Researchers at the Hebrew University of Jerusalem have
developed a new device that converts images into music to help individuals
without vision reach for objects in space.
Sensory subsitution devices (SSDs) use sound or touch to help the visually
impaired perceive the visual scene surrounding them. The ideal SSD would assist
not only in sensing the environment but also in performing daily activities
based on this input. For example, accurately reaching for a coffee cup, or
shaking a friend's hand.
In a new study, Hebrew scientists trained blindfolded
sighted participants to perform fast and accurate movements using their new
SSD, called EyeMusic. The EyeMusic employs pleasant musical tones and scales to
help the visually impaired "see" using music. This non-invasive SSD
converts images into a combination of musical notes, or "soundscapes."
The device was developed by the senior author Prof.
Amir Amedi and his team at the Edmond and Lily Safra Center for Brain Sciences
(ELSC) and the Institute for Medical Research Israel-Canada at the Hebrew
University. The EyeMusic scans an image and represents pixels at high vertical
locations as high-pitched musical notes and low vertical locations as
low-pitched notes according to a musical scale that will sound pleasant in many
possible combinations. The image is scanned continuously, from left to right,
and an auditory cue is used to mark the start of the scan. The horizontal
location of a pixel is indicated by the timing of the musical notes relative to
the cue (the later it is sounded after the cue, the farther it is to the
right), and the brightness is encoded by the loudness of the sound. The
EyeMusic's algorithm uses different musical instruments for each of the five
colours: white (vocals), blue (trumpet), red (reggae organ), green (synthesized
reed), yellow (violin); Black is represented by silence.
Prof. Amedi said "The notes played span five
octaves and were carefully chosen by musicians to create a pleasant experience
for the users. We demonstrated in this study that the EyeMusic, which employs
pleasant musical scales to convey visual information, can be used after a short
training period (in some cases, less than half an hour) to guide movements,
similar to movements guided visually," explained lead investigators Drs.
Shelly Levy-Tzedek, an ELSC researcher at the Faculty of Medicine, Hebrew
University, Jerusalem, and Prof. Amir Amedi. "The level of accuracy
reached in our study indicates that performing daily tasks with an SSD is
feasible, and indicates a potential for rehabilitative use," they added.
The study tested the ability of 18 blindfolded sighted
individuals to perform movements guided by the EyeMusic, and compared those
movements to those performed with visual guidance. At first, the blindfolded
participants underwent a short familiarization session, where they learned to
identify the location of a single object (a white square) or of two adjacent
objects (a white and a blue square). In the test sessions, participants used a
stylus on a digitizing tablet to point to a white square located either in the
north, the south, the east or the west. In one block of trials they were
blindfolded (SSD block), and in the other block (VIS block) the arm was placed
under an opaque cover, so they could see the screen but did not have direct
visual feedback from the hand. The endpoint location of their hand was marked
by a blue square. In the SSD block, they received feedback via the EyeMusic. In
the VIS block, the feedback was visual.
"Participants were able to use auditory
information to create a relatively precise spatial representation," notes
Dr. Levy-Tzedek.
The study lends support to the hypothesis that
representation of space in the brain may not be dependent on the modality with
which the spatial information is received, and that very little training is
required to create a representation of space without vision, using sounds to
guide fast and accurate movements. "SSDs may have great potential to
provide detailed spatial information for the visually impaired, allowing them
to interact with their external environment and successfully make movements
based on this information, but further research is now required to evaluate the
use of our device in the blind," concluded Dr. Levy-Tzedek.
The findings are published in the journal Restorative Neurology
and Neuroscience.
Source: Times of India
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