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[Capella Webinar] Academic Research Case of a Lunar Lander Mission Modelled in Capella

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Discover how Capella has been used in Garatéa Mission, the Brazilian first attempt to send a probe to lunar orbit / surface.
The Aeronautics Institute of Technology (ITA) is one of the top engineering Brazilian schools in advanced research in aerospace science and technology.

Astrobotic provides an end-to-end safe delivery service for payloads to the Moon. On each delivery mission to the Moon,
those are integrated onto a single Peregrine Lunar Lander and then launched on a commercially procured launch vehicle.

Mateus Venturini has made researches about one of Garatéa’s mission and its Astrobotic lunar landing vehicle (the Peregrine Lunar Lander).

The standard physical mounting interface for the payloads needs to be optimized for the specific mission profile.

Discover how ITA, through the work of Mateus Venturini, used Capella to optimize all the systems of the Peregrine Lunar Lander.

This webinar was driven by Mateus Venturini (from Aeronautics Institute of Technology - ITA)
Aerospace Engineer by the Federal University of Santa Maria, Brazil, Mateus Venturini has worked at the National Institute for Space Research (INPE) between the years of 2015 and 2019 in Santa Maria, RS.
After that, he started his internship at the Aeronautics Institute of Technology (ITA) in São José dos Campos, SP. During this time, Mateus started working with Model Based System Engineering (MBSE) and has been doing it for almost a year now.
Nowadays, Mateus works as a researcher at the ITA Space Center (CEI) while pursuing to get a Master’s Degree at ITA.

Publié dans : Technologie
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[Capella Webinar] Academic Research Case of a Lunar Lander Mission Modelled in Capella

  1. 1. ACADEMIC RESEARCH CASE OF A LUNAR LANDER MISSION MODELLED IN CAPELLA Mateus Schmitz VENTURINI Aerospace Engineer mateusventurini97@gmail.com mateus-venturini@hotmail.com
  2. 2. SUMMARY
  3. 3. BACKGROUND
  4. 4. Mateus Schmitz Venturini •2015-2019: Aerospace Engineering at the Federal University of Santa Maria (UFSM); •08/2015-07/2019: Student Researcher at the National Institute for Space Research, Southern Regional Center (INPE/CRS); •08/2019-12/2019: Internship at the Aeronautics Institute of Technology (ITA); •02/2020-Today: Researcher at ITA Space Center (CEI).
  5. 5. ITA IS THE ORIGIN OF THE BRAZILIAN AEROSPACE CLUSTER OF SÃO JOSÉ DOS CAMPOS
  6. 6. 7 ITA SPACE CENTER
  7. 7. 8
  8. 8. OUR APPROACH AT CEI: OPM & ARCADIA HYBRID Arcadia Analysis MDO OPM Analysis MDO CONCEPT MODELLING ARCHITECTURE MODELLING 9
  9. 9. GARATÉA PROJECT
  10. 10. “The Brazil into the Moon in 2022” • Astrobiology experiment • ITA is involved as a collaborator, using the mission as a case of study • Build Deep Space Mission Capabilities at ITA • Development of a robust platform https://www.garatea.space/
  11. 11. “Brazil on the Moon in 2022.” GARATÉA PROJECT • Mission: • “Through fantastic projects, Garatéa Mission aims to take Brazil beyond the final frontier, ensuring that both private and public interests benefit from the revolution in low-cost space access.”; • Objective: • “Through 3 main pillars: Science, Industry and Educational Inspiration; we want to fund a Science and Technology Institute and become reference in space initiatives, guaranteeing Brazilian participation in international space economic activities and promoting science in general.”; • Vision: • “Taking the motto “Inspire, Educate and Build”, several initiatives will be developed under the name Garatéa in order to strengthen the mission and create a legacy for future generations.”.
  12. 12. “Brazil on the Moon in 2022.” GARATÉA PROJECT •Garatéa-LS Project •Mission Objective: • “Transport an astrobiological payload (culture of microorganisms) to Lunar orbit/surface and analyze its development.”
  13. 13. GARATÉA-LS CONOPS Develop astrobiological payload Monitor payload status on flight Monitor payload status on orbit and surface of the Moon
  14. 14. ASTROBOTICS PEREGRINE
  15. 15. https://www.astrobotic.com/peregrine INTERNATIONAL PAYLOAD DELIVERY Astrobotic provides an end-to-end delivery service for payloads to the Moon. Peregrine Lunar Lander 2.5 m 1.9 m
  16. 16. ASTROBOTIC – PEREGRINE CONOPS
  17. 17. PEREGRINE CAPABILITIES
  18. 18. PEREGRINE CAPABILITIES Possible Peregrine Architectures Standard Payload Mounting
  19. 19. OPERATIONAL ANALYSIS LAYER
  20. 20. SYSTEM ANALYSIS LAYER
  21. 21. LOGICAL ARCHITECTURE LAYER
  22. 22. PHYSICAL ARCHITECTURE LAYER
  23. 23. CLOSING
  24. 24. LESSONS LEARNED AND CONCLUSION •Regarding the realization of the project: • Study and Application of MBSE on a space mission; • Participate on a Brazilian space mission project; • Both Personal and Professional Development. •As for after finishing the project: • Learning of new features from Capella, e.g., Requirements, System-to-Subsystem Transition, PVMT and other Add-Ons; • Understanding of how to assemble my models and diagrams more clearly.
  25. 25. TO KNOW MORE • ASTROBOTIC. Astrobotic awarded $79.5 Million Contract to Deliver 14 NASA Payloads to the Moon. 2019. • Available at: <https://www.astrobotic.com/2019/5/31/astrobotic- awarded-79-5-million-contract-to-deliver-14-nasa-payloads-to-the- moon>. • ASTROBOTIC. Astrobotic – Peregrine Lunar Lander Payload User’s Guide. 2019. • GARATÉA. Garatéa: Missão Lunar Brasileira. 2019. • Available at : <https://www.garatea.space/>.
  26. 26. THANK YOU! Mateus Schmitz Venturini Aerospace Engineer mateusventurini97@gmail.com mateus-venturini@hotmail.com
  27. 27. Webinar Academic research case of a lunar lander mission modelled in Capella Q & A
  28. 28. Stephane Lacrampe stephane.lacrampe@obeosoft.ca www.obeosoft.com Our next events 12th to 15th October 2020 https://www.eclipse.org/capella/capella_days_2020.html
  29. 29. https://www.eclipse.org/capella/adopters.html

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