Mars Science City – Space Architecture Design Studio 2020
The Mars Science City design studio topic fits into the long-term vision to build a human settlement on Mars. The students were first asked to look far into the future and imagine what a city on Mars would be like. How do they think people would live in about 100 years on another planet? What would they take with them from Earth, and what would they want to see totally different? The student teams have developed a conceptual vision of this city. In parallel they researched and worked on the environmental, technical and social challenges of getting to and being on Mars. Each team was asked to identify three major challenges and / or characteristics, based on their vision. What would be needed to start the settlement in order to become the city they have imagined? This was the most challenging part for the student’s teams, and became the starting point for the individual architectural solutions of the near-term project on Mars. Design Task S. 6 Teaching Team S. 16 The Students S. 24 Projects DUNE S. 30 Moving Mars S. 42 Terra Mars S. 54 AB-ORIGO S. 66 Protocity S. 76 Dune Haranea S. 86 Lighthouse S. 94 Arcadia City S. 104 Apoikia S. 114 Adventus S. 122 Ice Age S. 138 Teaching Team: Sandra Häuplik-Meusburger (Studio Director), Alexander S., Bannova O., Bier H., Bishop S., Ciardullo C., Esfand M., Farmwald L., Frischauf N., Gourlis B., Grömer G., Kahr F., Lamborelle O., Makaya A., Nixon D., Perino M., Russ C., Schechtner K., Schwehm G., Wong D.; Students: Binder D., Brajic A., Gojkovic B., Brückler A., Hamzic E., Kaprinayova E., Stauber B., Vorraber J., Podwalski K., Adnan M., Trinca E., Ahr S., Bula M., Ivanonva M., Stoyanova S., Graf J., Kugic A., Neumerkel R., Vecerdi M., Glinac M., Ramovic A., Schneider G., Ajdari S., Mujedini X., Gündar J.
The Mars Science City design studio topic fits into the long-term vision to build a human settlement on Mars. The students were first asked to look far into the future and imagine what a city on Mars would be like. How do they think people would live in about 100 years on another planet? What would they take with them from Earth, and what would they want to see totally different? The student teams have developed a conceptual vision of this city. In parallel they researched and worked on the environmental, technical and social challenges of getting to and being on Mars. Each team was asked to identify three major challenges and / or characteristics, based on their vision. What would be needed to start the settlement in order to become the city they have imagined? This was the most challenging part for the student’s teams, and became the starting point for the individual architectural solutions of the near-term project on Mars.
Design Task S. 6
Teaching Team S. 16
The Students S. 24
Projects
DUNE S. 30
Moving Mars S. 42
Terra Mars S. 54
AB-ORIGO S. 66
Protocity S. 76
Dune Haranea S. 86
Lighthouse S. 94
Arcadia City S. 104
Apoikia S. 114
Adventus S. 122
Ice Age S. 138
Teaching Team: Sandra Häuplik-Meusburger (Studio Director), Alexander S., Bannova O., Bier H., Bishop S., Ciardullo C., Esfand M., Farmwald L., Frischauf N., Gourlis B., Grömer G., Kahr F., Lamborelle O., Makaya A., Nixon D., Perino M., Russ C., Schechtner K., Schwehm G., Wong D.;
Students: Binder D., Brajic A., Gojkovic B., Brückler A., Hamzic E., Kaprinayova E., Stauber B., Vorraber J., Podwalski K., Adnan M., Trinca E., Ahr S., Bula M., Ivanonva M., Stoyanova S., Graf J., Kugic A., Neumerkel R., Vecerdi M., Glinac M., Ramovic A., Schneider G., Ajdari S., Mujedini X., Gündar J.
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HB2 | MARS SCIENCE CITY
SUMMARY
Architecture on Earth plays a critical role in the
way we live, but the conditions on Mars are
unlike anything on Earth (high radiation, thin
atmosphere, seasonal dust storms, etc.). With
these challenges, building on Mars reaches
a higher level of importance, since buildings
are like machines that keep humans alive and
well. Planning in advance and developing a
sustainable process that minimizes energy,
space and resource consumption is therefore
of great importance.
The main idea of the project is to build a selfsustainable
habitat, which eventually developes
into a city. Ab-Origo (lat. from the beginning)
is 3D-printed in-situ and robotically assembled.
Structures are thought to be resilient and interior
layouts tuned to mission demands and mental
health of the crew.
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2022: scouting for a suitable
piece of land and resources
pop.: 0
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2030: starting life in the temporary habitat and starting
the production of sustainable nurishment and power
pop.: 6
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TIMELINE
pop. = population
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2026: sending a ship with basic structures
that allow humans to live on Mars temporarily
and starting to build a habitat
pop.: 0
68