Adaptive Locomotion of Pleurotya Caterpillar‐Inspired Segmental Crawling Robots with Multiple Postures

爬行 材料科学 机器人 毛虫 人工智能 解剖 计算机科学 生物 生态学 生殖器鳞翅目
作者
Yanfu Tang,Pan Feng,Lang Qin,Yanlei Yu
出处
期刊:Advanced Functional Materials [Wiley]
卷期号:35 (42) 被引量:14
标识
DOI:10.1002/adfm.202506987
摘要

Abstract Soft crawling robots capable of adjusting postures and generating adaptive locomotion modes are in high demand for autonomous adaptation to varying environments. Appropriate postures generated by robots’ deformation are crucial for diverse target locomotion. However, achieving multiple postures for integrating bidirectional crawling, crawling‐to‐rolling mode switching, and self‐righting capability remains challenging. Herein, inspired by the kinematics of Pleurotya caterpillars, dynamic curvature controllability, which is realized through combining segmental structures and high curvature bending of each segment, is an effective strategy for active shape adaptation and attaining multiple postures. Segmental soft crawling robots, termed CRAWL, are fabricated by incorporating soft liquid crystal elastomers (LCEs) and rigid acrylic resin via multi‐material 4D printing. The high curvature bending of each segment is attributed to the gradient alignment of mesogens induced by the non‐uniform shear forces. The tunable curvature of the CRAWL is achieved through light‐fueled bending of designated LCEs within the segmental structure on demand. This enables the CRAWL to obtain multiple postures and thus perform adaptive locomotion, including bidirectional crawling, curling into a loop, and rolling downhill, as well as correcting their postures through self‐righting behavior when losing balance. This work provides new insights for designing soft robots with enhanced environmental adaptability.
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