A wearable assistive system for the visually impaired using object detection, distance measurement and tactile presentation

Intelligence & Robotics Pub Date : 2023-09-08 DOI:10.20517/ir.2023.24

Yiwen Chen, Junjie Shen, Hideyuki Sawada

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引用次数: 0

Abstract

With the current development of society, ensuring traffic and walking safety for the visually impaired is becoming increasingly important. We propose a wearable system based on a system previously developed by us that uses object recognition, a distance measurement function, and the corresponding vibration pattern presentation to support the mobility of the visually impaired. The system recognizes obstacles in front of a user in real time, measures their distances, processes the information, and then presents safety actions through vibration patterns from a tactile glove woven with shape memory alloy (SMA) actuators. The deep learning model is compressed to achieve real-time recognition using a microcomputer while maintaining recognition accuracy. Measurements of the distances to multiple objects are realized using a stereo camera, and vibration patterns are presented through a tactile glove in response to these distances. Experiments are conducted to verify the system performance to provide safe navigation depending on the positions and the distances of multiple obstacles in front of the user.

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一种用于视障人士的可穿戴辅助系统，使用物体检测、距离测量和触觉呈现

随着社会的发展，确保视障人士的交通和步行安全变得越来越重要。我们提出了一种基于我们之前开发的系统的可穿戴系统，该系统使用物体识别，距离测量功能和相应的振动模式呈现来支持视障人士的行动。该系统实时识别用户面前的障碍物，测量它们的距离，处理信息，然后通过形状记忆合金(SMA)致动器编织的触觉手套的振动模式呈现安全动作。在保持识别精度的同时，对深度学习模型进行压缩，利用微机实现实时识别。使用立体摄像机测量到多个物体的距离，并通过触觉手套呈现振动模式以响应这些距离。实验验证了系统的性能，以提供安全导航取决于用户面前的多个障碍物的位置和距离。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Intelligence & Robotics

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