ARGOS (satellite) explained

ARGOS (satellite) should not be confused with Argos (satellite system).

ARGOS
Mission Type:Space environment
Operator:AFRL
NRL
STP
Cospar Id:1999-008A
Satcat:25634
Mission Duration:3 years (planned)
4.5 years (achieved)
Spacecraft Bus:ARGOS
Manufacturer:Boeing
Launch Date:23 February 1999, 10:29:55 UTC
Launch Rocket:Delta II 7920-10
Launch Site:Vandenberg, SLC-2W
Launch Contractor:Boeing
Last Contact:31 July 2003
Orbit Reference:Geocentric orbit[1]
Orbit Regime:Sun-synchronous orbit
Orbit Inclination:98.78°
Orbit Period:101.47 minutes
Apsis:gee
Insignia:ARGOS Mission Patch.jpeg
Insignia Caption:ARGOS mission patch
Insignia Size:220px

The Advanced Research and Global Observation Satellite (ARGOS) was launched on 23 February 1999 carrying nine payloads for research and development missions by nine separate researchers. The mission terminated on 31 July 2003.

ARGOS was launched from SLC-2W, Vandenberg Air Force Base, California, atop a Boeing Delta II (7920-10) launch vehicle. Construction of the spacecraft bus and integration of the satellite's payloads was accomplished by Boeing at their Seal Beach, California facility. The program was funded and led by the DoD's Space Test Program (STP) as mission P91-1 (the first STP mission contract awarded in 1991).

The US$220 million mission was operated by Air Force Space Command's Space and Missile Systems Center's Test and Evaluation Directorate (then Space Development and Test Wing, now SMC's Advanced Systems and Development Directorate)[2] from their RDT&E Support Complex (RSC) at Kirtland Air Force Base, New Mexico. ARGOS was the first mission operated 100% from the new state-of-the-art, commercial-off-the-shelf Kirtland facility; all previous SMC satellite missions had been operated in total or at least in part from the preceding center at Onizuka Air Force Station, California.

Mission

ARGOS (also called STP mission P91-1) was a DoD research and development satellite mission, managed by the Space and Missile Systems Center Space Division at Kirtland AFB (SMC/TE), Albuquerque, NM. It was part of the USAF Space Test Program (STP)[3] with the objective to demonstrate several new space technologies and to fly payloads for global Earth sensing and celestial observations.[4]

The ARGOS had a design life of three years and was part of the DoD Space Test Program (STP), which supports the Air Force, Army, Navy, BMDO (now MDA), NASA, and various international space agencies. The nine ARGOS payloads, addressing more than 30 research objectives, conducted upper atmospheric observations and technology demonstrations. These included sensor technology for the International Space Station (ISS), as well as three high-priority ultraviolet imaging experiments and an X-ray sensor. The remaining experiments investigate ion propulsion, gas ionization physics, plume detection capabilities, and orbital debris. As part of DOD STP, ARGOS served the need to fly Department of Defense payloads that cannot be flown on the Space Shuttle or aboard small launch vehicles due to complexity, size, mission duration, or other constraints. The Naval Research Laboratory (NRL), U.S. Army Space and Strategic Defense Command, Air Force Research Laboratory, and Office of Naval Research have provided payloads for the ARGOS mission.[5]

Per the Kirtland AFB mission control center, "As of 1500 Zulu on 31 July 2003, support of all ARGOS operations has been terminated. Decaying inertial reference units has led to a tumble of the aircraft. As a result, communications with the spacecraft have been lost".

The satellite was designed to operate in a Sun-synchronous orbit and many of the payloads required unique Sun-angles, and so the orbit was creatively designed by Robert Cleave to operate without the need for an on-board propulsion subsystem, which was later identified as a key winning strategy.

Payloads

ARGOS was built at Boeing's Seal Beach California facility and, at the time, was the largest and most sophisticated research and development satellite that Boeing had ever developed for the U.S. Air Force.

The satellite included a range of sensors and experiments that were sponsored and furnished by various organizations within the U.S. space commununity. The selection of experiments was adjudicated through the DoD Selective Experiments Review Board (SERB) process.[6] Experiments and sponsors are identified below:

Bus characteristics

P91-1 ARGOS[14] Mission Book.

Orbit characteristics

Liftoff postponements

After about six weeks stacked on the launch pad, and as long for mission crews to report only to replan activities for another night and slightly different time, the rocket and its satellites blasted away from Earth's pull.[15]

Secondary satellites launched with ARGOS

As the launching of the ARGOS satellite did not require the full payload capacity of its launching rocket, Delta II, there was room left in the payload-mass-budget of the launch vehicle and thus two secondary satellites were added to, and launched on, the same rocket on 23 February 1999. NASA sponsored the secondary satellites, Ørsted (SSC #25635)[31] and SUNSAT (SSC #25636),[32] which were the first satellites of their respective countries, Denmark and South Africa.

See also

External links

Notes and References

  1. Web site: ARGOS - Orbit. Chris. Peat. Heavens Above. 5 December 2013. 6 December 2013.
  2. http://www.af.mil/News/ArticleDisplay/tabid/223/Article/554895/smc-stands-up-new-advanced-systems-and-development-directorate.aspx "SMC stands up new Advanced Systems and Development Directorate", 24 November 2014
  3. Web site: Krebs. Gunter D. . Space Test Program (STP) Payloads. Gunter's Space Page. January 14, 2023.
  4. Web site: ARGOS (Advanced Research and Global Observation Satellite). May 31, 2012. eoPortal.org. January 14, 2023.
  5. Turner, J. B.; Agardy, F. J.; "The Advanced Research and Global Observation Satellite Program (ARGOS)", Space Programs and Technologies Conference, Huntsville, Alabama, September 27–29, 1994, AIAA-1994-4580.
  6. Braun . Barbara Manganis . Sims . Sam Myers . McLeroy . James . Brining . Ben . Breaking (Space) Barriers for 50 Years: The Past, Present, and Future of the DoD Space Test Program . 31st Annual AIAA/USU Conference on Small Satellites . SSC17-X-02 . https://web.archive.org/web/20230803043123/https://digitalcommons.usu.edu/cgi/viewcontent.cgi?article=3668&context=smallsat . 3 August 2023 . 14 January 2023 . live .
  7. Lai, S.; Häggström, I.; Wannberg, G.; Westman, A.; Cooke, D.; Wright, L.; Groves, K.; and Pellinen-Wannberg, A.; "A Critical Ionization Velocity Experiment on the ARGOS Satellite", 45th AIAA Aerospace Sciences Meeting and Exhibit, Reno, Nevada, January 8–11, 2007, AIAA-2007-279
  8. 17 March 1999 . New Space Propulsion System Fired . dead . https://web.archive.org/web/20071115224644/http://www.pr.afrl.af.mil/press/articles/arcjet1st.html . 15 November 2007 . . .
  9. Sutton, A. M.; Bromaghim, D. R.; Johnson, L. K.; "Electric Propulsion Space Experiment (ESEX) Flight Qualification and Operations", Joint Propulsion Conference and Exhibit, 31st, San Diego, California, July 10–12, 1995, AIAA-1995-2503
  10. News: New Space Propulsion System Fired. March 17, 1999. U.S. Air Force. https://web.archive.org/web/20071115224644/http://www.pr.afrl.af.mil/press/articles/arcjet1st.html . January 14, 2023. 15 November 2007 .
  11. Web site: Extreme Ultraviolet Imaging Photometer (EUVIP) . live . https://web.archive.org/web/20201107194250/https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1999-008A-02 . 7 November 2020 . NSSDCA Master Catalog . . 1999-008A-02 .
  12. Web site: The USA Experiment. July 29, 2004. Naval Research Laboratory. https://web.archive.org/web/20071027122358/http://xweb.nrl.navy.mil/usa/index.html . January 14, 2023. 27 October 2007 .
  13. Web site: 4 March 1999 . ARGOS Mission Seeks New Information about Black Holes and Neutron Stars . live . https://web.archive.org/web/20230410195339/https://www.slac.stanford.edu/grp/ek/research/argusarticle/argos.html . 10 April 2023 . 14 January 2023 . .
  14. 6 January 1999 . ARGOS Satellite Serves as Platform for Leading-Edge Technology and Research . live . https://web.archive.org/web/20230922091114/https://boeing.mediaroom.com/1999-01-06-ARGOS-Satellite-Serves-as-Platform-for-Leading-Edge-Technology-and-Research . 22 September 2023 . .
  15. D. Seitz, Operations Lead, RDT&E Support Complex
  16. 15 January 1999 . Delta II Launch of ARGOS Satellite Scrubbed . live . https://web.archive.org/web/20230130152246/https://boeing.mediaroom.com/1999-01-15-Delta-II-Launch-of-ARGOS-Satellite-Scrubbed . 30 January 2023 . . 99-005 .
  17. 16 January 1999 . Launch of ARGOS Spacecraft Postponed . live . https://web.archive.org/web/20230921100411/https://boeing.mediaroom.com/1999-01-16-Launch-of-ARGOS-Spacecraft-Postponed . 21 September 2023 . .
  18. 19 January 1999 . Delta II Launch of ARGOS Satellite Rescheduled for Wednesday . live . https://web.archive.org/web/20230130135751/https://boeing.mediaroom.com/1999-01-19-Delta-II-Launch-of-ARGOS-Satellite-Rescheduled-for-Wednesday . 30 January 2023 . . 99-009 .
