轮椅
接口(物质)
材料科学
触觉传感器
人机交互
灵敏度(控制系统)
噪音(视频)
计算机科学
用户界面
电流(流体)
脑-机接口
电子皮肤
自然用户界面
辅助生活
人工神经网络
触觉刺激
纳米技术
辅助技术
作者
Jiarui Zhao,Chuyu Tang,Meihua Zhou,Dehai Yu,Minhai Chen,Shaobo Wang,Quanhong Hu,Zhuoheng Jiang,Zhongyu Wang,Xiong Pu,Linlin Li
标识
DOI:10.1002/adma.202522639
摘要
Current human-computer interaction (HCI) technologies often suffer from wearing discomfort, noise sensitivity, user fatigue, and privacy concerns, particularly for users with physical disabilities or those requiring high-precision control. In this study, we address the aforementioned challenges by designing an interactive tongue-computer interface (ITCI) that enables precise, hands-free interaction through subtle tongue movements. The ITCI utilizes an array of direct current tribovoltaic tactile sensors enhanced by the magnetoelectric effect, achieving a peak current density of 10.72 A m-2, a charge density of 718 mC m-2, and a sensitivity of 90 µA N-1. integration with a bidirectional long short-term memory (BiLSTM) neural network yields a recognition accuracy of 99.98%, supporting diverse interactive applications, including smart wheelchair control, robotic manipulation, and immersive gaming. This self-powered, noninvasive interface enhances user autonomy and privacy, offering a robust platform for intelligent, energy-efficient, and hands-free human-machine interaction.
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