Abstract
Visual-to-auditory Sensory Substitution Devices (SSDs) are a family of non-invasive devices for visual rehabilitation aiming at conveying whole-scene visual information through the intact auditory modality. Although proven effective in lab environments, the use of SSDs has yet to be systematically tested in real-life situations. To start filling this gap, in the present work we tested the ability of expert SSD users to filter out irrelevant background noise while focusing on the relevant audio information. Specifically, nine blind expert users of the EyeMusic visual-to-auditory SSD performed a series of identification tasks via SSDs (i.e., shape, color, and conjunction of the two features). Their performance was compared in two separate conditions: silent baseline, and with irrelevant background sounds from real-life situations, using the same stimuli in a pseudo-random balanced design. Although the participants described the background noise as disturbing, no significant performance differences emerged between the two conditions (i.e., noisy; silent) for any of the tasks. In the conjunction task (shape and color) we found a non-significant trend for a disturbing effect of the background noise on performance. These findings suggest that visual-to-auditory SSDs can indeed be successfully used in noisy environments and that users can still focus on relevant auditory information while inhibiting irrelevant sounds. Our findings take a step towards the actual use of SSDs in real-life situations while potentially impacting rehabilitation of sensory deprived individuals.
Highlights
There are over 250 million visually impaired individuals worldwide, and over 36 million blind individuals (World Health Organization, 2018)
One of the main problems reported in the literature is that both users and trainers doubt that visual-to-auditory Substitution Devices (SSDs) could be successfully used in noisy environments (Elli et al, 2014)
We addressed this issue by investigating the effect of irrelevant background noise on the perception of visual-to-auditory SSDs inputs
Summary
There are over 250 million visually impaired individuals worldwide, and over 36 million blind individuals (World Health Organization, 2018). Recent decades, owing to the accelerated advances in biotechnology, have brought a tremendous increase in the development of rehabilitation approaches These aim to provide visually impaired individuals with the missing sensory information, seeking to boost their independence in society. Even with the aforementioned progress in biotechnology, such techniques for visual rehabilitation do not yet provide a satisfactory outcome (e.g., limited field of view and poor resolution) (Heimler et al, 2015). Each of these methods (e.g., gene therapy, retinal implant) is suited only for the recovery from specific types of blindness [e.g., retinal prostheses are appropriate only for people with Retinitis Pigmentosa (Hartong et al, 2006)]
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