执行机构
机器人
适应性
适应(眼睛)
变形(气象学)
计算机科学
任务(项目管理)
软机器人
控制工程
材料科学
人工智能
演示式编程
仿生学
动态规划
功能反应式编程
光子学
机器人学
机械工程
作者
Yuxing Wang,Wei Tang,Xinyu Guo,Kecheng Qin,Pingan Zhu,Huxiu Xu,Yiding Zhong,Yidan Gao,Qincheng Sheng,Jun Zou
标识
DOI:10.1002/adfm.202600067
摘要
ABSTRACT Modulating robot morphology and motion markedly enhances adaptability and task diversity, expanding functional range. Yet, designing adaptive robots that combine morphology‐driven actuation, self‐sensing, and deformation locking remains challenging. Inspired by organisms that actively reshape their bodies, we propose a strategy in which soft actuators undergo two‐dimensionalizing followed by light programming to achieve morphological and functional tuning. These actuators undergo large, reversible deformations under heat or light and sense their own deformation via resistance changes, without extra sensors. Light programming enables diverse deformation locking and complex shapes. Using this approach, we developed a series of functionally enhanced robots and applications, demonstrating its effectiveness. This strategy offers a feasible route for adaptive robots that integrate actuation, sensing, and locking, while broadening potential applications.
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