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International Journal of Audiology Volume 56, 2017 - Issue 12
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Original Article

Development of a method for determining binaural sensitivity to temporal fine structure

Christian FüllgrabeMedical Research Council Institute of Hearing Research, School of Medicine, The University of Nottingham, Nottingham, UK, Correspondence[email protected]
ORCID Iconhttp://orcid.org/0000-0001-9127-8136View further author information
ORCID Icon,
Andrew J. HarlandDepartment of Psychology, University of Cambridge, Cambridge, UK, and View further author information
,
Aleksander P. SękDepartment of Psychology, University of Cambridge, Cambridge, UK, and ;Institute of Acoustics, Faculty of Physics, Adam Mickiewicz University, Poznan, PolandView further author information
&
Brian C. J. MooreDepartment of Psychology, University of Cambridge, Cambridge, UK, and ORCID Iconhttp://orcid.org/0000-0001-7071-0671View further author information
ORCID Icon
Pages 926-935 | Received 23 Dec 2016, Accepted 06 Aug 2017, Published online: 31 Aug 2017

References

  • Brughera, A., L. Dunai, and W. M. Hartmann. 2013. “Human Interaural Time Difference Thresholds for Sine Tones: The High-frequency Limit.” Journal of the Acoustical Society of America 133: 2839–2855.
  • BSA. 2004. Pure Tone Air and Bone Conduction Threshold Audiometry with and without Masking and Determination of Uncomfortable Loudness Levels. Reading: British Society of Audiology.
  • Drullman, R., J. M. Festen, and R. Plomp. 1994. “Effect of Temporal Envelope Smearing on Speech Reception.” Journal of the Acoustical Society of America 95: 1053–1064.
  • Dudley, H. 1939. “Remaking speech.” Journal of the Acoustical Society of America 11: 169–177.
  • Elliott, E. 1958. “A ripple effect in the audiogram.” Nature 181: 1076.
  • Freyman, R. L., A. M. Griffin, and A. J. Oxenham. 2012. “Intelligibility of Whispered Speech in Stationary and Modulated Noise Maskers.” Journal of the Acoustical Society of America 132: 2514–2523.
  • Füllgrabe, C. 2013. “Age-dependent Changes in Temporal-fine-structure Processing in the Absence of Peripheral Hearing Loss.” American Journal of Audiology 22: 313–315.
  • Füllgrabe, C., and B. C. J. Moore. 2012. “Objective and Subjective Measures of Pure-tone Stream Segregation Based on Interaural Time Differences.” Hearing Research 291: 24–33.
  • Füllgrabe, C., and B. C. J. Moore. 2014. “Effects of Age and Hearing Loss on Stream Segregation Based on Interaural Time Differences.” Journal of the Acoustical Society of America 136: EL185–1EL191.
  • Füllgrabe, C., B. C. J. Moore, and M. A. Stone. 2015. “Age-group Differences in Speech Identification Despite Matched Audiometrically Normal Hearing: Contributions from Auditory Temporal Processing and Cognition.” Frontiers in Aging Neuroscience 6: 347.
  • Füllgrabe, C., M. A. Stone, and B. C. J. Moore. 2009. “Contribution of Very Low Amplitude-modulation Rates to Intelligibility in a Competing-speech Task.” Journal of the Acoustical Society of America 125: 1277–1280.
  • Grose, J. H., and S. K. Mamo. 2010. “Processing of Temporal Fine Structure as a Function of Age.” Ear and Hearing 31: 755–760.
  • Hawkins, D. B., and F. L. Wightman.1980. “Interaural Time Discrimination ability of Listeners with Sensorineural Hearing Loss .”Audiology 19: 495–507.
  • Hopkins, K., and B. C. J. Moore. 2007. “Moderate Cochlear Hearing Loss Leads to a Reduced Ability to Use Temporal Fine Structure Information.” Journal of the Acoustical Society of America 122: 1055–1068.
  • Hopkins, K., and B. C. J. Moore. 2010. “Development of a Fast Method for Measuring Sensitivity to Temporal Fine Structure Information at Low Frequencies.”International Journal of Audiology 49: 940–946.
