Yuta Noma scite author profile

Yuta Noma

5Publications

10Citation Statements Received

57Citation Statements Given

How they've been cited

How they cite others

141

Affiliations

The University of Tokyo

Publications

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Crane: An Integrated Computational Design Platform for Functional, Foldable, and Fabricable Origami Products

Suto

Noma

Tanimichi

et al. 2023

ACM Trans. Comput.-Hum. Interact.

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Despite the recent trend of computational origami for human-computer interaction (HCI) and digital fabrication, it is still difficult for designers to complete a series of design, simulation, and fabrication of objects leveraging computational origami theory. In this paper, we propose Crane, an integrated origami design platform implemented with Grasshopper. With this platform, users can seamlessly (1) design the 2D and 3D crease pattern, (2) simulate 3D folding transformation from the given crease pattern, (3) inversely find a new pattern under design constraints, (4) thicken the 2D pattern into a 3D volume along with the appropriate hinge structures for different fabrication methods, and (5) optionally connect the resulting design to other Rhinoceros or Grasshopper plugins for post-processes. To help understand how to use our system and demonstrate its feasibility, we showed three examples of origami products designed using our system. We also reported user feedback from the workshop as an evaluation.

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Fast Editing of Singularities in Field-Aligned Stripe Patterns

Noma

Umetani

Kawahara

2022

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Inkjet 4D Print: Self-folding Tessellated Origami Objects by Inkjet UV Printing

et al. 2023

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We propose Inkjet 4D Print, a self-folding fabrication method of 3D origami tessellations by printing 2D patterns on both sides of a heat-shrinkable base sheet, using a commercialized inkjet ultraviolet (UV) printer. Compared to the previous folding-based 4D printing approach using fused deposition modeling (FDM) 3D printers [An et al. 2018], our method has merits in (1) more than 1200 times higher resolution in terms of the number of self-foldable facets, (2) 2.8 times faster printing speed, and (3) optional full-color decoration. This paper describes the material selection, the folding mechanism, the heating condition, and the printing patterns to self-fold both known and freeform tessellations. We also evaluated the self-folding resolution, the printing and transformation speed, and the shape accuracy of our method. Finally, we demonstrated applications enabled by our self-foldable tessellated objects.

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Blow-up Print: Rapidly 3D Printing Inflatable Objects in the Compressed State

Matsuura

Narumi

Aoki

et al. 2022

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Noma

Narumi

Okuya

et al. 2020

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Yuta Noma

Crane: An Integrated Computational Design Platform for Functional, Foldable, and Fabricable Origami Products

Fast Editing of Singularities in Field-Aligned Stripe Patterns

Inkjet 4D Print: Self-folding Tessellated Origami Objects by Inkjet UV Printing

Blow-up Print: Rapidly 3D Printing Inflatable Objects in the Compressed State

Pop-up Print

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