1. 1) Y. Matsuoka and J. Mitani : Mathematics of flat origami, Transactions of the Japan Society for Industrial and Applied Mathematics, Vol. 27, No. 4, pp. 333−353, 2017.12 (in Japanese)　松川剛久, 三谷純：平坦折り紙の数理, 日本応用数理学会論文誌, Vol. 27, No. 4, pp. 333−353, 2017.12

2. 2) T. Tachi : Rigid origami mechanisms, Journal of the Robotics Society of Japan, Vol. 34, No. 3, pp. 184−191, 2016.4 (in Japanese)　舘知宏：剛体折紙メカニズム, 日本ロボット学会誌, Vol. 34, No. 3, pp. 184−191, 2016.4

3. 3) E. D. Demaine and M. L. Demaine : Resent results in computational origami, Proc. 3rd Int. Meeting of Origami Science, Mathematics, and Education (Origami3), A K Peters, pp. 3−16, 2002

4. 4) J. Ma and Z. You : The origami crash box, Proc. 5th Int. Conf. on Origami in Science, Mathematics, and Education (Origami5), CRC Press, pp. 277−289, 2011

5. 5) K. Shigetomi : Medical applications of origami engineering: Applications of origami folding techniques for medical devices and regenerative medicine, Journal of the Visualization Society of Japan, Vol. 33, No. 131, pp. 29−34, 2013.10 (in Japanese)　繁富（栗林）香織：折紙工学の医療分野への応用: 折り紙の折畳み技術を用いた医療器具と再生医療への応用, 可視化情報学会誌, Vol. 33, No. 131, pp. 29−34, 2013.10