Advanced search
Publication Cover
International Journal of Audiology Volume 44, 2005 - Issue 7
Submit an article Journal homepage
1,124
Views
75
CrossRef citations to date
0
Altmetric
Original Article

Development of a fast method for determining psychophysical tuning curves

Desarrollo de un método rápido para determinar curvas psicofísicas de sintonía

Aleksander Sęk Institute of Acoustics, Adam Mickiewicz University, 85 Umultowska, 61-614, Poznań, Poland
,
José Alcántara Department of Experimental Psychology, University of Cambridge, Downing Street, Cambridge CB2 3EB, UK
,
Brian C. J. Moore Department of Experimental Psychology, University of Cambridge, Downing Street, Cambridge CB2 3EB, UKCorrespondenceEmail [email protected]
,
Karolina Kluk Department of Experimental Psychology, University of Cambridge, Downing Street, Cambridge CB2 3EB, UK
&
Andrzej Wicher Institute of Acoustics, Adam Mickiewicz University, 85 Umultowska, 61-614, Poznań, Poland
Pages 408-420 | Received 16 Aug 2004, Published online: 07 Jul 2009

Citations (75)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (23)

Wan Nur Asyiqin Rasidi & Kumar Seluakumaran. (2023) Simplified cochlear frequency selectivity assessment in normal-hearing and hearing-impaired listeners. International Journal of Audiology 0:0, pages 1-8.
Read now
Petteri Hyvärinen, Michal Fereczkowski & Ewen N. MacDonald. (2023) Test-retest evaluation of a notched-noise test using consumer-grade mobile audio equipment. International Journal of Audiology 0:0, pages 1-9.
Read now
Brian C. J. Moore. (2020) Effect of age, test frequency and level on thresholds for the TEN(HL) test for people with normal hearing . International Journal of Audiology 59:12, pages 915-920.
Read now
Alicja N. Malicka, Wayne J. Wilson, Thomas Baer, Kevin J. Munro, Richard J. Baker, Deanna Miluzzi & Brian C. J. Moore. (2018) No evidence for enhanced processing of speech that is low-pass filtered near the edge frequency of cochlear dead regions in children. International Journal of Audiology 57:8, pages 632-637.
Read now
Andreas S. Hansen, Øyvind Raen & Brian C. J. Moore. (2017) Reference thresholds for the TEN(HL) test for people with normal hearing. International Journal of Audiology 56:9, pages 672-676.
Read now
Marina Salorio-Corbetto, Thomas Baer & Brian C. J. Moore. (2017) Quality ratings of frequency-compressed speech by participants with extensive high-frequency dead regions in the cochlea. International Journal of Audiology 56:2, pages 106-120.
Read now
Anna Pepler, Kathryn Lewis & Kevin J Munro. (2016) Adult hearing-aid users with cochlear dead regions restricted to high frequencies: Implications for amplification. International Journal of Audiology 55:1, pages 20-29.
Read now
Karolina K. Charaziak, Pamela E. Souza & Jonathan H. Siegel. (2015) Exploration of stimulus-frequency otoacoustic emission suppression tuning in hearing-impaired listeners. International Journal of Audiology 54:2, pages 96-105.
Read now
Joshua Myers & Alicja N. Malicka. (2014) Clinical feasibility of fast psychophysical tuning curves evaluated using normally hearing adults: Success rate, range of tip shift, repeatability, and comparison of methods used for estimation of frequency at the tip. International Journal of Audiology 53:12, pages 887-894.
Read now
Anna Pepler, Kevin J. Munro, Kathryn Lewis & Karolina Kluk. (2014) Repeatability, agreement, and feasibility of using the threshold equalizing noise test and fast psychophysical tuning curves in a clinical setting. International Journal of Audiology 53:10, pages 745-752.
Read now
Wendy Lecluyse, Christine M. Tan, Don McFerran & Ray Meddis. (2013) Acquisition of auditory profiles for good and impaired hearing. International Journal of Audiology 52:9, pages 596-605.
Read now
Bastiaan Warnaar, Morten L. Jepsen & Wouter A. Dreschler. (2013) Simulating psychophysical tuning curves in listeners with dead regions. International Journal of Audiology 52:8, pages 533-544.
