Oko

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Oko (Old Russian : Око, lit. 'Eye') [lower-alpha 1] is a Russian (previously Soviet) missile defence early warning programme consisting of satellites in Molniya and geosynchronous orbits. Oko satellites are used to identify launches of ballistic missiles by detection of their engines' exhaust plume in infrared light, and complement other early warning facilities such as Voronezh, Daryal and Dnepr radars. The information provided by these sensors can be used for the A-135 anti-ballistic missile system which defends Moscow. The satellites are run by the Russian Aerospace Forces, and previously the Russian Aerospace Defence Forces and Russian Space Forces. Since November 2015, it is being replaced by the new EKS system. [1]

Contents

History

Development of the Oko system began in the early 1970s under the design bureau headed by AI Savin, which became TsNII Kometa. The spacecraft element was designed by NPO Lavochkin. [2] The first satellite was launched in 1972 [3] but it was not until 1978 that the overall system became operational and 1982 before it was placed on combat duty. [2] The system had a major malfunction in 1983 when it mistakenly identified sunlight on high altitude clouds as a missile attack. Stanislav Petrov, on duty at the new control centre in Serpukhov-15, Moscow Oblast, discounted the warning due to the newness of the system and the lack of corroboration from ground-based radar. [4]

The vast majority of the satellites launched (86 out of 100 as of March 2012 [5] ) have been the first generation US-K satellites which operate in molniya orbits. Seven first generation satellites were launched into geosynchronous orbits, called US-KS, starting in 1975. [6] A decree of 3 September 1979 led to the creation of the second generation satellites US-KMO which had their first launch in 1991. [2] In total, 101 satellites have been launched.

The US-K satellites, were launched by Molniya-M launch vehicles with Blok 2BL upper stages from Plesetsk Cosmodrome. The US-KS and US-KMO operate in geosynchronous orbits and were launched by Proton with DM-2 upper stages from Baikonur. [5] [7]

The last US-KMO satellite (Kosmos 2479) was launched on 30 March 2012 [8] and the last US-K satellite (Kosmos 2469) on 30 September 2010. [9] They are due to be replaced by a new system called EKS.

Debris

The first generation Molniya-type orbit Oko satellites launched between 1976 and 1983 were prone to disintegration, resulting in extensive space debris. The reason they broke up was because they each carried an on-board explosive charge that would be used to destroy the satellite in the case of a malfunction. Unfortunately, control of the explosive charge was itself unreliable and it would often explode, rendering the satellite inoperative, while it was still under control. The design was eventually changed, and the explosive charge in Kosmos 1481 was the last to explode early. [10]

Facilities

The system has two dedicated control centres. The western centre is at Serpukhov-15 (Russian:Серпухов-15) near Kurilovo outside Moscow [11] ( 55°04′06″N37°02′29″E / 55.06833°N 37.04139°E / 55.06833; 37.04139 (Serpukhov-15 Oko satellites control centre) ) and the eastern centre is at Pivan-1 (Russian:Пивань-1) [12] ( 50°20′57″N137°11′22″E / 50.34917°N 137.18944°E / 50.34917; 137.18944 (Pivan-1 Oko satellites control centre) ) in the Russian Far East. The centre at Serpukhov-15 burned down in 2001 [13] [14] which caused the loss of contact with currently orbiting satellites. [15]

See also

Notes

  1. Also known as SPRN (СПРН, from Russian: спутник для предупреждения о ракетном нападении, lit.'satellite for warning on rocket attack') according to one source, but SPRN is more commonly used to describe the whole early warning system, система предупреждения о ракетном нападении (system of missile warning), which includes Oko but also includes early warning radar.

Related Research Articles

Upravlyaemy Sputnik Kontinentalny or US-K is a series of Russian, previously Soviet, satellites used to detect missile launches as part of the Oko system. It consists of a constellation of satellites, usually in molniya orbits, designated under the Kosmos system. The satellites are built by the company NPO Lavochkin and are launched on Molniya-M rockets. Oko can be directly translated as the Russian word for eye. As of June 2014, only two of the eight satellites in orbit were still functional, rendering the system inoperable.

