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NTIS 바로가기Mechanical sciences, v.10 no.1, 2019년, pp.91 - 105
Avila, Alex , Magleby, Spencer P. , Lang, Robert J. , Howell, Larry L.
Abstract. The ability of origami to alter its properties and behaviors with its shape makes it an elegant source of inspiration for many engineering designs challenges. Fold states specify the shape of the origami - its facets, creases, and fold angles. Origami research recognizes several acknowledg...
Bachrach, J.: Computational Design + Fabrication: 2D Design, EECS UC Berkeley, available at: https://inst.eecs.berkeley.edu/~cs194-28/fa15/lectures/2d-design.pdf (last access: 16 May 2018), 2015.
Bern, M. and Hayes, B.: The complexity of flat origami, SODA, 96, 175-183, 1996.
bltd: Waste Bin Kernel Description, available at: http://www.betterlivingthroughdesign.com/accessories/polywrap-wastepaper-bin/ (last access: 16 May 2018), 2010.
10.1115/DETC2016-59060 Butler, J., Morgan, J., Pehrson, N., Tolman, K., Bateman, T., Magleby, S. P., and Howell, L. L.: Highly Compressible Origami Bellows for Harsh Environments, in: ASME 2016 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, American Society of Mechanical Engineers, V05BT07A001, 2016.
Cafarelli, M., Motta, M., and Storto, M.: Origami: Evoluzione e Ispirazione, thesis, available at: https://issuu.com/mauriziosturt/docs/tesi_origami_-_evoluzione_e_ispiraz (26 February 2019), 2013.
10.1021/nl4030374 Cheng, Q., Song, Z., Ma, T., Smith, B. B., Tang, R., Yu, H., Jiang, H., and Chan, C. K.: Folding paper-based lithium-ion batteries for higher areal energy densities, Nano letters, 13, 4969-4974, 2013.
Designboom: Cardboard Shelter Kernel Description, available at: https://www.designboom.com/design/tricycle-house-and-garden-by-peoples-architecture-office/ (last access: 16 May 2018), 2012.
DesignSwan: Every Origami: 15 Origami Inspired Product Designs, available at: https://www.designswan.com/archives/every-origami-15-origami-inspired-product-designs.html (last access: 16 May 2018), 2011.
DesignSwan: 8 Cool Multifunctional Cutting Boards, available at: https://www.designswan.com/archives/8-cool-multifunctional-cutting-boards.html (last access: 16 May 2018), 2013.
10.1115/SMASIS2013-3299 Edmondson, B. J., Bowen, L. A., Grames, C. L., Magleby, S. P., Howell, L. L., and Bateman, T. C.: Oriceps: Origami-inspired forceps, in: ASME 2013 conference on smart materials, adaptive structures and intelligent systems, American Society of Mechanical Engineers, V001T01A027, 2013.
Elliott, A.: Origami Chair Sheet Metal Kernel Description, available at: https://www.youtube.com/watch?v=lgMZsHXJr6w (last access: 16 May 2018), 2013.
10.1126/science.1252610 Felton, S., Tolley, M., Demaine, E., Rus, D., and Wood, R.: A method for building self-folding machines, Science, 345, 644-646, 2014a.
Fozzils: Fozzils Ultralight Backpacking Bowl Kernel Description, available at: https://www.fozzils.com/, last access: 16 May 2018.
Fubar, K.: With Clifton Flat Engagement Ring Case, Your Bride-To-Be Would Never See A Proposal Coming, available at: https://mikeshouts.com/clifton-flat-engagement-ring-case-bride-never-see-proposal-coming/ (last access: 16 May 2018), 2011a.
Fubar, K.: Origami and Phones, Together At Last, available at: https://www.slashgear.com/origami-and-phones-together-at-last-15146447/ (last access: 16 May 2018), 2011b.
10.5194/ms-2-217-2011 Greenberg, H. C., Gong, M. L., Magleby, S. P., and Howell, L. L.: Identifying links between origami and compliant mechanisms, Mech. Sci., 2, 217-225, https://doi.org/10.5194/ms-2-217-2011, 2011.
Griffiths, S.: The origami boat a HUMAN can row: Vessel made from a 300ft-long roll of paper carries an adult across a lake, available at: http://www.dailymail.co.uk/sciencetech/article-2911327.html (last access: 16 May 2018), 2015.
10.1007/s00163-001-0008-3 Hirtz, J., Stone, R. B., McAdams, D. A., Szykman, S., and Wood, K. L.: A functional basis for engineering design: reconciling and evolving previous efforts, Res. Eng. Des., 13, 65-82, 2002.
Hugue, M.: Six ways to bring the beauty of origami to your home decor, available at: https://www.theglobeandmail.com/life/home-and-garden/decor/six-standout-pieces-of-origami-inspired-furniture-and-decor/article15156918/ (last access: 16 May 2018), 2017.
