Difference between revisions of "Team:Stanford-Brown/Vision"
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<p class="pf">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)</p> | <p class="pf">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)</p> | ||
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| + | <img class="featurette-image img-responsive center-block" src="https://static.igem.org/mediawiki/2015/8/8c/SB2015_ISSdiagram.jpg" alt="show the picture"> | ||
<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> | ||
Revision as of 20:50, 10 September 2015
Our Vision for BiOrigami
Applying bioengineering to space exploration
BiOrigami can improve mission capabilities by conserving volume
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!
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