Literature DB >> 29035691

How We Hear: The Perception and Neural Coding of Sound.

Andrew J Oxenham1.   

Abstract

Auditory perception is our main gateway to communication with others via speech and music, and it also plays an important role in alerting and orienting us to new events. This review provides an overview of selected topics pertaining to the perception and neural coding of sound, starting with the first stage of filtering in the cochlea and its profound impact on perception. The next topic, pitch, has been debated for millennia, but recent technical and theoretical developments continue to provide us with new insights. Cochlear filtering and pitch both play key roles in our ability to parse the auditory scene, enabling us to attend to one auditory object or stream while ignoring others. An improved understanding of the basic mechanisms of auditory perception will aid us in the quest to tackle the increasingly important problem of hearing loss in our aging population.

Entities:  

Keywords:  auditory perception; auditory scene analysis; frequency selectivity; hearing loss; pitch

Mesh:

Year:  2017        PMID: 29035691      PMCID: PMC5819010          DOI: 10.1146/annurev-psych-122216-011635

Source DB:  PubMed          Journal:  Annu Rev Psychol        ISSN: 0066-4308            Impact factor:   24.137


  117 in total

1.  Cortical pitch regions in humans respond primarily to resolved harmonics and are located in specific tonotopic regions of anterior auditory cortex.

Authors:  Sam Norman-Haignere; Nancy Kanwisher; Josh H McDermott
Journal:  J Neurosci       Date:  2013-12-11       Impact factor: 6.167

2.  Normal hearing is not enough to guarantee robust encoding of suprathreshold features important in everyday communication.

Authors:  Dorea Ruggles; Hari Bharadwaj; Barbara G Shinn-Cunningham
Journal:  Proc Natl Acad Sci U S A       Date:  2011-08-15       Impact factor: 11.205

3.  Tinnitus with a normal audiogram: physiological evidence for hidden hearing loss and computational model.

Authors:  Roland Schaette; David McAlpine
Journal:  J Neurosci       Date:  2011-09-21       Impact factor: 6.167

Review 4.  Measuring and interpreting neuronal correlations.

Authors:  Marlene R Cohen; Adam Kohn
Journal:  Nat Neurosci       Date:  2011-06-27       Impact factor: 24.884

5.  Symmetric interactions and interference between pitch and timbre.

Authors:  Emily J Allen; Andrew J Oxenham
Journal:  J Acoust Soc Am       Date:  2014-03       Impact factor: 1.840

6.  Tonal consonance and critical bandwidth.

Authors:  R Plomp; W J Levelt
Journal:  J Acoust Soc Am       Date:  1965-10       Impact factor: 1.840

7.  Primitive stream segregation of tone sequences without differences in fundamental frequency or passband.

Authors:  Brian Roberts; Brian R Glasberg; Brian C J Moore
Journal:  J Acoust Soc Am       Date:  2002-11       Impact factor: 1.840

8.  Auditory function in normal-hearing, noise-exposed human ears.

Authors:  Greta C Stamper; Tiffany A Johnson
Journal:  Ear Hear       Date:  2015 Mar-Apr       Impact factor: 3.570

9.  Temporal coherence structure rapidly shapes neuronal interactions.

Authors:  Kai Lu; Yanbo Xu; Pingbo Yin; Andrew J Oxenham; Jonathan B Fritz; Shihab A Shamma
Journal:  Nat Commun       Date:  2017-01-05       Impact factor: 14.919

10.  Auditory frequency and intensity discrimination explained using a cortical population rate code.

Authors:  Christophe Micheyl; Paul R Schrater; Andrew J Oxenham
Journal:  PLoS Comput Biol       Date:  2013-11-14       Impact factor: 4.475
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  29 in total

1.  Pitch discrimination with mixtures of three concurrent harmonic complexes.

Authors:  Jackson E Graves; Andrew J Oxenham
Journal:  J Acoust Soc Am       Date:  2019-04       Impact factor: 1.840

2.  The role of pitch and harmonic cancellation when listening to speech in harmonic background sounds.

Authors:  Daniel R Guest; Andrew J Oxenham
Journal:  J Acoust Soc Am       Date:  2019-05       Impact factor: 1.840

3.  Fundamental-frequency discrimination based on temporal-envelope cues: Effects of bandwidth and interference.

Authors:  Anahita H Mehta; Andrew J Oxenham
Journal:  J Acoust Soc Am       Date:  2018-11       Impact factor: 1.840

4.  The effect of fundamental frequency contour similarity on multi-talker listening in older and younger adults.

Authors:  Peter A Wasiuk; Mathieu Lavandier; Emily Buss; Jacob Oleson; Lauren Calandruccio
Journal:  J Acoust Soc Am       Date:  2020-12       Impact factor: 1.840

5.  Treefrogs exploit temporal coherence to form perceptual objects of communication signals.

Authors:  Saumya Gupta; Mark A Bee
Journal:  Biol Lett       Date:  2020-09-23       Impact factor: 3.703

6.  The Perception of Multiple Simultaneous Pitches as a Function of Number of Spectral Channels and Spectral Spread in a Noise-Excited Envelope Vocoder.

Authors:  Anahita H Mehta; Hao Lu; Andrew J Oxenham
Journal:  J Assoc Res Otolaryngol       Date:  2020-02-11

7.  Auditory Selectivity for Spectral Contrast in Cortical Neurons and Behavior.

Authors:  Nina L T So; Jacob A Edwards; Sarah M N Woolley
Journal:  J Neurosci       Date:  2019-12-11       Impact factor: 6.167

8.  Robust Rate-Place Coding of Resolved Components in Harmonic and Inharmonic Complex Tones in Auditory Midbrain.

Authors:  Yaqing Su; Bertrand Delgutte
Journal:  J Neurosci       Date:  2020-01-29       Impact factor: 6.167

9.  Direct electrophysiological mapping of human pitch-related processing in auditory cortex.

Authors:  Phillip E Gander; Sukhbinder Kumar; William Sedley; Kirill V Nourski; Hiroyuki Oya; Christopher K Kovach; Hiroto Kawasaki; Yukiko Kikuchi; Roy D Patterson; Matthew A Howard; Timothy D Griffiths
Journal:  Neuroimage       Date:  2019-08-08       Impact factor: 6.556

10.  Short- and long-term memory for pitch and non-pitch contours: Insights from congenital amusia.

Authors:  Jackson E Graves; Agathe Pralus; Lesly Fornoni; Andrew J Oxenham; Anne Caclin; Barbara Tillmann
Journal:  Brain Cogn       Date:  2019-09-20       Impact factor: 2.310
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