Technology, art, education
著者
書誌事項
Technology, art, education
(Origami 6 : proceedings of the sixth international meeting on origami science, mathematics, and education / Koryo Miura ... [et al.], editors, 2)
American Mathematical Society, c2015
大学図書館所蔵 全12件
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  鳥取
  島根
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  広島
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  香川
  愛媛
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  福岡
  佐賀
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注記
"... the 6th International Meeting on Origami Science, Mathematics, and Education (6OSME), which took place August 11-13, 2014, in Tokyo, Japan."-- Acknowledgements
Includes bibliographical references and index
内容説明・目次
内容説明
A unique collection of papers illustrating the connections between origami and a wide range of fields. The papers compiled in this two-part set were presented at the 6th International Meeting on Origami in Science, Mathematics and Education (10-13 August 2014, Tokyo, Japan). They display the creative melding of origami (or, more broadly, folding) with fields ranging from cell biology to space exploration, from education to kinematics, from abstract mathematical laws to the artistic and aesthetics of sculptural design.
This two-part book contains papers accessible to a wide audience, including those interested in art, design, history, and education and researchers interested in the connections between origami and science, technology, engineering, and mathematics. This Part 1 contains papers on various aspects of mathematics of origami: coloring, constructability, rigid foldability, and design algorithms.
目次
Mathematics of origami: Comparison of compressive properties of periodic non-flat tessellations by Y. Klett, M. Grzeschik, and P. Middenhorf
Numerical analysis of origami structures through modified frame elements by K. Fuchi, P. R. Buskohl, J. J. Joo, G. W. Reich, and R. A. Vaia
A study on crash energy absorption ability of lightweight structures with truss core panel by Y. Yang, X. Zhao, S. Tokura, and I. Hagiwara
Toward optimization of stiffness and flexibility of rigid, flat-foldable origami structures by E. T. Filipov, T. Tachi, and G. H. Paulino
Structural engineering applications of morphing sandwich structures by J. M. Gattas and Z. You
Sound-insulting performance of origami-based sandwich trusscore panels by S. Ishida, H. Morimura, and I. Hagiwara
Thin-walled deployable grid structures by J. Ho and Z. You
Deployable linear folded stripe structures by R. Maleczek
Gravity and friction-driven self-organized folding by G. H. Filz, G. Grasser, J. Ladinig, and R. Maleczek
Magnetic self-assembly of three-dimensional microstructures by E. Iwase and I. Shimoyama
Folding augmented: A design method to integrate structural folding in archietecture by P. D'Acunto and J. J. C. Castellon Gonzalez
Demands on an adapted design process for foldable structures by S. Hoffmann, M. Barej, B. Gunther, M. Trautz, B. Corves, and J. Feldhusen
Planning motions for shape-memory alloy sheets by M. Ghosh, D. Tomkins, J. Denny, S. Rodriguez, M. Morales, and N. M. Amato
Simple flat origami exploration system with random folds by N. Tsuruta, J. Mitani, Y. Kanamori, and Y. Fukui
ORICREATE: Modeling framework for design and manufacturing of folded plate structures by R. Chudoba, J. van der Woerd, and J. Hegger
Rotation erection system (res): Origami extended with cuts by Y. Miyamoto
Toward engineering biological tissues by directed assembly and origami folding by P. J. Mehner, T. Liu, A. B. Karimi, A. Brodeur, J. Paniagua, S. Giles, P. Richard, A. Nemtserova, S. Liu, R. C. Alperin, S. Bhatia, M. Culpepper, R. J. Lang, and C. Livermore
Cosmological origami: Properties of cosmic-web components when a non-stretchy dark-matter sheet folds by M. C. Neyrinck
Modeling vaults in origami: A bridge between mathematics and architecture by C. Cumino, E. Frigerio, S. Gallina, M. L. Spreafico, and U. Zich
Origami in art, design, and history: Folding perspectives: Joys and uses of 3d anomorhic origami by Y. Klett
Master peace: An evolution of monumental origami by K. Box and R. J. Lang
Wearable metal origami by T. de Ruysser
Crowdsourcing origami sculptures by J. Mosely
On the aesthetics of folding and technology: Scale, dimensionality, and materiality by M. Gardiner
Computational problems related to paper crane in the Edo period by J. Maekawa
Mitate and origami by H. Koshiro
Origami in education: The kindergarten origametria programme by M. Golan and J. Oberman
Area and optimization problems by E. Frigerio and M. L. Spreafico
Mathematics and art through the cubotahedron by S.-P. Kwan
Origami-inspired deductive threads in pre-geometry by A. Tubis
Using paper folding to solve problems in school geometry by H. Yanping and P.-Y. Lee
Using origami to enrich mathematical understanding of self similarity and fractals by A. Bahmani, K. Sharif, and A. Hudson
Using the Fujimoto approximation technique to teach chaos theory to high school students by L. Poladian
Index
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