材料科学
曲率
可穿戴计算机
弯曲
光纤
多模光纤
可穿戴技术
衰减
光纤传感器
光学
光电子学
光学工程
流离失所(心理学)
软机器人
声学
纤维
分布式声传感
光学镊子
变形(气象学)
干扰(通信)
测距
微电子机械系统
光强度
强度(物理)
塑料光纤
航程(航空)
光学显微镜
光场
光通信
光时域反射计
光子学
手势
计算机科学
作者
Chunbiao Liu,Zhihai Liu,Yu Zhang,Yifan Qin,Mengyao Zhang,Wei Jun Jin,Libo Yuan
标识
DOI:10.1002/adom.202501004
摘要
Abstract The optical fiber‐based wearable curvature sensor shows great potential for real‐time monitoring of human joint motion and smart gesture interaction. However, its limited detection range (typically below 10 m −1 ) and the significant mismatch with the dynamic, large‐curvature movements of human joints (> 100 m −1 ) have emerged as critical bottlenecks restricting its practical application. To address this challenge, this study proposes for the first time a hydrogel optical fiber flexible curvature sensor with ultra‐wideband response. A fine‐core hydrogel flexible optical fiber is fabricated using a drawing‐spinning process, and its ultra‐flexible characteristics successfully overcome the mechanical constraints of traditional optical fibers, enabling reversible bending deformation with a curvature range from 0 to 139.84 m −1 . To the best of the knowledge, this detection range is the largest curvature detection range in the field of optical fiber curvature sensing. By utilizing the displacement of interference valleys (sensitivity of 0.04 nm m −1 ) and the output light intensity attenuation (sensitivity of 1.97 µW m −1 ) when bending in the hydrogel multimode optical fiber, dual‐parameter curvature sensing is achieved. By constructing a multi‐joint monitoring platform and combining neural network algorithms, gesture recognition is achieved. This work provides an innovative solution for large curvature detection.
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