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Credit: SHEE Consortium, visualization Space Innovations, 2014
Credit: SHEE Consortium, rendering LIQUIFER Systems Group, 2014
The habitat will be made available for conducting mission simulations in 2016
Interested parties please contact the Project Coordinator or your
local project partner.
SHEE Website www.shee.eu
Credit: SHEE Consortium, visualization Space Innovations, 2014
This project has received funding from the European Union’s Seventh Frame-work Programme for research, technological development and demonstration under grant agreement no 312747. The project duration is 36 months with a total funding of 2.3 million Euro.The project commenced in January 2013 and will conclude in December of 2015.
Standard transport by land, air and sea
Habitat Characteristics
• Accomodates astronaut crew of two
• Environmental Control and Life Support System (ECLSS) allows a mission duration of up to two weeks
• Work spaces can be adapted for various equipment/activity (laboratory, greenhouse, medi-cal facility, etc)
• Possibility of integrating EVA suitports for ingress and egress
• Additional access door to habitat is available
Key Features • Transportable by land, sea and air
• Can be rented and utilized for various analogue sites
• Environmental Control and Life Support System allow deploy-ment in arctic and desert conditions • Robotic deployment
• Usable for testing hardware (Life Support System, EVA equipment, etc)
The SHEE habitat is a simulator which offers significant opportunities for the further development and evolution of extra-terrestrial habitable structures and technology.
The main objective of SHEE is the effective integration of architecture and robotics for autonomous deployment of a self-sufficient habitat for both space applications and extreme environments on earth. It is be-ing developed for mission simulations where analogue environments are required and supports various crew activities and hardware tests.
SHEE also provides a feasible solution for near term human space exploration.
To integrate human labour into construction on the lunar or Martian surface or disaster zones on earth is very risky, complex and costly. Self-deployable, autonomous habitats will mitigate constructionsafety risks, reduce costs and require minimal infrastructural systems and machinery.
Project Partner & Coordinator:
International Space University
Dr. Barnaby Osborne1 rue Jean-Dominique Cassini67400 Illkirch-Graffenstaden, FranceE-Mail: barnaby.osborne @ isunet.eduPhone: +33 3 88 65 54 30
AUSTRIALIQUIFER Systems GroupDr. Barbara ImhofObere Donaustrasse 97/1/621020 Vienna, AustriaE-Mail: bimhof @ liquifer.comPhone: +43 1 21885-05
BELGIUMSpace Applications Services NVDr. Jeremi GancetLeuvensesteenweg 3251932 Zaventem, BelgiumE-Mail: jeremi.gancet @ spaceapplications.comPhone: +32 2 721 54 84
ESTONIAInstitute of Technology, University of TartuProf. Alvo AablooNooruse 150411, Tartu, Tartumaa, EestiE-Mail: alvo.aabloo @ ut.eePhone: +37 2 737 4800
FRANCECOMEXDr. Peter Weiss36, Bvd des Océans13009 Marseille, FranceE-Mail: p.weiss @ comex.frPhone: +33 4 91 29 75 36
CZECH REPUBLIC Sobriety s.r.o.Michal VajdakLoosova 579/10638 00 Brno, Czech RepublicE-Mail: micha.vajdak @ sobriety.czPhone: +42 0 541 231 696
CZECH REPUBLICSpace Innovations, s.r.o.Dr. Ondrej DouleObráncu míru 107533 13 Recany nad Labem, Czech RepublicE-Mail: doule @ spaceinnovations.net Phone: +420 605 550 273 (CZ) +1 321 806 7505 (US)