触觉传感器
材料科学
压力传感器
信号(编程语言)
冗余(工程)
计算机科学
仿生学
灵敏度(控制系统)
职位(财务)
位置传感器
联轴节(管道)
声学
鉴定(生物学)
传感器
图层(电子)
人工智能
信号处理
接近传感器
感应耦合
加密
仿生材料
纳米传感器
作者
Guoliang Ma,S. Yan,Fei Li,Congtian Gu,Ying H. Shen,Shenao Xiong,Yunji Yi,Kaixian Ba,Dakai Wang,Bin Yu,Zhiwu Han,Luquan Ren
标识
DOI:10.1002/adfm.202523522
摘要
Abstract Flexible tactile sensors are an essential medium for human‐machine interactions (HMI). However, traditional flexible tactile sensors lead to challenges such as structural redundancy and complex data processing. This paper presents a biomimetic multi‐mode flexible tactile sensor (B‐MTS) based on biomimetic strategies. This B‐MTS consists of a pressure‐sensing layer and a positioning layer. The B‐MTS exhibits high sensitivity (484.6 kPa −1 ) owing to the bionic crack structures. The positioning layer utilizes the alternating current (AC) signal generated by the coupling of the power‐frequency electric and magnetic fields with the human body as a signal source. With only two interfaces, it can achieve rapid identification of the touch position (<10 ms). Thanks to its ability to sense both pressure and position simultaneously (≤250 Pa), B‐MTS is successfully integrated into encrypted cryptographic devices, ensuring robust privacy protection. Additionally, B‐MTS is applied in piano performance and UAV control, opening new possibilities for the development of secure identification and intelligent interaction technologies.
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