Hussey, M.: Origami Sofa by Yumi Yoshida unfolds to become a floor mat, available at: https://www.dezeen.com/2014/03/09 (last access: 16 May 2018), 2014.
Ihnatko, A.: Kindle Fire HDX 7-inch review: Third time's the charm, available at: https://www.pcworld.com/article/2051202/kindle-fire-hdx-7-inch-review-third-times-the-charm.html (last access: 16 May 2018), 2013.
Junkie, G.: Oriboard Origami Cutting Board, available at: http://www.gadgetify.com/oriboard-origami-cutting-board/, last access: 16 May 2018.
Krauti, F.: Magnetic Curtain, Kernel Description, available at: http://www.kraeutli.com/index.php/2008/01/31/magnetic-curtain/, last access: 16 May 2018.
10.1115/1.4031954 Ku, J. S. and Demaine, E. D.: Folding flat crease patterns with thick materials, J. Mech. Robot., 8, 031003, https://doi.org/10.1115/1.4031954, 2016.
10.1016/j.msea.2005.12.016 Kuribayashi, K., Tsuchiya, K., You, Z., Tomus, D., Umemoto, M., Ito, T., and Sasaki, M.: Self-deployable origami stent grafts as a biomedical application of Ni-rich TiNi shape memory alloy foil, Mat. Sci. Eng. A-Struct., 419, 131-137, 2006.
Lee, D.-Y., Kim, J.-S., Kim, S.-R., Koh, J.-S., and Cho, K.-J.: The deformable wheel robot using magic-ball origami structure, in: ASME 2013 international design engineering technical conferences and computers and information in engineering conference, American Society of Mechanical Engineers, V06BT07A040, 2013.
Lin, J.: A Nomadic Furniture Design for College Students, thesis, available at: http://hdl.handle.net/2142/18533 (last access: 26 February 2019), 2011.
10.1109/MWSYM.2014.6848553 Liu, X., Yao, S., Georgakopoulos, S. V., Cook, B. S., and Tentzeris, M. M.: Reconfigurable helical antenna based on an origami structure for wireless communication system, 2014 IEEE MTT-S International Microwave Symposium (IMS2014), Tampa, FL, USA, 1-6 June 2014, https://doi.org/10.1109/MWSYM.2014.6848553, 2014.
10.1038/srep36883 Liu, X., Gattas, J. M., and Chen, Y.: One-DOF Superimposed Rigid Origami with Multiple States, Sci. Rep., 6, 36883, https://doi.org/10.1038/srep36883, 2016.
Lo, A. S.: Starshade Technology Development, in: astro2010: The Astronomy and Astrophysics Decadal Survey, National Academies of Sciences, Engineering, Medicine, USA, 2009.
Minimum, B.: Bear Bowl, Kernal Description, available at: https://www.bearminimum.org/, last access: 16 May 2018.
Miura, K. and Natori, M.: 2-D array experiment on board a space flyer unit, Space Power, 5, 345-356, 1985.
10.5194/ms-7-69-2016 Morgan, M. R., Lang, R. J., Magleby, S. P., and Howell, L. L.: Towards developing product applications of thick origami using the offset panel technique, Mech. Sci., 7, 69-77, https://doi.org/10.5194/ms-7-69-2016, 2016.
Morris, E., McAdams, D. A., and Malak, R.: The State of the Art of Origami-Inspired Products: A Review, in: ASME 2016 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, American Society of Mechanical Engineers, V05BT07A014, 2016.
Nellianna: Origami Lampshade, Kernel Description, available at: https://www.etsy.com/listing/82568715/chestnut-paper-origami-lampshade-canary, last access: 16 May 2018.
Onak: Origami Canoe, Kernel Description, available at: http://onakcanoes.com/, last access: 16 May 2018.
10.1088/1361-665X/aa721e Pagano, A., Yan, T., Chien, B., Wissa, A., and Tawfick, S.: A crawling robot driven by multi-stable origami, Smart Mater. Struct., 26, 094007, https://doi.org/10.1088/1361-665X/aa721e, 2017.
Parker, W.: Warby Parker Glasses Case, Kernel Description, available at: https://i.warbycdn.com/s/f/97582daa7f3b79eb0f42d698b1dafa893dea1517?width=1200&quality=80, last access: 16 May 2018.
Pipetto: Pipetto Tablet Cases, Kernel Description, available at: https://www.pipetto.co.uk/skin/frontend/default/pipetto/images/highresimages/iPad/iPad, last access: 16 May 2018.
Plastics Inc.: Origami Colander, Kernel Description, available at: https://www.brplastics.com/folding-colanders.html, last access: 16 May 2018.
