FYQ-9: Difference between revisions
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'''{{PAGENAME}} Long Range Search Data Processing and Display System''' - A Search Data Processing and Display System system built | '''{{PAGENAME}} Long Range Search Data Processing and Display System''' - A Search Data Processing and Display System system built to semiautomatically process radar tracks in the Alaska Air Defense System 1965-1983. | ||
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{{FYQ-9Components}} | {{FYQ-9Components}} | ||
==The FYQ-9 System== | |||
The FYQ-9 System was envisioned with several goals in mind. These included replacing the slow and labor-intensive process of manually plotting radar tracks and manually "Telling" the tracks up the chain of command. Decision-making was required at each level to ensure that only the important tracks reached the NORAD Combat Operations Center in Colorado and that the appropriate action was taken at each intermediate level. Automating the "Telling" function greatly sped up the process and required significantly fewer operations personnel at the remote radar sites. | |||
[[File:A2C Pronovost FYQ-9 UPA-35.jpeg|thumb|250px|left|A2C Larry Pronovost Operating a UPA-35 Scope with FYQ-9 Track Input Shelf (SATDI) at Kotzebue AS, 1972-1973.]] | |||
The system placed the highly capable [[UPA-35]] PPI scopes at each of the radar sites with a modified front shelf to provide a track identity and input capability using a trackball, a keyboard, and an entry button. The UPA-35 shelf was known as the Semiautomatic Track Data Inserter (SATDI) and contained 20 track selection buttons. | |||
Once entered, tracks were automatically forwarded using M-28 teletype gear to all echelons. The M-28 teletype gear was configured to provide a limited store-and-forward buffer to concentrate traffic during heavy traffic periods. GCI Radar sites had the additional capability to manually input track messages regarding weapon status etc using a Manual Message Composer (MMC). M-28 teletype printers were used to provide hardcopy throughout the system. | |||
At the four radar sites that were also command centers and at the Regional Combat Center a [[UYK-1]] Computer accomplished the necessary coordinate conversions to place each track at the correct geographic location on vertical plotting displays. The [[UYK-1]] Computer was particularly suited for this type of application having been designed for use aboard nuclear submarines. Its rounded shape was designed so that it would fit down a submarine hatch. | |||
[[File:UYK-1 TRW-130 Computer.jpeg|300px|thumb|left|UYK-1 TRW-130 Computer.]] | |||
[[File:UPA-35-Peterson Museum.jpeg|thumb|right|325px|UPA-35.]] | |||
[[File:SATDI Console.jpeg|thumb|right|325px|Semiautomatic Track Data Inserter (SATDI).]] | |||
[[File:MMC Input.jpeg|300px|thumb|left| Manual Message Composer (MMC).]] | |||
[[File:TRO Console.jpeg|thumb|right|325px|Tabular Readout (TRO) Console.]] | |||
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'''See Also:''' | '''See Also:''' | ||
* [[ | * [[Computer Sets]] | ||
'''Sources:''' | '''Sources:''' | ||
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* MIL-HDBK-162A, 15 Dec 1965. | * MIL-HDBK-162A, 15 Dec 1965. | ||
* Aerospace Control and Warning Systems Operator, AFSC 27650, Atmospheric Systems, Vol 4, USAF Extension Course Institute, Air University, Maxwell AFB, Alabama. Online at Google Books. | * Aerospace Control and Warning Systems Operator, AFSC 27650, Atmospheric Systems, Vol 4, USAF Extension Course Institute, Air University, Maxwell AFB, Alabama. Online at Google Books. | ||
* {{Sturm}}, Page 47 | |||
'''Links:''' | '''Links:''' | ||
'''See Also:''' | |||
* [[UPA-35]] | |||
* [[UYK-1]] | |||
__NOTOC__ | __NOTOC__ | ||
{{PageFooter}} | {{PageFooter}} | ||
[[Category: | [[Category:Computer Sets]] | ||
[[Category:FYQ-9]] | [[Category:FYQ-9]] | ||
[[Category:UPA-35]] | [[Category:UPA-35]] | ||
[[Category:UYK-1]] | [[Category:UYK-1]] | ||
Latest revision as of 13:42, 10 June 2021
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FYQ-9 Long Range Search Data Processing and Display System - A Search Data Processing and Display System system built to semiautomatically process radar tracks in the Alaska Air Defense System 1965-1983.
The FYQ-9 SystemThe FYQ-9 System was envisioned with several goals in mind. These included replacing the slow and labor-intensive process of manually plotting radar tracks and manually "Telling" the tracks up the chain of command. Decision-making was required at each level to ensure that only the important tracks reached the NORAD Combat Operations Center in Colorado and that the appropriate action was taken at each intermediate level. Automating the "Telling" function greatly sped up the process and required significantly fewer operations personnel at the remote radar sites.  The system placed the highly capable UPA-35 PPI scopes at each of the radar sites with a modified front shelf to provide a track identity and input capability using a trackball, a keyboard, and an entry button. The UPA-35 shelf was known as the Semiautomatic Track Data Inserter (SATDI) and contained 20 track selection buttons. Once entered, tracks were automatically forwarded using M-28 teletype gear to all echelons. The M-28 teletype gear was configured to provide a limited store-and-forward buffer to concentrate traffic during heavy traffic periods. GCI Radar sites had the additional capability to manually input track messages regarding weapon status etc using a Manual Message Composer (MMC). M-28 teletype printers were used to provide hardcopy throughout the system. At the four radar sites that were also command centers and at the Regional Combat Center a UYK-1 Computer accomplished the necessary coordinate conversions to place each track at the correct geographic location on vertical plotting displays. The UYK-1 Computer was particularly suited for this type of application having been designed for use aboard nuclear submarines. Its rounded shape was designed so that it would fit down a submarine hatch.     
See Also: Sources:
Links: See Also:
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