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Knot-inspired optical sensors for slip detection and friction measurement in dexterous robotic manipulation

Jing Pan, Qi Wang, Shuaikang Gao, Zhang Zhang, Yu Xie, Longteng Yu, Lei Zhang

发表年份
2023
引用次数
26
访问权限
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摘要

Friction plays a critical role in dexterous robotic manipulation. However, realizing friction sensing remains a challenge due to the difficulty in designing sensing structures to decouple multi-axial forces. Inspired by the topological mechanics of knots, we construct optical fiber knot (OFN) sensors for slip detection and friction measurement. By introducing localized self-contacts along the fiber, the knot structure enables anisotropic responses to normal and frictional forces. By employing OFNs and a change point detection algorithm, we demonstrate adaptive robotic grasping of slipping cups. We further develop a robotic finger that can measure tri-axial forces via a centrosymmetric architecture composed of five OFNs. Such a tactile finger allows a robotic hand to manipulate human tools dexterously. This work could provide a straightforward and cost-effective strategy for promoting adaptive grasping, dexterous manipulation, and human-robot interaction with tactile sensing.

关键词

Knot (papermaking)Slip (aerodynamics)Artificial intelligenceComputer scienceComputer visionEngineeringAerospace engineeringChemical engineering

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