Difference between revisions of "Shared:2023W4G2Design"

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<span style="font-size: 20.5px; color: grey;">'''DOORWAYS TO THE UNDERWORLD'''</span><br>
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<span style="font-size: 40.5px; color: grey;">'''Settling in the cracks of Mars'''</span><br>
  
 
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[[File:AR0122-IAPW-2023_Group2_Week2_ConceptPresentation_1.png|850px]]
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we began the design by studying the existing references. Based on reference research, Underground rhizomatic structure with skylights, [http://cs.roboticbuilding.eu/index.php/2019MSc3 Rhizome 1.0] and some other researches, building underground has many advantages, such as better temperature control against drastic shifts and protection from harmful radiation on Mars. "Dust storms, cosmic rays and solar winds ravage the Red Planet's surface. But belowground, some life might find refuge". [https://www.space.com/martian-crust-could-sustain-life-through-radiation Martian crust could sustain life through radiation]
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We began the design by studying the existing reference projects. According to prior research, an underground rhizomatic structure with skylights, [http://cs.roboticbuilding.eu/index.php/2019MSc3 Rhizome 1.0], it seems evident that building underground has many advantages. For example, a better temperature control against drastic shifts and protection from harmful radiation on Mars. "Dust storms, cosmic rays and solar winds ravage the Red Planet's surface. But belowground, some life might find refuge". [https://www.space.com/martian-crust-could-sustain-life-through-radiation Martian crust could sustain life through radiation]. The excavation of martian soil is a labor intensive task that could cost valueble time. Rather than digging in the soil, the existing cracks in the martian surface can be used as underground spaces for the habitat.
  
  
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(Image credit: NASA/JPL/University of Arizona)
 
(Image credit: NASA/JPL/University of Arizona)
  
[[File:Cracks-and-weeds.jpg|750px]]
 
 
 
=='''Research'''==
 
 
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<iframe src="https://docs.google.com/presentation/d/e/2PACX-1vSW1Xl8kKMYqlYQkkSDyd2oNvmsQCSZFPbHukgqu5kn3QQyKXo9YCn2MlZx-D0DUFs3iysWwwWb_8dL/embed?start=false&loop=false&delayms=3000" frameborder="0" width="960" height="749" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe>
 
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=='''DESIGN CONCEPT'''==
 
  
[[File:MainConceptGroup2.png]|350px]
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'''Design Principles'''
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[[File:Design_Process_for_Wiki.jpg|750px]]
<iframe src="https://docs.google.com/presentation/d/e/2PACX-1vSQmBjPuYUTWTiNWvnAfvH7XQZSqujvoKGTKnQAz2Co2ZXIgHKF1UnGupp38ljz1jOgCSTVza0pLQOb/embed?start=false&loop=false&delayms=10000" frameborder="0" width="960" height="749" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe>
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=='''MATERIAL'''==
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'''1:20 Model'''
[[File:Lunar_regolith.jpg|400px]]
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[https://en.wikipedia.org/wiki/Regolith#Mars Wikipedia]
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[[File:IAP2023_group2_3Dprinted_model.jpg|700px]]

Latest revision as of 06:44, 25 April 2023


Settling in the cracks of Mars


Render view 1 cut.jpg


Group 2: Mohammad Behboodi - Sumeet Joshi - Dost Sahingoz - Majd Shahoud




INTRO

We began the design by studying the existing reference projects. According to prior research, an underground rhizomatic structure with skylights, Rhizome 1.0, it seems evident that building underground has many advantages. For example, a better temperature control against drastic shifts and protection from harmful radiation on Mars. "Dust storms, cosmic rays and solar winds ravage the Red Planet's surface. But belowground, some life might find refuge". Martian crust could sustain life through radiation. The excavation of martian soil is a labor intensive task that could cost valueble time. Rather than digging in the soil, the existing cracks in the martian surface can be used as underground spaces for the habitat.


==Choosing the LOCATION on Mars==:

The fractured surface polygons that can be seen around the craters on mars. Scientists estimate that on the surface of Mars, there are more than 43,000 impact craters with diameters greater than 5 kilometers. "The Martian crater polygons shows cracks on both large and small size scales. The larger cracks are more than 100 metres long and up to 10 metres wide". this pattern resembles the pattern of dried-up mud pools on earth. Places on Mars that show polygonal ground may indicate where future colonists may find water ice. Cracks on Mars


Crater on Mars.jpg Polygonal Patterned Ground.jpg

(Image credit: NASA/JPL/University of Arizona)


Design Principles Design Process for Wiki.jpg

1:20 Model

IAP2023 group2 3Dprinted model.jpg