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Morphing Origami Block

Origami provides a unique tool for the design of robotic frames owing to its simple shaping principle by “folding.” However, achieving the fast and reversible activeness of a highly reconfigurable structure remains challenging owing to the limitations of accessible actuators. In particular, it is difficult to find an actuator that can realize a simultaneously large, rapid, reversible, and stable movement while leading to a favorable form factor for the origami. To overcome this, in this article, we propose a 3-D shape-shifting system consisting of a morphing origami block that complements the stability problem of shape memory alloy wire actuators by tuning its structural characteristics. This cooperative scheme improves the reversibility and stability of the shape-shifting system, which enables the rapid transformation with high degrees of freedom unlike in existing programmable origami. As a stand-alone unit of transformation, morphing block equipped with deployable mechanism and actuators weighs 6 g and has a volume change factor of ten. Furthermore, the transformation time in both directions is less than 5 s, and the block can carry more than 120 g of payload in the deployed state. The proposed system composed of multiple origami blocks can reconfigure itself into diverse 3-D target shapes.

Keywords : #Origami, #Reconfigurable system, #Morphing

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Related papers and patents

S.-R. Kim, D.-Y. Lee, S.-J. Ahn, J.-S. Koh and K.-J. Cho, "Morphing Origami Block for Lightweight Reconfigurable System," IEEE Transactions on Robotics, vol. 37, issue. 2, 2021 [PDF]

Sareum Kim.png

· E-mail : sareumkim1 at gmail.com
· Affiliation : University of California - Berkeley, USA 

Ph.D. / Alumni

Sa-Reun Kim

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· E-mail : ae_dylee at kaist.ac.kr
· Affiliation : Professor at Korea Advanced Institute of Science and Technology (KAIST)

Ph.D. / Alumni

Dae-Young Lee

안상준

· E-mail : ghiip203 at snu.ac.kr
· Research Topic : 3D printing, 4D printing

Ph.D. Candidate

Sang-Jun Ahn

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· E-mail : jskoh at ajou.ac.kr
· Affiliation : Professor at Ajou University, Korea

Ph.D / Alumni

Je-Sung Koh

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