Abstract
The interaction of sound waves with the human pinna introduces high-frequency notches (5–10 kHz) in the stimulus spectrum that are thought to be useful for vertical sound localization. A common view is that these notches are encoded as rate profiles in the auditory nerve (AN). Here, we review previously published psychoacoustical evidence in humans and computer-model simulations of inner hair cell responses to noises with and without high-frequency spectral notches that dispute this view. We also present new recordings from guinea pig AN and “ideal observer” analyses of these recordings that suggest that discrimination between noises with and without high-frequency spectral notches is probably based on the information carried in the temporal pattern of AN discharges. The exact nature of the neural code involved remains nevertheless uncertain: computer model simulations suggest that high-frequency spectral notches are encoded in spike timing patterns that may be operant in the 4–7 kHz frequency regime, while “ideal observer” analysis of experimental neural responses suggest that an effective cue for high-frequency spectral discrimination may be based on sampling rates of spike arrivals of AN fibers using non-overlapping time binwidths of between 4 and 9 ms. Neural responses show that sensitivity to high-frequency notches is greatest for fibers with low and medium spontaneous rates than for fibers with high spontaneous rates. Based on this evidence, we conjecture that inter-subject variability at high-frequency spectral notch detection and, consequently, at vertical sound localization may partly reflect individual differences in the available number of functional medium- and low-spontaneous-rate fibers.
Highlights
The ridges and cavities of the outer ear alter the spectra of sounds that enter the ear canal, mainly attenuating energy at high frequencies, such that notches are introduced into the spectra (Shaw and Teranishi, 1968; Lopez-Poveda and Meddis, 1996)
auditory nerve (AN) rate profiles do not explain psychoacoustical noise discrimination as a function of level First, we tested whether psychoacoustical spectral discrimination could be accounted for using only the AN rate-profile representation of the stimulus spectrum
The notch is still observed in the difference rate profiles at very high levels, provided that the notch is sufficiently deep
Summary
The ridges and cavities of the outer ear alter the spectra of sounds that enter the ear canal, mainly (but ) attenuating energy at high frequencies, such that notches are introduced into the spectra (Shaw and Teranishi, 1968; Lopez-Poveda and Meddis, 1996). These notches are thought useful for judging the vertical location of sound sources (Hebrank and Wright, 1974; Butler and Belendiuk, 1977; Butler and Humanski, 1992; Carlile et al, 2005).
Sign-in/Register to view highlights & summary Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
