Add to ORKGOrigami can turn a sheet of paper into complex three-dimensional shapes, and similar folding techniques can produce structures and mechanisms. To demonstrate the application of these techniques to the fabrication of machines, we developed a crawling robot that folds itself. The robot starts as a flat sheet with embedded electronics, and transforms autonomously into a functional machine. To accomplish this, we developed shape-memory composites that fold themselves along embedded hinges. We used these composites to recreate fundamental folded patterns, derived from computational origami, that can be extrapolated to a wide range of geometries and mechanisms. This origami-inspired robot can fold itself in 4 minutes and walk away without human i...
Traditional design tools and fabrication methods implicitly prevent mechanical engineers from encaps...
Origami is generally associated with decorative art, not the engineeringworld. For some time now, ho...
This work presents a technique which allows the application of 2-D fabrication methods to build 3-D ...
This paper presents an end-to-end approach to automate the design and fabrication process for self-f...
Origami, a traditional Japanese art, is an example of superior handwork produced by human hands. Ach...
Abstract — Programmable matter is a material that produces distinctive shapes or patterns according ...
Origami robots are machines whose morphologies and functions are created by folding locally flat she...
Abstract—This paper presents an origami-inspired technique which allows the application of 2-D fabri...
Abstract — Self-assembling robots can be transported and deployed inexpensively and autonomously in ...
Changing the inherent physical capabilities of robots by metamorphosis has been a long-standing goal...
This paper presents an end-to-end approach to automate the design and fabrication process for self-f...
Locomotive robots that do not rely on electronics and/or electromagnetic components will open up new...
Changing the inherent physical capabilities of robots by metamorphosis has been a long-standing goal...
Recent advances in robotics engineering have enabled the realization of self-folding machines. Rigid...
Folding is an efficient way of constructing 3D structures. It requires less energy to manufact...
Traditional design tools and fabrication methods implicitly prevent mechanical engineers from encaps...
Origami is generally associated with decorative art, not the engineeringworld. For some time now, ho...
This work presents a technique which allows the application of 2-D fabrication methods to build 3-D ...
This paper presents an end-to-end approach to automate the design and fabrication process for self-f...
Origami, a traditional Japanese art, is an example of superior handwork produced by human hands. Ach...
Abstract — Programmable matter is a material that produces distinctive shapes or patterns according ...
Origami robots are machines whose morphologies and functions are created by folding locally flat she...
Abstract—This paper presents an origami-inspired technique which allows the application of 2-D fabri...
Abstract — Self-assembling robots can be transported and deployed inexpensively and autonomously in ...
Changing the inherent physical capabilities of robots by metamorphosis has been a long-standing goal...
This paper presents an end-to-end approach to automate the design and fabrication process for self-f...
Locomotive robots that do not rely on electronics and/or electromagnetic components will open up new...
Changing the inherent physical capabilities of robots by metamorphosis has been a long-standing goal...
Recent advances in robotics engineering have enabled the realization of self-folding machines. Rigid...
Folding is an efficient way of constructing 3D structures. It requires less energy to manufact...
Traditional design tools and fabrication methods implicitly prevent mechanical engineers from encaps...
Origami is generally associated with decorative art, not the engineeringworld. For some time now, ho...
This work presents a technique which allows the application of 2-D fabrication methods to build 3-D ...