  19. 20 January 1999 . Delta II Launch of ARGOS Satellite Postponed . live . https://web.archive.org/web/20230604051519/https://boeing.mediaroom.com/1999-01-20-Delta-II-Launch-of-ARGOS-Satellite-Postponed . 4 June 2023 . . 99-010 .
  20. 21 January 1999 . Weather Postpones Delta II Launch of ARGOS Satellite . live . https://web.archive.org/web/20230609101634/https://boeing.mediaroom.com/1999-01-21-Weather-Postpones-Delta-II-Launch-of-ARGOS-Satellite . 9 June 2023 . . 99-013 .
  21. 22 January 1999 . Upper Level Winds Postpone Delta II Launch of ARGOS Satellite . live . https://web.archive.org/web/20230924174317/https://boeing.mediaroom.com/1999-01-22-Upper-Level-Winds-Postpone-Delta-II-Launch-of-ARGOS-Satellite . 24 September 2023 . Boeing . 99-014 .
  22. 27 January 1999 . Upper Level Winds Postpone Delta II Launch of ARGOS Satellite . live . https://web.archive.org/web/20230607155056/https://boeing.mediaroom.com/1999-01-27-Upper-Level-Winds-Postpone-Delta-II-Launch-of-ARGOS-Satellite . 7 June 2023 . . 99-018 .
  23. 28 January 1999 . Delta II Launch Stopped Due to Engine Ignition Failure . live . https://web.archive.org/web/20230923043757/https://boeing.mediaroom.com/1999-01-28-Delta-II-Launch-Stopped-Due-to-Engine-Ignition-Failure . 23 September 2023 . . 99-021 .
  24. 4 February 1999 . Next Delta II Launch Attempt of ARGOS Scheduled for Sunday . live . https://web.archive.org/web/20230531165835/https://boeing.mediaroom.com/1999-02-04-Next-Delta-II-Launch-Attempt-of-ARGOS-Scheduled-for-Sunday . 31 May 2023 . . 99-023 .
  25. http://www.frankandernest.com/search/index.php?kw=nasa&property=Frank+and+Ernest&id=13&opt=jqvxclneswf&css=http%3A%2F%2Fwww.frankandernest.com%2Fincludes%2Fiframe&fb_ref=888&submit=Search Team Memory: Frank and Earnest panel #70170 ran days after this attempt. We contacted the publisher and asked if they heard of our launch attempt; they said no, they just thought the word usage was funny. The Kirtland Air Force Base team purchased a copy of the panel with name ARGOS replacing NASA and gave them as momentoes to the Kirtland AFB launch and early orbit team
  26. 7 February 1999 . Delta II Launch of ARGOS Satellite Delayed . live . https://web.archive.org/web/20230926063718/https://boeing.mediaroom.com/1999-02-07-Delta-II-Launch-of-ARGOS-Satellite-Delayed . 26 September 2023 . . 99-025 .
  27. 12 February 1999 . Winds Postpone Delta II Launch of ARGOS Satellite . live . https://web.archive.org/web/20230606094013/https://boeing.mediaroom.com/1999-02-12-Winds-Postpone-Delta-II-Launch-of-ARGOS-Satellite . 6 June 2023 . . 99-029 .
  28. 13 February 1999 . Delta II Launch of ARGOS Satellite Delayed . live . https://web.archive.org/web/20231001231936/https://boeing.mediaroom.com/1999-02-13-Delta-II-Launch-of-ARGOS-Satellite-Delayed . 1 October 2023 . 12 November 2022 . . 99-030 .
  29. 19 February 1999 . Delta II Launch of ARGOS Satellite Scheduled for Tuesday . live . https://web.archive.org/web/20230527233311/https://boeing.mediaroom.com/1999-02-19-Delta-II-Launch-of-ARGOS-Satellite-Scheduled-for-Tuesday . 27 May 2023 . . 99-031 .
  30. 23 February 1999 . Boeing News Release: Boeing Delta II Boosts Triple Satellite Payload . live . https://web.archive.org/web/20230601223949/https://boeing.mediaroom.com/1999-02-23-Boeing-Delta-II-Boosts-Triple-Satellite-Payload . 1 June 2023 . 1 March 2023 . . 99-032 .
  31. Web site: Oersted . live . https://web.archive.org/web/20231105082642/https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=1999-008B . 5 November 2023 . NSSDCA Master Catalog . . 1999-008B .
  32. Web site: Sunsat . live . https://web.archive.org/web/20230129085814/https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=1999-008C . 29 January 2023 . NSSDCA Master Catalog . .