Something in our ear is oscillating, but what? A modeller's view of efforts to model spontaneous emissions

Hero P. Wit*, Andrew Bell

*Corresponding author for this work

    Research output: Contribution to journalReview articlepeer-review

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    Abstract

    When David Kemp discovered “spontaneous ear noise” in 1978, it opened up a whole new perspective on how the cochlea works. The continuous tonal sound emerging from most healthy human ears, now called spontaneous otoacoustic emissions or SOAEs, was an unmistakable sign that our hearing organ must be considered an active detector, not just a passive micro- phone, just as Thomas Gold had speculated some 30 years earlier. Clearly, something is oscillating as a byproduct of that sensitive inbuilt detector, but what exactly is it? Here, we give a chronological account of efforts to model SOAEs as some form of oscillator, and at intervals, we illustrate key concepts with numerical simulations. We find that after many decades there is still no consensus, and the debate extends to whether the oscillator is local, confined to discrete local sources on the basilar membrane, or global, in which an assembly of micro-mechanical elements and basilar membrane sections, coupled by inner ear fluid, interact over a wide region. It is also undecided whether the cochlear oscillator is best described in terms of the well-known Van der Pol oscillator or the less familiar Duffing or Hopf oscillators. We find that irregularities play a key role in generating the emissions. This paper is not a systematic review of SOAEs and their properties but more a historical survey of the way in which various oscillator configurations have been applied to modelling human ears. The conclusion is that the difference between the local and global approaches is not clear-cut, and they are probably not mutually exclusive concepts. Nevertheless, when one sees how closely human SOAEs can be matched to certain arrangements of oscillators, Gold would no doubt say we are on the right track.
    Original languageEnglish
    Pages (from-to)313–328
    Number of pages16
    JournalJournal of the Association for Research in Otolaryngology
    Volume25
    Early online date6-May-2024
    DOIs
    Publication statusPublished - Aug-2024

    Keywords

    • Self-sustaining oscillator · Micro-mechanical element · Cochlear amplifier · Standing wave

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