Citations (35)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (11)
Teresa Y.C. Ching, Earl E. Johnson, Sanna Hou, Harvey Dillon, Vicky Zhang, Lauren Burns, Patricia van Buynder, Angela Wong & Christopher Flynn. (2013) A comparison of NAL and DSL prescriptive methods for paediatric hearing-aid fitting: Predicted speech intelligibility and loudness. International Journal of Audiology 52:sup2, pages S29-S38.
Read now
Read now
Christian Füllgrabe, Thomas Baer, Michael A. Stone & Brian C. J. Moore. (2010) Preliminary evaluation of a method for fitting hearing aids with extended bandwidth. International Journal of Audiology 49:10, pages 741-753.
Read now
Read now
James M. Kates. (2010) Understanding compression: Modeling the effects of dynamic-range compression in hearing aids. International Journal of Audiology 49:6, pages 395-409.
Read now
Read now
Brian C.J. Moore, Brian R. Glasberg & Michael A. Stone. (2010) Development of a new method for deriving initial fittings for hearing aids with multi-channel compression: CAMEQ2-HF. International Journal of Audiology 49:3, pages 216-227.
Read now
Read now
Jesko L. Verhey, Anne-Kristin Anweiler & Volker Hohmann. (2006) Spectral loudness summation as a function of duration for hearing-impaired listeners. International Journal of Audiology 45:5, pages 287-294.
Read now
Read now
Karolina Smeds, Gitte Keidser, Justin Zakis, Harvey Dillon, Arne Leijon, Frances Grant, Elizabeth Convery & Christopher Brew. (2006) Preferred overall loudness. II: Listening through hearing aids in field and laboratory tests. International Journal of Audiology 45:1, pages 12-25.
Read now
Read now
Karolina Smeds, Gitte Keidser, Justin Zakis, Harvey Dillon, Arne Leijon, Frances Grant, Elizabeth Convery & Christopher Brew. (2006) Preferred overall loudness. I: Sound field presentation in the laboratory. International Journal of Audiology 45:1, pages 2-11.
Read now
Read now
Brian C. J. Moore, Josephine Marriage, José Alcántara & Brian R. Glasberg. (2005) Comparison of two adaptive procedures for fitting a multi-channel compression hearing aid. International Journal of Audiology 44:6, pages 345-357.
Read now
Read now
Josephine Marriage, Brian C. J. Moore & José I. Alcántara. (2004) Comparison of three procedures for initial fitting of compression hearing aids. III. Inexperienced versus experienced users. International Journal of Audiology 43:4, pages 198-210.
Read now
Read now
Jose´ I. Alca´ntara, Brian C. J. Moore & Josephine Marriage. (2004) Comparison of three procedures for initial fitting of compression hearing aids. II. Experienced users, fitted unilaterally. International Journal of Audiology 43:1, pages 3-14.
Read now
Read now
Stefan Launer & Brian C. J. Moore. (2003) Use of a loudness model for hearing aid fitting. V. On-line gain control in a digital hearing aid: Utilizatión de un modelo de intensidad para la adaptación de auxiliares auditivos. V. Control de ganancia en línea en un auxiliar auditivo. International Journal of Audiology 42:5, pages 262-273.
Read now
Read now
Articles from other publishers (24)
Iko Pieper, Manfred Mauermann, Birger Kollmeier & Stephan D. Ewert. (2021) Toward an Individual Binaural Loudness Model for Hearing Aid Fitting and Development. Frontiers in Psychology 12.
Crossref
Crossref
Volker Hohmann, Birger Kollmeier & Giso Grimm. 2020. Handbuch der Audiotechnik. Handbuch der Audiotechnik
1
22
.
Walt Jesteadt, Sara M. Walker, Oluwaseye A. Ogun, Brenda Ohlrich, Katyarina E. Brunette, Marcin Wróblewski & Kendra K. Schmid. (2017) Relative contributions of specific frequency bands to the loudness of broadband sounds. The Journal of the Acoustical Society of America 142:3, pages 1597-1610.
Crossref
Crossref
Kevin J. Munro & H. Gustav Mueller. 2016. Hearing Aids. Hearing Aids
253
289
.
Brian C. J. Moore. (2014) Development and Current Status of the “Cambridge” Loudness Models. Trends in Hearing 18, pages 233121651455062.
