Methodologies and evaluation of electronic travel aids for the visually impaired people: a review

Romlay, Muhammad Rabani Mohd; Toha, Siti Fauziah; Ibrahim, Azhar Mohd; Venkat, Ibrahim

doi:10.11591/eei.v10i3.3055

Cited by 11 publications

(5 citation statements)

References 54 publications

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“…In a similar study by Romlay et al [14], the maturity level of various electronic travel aids (ETA) in 70 studies is discussed. However, only one (Guido [15], a smart walker for the blind) of the products mentioned was successful in preproduction unit sales in the USA.…”

Section: Related Workmentioning

confidence: 99%

Recent trends in computer vision-driven scene understanding for VI/blind users: a systematic mapping

Valipoor

Jiménez

2022

Univ Access Inf Soc

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During the past years, the development of assistive technologies for visually impaired (VI)/blind people has helped address various challenges in their lives by providing services such as obstacle detection, indoor/outdoor navigation, scene description, text reading, facial recognition and so on. This systematic mapping review is mainly focused on the scene understanding aspect (e.g., object recognition and obstacle detection) of assistive solutions. It provides guidance for researchers in this field to understand the advances during the last four and a half years. This is because deep learning techniques together with computer vision have become more powerful and accurate than ever in tasks like object detection. These advancements can bring a radical change in the development of high-quality assistive technologies for VI/blind users. Additionally, an overview of the current challenges and a comparison between different solutions is provided to indicate the pros and cons of existing approaches.

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Section: Related Workmentioning

confidence: 99%

Recent trends in computer vision-driven scene understanding for VI/blind users: a systematic mapping

Valipoor

Jiménez

2022

Univ Access Inf Soc

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“…Face detection and global positioning system on a walking aid for blind people (Abdurrasyid) 1559 Previously, many studies have been carried out with blind people as the subjects, where the visually impaired aids that are studied can be divided into 3 parts, robotic navigation aids, smartphones and wearable attachments [8], previous studies mostly used ultrasonic sensors and image processing, [9]- [11] but looking at the research that has been developed, it still has shortcomings, previous studies did not provide voice information to blind people on how far they are from an obstacle, what if there was a pothole or uneven road, when to avoid, which direction to avoid. A similar study was carried out by Gayathri using ultrasonic PIR sensors and global positioning system (GPS), but this study did not consider obstacles in the form of potholes or uneven roads and no scientific method was used in the research, especially in how the device works [12].…”

Section: Issn: 2302-9285 mentioning

confidence: 99%

Face detection and global positioning system on a walking aid for blind people

2022

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Blindness is a general term used for the condition of someone who experiences a disturbance or obstacle in their sense of sight. In general, blind people walk with special canes to help them walk and increase their safety. However, there are problems that arise when blind people walk home or go from a path that they are used to or to a place where they have never traveled. There is the possibility that blind people get lost and find it difficult to determine their way home because they don't know where they are going. For this reason, it is necessary to create a system that can monitor their whereabouts in real time and provide directions, provide information on the steps to their destination and they can also notify their families and related foundations if they are in trouble. For this reason, it is necessary to make an integrated tool with the haar cascade method to detect faces to find out whether there are humans or other obstacles that can shows 94% accuracy, in addition a global positioning system (GPS) can help blind people to show the direction of the destination.

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“…These devices integrate sensing and feedback systems of various natures. Sensing ranges from computer vision technology to scanning devices and microphones [10][11][12][13], while feedback systems span from audio devices to haptic accessories [14 -17]. These sensory substitution systems rely on data acquired from the sensing system to infer the presence of obstacles in the surroundings of the user, who can negotiate obstacles based on the information relayed by the feedback system.…”

Section: Introductionmentioning

confidence: 99%

Virtual reality as a means to explore assistive technologies for the visually impaired

Ricci

Boldini

et al. 2023

PLOS Digit Health

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Visual impairment represents a significant health and economic burden affecting 596 million globally. The incidence of visual impairment is expected to double by 2050 as our population ages. Independent navigation is challenging for persons with visual impairment, as they often rely on non-visual sensory signals to find the optimal route. In this context, electronic travel aids are promising solutions that can be used for obstacle detection and/or route guidance. However, electronic travel aids have limitations such as low uptake and limited training that restrict their widespread use. Here, we present a virtual reality platform for testing, refining, and training with electronic travel aids. We demonstrate the viability on an electronic travel aid developed in-house, consist of a wearable haptic feedback device. We designed an experiment in which participants donned the electronic travel aid and performed a virtual task while experiencing a simulation of three different visual impairments: age-related macular degeneration, diabetic retinopathy, and glaucoma. Our experiments indicate that our electronic travel aid significantly improves the completion time for all the three visual impairments and reduces the number of collisions for diabetic retinopathy and glaucoma. Overall, the combination of virtual reality and electronic travel aid may have a beneficial role on mobility rehabilitation of persons with visual impairment, by allowing early-phase testing of electronic travel aid prototypes in safe, realistic, and controllable settings.

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Methodologies and evaluation of electronic travel aids for the visually impaired people: a review

Cited by 11 publications

References 54 publications

Recent trends in computer vision-driven scene understanding for VI/blind users: a systematic mapping

Recent trends in computer vision-driven scene understanding for VI/blind users: a systematic mapping

Face detection and global positioning system on a walking aid for blind people

Virtual reality as a means to explore assistive technologies for the visually impaired

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