The Effect of Irrelevant Environmental Noise on the Performance of Visual-to-Auditory Sensory Substitution Devices Used by Blind Adults: Supplementary Material
Version 2 2018-12-20, 13:42Version 2 2018-12-20, 13:42
Version 1 2018-12-20, 13:38Version 1 2018-12-20, 13:38
journal contribution
posted on 2018-12-20, 13:42authored byGalit Buchs, Benedetta Heimler, Amir Amedi
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.