Add to ORKGAbstract — This paper presents an end-to-end approach for creating 3D shapes by self-folding planar sheets activated by uniform heating. These shapes can be used as the mechanical bodies of robots. The input to this process is a 3D geometry (e.g. an OBJ file). The output is a physical object with the specified geometry. We describe an algorithm pipeline that (1) identifies the overall geometry of the input, (2) computes a crease pattern that causes the sheet to self-fold into the desired 3D geometry when activated by uniform heating, (3) automatically generates the design of a 2D sheet with the desired pattern and (4) automatically generates the design files required to fabricate the 2D structure. We demonstrate these algorithms by applying...
© Springer International Publishing AG 2017. We present two universal hinge patterns that enable a s...
Origami can turn a sheet of paper into complex three-dimensional shapes, and similar folding techniq...
Laser cutting is an appealing fabrication process due to the low cost of materials and extremely fas...
This paper presents an end-to-end approach to automate the design and fabrication process for self-f...
This paper presents an end-to-end approach to automate the design and fabrication process for self-f...
Traditional origami structures fold along pre-defined hinges, and the neighboring facets of the hing...
Abstract — Self-folding enables the fabrication of sophisti-cated shapes from planar materials witho...
Materials and devices with advanced functionalities often need to combine complex 3D shapes with fun...
We introduce a pipeline for simplifying digital 3D shapes and fabricate them using 2D polygonal flat...
Self-folding or micro-origami technologies are actively investigated as a novel manufacturing proces...
Nature uses various activation mechanisms to program complex transformations in the shape and functi...
This thesis describes a self-folding sheet that is capable of origami-style autonomous folding. We d...
The process of designing and programming a new robot requires expert knowledge and design skills tha...
Abstract — Nature regularly uses self-folding as an efficient approach to automated fabrication. In ...
Figure 1: Thin-plate forms modeled by soft folding. Subfigures visualize their corresponding fold an...
© Springer International Publishing AG 2017. We present two universal hinge patterns that enable a s...
Origami can turn a sheet of paper into complex three-dimensional shapes, and similar folding techniq...
Laser cutting is an appealing fabrication process due to the low cost of materials and extremely fas...
This paper presents an end-to-end approach to automate the design and fabrication process for self-f...
This paper presents an end-to-end approach to automate the design and fabrication process for self-f...
Traditional origami structures fold along pre-defined hinges, and the neighboring facets of the hing...
Abstract — Self-folding enables the fabrication of sophisti-cated shapes from planar materials witho...
Materials and devices with advanced functionalities often need to combine complex 3D shapes with fun...
We introduce a pipeline for simplifying digital 3D shapes and fabricate them using 2D polygonal flat...
Self-folding or micro-origami technologies are actively investigated as a novel manufacturing proces...
Nature uses various activation mechanisms to program complex transformations in the shape and functi...
This thesis describes a self-folding sheet that is capable of origami-style autonomous folding. We d...
The process of designing and programming a new robot requires expert knowledge and design skills tha...
Abstract — Nature regularly uses self-folding as an efficient approach to automated fabrication. In ...
Figure 1: Thin-plate forms modeled by soft folding. Subfigures visualize their corresponding fold an...
© Springer International Publishing AG 2017. We present two universal hinge patterns that enable a s...
Origami can turn a sheet of paper into complex three-dimensional shapes, and similar folding techniq...
Laser cutting is an appealing fabrication process due to the low cost of materials and extremely fas...