Read now
Bastiaan Warnaar & Wouter A. Dreschler. (2012) Agreement between psychophysical tuning curves and the threshold equalizing noise test in dead region identification. International Journal of Audiology 51:6, pages 456-464.
Read now
Karolina K. Charaziak, Pamela Souza & Jonathan H. Siegel. (2012) Time-efficient measures of auditory frequency selectivity. International Journal of Audiology 51:4, pages 317-325.
Read now
. (2012) Abstracts of the British Society of Audiology annual conference (incorporating the Experimental and Clinical Short papers meetings). International Journal of Audiology 51:3, pages 220-277.
Read now
Aleksander Sęk & Brian C. J. Moore. (2011) Implementation of a fast method for measuring psychophysical tuning curves. International Journal of Audiology 50:4, pages 237-242.
Read now
Alicja N. Malicka, Kevin J. Munro & Richard J. Baker. (2009) Fast method for psychophysical tuning curve measurement in school-age children. International Journal of Audiology 48:8, pages 546-553.
Read now
Emily Markessis, Hanane Nasr-Addine, Cécile Colin, Ingrid Hoonhorst, Grégory Collet, Paul Deltenre, Kevin J. Munro & Brian C.J. Moore. (2009) Effect of presentation level on diagnosis of dead regions using the threshold equalizing noise test. International Journal of Audiology 48:2, pages 55-62.
Read now
Dave Furness. (2007) Abstracts of the British Society of Audiology Short Papers Meeting on Experimental Studies of Hearing and Deafness September 2006, Cambridge University, UK. International Journal of Audiology 46:10, pages 619-658.
Read now
Joanna D. Robinson, Thomas Baer & Brian C.J. Moore. (2007) Using transposition to improve consonant discrimination and detection for listeners with severe high-frequency hearing loss. International Journal of Audiology 46:6, pages 293-308.
Read now
Vinay & Brian C.J. Moore. (2007) Ten(HL)-test results and psychophysical tuning curves for subjects with auditory neuropathy. International Journal of Audiology 46:1, pages 39-46.
Read now
Karolina Kluk & Brian C.J. Moore. (2006) Detecting dead regions using psychophysical tuning curves: A comparison of simultaneous and forward masking. International Journal of Audiology 45:8, pages 463-476.
Read now
Martina Huss & Brian C.J. Moore. (2005) Dead regions and noisiness of pure tones. International Journal of Audiology 44:10, pages 599-611.
Read now

Articles from other publishers (52)

Emanuele Perugia, Frederic Marmel & Karolina Kluk. (2023) Feasibility of Diagnosing Dead Regions Using Auditory Steady-State Responses to an Exponentially Amplitude Modulated Tone in Threshold Equalizing Notched Noise, Assessed Using Normal-Hearing Participants. Trends in Hearing 27.
Crossref
Amin Saremi & Stefan Stenfelt. (2022) The effects of noise‐induced hair cell lesions on cochlear electromechanical responses: A computational approach using a biophysical model. International Journal for Numerical Methods in Biomedical Engineering 38:5.
Crossref
Meisam K. Arjmandi, Kelly N. Jahn & Julie G. Arenberg. (2022) Single-Channel Focused Thresholds Relate to Vowel Identification in Pediatric and Adult Cochlear Implant Listeners. Trends in Hearing 26, pages 233121652210953.
Crossref
Rosamaria Santarelli, Pietro Scimemi, Marco Costantini, María Domínguez-RuizMontserrat Rodríguez-Ballesteros & Ignacio del Castillo. (2021) Cochlear Synaptopathy due to Mutations in OTOF Gene May Result in Stable Mild Hearing Loss and Severe Impairment of Speech Perception. Ear & Hearing 42:6, pages 1627-1639.
Crossref
Ophir Handzel & Kevin Franck. (2021) Smartphone based hearing evaluation. Operative Techniques in Otolaryngology-Head and Neck Surgery 32:2, pages 87-91.