Puj LLC: Bath Tub, Kernel Description, available at: https://puj.com/, last access: 16 May 2018.
10.1145/3180494 Rabinovich, M., Hoffmann, T., and Sorkine-Hornung, O.: Discrete Geodesic Nets for Modeling Developable Surfaces, ACM Transactions on Graphics (TOG), 37, 16, https://doi.org/10.1145/3180494, 2018.
Rehn, A.: Cay Sova, Kernel Description, available at: https://www.youtube.com/watch?v=tLgRisKD41w (last access: 16 May 2018), 2011.
Schielke, T.: Light Matters: Mashrabiyas - Translating Tradition into Dynamic Facades, available at: https://www.archdaily.com/510226 (last access: 16 May 2018), 2014.
Seymour, K., Burrow, D., Avila, A., Bateman, T., Morgan, D. C., Magleby, S. P., and Howell, L. L.: Origami-Based Deployable Ballistic Barrier, in: Origami 7: The Proceedings from the 7th International Meeting on Origami in Science, Mathematics, and Education, 3, 763-777,, 2018.
Simpson, K. and Elkins, P.: CoroPlast Boat, Kernel Description, available at: https://www.christinedemerchant.com/boat-styles-coroplast.html, last access: 16 May 2018.
Smith, A. F., Horrell, C. M., Grossmann, J. J., Feldman, J. R., and Bruccoleri, A. R.: Rear-mounted aerodynamic structure for truck cargo bodies, uS Patent 9, 545-960, 2017.
Staff, D.: Origami Style: Paper-Thin, Patio-Ready White Folding Chairs, available at: https://dornob.com/origami-style-paper-thin-patio-ready-white-folding-chairs/?ref=search, last access: 16 May 2018.
Swanner, N.: Leather Tablet Case, Kernel Description, available at: https://www.slashgear.com/moshi-versacover-review-origami-cool-for-the-ipad-22380289/ (last access: 16 May 2018), 2015.
Tachi, T.: Geometric considerations for the design of rigid origami structures, in: Proceedings of the International Association for Shell and Spatial Structures (IASS) Symposium, 12, 458-460, 2010.
10.1115/1.4035558 Tachi, T. and Hull, T. C.: Self-Foldability of Rigid Origami, J. Mech. Robot., 9, 021008, https://doi.org/10.1115/DETC2016-60546, 2017.
10.1016/j.engstruct.2013.11.009 Thrall, A. and Quaglia, C.: Accordion shelters: A historical review of origami-like deployable shelters developed by the US military, Eng. Struct., 59, 686-692, 2014.
10.1162/LEON_a_00409 Thun, G., Velikov, K., Ripley, C., Sauve, L., and McGee, W.: Soundspheres: resonant chamber, Leonardo, 45, 348-357, 2012.
10.1103/PhysRevLett.114.055503 Waitukaitis, S., Menaut, R., Chen, B. G.-G., and van Hecke, M.: Origami multistability: From single vertices to metasheets, Phys. Rev. Lett., 114, 055503, https://doi.org/10.1103/PhysRevLett.114.055503, 2015.
Wee, D.: Bao Bao Issey Miyake Launches New “Distortion” Series, available at: http://www.blouinartinfo.com/news/story/1038919/bao-bao-issey-miyake-launches-new-distortion-series (last access: 16 May 2018), 2014.
10.1098/rspa.2009.0625 Wu, W. and You, Z.: Modelling rigid origami with quaternions and dual quaternions, P. Roy. Soc. A-Math. Phy., 466, 2155-2174, 2010.
10.1098/rspa.2011.0120 Wu, W. and You, Z.: A solution for folding rigid tall shopping bags, P. Roy. Soc. A-Math. Phy., 467, 2561-2574,2011.
Yang, L.: These futuristic origami-style utensils should be in every kitchen - check them out, available at: https://www.businessinsider.com/origami-inspired-kitchen-utensils-kickstarter-2017-4?IR=T (last access: 16 May 2018), 2017.
Yang, Y., Nara, C., Chen, X., and Hagiwara, I.: Investigation of Helmet Based on Origami Structures, in: ASME 2017 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, American Society of Mechanical Engineers, V05BT08A040, 2017.
Yong, J.: A Furniture Set That Can Be Folded Like Origami Paper, available at: http://designtaxi.com/news/358580/A-Furniture-Set-That-Can-Be-Folded-Like-Origami-Paper/ (last access: 16 May 2018), 2013.
10.1115/1.4025372 Zirbel, S. A., Lang, R. J., Thomson, M. W., Sigel, D. A., Walkemeyer, P. E., Trease, B. P., Magleby, S. P., and Howell, L. L.: Accommodating thickness in origami-based deployable arrays, J. Mech. Design, 135, 111005, https://doi.org/10.1115/1.4025372, 2013.
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