US-KMO, is a series of Russian, previously Soviet, satellites which are used to identify ballistic missile launches. They provide early warning of missile attack and give information for the Moscow A-135 anti-ballistic missile system. They were run by the Russian Space Forces and it was succeeded by the Aerospace Defence Forces.

Kosmos 2479 is a Russian US-KMO missile early warning satellite which was launched in 2012 as part of the Russian Aerospace Defence Forces' Oko programme. The satellite is designed to identify missile launches using infrared telescopes. It was the last US-KMO geostationary satellite, to be launched, prior to the system being replaced by EKS.

Kosmos 2379 is a Russian US-KMO missile early warning satellite which was launched in 2001 as part of the Russian Space Forces' Oko programme. The satellite is designed to identify missile launches using infrared telescopes.

Kosmos 2224 is a Russian US-KMO missile early warning satellite which was launched in 1992 as part of the Russian Space Forces' Oko programme. The satellite is designed to identify missile launches using infrared telescopes.

Kosmos 2133 is a Russian US-KMO missile early warning satellite which was launched in 1991 as part of the Russian Space Forces' Oko programme. The satellite is designed to identify missile launches using infrared telescopes.

EKSKupol is a developing programme of Russian early warning satellites as a replacement for the US-KMO and US-K satellites of the Oko programme. The satellites are designed to identify any possible future ballistic missile launches, from outer space, and complement early warning radars such as the Voronezh. This gives advance notice of a nuclear attack and would provide information to the A-135 missile defence system which protects Moscow, as well as other Russian missile defense and counterattack resources. Six satellites are planned to be initially orbited. The first of these was launched on 17 November 2015 and as of November 2022, all six of them are in service.

<span class="mw-page-title-main">Kosmos 2469</span>

Kosmos 2469 was a Russian US-K missile early warning satellite which was launched in 2010 as part of the Russian Space Forces' Oko programme. The satellite was designed to identify missile launches using optical telescopes and infrared sensors.

<span class="mw-page-title-main">Kosmos 2446</span>

Kosmos 2446 is a Russian US-K missile early warning satellite which was launched in 2008 as part of the Russian Space Forces' Oko programme. The satellite is designed to identify missile launches using optical telescopes and infrared sensors.

Kosmos 520 was the first Soviet US-K missile early warning satellite. It was launched in 1972 as part of the Oko programme. The satellite is designed to identify missile launches using optical telescopes and infrared sensors.

<span class="mw-page-title-main">Kosmos 2430</span>

Kosmos 2430 was a Russian US-K missile early warning satellite which was launched in 2007 as part of the Russian Space Forces' Oko programme. The satellite was designed to identify missile launches using optical telescopes and infrared sensors.

Kosmos 2393 is a Russian US-K missile early warning satellite which was launched in 2002 as part of the Russian Space Forces' Oko programme. The satellite is designed to identify missile launches using optical telescopes and infrared sensors.

Kosmos 2368 was a Russian US-K missile early warning satellite which was launched in 1999 as part of the Russian Space Forces' Oko programme. The satellite was designed to identify missile launches using optical telescopes and infrared sensors.

Kosmos 2351 was a Russian US-K missile early warning satellite which was launched in 1998 as part of the Russian Space Forces' Oko programme. The satellite was designed to identify missile launches using optical telescopes and infrared sensors.

Kosmos 2342 was a Russian US-K missile early warning satellite which was launched in 1997 as part of the Russian Space Forces' Oko programme. The satellite was designed to identify missile launches using optical telescopes and infrared sensors.

Kosmos 2340 was a Russian US-K missile early warning satellite which was launched in 1997 as part of the Russian Space Forces' Oko programme. The satellite was designed to identify missile launches using optical telescopes and infrared sensors.

