally included a new branch of the military - the Air Defense and Missile Defense Troops (Air Defense Forces).

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, the new complex had a record a short time deployment - 5 minutes, making it difficult to vulnerable to 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. A serious imperfection became apparent legal basis for the actions of the duty forces of the country's Air Defense Forces 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 Staff of the Air Force were formed, and the Air Defense and Air Force Forces were united into the new kind RF Armed Forces - 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 regiments, 35 units radio technical troops, 6 formations and reconnaissance units and 5 electronic warfare units. In service: 20 aircraft aviation complex radar patrol and guidance A-50, more than 700 air defense fighters, more than 200 anti-aircraft missile divisions and 420 radio engineering units with radar stations various modifications.

As a result of the activities carried out, a new organizational structure Air Force. 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 total Air Force formations were 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 the combat equipment of medium-range ballistic missiles, and, if necessary, 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 armed forces 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);
United strategic command aerospace defense (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, anti-aircraft missile system medium-range S-300P was the basis of the anti-aircraft missile forces of the Russian Air Force.)
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. New complex is intended to replace the S-300PS air defense system with V55R 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 for the military equipment on which it is installed. Characteristic feature 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 carry heavy losses from rocket 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, developers anti-tank grenade launchers are using the same strategy as the developers of intercontinental ballistic missiles to break through strategic missile defense - false targets.

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 overcoming 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 it may also be effective application laser systems with their short response time. 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 challenging because they are small and do not emit 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 a weight equivalent 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. Before at this moment ballistic missiles were considered absolute weapons with 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 at altitudes from 80 to 300 km and their influence 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 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 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 launchers 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 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 susceptible to self-blinding effects, as numerous detonations of 10-megaton warheads in outer space would create huge clouds of radio-opaque plasma and powerful EMR, disrupting the operation of the radar, which would make 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; his son worked in his design bureau Secretary General Central Committee of the CPSU Sergei Khrushchev, this explains the closure of the project after the removal 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.