A Silver Nanowires‐Based Flexible Capacitive Touch Screen in Tactile Displays for Individuals with Visual Impairment Using Gesture Recognition

手势 电容感应 触觉显示器 计算机科学 触觉传感器 计算机视觉 人机交互 沟通 人工智能 心理学 机器人 操作系统
作者
Ahmed Hamza,Sara Alzalabny,Priyanka Buduru,Sagar Bhagwat,Ali Usama,Santosh Kumar Prabhulingaiah,Qingchuan Song,Sebastian Kluck,Gerhard Jaworek,Pegah Pezeshkpour,Bastian E. Rapp
出处
期刊:Advanced materials and technologies [Wiley]
卷期号:9 (24) 被引量:4
标识
DOI:10.1002/admt.202401029
摘要

Abstract Capacitive touch screens (CTS's) are essential components in most of today's digital devices. However, for the visually impaired (VI) users due to the uneven topography of the tactile surface, CTS's are more challenging to implement and thus this field remains largely underdeveloped. Considering the limited space around the microactuators driving the typical Braille dots for a tactile screen with ten dots‐per‐inch (dpi) resolution, the materials used for CTS should be flexible and durable with high mechanical strength. In this work, a flexible CTS based on polyimide (PI) and silver nanowires (AgNWs) as electrodes with a total thickness of 210 µm is developed. The dimensions of the AgNWs are on average 7.9 ± 2.4 µm in length and 85 ± 24 nm in width. The AgNWs electrodes showed low resistance and good adhesion to the PI substrate. A gesture recognition application is collected from the capacitive data to classify different gestures (including single‐ and double‐click, swipe‐left and ‐right, scroll‐up and ‐down as well as zoom‐in and ‐out) with two different approaches; machine learning and deep learning are implemented. The best performance is obtained using the YOLO model with a high validation accuracy of 97.76%. Finally, a software application is developed with the proposed hand gestures in real‐time to foster interaction of VI users with the tactile display allowing them to navigate a Windows file system and interact with the documents via hand gestures in a similar manner as sighted users on a conventional touch display will be able to do. This work paves the way to utilize CTS for the tactile displays in the market developed for VI users.
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