AWAKENED APPAREL



Awakened Apparel is a skirt inspired by the dynamic shape-changing tranformations of origami, using laminated inflation channels embedded into the very fabric of the skirt to create a more softley actuated shape change


PROJECT SUMMARY:
Fashion is a means of self-expression and an interface with the external world; it can serve as a functional barrier to the elements, but also as an aesthetic expression of our identity and behaviour. Yet our clothing is somewhat static; any modification we make through unzipping our sweatshirts or rolling up our sleaves are manual and performed by ourselves. What if our clothing had the agency to adapt to the situation moment by moment; transforming its functionality as well its mode of expression?





Vision sketch of the shape-changing skirt
in its many forms
Inflated detail of final skirt
Final skirt prototype - deflated and inflated


DESIGN PROCESS:
Experiments in different origami folds and inflation techniques led to the development of a new soft pneumatic material. Layers of anit-static film, paper and fabric fusing material were heat sealed to create inflation channels directly embedded into the skirt. Cutting these channels into a modified Miura fold and fusing them alternately on the top and underside of the skirt enabled the skirt to fold when inflated.

Early curving origami experiments
Early designs for integrating a Miura origami fold into a skirt panel



Vision sketch of the shape-changing skirt
in its many forms
Inflated detail of final skirt
Final skirt prototype - deflated and inflated




Final design for skirt inflation folding pattern - red channels are
affixed to the underside of the fabric, blue to the topside
Final design for fabrication of heat-sealed inflation channel layers



Pending publication at 8th International Conference on Tangible, Embedded and Embodied Interaction, Munich February 2014


A project by Philippa Mothersill, Laura Perovich & Jenny Broutin Farah developed at the MIT Media Lab as part of the MIT Mechanical Invention Through Computation course led by Chuck HobermanErik Demaine and Daniela Rus (May 2013)