Crossref
Pierre-Antoine Cucis, Christian Berger-Vachon, Hung Thaï-Van, Ruben Hermann, Stéphane Gallego & Eric Truy. (2021) Word Recognition and Frequency Selectivity in Cochlear Implant Simulation: Effect of Channel Interaction. Journal of Clinical Medicine 10:4, pages 679.
Crossref
Yin Liu, Runyi Xu & Qin Gong. (2020) Human Auditory-Frequency Tuning Is Sensitive to Tonal Language Experience. Journal of Speech, Language, and Hearing Research 63:12, pages 4277-4288.
Crossref
Kelly N. JahnJulie G. Arenberg. (2020) Identifying Cochlear Implant Channels With Relatively Poor Electrode-Neuron Interfaces Using the Electrically Evoked Compound Action Potential. Ear & Hearing 41:4, pages 961-973.
Crossref
Uzma Shaheen Wilson, Jenna Browning-Kamins, Sriram Boothalingam, Arturo Moleti, Renata Sisto & Sumitrajit Dhar. (2020) Relationship Between Behavioral and Stimulus Frequency Otoacoustic Emissions Delay-Based Tuning Estimates. Journal of Speech, Language, and Hearing Research 63:6, pages 1958-1968.
Crossref
Vijaya Kumar Narne, Saransh Jain, Chitkala Sharma, Thomas Baer & Brian C.J. Moore. (2020) Narrow-band ripple glide direction discrimination and its relationship to frequency selectivity estimated using psychophysical tuning curves. Hearing Research 389, pages 107910.
Crossref
Kelly N. Jahn, Molly D. Bergan & Julie G. Arenberg. (2020) Auditory Detection Thresholds and Cochlear Resistivity Differ Between Pediatric Cochlear Implant Listeners With Enlarged Vestibular Aqueduct and Those With Connexin-26 Mutations. American Journal of Audiology 29:1, pages 23-34.
Crossref
Kristen L. D’Onofrio, Meredith Caldwell, Charles Limb, Spencer Smith, David M. Kessler & René H. Gifford. (2020) Musical Emotion Perception in Bimodal Patients: Relative Weighting of Musical Mode and Tempo Cues. Frontiers in Neuroscience 14.
Crossref
Aleksander P. Sęk & Brian C. J. Moore. (2020) PSYCHOACOUSTICS: Software package for psychoacoustics. Acoustical Science and Technology 41:1, pages 67-74.
Crossref
Josef Schlittenlacher, Richard E. Turner & Brian C. J. Moore. (2020) Application of Bayesian Active Learning to the Estimation of Auditory Filter Shapes Using the Notched-Noise Method. Trends in Hearing 24, pages 233121652095299.
Crossref
Emilia Tarnowska, Andrzej Wicher & Brian C. J. Moore. (2020) No Influence of Musicianship on the Effect of Contralateral Stimulation on Frequency Selectivity. Trends in Hearing 24, pages 233121652093977.
Crossref
David M. Kessler, Saradha Ananthakrishnan, Spencer B. Smith, Kristen D’Onofrio & René H. Gifford. (2020) Frequency Following Response and Speech Recognition Benefit for Combining a Cochlear Implant and Contralateral Hearing Aid. Trends in Hearing 24, pages 233121652090200.
Crossref
Kelly N. Jahn & Julie G. Arenberg. (2019) Evaluating Psychophysical Polarity Sensitivity as an Indirect Estimate of Neural Status in Cochlear Implant Listeners. Journal of the Association for Research in Otolaryngology 20:4, pages 415-430.
Crossref
Mishaela DiNino, Gabrielle O’Brien, Steven M. Bierer, Kelly N. Jahn & Julie G. Arenberg. (2019) The Estimated Electrode-Neuron Interface in Cochlear Implant Listeners Is Different for Early-Implanted Children and Late-Implanted Adults. Journal of the Association for Research in Otolaryngology 20:3, pages 291-303.
Crossref
Yi Shen, Allison B. Kern & Virginia M. Richards. (2019) Toward Routine Assessments of Auditory Filter Shape. Journal of Speech, Language, and Hearing Research 62:2, pages 442-455.