  • Hopkins, K., and B. C. J. Moore. 2011. “The Effects of Age and Cochlear Hearing Loss on Temporal Fine Structure Sensitivity, Frequency Selectivity, and Speech Reception in Noise.” Journal of the Acoustical Society of America 130: 334–349.
  • Hughes, J. 1940. “The upper frequency limit for the binaural localization of a pure tone by phase difference.” Proceedings of Royal Society of London B: Biological Science 128: 293–305.
  • Jackson, H. M., and B. C. J. Moore. 2014. “The Role of Excitation-pattern and Temporal-fine-structure Cues in the Discrimination of Harmonic and Frequency-shifted Complex Tones.” Journal of the Acoustical Society of America 135: 1356–1570.
  • King, A., K. Hopkins, and C. J. Plack. 2014. “The Effects of Age and Hearing Loss on Interaural Phase Difference Discrimination.” Journal of the Acoustical Society of America 135: 342–351.
  • Kohlrausch, A., R. Fassel, and T. Dau. 2000. “The Influence of Carrier Level and Frequency on Modulation and Beat-detection Thresholds for Sinusoidal Carriers.” Journal of the Acoustical Society of America 108: 723–734.
  • Launer, S., J. A. Zakis, and B. C. J. Moore. 2016. “Hearing Aid Signal Processing.” In Hearing Aids, edited by G.R. Popelka, B.C.J. Moore, A.N. Popper, and R.R. Fay, 93–130. New York: Springer.
  • Levitt, H. 1971. “Transformed Up-down Methods in Psychoacoustics.” Journal of the Acoustical Society of America 49: 467–477.
  • Lorenzi, C., and B. C. J. Moore. 2008. “Role of Temporal Envelope and Fine Structure Cues in Speech Perception: A Review.” In: Auditory Signal Processing in Hearing-Impaired Listeners 1st International Symposium on Auditory and Audiological Research (ISAAR 2007), edited by T. Dau, J.M. Buchholz, J.M. Harte and T.U. Christiansen, 263–272. Denmark: Centertryk A/S.
  • Marmel, F., C. J. Plack, K. Hopkins, R. P. Carlyon, H. E. Gockel, and B. C. J. Moore. 2015. “The Role of Excitation-pattern Cues in the Detection of Frequency Shifts in Bandpass-filtered Complex Tones.” Journal of the Acoustical Society of America 137: 2687–2697.
  • Micheyl, C., P. R. Schrater, and A. J. Oxenham. 2013. “Auditory Frequency and Intensity Discrimination Explained Using a Cortical Population Rate Code.” PLoS Computational Biology 9: e1003336.
  • Moore, B. C. J. 2008. “The Choice of Compression Speed in Hearing Aids: Theoretical and Practical Considerations, and the Role of Individual Differences.” Trends in Amplification 12: 103–112.
  • Moore, B. C. J. 2014. Auditory Processing of Temporal Fine Structure: Effects of Age and Hearing Loss. Singapore: World Scientific.
  • Moore, B. C. J., B. R. Glasberg, M. Stoev, C. Füllgrabe, and K. Hopkins. 2012. “The Influence of age and High-frequency Hearing Loss on Sensitivity to Temporal Fine Structure at Low Frequencies (L).” Journal of the Acoustical Society of America 131: 1003–1006.
  • Moore, B. C. J., and A. Sek. 2009. “Development of a Fast Method for Determining Sensitivity to Temporal Fine Structure.” International Journal of Audiology 48: 161–171.
  • Moore, B. C. J., and A. Sek. 2011. “Effect of Level on the Discrimination of Harmonic and Frequency-shifted Complex Tones At High Frequencies.” Journal of the Acoustical Society of America 129: 3206–3212.
  • Moore, B. C. J., and A. P. Sek. 2016. “Preferred Compression Speed for Speech and Music and its Relationship to Sensitivity to Temporal Fine Structure.” Trends in Hearing 20: 1–15.
  • Moore, B. C. J., D. A. Vickers, and A. Mehta. 2012. “The Effects of Age on Temporal Fine Structure Sensitivity in Monaural and Binaural Conditions.” International Journal of Audiology 51: 715–721.
  • Mossop, J. E., and J. F. Culling. 1998. “Lateralization of Large Interaural Delays.” Journal of the Acoustical Society of America 104: 1574–1579.
