2024
Nonlinear Kinematics of Recursive Origami Inspired by the Spidron
Imada, R., Hull, T.C., Ku, J.S., & Tachi, T. (2024). 8th International Meeting on Origami in Science, Mathematics and Education (8OSME), 2024
Rigid-Ruling Folding Compatibility of Planar Creases
Mundilova, K., Nawratil, G., 8th International Meeting on Origami in Science, Mathematics and Education (8OSME), 2024
Woven Rigidly Foldable T-hedral Tubes Along Translational Surfaces
Sharifmoghaddam, K., Mundilova, K., Nawratil, G., Tachi, T., 8th International Meeting on Origami in Science, Mathematics and Education (8OSME), 2024
Slit-Folding: Actuating Curved Creases by Closing Tailored Openings
Foschi, R., Maleczek, R., Mundilova, K., Nishimoto, S.
Rigid-Ruling Curved Folding Origami Implemented with Straight Inflated Air Pouches
Zhang, Y., Tachi, T., 8th International Meeting on Origami in Science, Mathematics and Education (8OSME), 2024
Applied folded tubes for curved folding
Bernhard M., Lobe G., Maderebner R., Maleczek R., Preisinger C., “Applied folded tubes for curved folding” 8th International Meeting on Origami in Science, Mathematics and Education (8OSME), 2024
Analysis of Huffman’s Hexagonal Column with Cusps
Mundilova, K., Demaine, D., Lang, R., Tachi, T., 8th International Meeting on Origami in Science, Mathematics and Education (8OSME), 2024
2023
From Quad Filling to Wrinkled Surfaces
Kraft M., Maleczek R., Mundilova K. and TachiT. “From Quad Filling to Wrinkled Surfaces”. Advances in Architectural Geometry 2023, Berlin, Boston: De Gruyter, 2023, pp. 327-338. https://doi.org/10.1515/9783111162683-025
Crane: an integrated computational design platform for functional, foldable, and fabricable origami products
Suto, K., Noma, Y., Tanimichi, K., Narumi, K., & Tachi, T. (2023). ACM Transactions on Computer-Human Interaction, 30(4), 1-29.
Inkjet 4D print: Self-folding tessellated origami objects by inkjet UV printing
Narumi, K., Koyama, K., Suto, K., Noma, Y., Sato, H., Tachi, T., … & Kawahara, Y. (2023). ACM Transactions on Graphics (TOG), 42(4), 1-13.
Kirigami Corrugations: Strong, Modular and Programmable Plate Lattices
Parra Rubio A., Mundilova K, Preiss D., Demaine E., Gershenfeld N.,2023 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (IDETC-CIE2023). https://doi.org/10.1115/DETC2023-116481
Gluing and Creasing Paper along Curves: Computational Methods for Analysis and Design
Mundilova, K., PhD Thesis, MIT, 2023
2022
Explicit kinematic equations for degree-4 rigid origami vertices, Euclidean and non-Euclidean
Foschi R., Hull T. C., and Ku J. S. (2022). , «PHYSICAL REVIEW. E», 106, Article number: 055001, pp. 1 – 10 [articolo scientifico]
Lotus: A curved folding design tool for Grasshopper
Mundilova K., Demaine E., Foschi R., Kraft R., Maleczek R., Tachi T. (2022).ACADIA 2021 Realignments, pp. 194 – 203 Virtual, 3-6 November 2021
Origami Design Strategies for Architects and Designers. Analysis and Design of Folded Surfaces Through Algorithmic Modelling
Foschi R. (2022). , Bologna, Bologna University Press, pp. 205 (ALPHABET). Based on PhD thesis available in open access at the following link
Crane: An Integrated Computational Design Platform for Functional, Foldable, and Fabricable Origami Products
Kai Suto, Yuta Noma, Kotaro Tanimichi, Koya Narumi, and Tomohiro Tachi, “ACM Transactions on Computer-Human Interaction” https://doi.org/10.1145/3576856
Triclinic Metamaterials by Tristable Origami with Reprogrammable Frustration
Liu, K., Pratapa, P. P., Misseroni, D., Tachi, T., Paulino, G. H, Adv. Mater. 2022, 2107998. https://doi.org/10.1002/adma.202107998
Locally Flat and Rigidly Foldable Discretizations of Conic Crease Patterns with Reflecting Rule Lines
Demaine, E., Mundilova, K., Tachi, T., Proceedings of the International Conference on Geometry and Graphics (ICGG), 2022.
2021
How to use parametric curved folding design methods- a case study and comparison
Foschi R., Kraft R., Maleczek R., Mundilova K., Tachi T. (2021). Proceedings of the IASS Annual Symposium 2020/21, Guildford, University of Surrey, 2021, 7, pp. 2720 – 2730
Curved Crease Edge Rounding of Polyhedral Surfaces
Rupert Maleczek, Klara Mundilova, Tomohiro Tachi, Advances in Architectural Geometry 2020
Curved-Crease Origami Spirals Constructed from Reflected Cones
Mundilova, K., Demaine, E., Lang, R., Tachi, T., Bridges Conference Proceedings, 2023
2020
Comparison of Soft Curved Crease Surrogate Hinges
Yves Klett , Peter Middendorf , Fabian Muhs, Tomohiro Tachi, Proceedings of ASME IDETC-CIE 2020
Pop-up print: Rapidly 3D printing mechanically reversible objects in the folded state
Noma, Y., Narumi, K., Okuya, F., & Kawahara, Y. (2020, October). In Proceedings of the 33rd Annual ACM Symposium on User Interface Software and Technology (pp. 58-70).
Curved Crease Edge Rounding of Polyhedral Surfaces
Maleczek, R., Mundilova, K., Tachi, T., Proceedings of the AAG Conference, 2020
Kirigami haptic swatches: Design methods for cut-and-fold haptic feedback mechanisms
Chang, Z., Ta, T. D., Narumi, K., Kim, H., Okuya, F., Li, D., … & Kawahara, Y. (2020, April). In Proceedings of the 2020 CHI Conference on Human Factors in Computing Systems (pp. 1-12).
2018
Designing Self-Blocking Systems With Non-Flat-Foldable Degree-4 Vertices
Foschi R., Tachi T. (2018). Origami 7. The proceedings from the 7th international meeting on origami science, Mathematics, and Education., St Albans, Tarquin, Volume 3: Engeneering One, pp. 795 – 809 (atti di: 7OSME (7th International Meeting on Origami in Science, Mathematics and Education), Oxford, 5-7 September 2018)
Self-foldability of monohedral quadrilateral origami tessellations
Hull, T. C., Tachi T. (2018) Origami7: Proceedings of the 7th International Meeting on Origami Science, Mathematics, and Education, Tarquin (2018), 521-532.
2017
Conformation of a Flexible Miura Pattern on a Double Curvature Surface
Foschi R. 2017 Proc. of the 11th Asian Forum on Graphic Science (USB), pp. 1 – 10 (atti di: Asian Forum on graphic science, Tokyo, 6-10 August 2017)