Spy satellite
From Wikipedia, the free encyclopedia
A spy satellite (officially referred to as a reconnaissance satellite) is an Earth observation satellite or communications satellite deployed for military or intelligence applications. The first generation type (i.e. Corona [1] [2] and Zenit) took photographs then ejected canisters of photographic film, which would descend to earth. Corona capsules were retrieved in mid-air as they floated down on parachutes. Later spacecraft had digital imaging systems and downloaded the images via radio links.
In the United States, most information available is on programs that existed up to 1972. Some information about programs prior to that time are still classified, and a small trickle of information is available on subsequent missions. A few up-to-date reconnaissance satellite images have been declassified on occasion, or leaked, as in the case of KH-11 photographs which were sent to Jane's Defence Weekly in 1985.
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[edit] Origins
On March 16, 1955, the United States Air Force officially ordered the development of an advanced reconnaissance satellite to provide continuous surveillance of “preselected areas of the earth” in order “to determine the status of a potential enemy’s war-making capability.”[3]
[edit] Missions
Examples of reconnaissance satellite missions:
- High resolution photography (IMINT)
- Communications eavesdropping (SIGINT)
- Covert communications
- Enforcement of nuclear test bans (see National Technical Means)
- Detection of missile launches
[edit] Types
[edit] United States
 |
This section is related to a current event: NRO L-21. Information may change rapidly as the event progresses. |
- Naval ELINT:
- Samos F
- Molniya SIGINT:
- Geosynchronous SIGINT:
- Air Force Geosynchronous SIGINT:
- Lacrosse/Onyx (RADINT)
- Misty/Zirconic
- Quasar
- Vela
- Key Hole (KH) series of imaging satellites:
| Time period | Designation | Code name or Nickname | Optics | Notes |
|---|---|---|---|---|
| 1959–1962 | KH-1 to KH-3 | Corona | Resolution: 7.5 m Focal length: 0.6 m |
First series of US imaging spy satellites; photographs returned by film canister ejection. Each satellite carried a single panoramic camera. |
| 1960–1962 | – | Samos | Res: 30 to 1.5 m Foc len: 0.7 to 1.83 m |
Most flights used radio to relay images; some film returns; probably cancelled due to poor-quality imagery. |
| 1962-1963 | KH-4 | Corona | Resolution: 7.5 m | Film return. Two panoramic cameras. |
| 1963-1969 | KH-4A | Corona | Resolution: 2.75 m | Film return with two reentry vehicles and two panoramic cameras. Large volume of imagery. |
| 1967-1972 | KH-4B | Corona | Resolution: 1.8 m | Film return with two reentry vehicles and two panoramic cameras. |
| 1961–1964 | KH-5 | Argon | Res: 140 m Foc len: 76 mm |
Film return. Low-resolution, high coverage-area images used for mapping. |
| 1963 | KH-6 | Lanyard | Res: 1.8 m Foc len: 1.67 m |
Shortlived operation for imaging a specific site; used a camera from the Samos program; film return. |
| 1963–1967 | KH-7 | Gambit | Res: 0.46 m | Film return with single reentry vehicle per launch. |
| 1966–1984 | KH-8 | Gambit | Res: 0.5 m | Film return. |
| 1971–1986 | KH-9 | Hexagon "Big Bird" |
Res: 0.30 m | Film return with four or five reentry vehicles per launch. |
| cancelled | KH-10 | Dorian | Manned Orbital Laboratory; space station based on Gemini program. | |
| 1976–1995 | KH-11 | Crystal Kennan |
Res: 0.15 m Mirror: 2.3 m |
First known digital imaging spy satellite. Thought possibly to be similar in size and overall layout to the Hubble Space Telescope. |
| 1990—? | KH-12 | Ikon Improved Crystal |
Res: 0.15 to 0.10? m Mirror: 2.4 to 4? m |
Digital imaging; probably incorporates low light level visible and 3 to 5 micrometre infrared imaging capabilities; possible "live" intelligence gathering. |
| 1999—? | KH-13 | 8X? EIS? | Res: 0.10? to 0.04? m (*) Mirror: 4? m |
Very little known; possibly includes radar imaging or maybe stealth technology. |
(*) Although there is much speculation concerning imaging resolution, any optical system is limited by diffraction. For example, a satellite with a 4m telescope at an orbit of 600km has a diffraction limited resolution of 10cm at 550nm (green light), so it certainly cannot read a license plate. Other effects such as an inhomogenious atmosphere further degrade resolution. The apogee of a typical filming mission would have been close to 100km. Using the above calculation the resolution would have been less than 2 cm, or less than 1 inch.
[edit] Soviet Union
- Cosmos
- RORSAT (under cover of Cosmos series)[4]. Radar type powered by Topaz nuclear reactors.
- Almaz
- Yantar
- Zenit
[edit] China
- Fanhui Shi Weixing
- FSW-0
- FSW-1
- FSW-2
- FSW-3
[edit] Germany
- SAR-Lupe
- SAR-Lupe 1
- SAR-Lupe 2
- SAR-Lupe 3
- SAR-Lupe 4
- SAR-Lupe 5
[edit] France
[edit] United Kingdom
- Zircon (cancelled in 1987)
[edit] India
[edit] Iran
[edit] Iraq
(under Saddam Hussein)
[edit] Israel
[edit] Italy
[edit] Japan
[edit] Egypt
- EgyptSat 1[1]
- EgyptSat 2 (planned)
- DesertSat (planned end of 2007)
[edit] South Korea
[edit] In fiction
Spy satellites are commonly seen in spy fiction and military fiction. Some works of fiction that focus specifically on spy satellites include:
[edit] References
[edit] See also
- National Reconnaissance Office
- Defense Support Program
- European Union Satellite Centre
- Enemy of the State (film)
- Atmospheric reentry
- List of intelligence gathering disciplines