Crossref
Kelly N. Jahn & Julie G. Arenberg. (2019) Polarity Sensitivity in Pediatric and Adult Cochlear Implant Listeners. Trends in Hearing 23, pages 233121651986298.
Crossref
Heather A. Kreft, Lindsay A. DeVries, Julie G. Arenberg & Andrew J. Oxenham. (2019) Comparing Rapid and Traditional Forward-Masked Spatial Tuning Curves in Cochlear-Implant Users. Trends in Hearing 23, pages 233121651985130.
Crossref
Lindsay DeVries & Julie G. Arenberg. (2018) Psychophysical Tuning Curves as a Correlate of Electrode Position in Cochlear Implant Listeners. Journal of the Association for Research in Otolaryngology 19:5, pages 571-587.
Crossref
Lindsay DeVries & Julie G. Arenberg. (2018) Current Focusing to Reduce Channel Interaction for Distant Electrodes in Cochlear Implant Programs. Trends in Hearing 22, pages 233121651881381.
Crossref
Josef Schlittenlacher, Richard E. Turner & Brian C. J. Moore. (2018) A Hearing-Model-Based Active-Learning Test for the Determination of Dead Regions. Trends in Hearing 22, pages 233121651878821.
Crossref
Dongjia Xing & Qin Gong. (2018) A fast algorithm for the measurement of stimulus frequency otoacoustic emission suppression tuning curves. Applied Acoustics 129, pages 173-180.
Crossref
Rebecca E. Millman, Michael A. Stone & Chin-Tuan Tan. (2017) Objective neurophysiological assessment for sound quality perception by hearing-impaired listeners. Objective neurophysiological assessment for sound quality perception by hearing-impaired listeners.
Qingyun Wang, Ruiyu Liang, Susanto Rahardja, Liye Zhao, Cairong Zou & Li Zhao. (2017) Piecewise-Linear Frequency Shifting Algorithm for Frequency Resolution Enhancement in Digital Hearing Aids. Applied Sciences 7:4, pages 335.
Crossref
Gavin M. Bidelman & Shaum P. Bhagat. (2017) Cochlear, brainstem, and psychophysical responses show spectrotemporal tradeoff in human auditory processing. NeuroReport 28:1, pages 17-22.
Crossref
Yao Wang, Qin Gong & Tao Zhang. (2016) The influence of probe level on the tuning of stimulus frequency otoacoustic emissions and behavioral test in human. BioMedical Engineering OnLine 15:1.
Crossref
Peter J. Kullar, Jenna Quail, Phillip Lindsey, Janet A. Wilson, Rita Horvath, Patrick Yu-Wai-Man, Grainne S. Gorman, Robert W. Taylor, Yi Ng, Robert McFarland, Brian C. J. Moore & Patrick F. Chinnery. (2016) Both mitochondrial DNA and mitonuclear gene mutations cause hearing loss through cochlear dysfunction. Brain 139:6, pages e33-e33.
Crossref
Gavin M. Bidelman, Caitlin Nelms & Shaum P. Bhagat. (2016) Musical experience sharpens human cochlear tuning. Hearing Research 335, pages 40-46.
Crossref
Julie A. Bierer, Steven M. Bierer, Heather A. Kreft & Andrew J. Oxenham. (2015) A Fast Method for Measuring Psychophysical Thresholds Across the Cochlear Implant Array. Trends in Hearing 19, pages 233121651556979.
Crossref
Sarah Rahmat & Greg A. O'Beirne. (2015) The development of a fast method for recording Schroeder-phase masking functions. Hearing Research 330, pages 125-133.
Crossref
Gavin M. Bidelman, Skyler G. Jennings & Elizabeth A. Strickland. (2015) PsyAcoustX: A flexible MATLAB® package for psychoacoustics research. Frontiers in Psychology 6.
Crossref
René H. Gifford, Colin L. W. Driscoll, Timothy J. Davis, Pam Fiebig, Alan Micco & Michael F. Dorman. (2015) A Within-Subject Comparison of Bimodal Hearing, Bilateral Cochlear Implantation, and Bilateral Cochlear Implantation With Bilateral Hearing Preservation. Otology & Neurotology 36:8, pages 1331-1337.
