Difference between revisions of "Team:Stanford-Brown/Vision"

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       <h2 class="featurette-heading">Our Vision<span class="small"> to create biological origami aka BiOrigami</span></h2>
 
       <h2 class="featurette-heading">Our Vision<span class="small"> to create biological origami aka BiOrigami</span></h2>
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       <p class="lead">maybe here we can talk about how we asked planetary scientists/other experts about how this technology could be used, and show a 60 second video compilation of this?</p>
 
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   <p class="pf">our solution: flat pack 2D printed sheets that can be converted into 3D structures for manned missions. create self-folding and self-unfolding structures for unmanned missions. create self-unfolding solar-powered weather stations/other data collecting probes to be dispersed onto martian surface</p>
 
   <p class="pf">our solution: flat pack 2D printed sheets that can be converted into 3D structures for manned missions. create self-folding and self-unfolding structures for unmanned missions. create self-unfolding solar-powered weather stations/other data collecting probes to be dispersed onto martian surface</p>
 
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Revision as of 22:31, 8 September 2015

The Vision

Our Vision for BiOrigami

Applying bioengineering to space exploration

Our Vision to create biological origami aka BiOrigami

maybe here we can talk about how we asked planetary scientists/other experts about how this technology could be used, and show a 60 second video compilation of this?

introduction about the volume constraints of space travel. it would be nice to insert an image below here, showing how a 5m payload fairing compares to the sizes of various spacecraft (hubble, james webb, ISS) also show how origami is used in space today (folding solar panels, james webb)

our solution: flat pack 2D printed sheets that can be converted into 3D structures for manned missions. create self-folding and self-unfolding structures for unmanned missions. create self-unfolding solar-powered weather stations/other data collecting probes to be dispersed onto martian surface

The full interview! See it in all its glory!

Donec ullamcorper nulla non metus auctor fringilla. Vestibulum id ligula porta felis euismod semper. Praesent commodo cursus magna, vel scelerisque nisl consectetur. Fusce dapibus, tellus ac cursus commodo.

Generic placeholder image
Copyright © 2015 Stanford-Brown iGEM Team