Kosmos 2084 is a Russian US-K missile early warning satellite which was launched in 1990 as part of the Russian Space Forces' Oko programme. The satellite was designed to identify missile launches using optical telescopes and infrared sensors.

Serpukhov-15 is a military townlet near Kurilovo in Kaluga Oblast which is the location of the western control centre for Russia's Oko satellites. These give early warning of ballistic missile launches, mainly from the continental United States. The site is part of the Main Centre for Missile Attack Warning and information from here is processed at the Russian Aerospace Defence Forces centre in Solnechnogorsk and could be used, together with early warning radar such as the Voronezh, for launch on warning of the A-135 anti-ballistic missile system. A similar facility is located at Pivan-1 in the Russian Far East.

Pivan-1 is a military townlet near Komsomolsk-na-Amur in Khabarovsk Krai in the Russian Far East which is the location of the eastern control centre for Russia's Oko satellites. These give early warning of ballistic missile launches, mainly from the continental United States. The site is part of the Main Centre for Missile Attack Warning and information from here is processed at the Russian Aerospace Defence Forces centre in Solnechnogorsk and could be used, together with early warning radar such as the Voronezh, for launch on warning or the A-135 anti-ballistic missile system. A similar facility is located at Serpukhov-15 near Moscow.

References

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  3. Zak, Anatoly. "Oko early-warning satellite". RussianSpaceWeb.com. Archived from the original on 1 February 2012. Retrieved 5 March 2012.
  4. Forden, Geoffrey; Podvig, Pavel; Postol, Theodore A. (2000). "False alarm, nuclear danger". IEEE Spectrum. 37 (3): 31–39. doi:10.1109/6.825657. ISSN   0018-9235. Archived from the original on 27 May 2015. Retrieved 23 May 2012.
  5. 1 2 Krebs, Gunter. "US-K (73D6)". Gunter's Space Page. Archived from the original on 11 May 2013. Retrieved 5 March 2012.
  6. Krebs, Gunter. "US-KS (74Kh6)". Gunter's Space Page. Archived from the original on 17 January 2012. Retrieved 5 March 2012.
  7. Krebs, Gunter. "US-KMO (71Kh6)". Gunter's Space Page. Archived from the original on 12 October 2012. Retrieved 5 March 2012.
  8. Pavel, Podvig (30 March 2012). "Kosmos 2479 - new geostationary early warning satellite". Russian Strategic Nuclear Forces. Archived from the original on 3 May 2012. Retrieved 22 April 2012.
  9. Pavel, Podvig (30 September 2010). "Kosmos 2469 might be the last HEO early-warning satellite". Russian Strategic Nuclear Forces. Archived from the original on 9 March 2012. Retrieved 22 April 2012.
  10. Clark, Phillip. "SPACE DEBRIS INCIDENTS INVOLVING SOVIET/RUSSIAN LAUNCHES". Archived from the original on 25 October 2021. Retrieved 7 February 2023.
  11. Holm, Michael (2011). "916th independent Radio-Technical Unit". Soviet Armed Forces 1945-1991. Archived from the original on 9 October 2015. Retrieved 22 April 2012.
  12. Holm, Michael (2011). "1127th independent Radio-Technical Unit". Soviet Armed Forces 1945-1991. Archived from the original on 9 October 2015. Retrieved 22 April 2012.
  13. Topol, Sergey; Safranov, Ivan (11 May 2001). "У России проблемы с ПРО: Она сгорела" [Russia has an ABM problem: it burnt down]. Kommersant. Archived from the original on 20 October 2014. Retrieved 23 April 2012.
  14. "Russia blaze hits satellite network". BBC News. 10 May 2001. Archived from the original on 28 July 2004. Retrieved 23 April 2012.
  15. Paleologue, A. (2005). "Early Warning Satellites in Russia: What past, what state today, what future?". In Pejmun Motaghedi (ed.). Proceedings of SPIE Vol. 5799. Modeling, Simulation, and Verification of Space-based Systems II. SPIE. pp. 146–157. doi:10.1117/12.603478.
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