Crossref
Yi Shen, Rajeswari Sivakumar & Virginia M. Richards. (2014) Rapid estimation of high-parameter auditory-filter shapes. The Journal of the Acoustical Society of America 136:4, pages 1857-1868.
Crossref
Gavin M. Bidelman, Jonathan M. Schug, Skyler G. Jennings & Shaum P. Bhagat. (2014) Psychophysical auditory filter estimates reveal sharper cochlear tuning in musicians. The Journal of the Acoustical Society of America 136:1, pages EL33-EL39.
Crossref
Gavin M. Bidelman & Ameenuddin Syed Khaja. (2014) Spectrotemporal resolution tradeoff in auditory processing as revealed by human auditory brainstem responses and psychophysical indices. Neuroscience Letters 572, pages 53-57.
Crossref
A. Sęk & M. Kordus. (2014) Frequency Discrimination for Amplitude Modulated Sinusoidal Signals at High Carrier Frequencies. Acta Physica Polonica A 125:4A, pages A-149-A-154.
Crossref
Qin Gong, Yao Wang & Meng Xian. (2014) An objective assessment method for frequency selectivity of the human auditory system. BioMedical Engineering OnLine 13:1, pages 171.
Crossref
Rachael R. Baiduc, Jungmee Lee & Sumitrajit Dhar. (2014) Spontaneous otoacoustic emissions, threshold microstructure, and psychophysical tuning over a wide frequency range in humans. The Journal of the Acoustical Society of America 135:1, pages 300-314.
Crossref
Karolina K. Charaziak, Pamela Souza & Jonathan H. Siegel. (2013) Stimulus-Frequency Otoacoustic Emission Suppression Tuning in Humans: Comparison to Behavioral Tuning. Journal of the Association for Research in Otolaryngology 14:6, pages 843-862.
Crossref
Matthew F. Tang & Geoffrey R. Hammond. (2013) Anodal transcranial direct current stimulation over auditory cortex degrades frequency discrimination by affecting temporal, but not place, coding. European Journal of Neuroscience 38:5, pages 2802-2811.
Crossref
A. Wicher. (2013) The Effect of Contralateral Signal on Distortion Product Otoacoustic Emissions and Psychophysical Tuning Curves at 1 and 2 kHz. Acta Physica Polonica A 123:5, pages 1001-1006.
Crossref
Timothy Wilding, Colette McKay, Richard Baker, Terence Picton & Karolina Kluk. (2011) Using the Auditory Steady State Response to Record Response Amplitude Curves. A Possible Fast Objective Method for Diagnosing Dead Regions. Ear & Hearing 32:4, pages 485-497.
Crossref
Alicja N. Malicka, Kevin J. Munro & Richard J. Baker. (2010) Diagnosing Cochlear Dead Regions in Children. Ear & Hearing 31:2, pages 238-246.
Crossref
Vinay & Brian C. J. Moore. (2010) Psychophysical tuning curves and recognition of highpass and lowpass filtered speech for a person with an inverted V-shaped audiogram. The Journal of the Acoustical Society of America 127:2, pages 660-663.
Crossref
B. C. J. Moore & S. N. Vinay. (2008) Enhanced discrimination of low-frequency sounds for subjects with high-frequency dead regions. Brain 132:2, pages 524-536.
Crossref
Vinay & Brian C. J. Moore. (2007) Speech recognition as a function of high-pass filter cutoff frequency for people with and without low-frequency cochlear dead regions. The Journal of the Acoustical Society of America 122:1, pages 542-553.
Crossref
Brian C. J. Moore. (2007) Prevalence of Dead Regions in Subjects with Sensorineural Hearing Loss. Ear & Hearing 28:2, pages 231-241.
Crossref
Karolina Kluk & Brian C.J. Moore. (2006) Dead regions in the cochlea and enhancement of frequency discrimination: Effects of audiogram slope, unilateral versus bilateral loss, and hearing-aid use. Hearing Research 222:1-2, pages 1-15.
Crossref
Brian C.J. Moore. 2005. Auditory Spectral Processing. Auditory Spectral Processing 49 86 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.