AMS eBook CollectionsOne of the world's most respected mathematical collections, available in digital format for your library or institution
Origami${}^6$: II. Technology, Art, Education
About this Title
Koryo Miura, University of Tokyo, Japan, Toshikazu Kawasaki, Anan National College of Technology, Tokushima, Japan, Tomohiro Tachi, University of Tokyo, Tokyo, Japan, Ryuhei Uehara, Japan Advanced Institute of Science and Technology, Tokushima, Japan, Robert J. Lang, Langorigami, Alamo, CA and Patsy Wang-Iverson, Gabriella & Paul Rosenbaum Foundation, Bryn Mawr, PA, Editors
Publication: AMS Non-Series Monographs
Publication Year:
2015; Volume 95.2
ISBNs: 978-1-4704-1876-2 (print); 978-1-4704-2791-7 (online)
DOI: https://doi.org/10.1090/mbk/095.2
Table of Contents
Front/Back Matter
V. Origami in Technology and Science
- Yves Klett, Marc Grzeschik and Peter Middendorf – Comparison of compressive properties of periodic non-flat tessellations
- Kazuko Fuchi, Philip R. Buskohl, James J. Joo, Gregory W. Reich and Richard A. Vaia – Numerical analysis of origami structures through modified frame elements
- Yang Yang, Xilu Zhao, Sunao Tokura and Ichirou Hagiwara – A study on crash energy absorption ability of lightweight structures with truss core panel
- Evgueni T. Filipov, Tomohiro Tachi and Glaucio H. Paulino – Toward optimization of stiffness and flexibility of rigid, flat-foldable origami structures
- Joseph M. Gattas and Zhong You – Structural engineering applications of morphing sandwich structures
- Sachiko Ishida, Hiroaki Morimura and Ichiro Hagiwara – Sound-insulting performance of origami-based sandwich trusscore panels
- Jonathan Ho and Zhong You – Thin-walled deployable grid structures
- Rupert Maleczek – Deployable linear folded stripe structures
- Gunther H. Filz, Georg Grasser, Johannes Ladinig and Rupert Maleczek – Gravity and friction-driven self-organized folding
- Eiji Iwase and Isao Shim – Magnetic self-assembly of three-dimensional microstructures
- Pierluigi D’Acunto and Juan Jose Castellon Gonzalez – Folding augmented: A design method to integrate structural folding in archietecture
- Susanne Hoffmann, Martin Barej, Benedikt Gunther, Martin Trautz, Burkhard Corves and Jorg Feldhusen – Demands on an adapted design process for foldable structures
- Mukulika Ghosh, Daniel Tomkins, Jory Denny, Samuel Rodriguez, Marco Morales and Nancy M. Amato – Planning motions for shape-memory alloy sheets
- Naoya Tsuruta, Jun Mitani, Yoshihiro Kanamori and Yukio Fukui – Simple flat origami exploration system with random folds
- Rostislav Chudoba, Jan van der Woerd and Josef Hegger – ORICREATE: Modeling framework for design and manufacturing of folded plate structures
- Yoshinobu Miyamoto – Rotational erection system (res): Origami extended with cuts
- Philipp J. Mehner, Tian Liu, Majid Bigdeli Karimi, Alyssa Brodeur, Juan Paniagua, Stephanie Giles, Patricia Richard, Antoniya Nemtserova, Sanwei Liu, Roger Alperin, Sangeeta Bhatia, Martin Culpepper, Robert J. Lang and Carol Livermore – Toward engineering biological tissues by directed assembly and origami folding
- Mark C. Neyrinck – Cosmological origami: Properties of cosmic-web components when a non-stretchy dark-matter sheet folds
VI. Origami in art, design, and history
- Caterina Cumino, Emma Frigerio, Simona Gallina, Maria Luisa Spreafico and Ursula Zich – Modeling vaults in origami: A bridge between mathematics and architecture
- Yves Klett – Folding perspectives: Joys and uses of 3d anamorphic origami
- Kevin Box and Robert J. Lang – Master peace: An evolution of monumental origami
- Tine De Ruysser – Wearable metal origami
- Jeannine Mosely – Crowdsourcing origami sculptures
- Matthew Gardiner – On the aesthetics of folding and technology: Scale, dimensionality, and materiality
- Jun Maekawa – Computational problems related to paper crane in the Edo period
- Koshiro Hatori – Mitate and origami
VII. Origami in education
- Miri Golan and John Oberman – The kindergarten origametria programme
- Emma Frigerio and Maria Luisa Spreafico – Area and optimization problems
- Shi-Pui Kwan – Mathematics and art through the cubotahedron
- Arnold Tubis – Origami-inspired deductive threads in pre-geometry
- Yanping Huang and Peng-Yee Lee – Using paper folding to solve problems in school geometry
- Ali Bahmani, Kiumars Sharif and Andrew Hudson – Using origami to enrich mathematical understanding of self similarity and fractals
- Leon Poladian – Using the Fujimoto approximation technique to teach chaos theory to high school students