Add to ORKGThis paper presents a surface manipulation tool that can transform any arrangement of folding planar surfaces without the need to custom program for each instance. Origami offers a finite set of paper-folding techniques that can be cataloged and tested with parametric modeling software. For this work, Rhinoceros and Grasshopper have been chosen as a software platform to generate a parametric folding tool focusing on single surface folding, particularly where surfaces can transform from one configuration to another while retaining their planarity
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
Creased sheets can possess an exponential number of folding pathways accessible from the flat state....
Figure 1: Thin-plate forms modeled by soft folding. Subfigures visualize their corresponding fold an...
Origami is the art of folding paper. Traditionally, origami models have been recorded as a sequence...
Folding strategies in architecture have been explored since the 1990s - if not before - as a method ...
Origami, a traditional Japanese art, is an example of superior handwork produced by human hands. Ach...
Rigid Origami folding surfaces have very interesting qualities for Architecture and Engi-neering for...
Geometry is the first origami property observed, but this is followed by symmetry, balance and propo...
Origami has many applications where a large surface area must be compacted to minimize volume. The p...
Origami can turn a sheet of paper into complex three-dimensional shapes, and similar folding techniq...
From constructing a midpoint on a line to observing specific divisions of a plane, the art form of O...
We investigate a new approach to origami design using simple universal hinge patterns where the crea...
Geometrical shape of folded structure is closely related to origami especially the tessellation orig...
Origami shape transformation is dictated by predefined folding patterns and their folding sequence. ...
Recent advances in robotics engineering have enabled the realization of self-folding machines. Rigid...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
Creased sheets can possess an exponential number of folding pathways accessible from the flat state....
Figure 1: Thin-plate forms modeled by soft folding. Subfigures visualize their corresponding fold an...
Origami is the art of folding paper. Traditionally, origami models have been recorded as a sequence...
Folding strategies in architecture have been explored since the 1990s - if not before - as a method ...
Origami, a traditional Japanese art, is an example of superior handwork produced by human hands. Ach...
Rigid Origami folding surfaces have very interesting qualities for Architecture and Engi-neering for...
Geometry is the first origami property observed, but this is followed by symmetry, balance and propo...
Origami has many applications where a large surface area must be compacted to minimize volume. The p...
Origami can turn a sheet of paper into complex three-dimensional shapes, and similar folding techniq...
From constructing a midpoint on a line to observing specific divisions of a plane, the art form of O...
We investigate a new approach to origami design using simple universal hinge patterns where the crea...
Geometrical shape of folded structure is closely related to origami especially the tessellation orig...
Origami shape transformation is dictated by predefined folding patterns and their folding sequence. ...
Recent advances in robotics engineering have enabled the realization of self-folding machines. Rigid...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
Creased sheets can possess an exponential number of folding pathways accessible from the flat state....
Figure 1: Thin-plate forms modeled by soft folding. Subfigures visualize their corresponding fold an...