Crossref
Crossref
Zhangli Chen & Guangshu Hu. (2013) CHENFIT-AMP, A Nonlinear Fitting and Amplification Strategy for Cochlear Hearing Loss. IEEE Transactions on Biomedical Engineering 60:11, pages 3226-3237.
Crossref
Crossref
Shu-Hsien Chu, Mingyi Hong, Zhi-Quan Luo, Kelly Fitz, Martin McKinney & Tao Zhang. (2013) Derivative-free optimization of hearing aid parameters. Derivative-free optimization of hearing aid parameters.
Kathryn Hopkins, Andrew King & Brian C. J. Moore. (2012) The effect of compression speed on intelligibility: Simulated hearing-aid processing with and without original temporal fine structure information. The Journal of the Acoustical Society of America 132:3, pages 1592-1601.
Crossref
Crossref
Karolina Smeds & Arne Leijon. 2011. Loudness. Loudness
223
259
.
Brian C. J. Moore & Christian Füllgrabe. (2010) Evaluation of the CAMEQ2-HF Method for Fitting Hearing Aids With Multichannel Amplitude Compression. Ear & Hearing 31:5, pages 657-666.
Crossref
Crossref
Brian C. J. Moore, Christian Füllgrabe & Michael A. Stone. (2010) Effect of spatial separation, extended bandwidth, and compression speed on intelligibility in a competing-speech task. The Journal of the Acoustical Society of America 128:1, pages 360-371.
Crossref
Crossref
Michael G. Heinz. 2010. Computational Models of the Auditory System. Computational Models of the Auditory System
177
202
.
Elsaeid Mohamed Thabet. (2009) Evaluation of tinnitus patients with normal hearing sensitivity using TEOAEs and TEN test. Auris Nasus Larynx 36:6, pages 633-636.
Crossref
Crossref
Brian C.J. Moore. (2009) Dead zones: What are they and what do you do about them?. The Hearing Journal 62:3, pages 10-14.
Crossref
Crossref
Brian C. J. Moore, Michael A. Stone, Christian Füllgrabe, Brian R. Glasberg & Sunil Puria. (2008) Spectro-Temporal Characteristics of Speech at High Frequencies, and the Potential for Restoration of Audibility to People with Mild-to-Moderate Hearing Loss. Ear & Hearing 29:6, pages 907-922.
Crossref
Crossref
Amyn M. Amlani. (2008) Multichannel Compression Hearing Aids: Perceptual Considerations. The ASHA Leader 13:3, pages 12-19.
Crossref
Crossref
Hideyuki Takagi & Miho Ohsaki. (2007) Interactive Evolutionary Computation-Based Hearing Aid Fitting. IEEE Transactions on Evolutionary Computation 11:3, pages 414-427.
Crossref
Crossref
Brian C.J. Moore. 2007. Cochlear Hearing Loss. Cochlear Hearing Loss
287
326
.
Brian C.J. Moore. (2006) Speech mapping is a valuable tool for fitting and counseling patients. The Hearing Journal 59:8, pages 26.
Crossref
Crossref
Karolina Smeds. (2004) Is Normal or Less Than Normal Overall Loudness Preferred by First-Time Hearing Aid Users?. Ear and Hearing 25:2, pages 159-172.
Crossref
Crossref
Brian C.J. Moore & Brian R. Glasberg. (2004) A revised model of loudness perception applied to cochlear hearing loss. Hearing Research 188:1-2, pages 70-88.
Crossref
Crossref
Pamela E. Souza. (2016) Effects of Compression on Speech Acoustics, Intelligibility, and Sound Quality. Trends in Amplification 6:4, pages 131-165.
Crossref
Crossref
Michael A. Stone & Brian C. J. Moore. (2002) Tolerable Hearing Aid Delays. II. Estimation of Limits Imposed During Speech Production. Ear and Hearing 23:4, pages 325-338.
Crossref
Crossref
Gitte Keidser, Richard Katsch, Harvey Dillon & Frances Grant. (2002) Relative loudness of low- and high-frequency bands of speech-shaped babble, including the influence of bandwidth and input level. The Journal of the Acoustical Society of America 111:2, pages 669-671.
Crossref
Crossref