4.8 Article

Cortical adaptation to sound reverberation

Journal

ELIFE
Volume 11, Issue -, Pages -

Publisher

eLIFE SCIENCES PUBL LTD
DOI: 10.7554/eLife.75090

Keywords

ferret; reverberation; auditory cortex; normative model; neurophysiology; Other

Categories

Funding

  1. Wellcome Trust [WT108369/Z/2015/Z]
  2. Biotechnology and Biological Sciences Research Council [BB/M010929/1]
  3. University of Oxford

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This study investigates how the auditory system copes with reverberation by examining the responses of auditory cortical neurons in ferrets. The results show that auditory cortical neurons adapt to reverberation by adjusting their filtering properties, leading to dereverberation.
In almost every natural environment, sounds are reflected by nearby objects, producing many delayed and distorted copies of the original sound, known as reverberation. Our brains usually cope well with reverberation, allowing us to recognize sound sources regardless of their environments. In contrast, reverberation can cause severe difficulties for speech recognition algorithms and hearing-impaired people. The present study examines how the auditory system copes with reverberation. We trained a linear model to recover a rich set of natural, anechoic sounds from their simulated reverberant counterparts. The model neurons achieved this by extending the inhibitory component of their receptive filters for more reverberant spaces, and did so in a frequency-dependent manner. These predicted effects were observed in the responses of auditory cortical neurons of ferrets in the same simulated reverberant environments. Together, these results suggest that auditory cortical neurons adapt to reverberation by adjusting their filtering properties in a manner consistent with dereverberation.

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