Computational synthesis of locomotive soft robots by topology optimization

被引:0
|
作者
Kobayashi, Hiroki [1 ]
Gholami, Farzad [2 ]
Montgomery, S. Macrae [2 ]
Tanaka, Masato [1 ,3 ]
Yue, Liang [2 ]
Yuhn, Changyoung [1 ]
Sato, Yuki [1 ]
Kawamoto, Atsushi [1 ]
Qi, H. Jerry [2 ]
Nomura, Tsuyoshi [1 ]
机构
[1] Toyota Cent Res & Dev Labs Inc, Bunkyo Ku, Tokyo 1120004, Japan
[2] Georgia Inst Technol, George W Woodruff Sch Mech Engn, Atlanta, GA 30332 USA
[3] Toyota Motor North Amer, Toyota Res Inst North Amer, Ann Arbor, MI 48105 USA
来源
SCIENCE ADVANCES | 2024年 / 10卷 / 30期
关键词
DESIGN; SIMULATION; BODIES;
D O I
10.1126/sciadv.adn6129
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
Locomotive soft robots (SoRos) have gained prominence due to their adaptability. Traditional locomotive SoRo design is based on limb structures inspired by biological organisms and requires human intervention. Evolutionary robotics, designed using evolutionary algorithms (EAs), have shown potential for automatic design. However, EA-based methods face the challenge of high computational cost when considering multiphysics in locomotion, including materials, actuations, and interactions with environments. Here, we present a design approach for pneumatic SoRos that integrates gradient-based topology optimization with multiphysics material point method (MPM) simulations. This approach starts with a simple initial shape (a cube with a central cavity). The topology optimization with MPM then automatically and iteratively designs the SoRo shape. We design two SoRos, one for walking and one for climbing. These SoRos are 3D printed and exhibit the same locomotion features as in the simulations. This study presents an efficient strategy for designing SoRos, demonstrating that a purely mathematical process can produce limb-like structures seen in biological organisms.
引用
收藏
页数:14
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