Difference between revisions of "Msc1G8:Workshop"

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[[File:IB5_Cover02.jpg]]
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[[Group 8 Layout1a.jpg]]
  
=='''NAME OF PROJECT <Simulation + Prototype>'''==
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=='''Nexus <Simulation + Prototype>'''==
 
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<iframe src="https://player.vimeo.com/video/126749919" width="850" height="478" frameborder="0" webkitallowfullscreen mozallowfullscreen allowfullscreen></iframe> <p><a href="https://vimeo.com/126749919">Showreel_(CodingGraphic) by P&amp;A LAB, Jia-Rey Chang: 2010-2014+</a> from <a href="https://vimeo.com/user4447051">P&amp;A LAB</a> on <a href="https://vimeo.com">Vimeo</a>.</p>
 
<iframe src="https://player.vimeo.com/video/126749919" width="850" height="478" frameborder="0" webkitallowfullscreen mozallowfullscreen allowfullscreen></iframe> <p><a href="https://vimeo.com/126749919">Showreel_(CodingGraphic) by P&amp;A LAB, Jia-Rey Chang: 2010-2014+</a> from <a href="https://vimeo.com/user4447051">P&amp;A LAB</a> on <a href="https://vimeo.com">Vimeo</a>.</p>
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=='''NAME OF PROJECT (Short Description)'''==
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=='''NEXUS (Short Description)'''==
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The aim of the Nexus structure is managing to make a self-supporting, expandable and flexible surface in order to produce different spatial configurations. To do so, we used as base an origami tessellation, which is basically a folding tiling on a plane, using one or more geometric shapes. This surface based on triangles, allows the possibility of expansion and contraction by folding. To control these actions on the surface, a motor will be placed between each triangle and wires are attached to certain points in the structure. By the combination of specific strength, tension and looseness, several spatial qualities can be produced
  
 
=='''PRESENTATION (From Component to Organ)'''==
 
=='''PRESENTATION (From Component to Organ)'''==
[[File:exp.jpg|210px]][[File:exp.jpg|210px]][[File:exp.jpg|210px]][[File:exp.jpg|210px]]
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[[Group 8 Layout2a.jpg|210px]][[Group 8 Layout3a.jpg|210px]][[Group 8 Layout4a.jpg]][[Group 8 Layout5a.jpg]]
[[File:exp.jpg|210px]][[File:exp.jpg|210px]][[File:exp.jpg|210px]][[File:exp.jpg|210px]]
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[[File:exp.jpg|210px]][[File:exp.jpg|210px]][[File:exp.jpg|210px]][[File:exp.jpg|210px]]
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[[File:exp.jpg|210px]][[File:exp.jpg|210px]][[File:exp.jpg|210px]][[File:exp.jpg|210px]]
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[[File:exp.jpg|210px]][[File:exp.jpg|210px]][[File:exp.jpg|210px]][[File:exp.jpg|210px]]
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Revision as of 02:26, 16 November 2015

Group 8 Layout1a.jpg

Nexus <Simulation + Prototype>

Showreel_(CodingGraphic) by P&A LAB, Jia-Rey Chang: 2010-2014+ from P&A LAB on Vimeo.

InteractiveBody 4.0 workshop from P&A LAB on Vimeo.

NEXUS (Short Description)

The aim of the Nexus structure is managing to make a self-supporting, expandable and flexible surface in order to produce different spatial configurations. To do so, we used as base an origami tessellation, which is basically a folding tiling on a plane, using one or more geometric shapes. This surface based on triangles, allows the possibility of expansion and contraction by folding. To control these actions on the surface, a motor will be placed between each triangle and wires are attached to certain points in the structure. By the combination of specific strength, tension and looseness, several spatial qualities can be produced

PRESENTATION (From Component to Organ)

210px210pxGroup 8 Layout4a.jpgGroup 8 Layout5a.jpg