Journal
IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT
Volume 70, Issue -, Pages -Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TIM.2021.3069834
Keywords
Assistive devices; human-machine interaction; low vision; wearable technologies
Funding
- Iran National Science Foundation (INSF) [96S52820]
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Recent studies have been focusing on improving perception and outdoor navigation for individuals with blindness or vision loss. This study introduces a wearable device that allows people with vision disabilities to interact with the environment more efficiently, achieving a 96.32% success rate in identifying objects. Overall, 70% of users found the device very satisfactory.
Recent studies have focused on facilitating perception and outdoor navigation for people who live with blindness or some form of vision loss. However, a significant portion of these studies is centered around treatment and vision rehabilitation, leaving some immediate needs, such as interaction with the surrounding objects or recognizing colors and fine patterns without tactile feedback. This study targets such needs and delivers a straightforward communication method with the environment using a wearable, unobtrusive device. We initially discuss the advantages and limitations of related works to draw out the best-fitting design concepts. Then, we introduce the potential for emerging technologies such as radio frequency identification. We present the design details and the experimental results of an assistive glove to allow people with vision disabilities to interact with the environment more efficiently. Based on the collected data from 17 blindfolded healthy participants, the implemented system's success rate in identifying objects was about 96.32%. Overall, 70% of the users found the device very satisfactory.
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