  • Neher, T., S. Laugesen, N. S. Jensen, and L. Kragelund. 2011. “Can Basic Auditory and Cognitive Measures Predict Hearing-impaired Listeners’ Localization and Spatial Speech Recognition Abilities?” Journal of the Acoustical Society of America 130: 1542–1558.
  • Neher, T., T. Lunner, K. Hopkins, and B. C. J. Moore. 2012. “Binaural Temporal Fine Structure Sensitivity, Cognitive Function, and Spatial Speech Recognition of Hearing-impaired Listeners (L).” Journal of the Acoustical Society of America 131: 2561–2564.
  • Oberfeld, D., and F. Klöckner-Nowotny. 2016. “Individual differences in selective attention predict speech identification at a cocktail party.”Elife 5, e16747.
  • Oxenham, A. J., C. Micheyl, and M. V. Keebler. 2009. “Can Temporal Fine structure Represent the Fundamental Frequency of Unresolved Harmonics?” Journal of the Acoustical Society of America 125: 2189–2199.
  • Oxenham, A. J., and A. M. Simonson. 2009. “Masking Release for Low- and High-pass-filtered Speech in the Presence of Noise and Single-talker Interference.” Journal of the Acoustical Society of America 125: 457–468.
  • Pichora-Fuller, M. K., and B. A. Schneider. 1992. “The effect of Interaural Delay of the Masker on Masking-level Differences In Young and Old Adults.” Journal of the Acoustical Society of America 91: 2129–2135.
  • Plack, C. J., and A. J. Oxenham. 2005. The Psychophysics of Pitch. In: Pitch Perception, edited by C.J. Plack, A.J. Oxenham, R.R. Fay & A.N. Popper, 7–55. New York: Springer.
  • Rayleigh, L. 1907. “On Our Perception of Sound Direction.” Philosophical Magazine 13: 214–232.
  • Ross, B., T. Fujioka, K. L. Tremblay, and T. W. Picton. 2007. “Aging in Binaural Hearing Begins in Mid-life: Evidence from Cortical Auditory-evoked Responses to Changes in Interaural Phase.” Journal of Neuroscience 27: 11172–11178.
  • Santurette, S., and T. Dau. 2012. “Relating binaural pitch perception to the individual listener's auditory profile.” Journal of the Acoustical Society of America 131: 2968–2986.
  • Shannon, R. V., F.-G. Zeng, V. Kamath, J. Wygonski, and M. Ekelid. 1995. “Speech Recognition with Primarily Temporal Cues.”Science (New York, N.Y.) 270: 303–304.
  • Steinberg, J. C., and M. B. Gardner. 1937. “The Dependence of Hearing Impairment on Sound Intensity.” Journal of the Acoustical Society of America 9: 11–23.
  • Stone, M. A., C. Füllgrabe, and B. C. J. Moore. 2009. “High-rate Envelope Information in Many Channels Provides Resistance to Reduction of Speech Intelligibility Produced by Multi-channel Fast-acting Compression.” Journal of the Acoustical Society of America 126: 2155–2158.
  • Stone, M. A., C. Füllgrabe, and B. C. J. Moore. 2010. “Relative Contribution to Speech Intelligibility of Different Envelope Modulation Rates Within the Speech Dynamic Range.” Journal of the Acoustical Society of America 128: 2127–2137.
  • Verschooten, E., and P. X. Joris. 2014. “Estimation of Neural Phase Locking from Stimulus-evoked Potentials.” Journal of the Association for Research in Otolaryngology 15: 767–787.
  • Whiteford, K. L., and A. J. Oxenham. 2015. “Using Individual Differences to test the Role of Temporal and Place Cues in Coding Frequency Modulation.” Journal of the Acoustical Society of America 138: 3093–3104.
  • Whitmer, W. M., B. U. Seeber, and M. A. Akeroyd. 2014. “The Perception of Apparent Auditory Source Width in Hearing-impaired Adults.” Journal of the Acoustical Society of America 135: 3548–3559.
  • Xu, L., and B. E. Pfingst. 2003. “Relative Importance of Temporal Envelope and Fine Structure in Lexical-tone Perception.” Journal of the Acoustical Society of America 114: 3024–3027.

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