Rigid Origami folding surfaces have very interesting qualities for Architecture and Engi-neering for their geometric, structural and elastic qualities. The ability to turn a flat element, isotropic, without any structural capacity, into a self-supporting element through folds in the material opens the door to a multitude of uses. Besides that the intrinsic geometry of the crease pattern may allow the surface to assume doubly curved forms while the flat element, before the folding, could never do it without the deformation of the material. (Schenk, 2011) (Demaine, 2011). The main objective of this PhD research is to reach a workflow from the definition of the geometry of the flat foldable surfaces to their implementation on a construction si...
This paper presents a mathematical framework for the design of rigid-foldable doubly curved origami ...
From constructing a midpoint on a line to observing specific divisions of a plane, the art form of O...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
Geometrical shape of folded structure is closely related to origami especially the tessellation orig...
produced by the motion planner proposed in this paper. Abstract — Recent advances in robotics engine...
Rigid foldability allows an origami pattern to fold about crease lines without twisting or stretchin...
Abstract Flat-foldable origami tessellations are periodic geometric designs that can ...
Recent advances in robotics engineering have enabled the realization of self-folding machines. Rigid...
Origami provides novel approaches to the fabrication, assembly, and functionality of engineering str...
This dissertation details the geometry and kinematics of novel origami tessellation structures desig...
This paper presents a mathematical framework for the design of rigid-foldable doubly curved origami ...
While origami is an ancient art form, its application in engineering science has only been populariz...
Rigid origami is about folding flat inextensional facets which are connected by creases. It is gaini...
Rigid origami is a class of origami whose entire surface remains rigid during folding except at crea...
This paper presents a mathematical framework for the design of rigid-foldable doubly curved origami ...
This paper presents a mathematical framework for the design of rigid-foldable doubly curved origami ...
From constructing a midpoint on a line to observing specific divisions of a plane, the art form of O...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
Geometrical shape of folded structure is closely related to origami especially the tessellation orig...
produced by the motion planner proposed in this paper. Abstract — Recent advances in robotics engine...
Rigid foldability allows an origami pattern to fold about crease lines without twisting or stretchin...
Abstract Flat-foldable origami tessellations are periodic geometric designs that can ...
Recent advances in robotics engineering have enabled the realization of self-folding machines. Rigid...
Origami provides novel approaches to the fabrication, assembly, and functionality of engineering str...
This dissertation details the geometry and kinematics of novel origami tessellation structures desig...
This paper presents a mathematical framework for the design of rigid-foldable doubly curved origami ...
While origami is an ancient art form, its application in engineering science has only been populariz...
Rigid origami is about folding flat inextensional facets which are connected by creases. It is gaini...
Rigid origami is a class of origami whose entire surface remains rigid during folding except at crea...
This paper presents a mathematical framework for the design of rigid-foldable doubly curved origami ...
This paper presents a mathematical framework for the design of rigid-foldable doubly curved origami ...
From constructing a midpoint on a line to observing specific divisions of a plane, the art form of O...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...