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[[Project06:A4|'''A4''']]
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=='''Project Abstract'''==
=='''Project Abstract'''==
Focused on lunar gravity movement, especially the bounce as a key spatial generator.
This project proposes a deployable "Active Envelope" for Moon habitats, integrating human movement, parametric design, and soft actuator technology.


Identified how 1/6 g reshapes body posture, trajectory curves, and timing of motion.
First, the design is driven by interior human movement. A parametric design system simulates daily astronaut activities (working, living, sleeping) to generate the most efficient spatial volume and shape.


Collected references from Apollo footage, parabolic flights, underwater neutral-buoyancy training, and animations to understand realistic movement patterns.
Second, to build this shape on the Moon, the envelope functions as an inflatable soft actuator. Driven by air pressure, this lightweight structure is easy to transport and deploy, avoiding heavy traditional building materials.


Defined the goal: map the jump arc to derive scalable spatial rules for movable architecture.
Ultimately, parametric design defines the optimal living space, while soft actuator technology enables its physical expansion and rigidity. Together, they create a highly adaptable and smart lunar architecture.


== '''Presentation''' ==
== '''Presentation''' ==


<html>
<html>
<iframe src="https://tud365-my.sharepoint.com/personal/peixingyang_tudelft_nl/_layouts/15/Doc.aspx?sourcedoc={d75ec8c5-4d8f-428a-bcba-9260352863c5}&amp;action=embedview&amp;wdAr=1.7777777777777777" frameborder="0" height="500px" width="100%" title="PowerPoint Viewer" allowfullscreen="true" webkitallowfullscreen="true" mozallowfullscreen="true"></iframe>
<iframe  
    src="https://docs.google.com/presentation/d/123c_i2MiXp6Rej4tZW6v9bjT7L8_TIwy/embed?start=false&loop=false&delayms=3000"  
    frameborder="0"  
    width="850px"  
    height="500px"  
    allowfullscreen="true"  
    mozallowfullscreen="true"  
    webkitallowfullscreen="true">
</iframe>
</html>
</html>


'''Zoom Link'''
'''Zoom Link'''
https://tudelft.zoom.us/j/94159913691
https://tudelft.zoom.us/j/94159913691

Latest revision as of 12:24, 10 June 2026


Project Abstract

This project proposes a deployable "Active Envelope" for Moon habitats, integrating human movement, parametric design, and soft actuator technology.

First, the design is driven by interior human movement. A parametric design system simulates daily astronaut activities (working, living, sleeping) to generate the most efficient spatial volume and shape.

Second, to build this shape on the Moon, the envelope functions as an inflatable soft actuator. Driven by air pressure, this lightweight structure is easy to transport and deploy, avoiding heavy traditional building materials.

Ultimately, parametric design defines the optimal living space, while soft actuator technology enables its physical expansion and rigidity. Together, they create a highly adaptable and smart lunar architecture.

Presentation

Zoom Link https://tudelft.zoom.us/j/94159913691

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