![]() By taking advantage of 3D printing technology and textile materiality, we were able to create structures that engage the community, create a more sustainable world, and amplify the arts. Experimentation included textile bonding tests, joinery and structure development for safe public use. ![]() Fold the left corner down to meet the bottom. Fold the layer to meet the middle crease. Fold one layer to meet the middle crease so that the colored sides now show again. Through experimentation of 3D printing structural components onto textiles, we were able to create a breathable structure that mimics the folding process of traditional origami tessellations, where the textile acts as the folding plane, with the printed components allowing it to hold its form. Start with the paper colored side up and fold in half. The modular system allows the origami structures to be placed wherever necessary, but also have the ability to be connected together for larger gathering spaces. Structures were designed to be lightweight, and collapsible for quick assembly and transport. This project focused on developing temporary structures that will aid communities during this pandemic and in the future, by providing shelter from the elements, outdoor seating, and interactive pavilion spaces through a modular system of origami inspired structures. Public outdoor spaces have become a necessity for businesses, communities, and individuals who need a break from monotonous interiors. VRViewfinder - Engaging bystanders in VR-based Interactive Media Using Auxiliary Viewing Devicesĭuring times of social distancing, communities need access to safe and interactive spaces outside of their homes. Virtual Museums: Avatar-guided and Game-based Experiences for Learning and Engagement Sonically-enhanced gesture-based in-vehicle menu navigation Lightmare - An Immersive Exploration of Dreams and Nightmares InstAllTech - Online Installation and Assistance Guides for All Things Technology ![]() In-vehicle intelligent voice agent: Speech style vs. #VTDITC: Hip Hop Studies at Virginia TechĪcoustic Situation Awareness and Its Effects on Pedestrian Safety within a Virtual EnvironmentĪRCH | Architecture Creation Club, bridging design and the environmentĬome SEE the Place-Based FEW (Food-Energy-Water) Nexus Curriculum Designed for Rural Middle Schoolersĭebating Higher Education's Networked Futuresĭestination Areas: Building Transdisciplinary Research and Learning Communities I'm sure once I add the how-to video it will be more clear.īelow is a video of a larger PHiZZ ball that I made and will cover soon in another Instructable.Domhnaill Hernon explores how our humanity is at the center of the hybrid world.Ĭreativity and innovation thought leaders sharing their thoughts about exemplary ICAT Creativity + Innovation Day projectsĬreators of exemplary projects share their processes and products If you get confused feel free to comment and I'll try to explain it. To make the ball you just need to keep adding onto this ring to make more pentagon rings and eventually a ball will form. Keep forming the ring until you have a pentagon shape as shown. Keep adding more units in this fashion to create more triangular peaks. Eventually a ring will start to form, this is a good thing. The three pieces together will form a triangular peak. Once Piece 3 has been tucked into Piece 2, the pocket on Piece 3 will need to be opened so Piece 1 and be tucked inside, as shown in the seventh picture. Open the pocket on Piece 2 so that Piece 3 can be tucked into it, fifth picture. You'll notice that the crease lines will match up to lock it in a little. Start by insetting Piece 2 into Piece 1, as in the second picture. ![]() Once you have 30 units it's time to assemble them into a ball.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |