Self‐Healing Hydrogel‐Based Triboelectric Nanogenerator in Smart Glove System for Integrated Drone Safety Protection and Motion Control

Flexible sensing technology offers significant advantages in gesture recognition and human–machine interactions. However, existent smart gloves based on flexible sensors still have limitations in their security mechanisms; thus, they are unsuitable for high‐risk environments where identity verificat...

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Bibliographic Details
Published in:Advanced functional materials 2024-12
Main Authors: Wang, Chengwen, Niu, Hongsen, Shen, Guozhen, Li, Yang
Format: Article
Language:English
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Summary:Flexible sensing technology offers significant advantages in gesture recognition and human–machine interactions. However, existent smart gloves based on flexible sensors still have limitations in their security mechanisms; thus, they are unsuitable for high‐risk environments where identity verification and system protection are critical. This study proposes an innovative smart glove system in which person recognition and gesture control functionalities are integrated. The glove utilizes a triboelectric nanogenerator based on a polyvinyl‐alcohol–sodium‐alginate–conductive‐polyaniline (PSP) hydrogel electrode as the sensor and exhibits high sensitivity, fast response/recovery, and fatigue resistance. These properties are primarily attributed to the excellent stretchability, conductivity, and self‐healing ability of the PSP hydrogel. Because of the coordinated design of the hardware–software architecture, the smart glove enables precise control of drone flight postures via contact sensing. The glove also leverages non‐contact sensing to recognize personalized fingertip trajectories, enabling user recognition and unlocking the aforementioned drone control interface. This design improves not only the flexibility and portability of drone operation but also safety of weapon systems in future battlefield environments.
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.202419809