Centre Spatial Universitaire Montpellier-Nîmes Explained

Centre spatial universitaire Montpellier-Nimes
Hq Location City:Montpellier
Hq Location Country:France
Industry:Student training, research, nanosatellite engineering and tests, expertise
Website:http://csu.edu.umontpellier.fr/

The Centre Spatial Universitaire (CSU) Montpellier-Nîmes (Montpellier-Nîmes University Space Center) is a division of the University of Montpellier. Its purpose is to educate students in space sciences through the design, production and testing of nanosatellites. The CSU was created to consolidate nanosatellite activities that were initiated in 2006 by the RADIAC (radiation and components) team of the Institut d'Electronique et des Systèmes, a research institute also affiliated with the university.

Education and research

Student participation

The CSU engages students at various levels from several institutions in nanosatellite projects:

Research

The CSU also coordinates Ph.D. and postdoctoral students funded by the Van Allen Foundation. These students, along with CSU personnel, present their scientific work in conferences such as the RADECS (Radiation effects on components and systems) and the 4S Symposium [1] (Small Satellites Systems and Services), as well as publishing their work in scientific journals.

Past Projects

Robusta-1A

See main article: ROBUSTA. In 2006, University of Montpellier responded to a request for student satellite projects by CNES (the French national space agency) with ROBUSTA (Radiation On Bipolar for University Satellite Test Application), an experiment measuring space radiation-induced degradation of bipolar electronic components. The purpose of the project was to validate a test method proposed by the RADIAC team of the Institut d'Electronique et des Systèmes.[2] The ROBUSTA project was approved and after a 6-year development period, over the course of which about 300 students participated, the satellite was launched on the maiden flight of the Vega launcher on 13 February 2012, becoming the first French cubesat to be launched.[3] Reentry occurred in February 2015.[4]

FRP on Baumanets-2

In 2009, the French-Russian collaboration FRIENDS was launched. This project is a partnership between the Universite of Montpellier and the Bauman Moscow State Technical University,[5] during which students from Montpellier designed and produced one of the payloads (FRP – French Research Payload) for BMSTU's student satellite Baumanets-2.[6] The payload experiment was derived from Robusta (research on bipolar component degradation due to space radiation). Student exchanges were also conducted during the project.FRP was designed and tested between 2009 and 2012, and sent to BMSTU in 2013. Baumanets-2 was launched on November 28, 08:41:46 (Moscow Time, UTC+03:00) from a Soyuz-2-1b. However, due to an issue with the Fregat upper stage, all satellites were lost. [7]

Ongoing projects

Robusta-1B

See main article: ROBUSTA-1B. Robusta-1B [8] is an upgraded version of Robusta-1A with new quality assurance procedures intended to enable CSU to validate a new standard 1-U cubesat platform, dubbed Robusta-1U. Due to problems with SpaceX's Falcon launcher, launch has been delayed several times, before being moved to a PSLV launch on July 23, 2017 [9] [10]

Robusta-1C / MTCube

Started in 2014, MTCube's goal is to test (on behalf of the European Space Agency)[11] the hardness of several types of memory against space radiation:[12] Flash memory, SRAM, MRAM and FRAM.

CELESTA

The CERN Latchup Experiment and STudent sAtellite, CELESTA,[13] started in 2015 as a collaboration between the CSU, the University of Montpellier and the European Organization for Nuclear Research, CERN. The scope of the research is the integration of the CERN Radiation Monitors [14] as scientific payload on a 1U CubeSat based on the Robusta structure. The project is supported by the CERN Knowledge Transfer [15] and it is the first nanosatellite project ever started and financed by CERN.

Robusta-3A / Méditerranée

The Méditerranée project will be a 3U cubesat,[16] whose main missions are:

Experimental rockets

The experimental rockets program allows IUT de Nîmes students to design and test rockets (Fusex) for Planete Science's C'Space annual challenge. The first successful launch occurred in 2013 with a nominal flight.[18]

Staff

The space center staff (about 50 people) is composed of associate and full professors, teachers, engineers, post-doctoral students, Ph.D. students, interns and radio hams.

Facilities

New facilities in University of Montpellier, completed in Q3-2015 provide a dedicated work area with mechanical and thermal test capabilities for CSU, its private industry collaborators, and other nanosatellite manufacturers. A gamma irradiation facility is under construction and expected to start operations in early 2017.

External links

Notes and References

  1. 4S Symposium Web site: Home . 2015-04-24 . dead . https://web.archive.org/web/20150512195821/http://congrexprojects.com/2014-events/4S2014/home . 2015-05-12 .
  2. 10.1109/TNS.2004.835047. Effect of switching from high to low dose rate on linear bipolar technology radiation response. IEEE Transactions on Nuclear Science. 51. 5. 2896–2902. 2004. Boch. J.. Saigne. F.. Schrimpf. R.D.. Fleetwood. D.M.. Ducret. S.. Dusseau. L.. David. J.P.. Fesquet. J.. Gasiot. J.. Ecoffet. R.. 2004ITNS...51.2896B. 32733732 .
  3. Web site: Sciences : Montpellier se lance à la conquête de l'espace. MidiLibre.fr. 16 July 2015.
  4. Article on "Vous Savez Tout" : http://www.voussaveztout.com/actu_le-1er-nanosatellite-francais-made-in-montpellier-vient-de-s-eteindre-en-revenant-sur-terre.html
  5. [NPO Mashinostroyeniya]
  6. Gunter Krebs, Gunter's Space Page : http://space.skyrocket.de/doc_sdat/baumanets-2.htm
  7. Russian Space Web,Web site: Soyuz fails to deliver 19 satellites from Vostochny. russianspaceweb.com. 28 November 2017 . 3 September 2018.
  8. Gunter Krebs, Gunter's Space Page : http://space.skyrocket.de/doc_sdat/robusta.htm
  9. Web site: Le lancement d'un nanosatellite étudiant dans l'espace en live ce vendredi. 22 June 2017 .
  10. [CNES]
  11. V. Gupta et al., Radiation Effects Study by SEE Experiment on CubeSat – MTCube, https://escies.org/download/webDocumentFile?id=63071
  12. Article in "Air & Cosmos", December 2013
  13. Web site: celesta Site. celesta.web.cern.ch. 2017-03-13. 2017-03-14. https://web.archive.org/web/20170314063438/http://celesta.web.cern.ch/celesta/. dead.
  14. A New RadMon Version for the LHC and its Injection Lines . 6. 3424–3431. IEEE Transactions on Nuclear Science. 61. 10.1109/TNS.2014.2365046. December 2014. Spiezia. G.. Peronnard. P.. Masi. A.. Brugger. M.. Brucoli. M.. Danzeca. S.. Alia. R. G.. Losito. R.. Mekki. J.. Oser. P.. Gaillard. R.. Dusseau. L.. 2014ITNS...61.3424S. 24542259.
  15. Web site: KT funded projects Knowledge Transfer. kt.cern. 2017-03-13. 2017-03-14. https://web.archive.org/web/20170314154022/http://kt.cern/technology-transfer/ip-management/kt-fund/funded-projects. dead.
  16. Web site: CubeSats Overview. NASA. May 6, 2023. May 26, 2023. https://web.archive.org/web/20230526143434/https://www.nasa.gov/mission_pages/cubesats/overview/. dead.
  17. Article in "Science et Avenir" : http://www.sciencesetavenir.fr/espace/20150413.OBS7088/cubesat-les-etudiants-se-font-une-place-dans-le-spatial.html
  18. Web site: Franc succès pour le projet FUSEX. iut-nimes.fr. 16 July 2015.

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