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International Journal of Audiology Volume 45, 2006 - Issue 1
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Original Article

Preferred overall loudness. II: Listening through hearing aids in field and laboratory tests

Intensidad subjetiva global preferida. II: Escuchando con auxiliares auditivos en campo libre y (EN) pruebas de laboratorio

Karolina Smeds Royal Institute of Technology, Stockholm, SwedenCorrespondence[email protected]
,
Gitte Keidser National Acoustics Laboratory, Chatswood, Australia
,
Justin Zakis University of Melbourne, Australia
,
Harvey Dillon National Acoustics Laboratory, Chatswood, Australia
,
Arne Leijon Royal Institute of Technology, Stockholm, Sweden
,
Frances Grant National Acoustics Laboratory, Chatswood, Australia
,
Elizabeth Convery National Acoustics Laboratory, Chatswood, Australia
&
Christopher Brew National Acoustics Laboratory, Chatswood, Australia
 show all
Pages 12-25 | Received 08 Jul 2004, Published online: 07 Jul 2009

Citations (28)

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Read on this site (10)

Jonathan Albert Gößwein, Jan Rennies, Rainer Huber, Tobias Bruns, Andrea Hildebrandt & Birger Kollmeier. (2023) Evaluation of a semi-supervised self-adjustment fine-tuning procedure for hearing aids. International Journal of Audiology 62:2, pages 159-171.
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Gerard Llorach, Dirk Oetting, Matthias Vormann, Markus Meis & Volker Hohmann. (2022) Vehicle noise: comparison of loudness ratings in the field and the laboratory. International Journal of Audiology 0:0, pages 1-10.
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Earl E. Johnson. (2017) Safety limit warning levels for the avoidance of excessive sound amplification to protect against further hearing loss. International Journal of Audiology 56:11, pages 829-836.
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Tim Jürgens, Nicholas R. Clark, Wendy Lecluyse & Ray Meddis. (2016) Exploration of a physiologically-inspired hearing-aid algorithm using a computer model mimicking impaired hearing. International Journal of Audiology 55:6, pages 346-357.
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Brian C. J. Moore & Aleksander Sęk. (2016) Comparison of the CAM2A and NAL-NL2 hearing-aid fitting methods for participants with a wide range of hearing losses. International Journal of Audiology 55:2, pages 93-100.
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Åsa Skagerstrand, Stefan Stenfelt, Stig Arlinger & Joel Wikström. (2014) Sounds perceived as annoying by hearing-aid users in their daily soundscape. International Journal of Audiology 53:4, pages 259-269.
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Susanne Köbler, Ann-Cathrine Lindblad, Åke Olofsson & Björn Hagerman. (2010) Successful and unsuccessful users of bilateral amplification: Differences and similarities in binaural performance. International Journal of Audiology 49:9, pages 613-627.
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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.
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Gitte Keidser, Anna O'Brien, Lyndal Carter, Margot McLelland & Ingrid Yeend. (2008) Variation in preferred gain with experience for hearing-aid users. International Journal of Audiology 47:10, pages 621-635.
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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.
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Articles from other publishers (18)

Trevor T. Perry & Peggy B. Nelson. (2022) Self-Adjustment of Hearing Aid Amplification for Lower Speech Levels: Independent Ratings, Paired Comparisons, and Speech Recognition. American Journal of Audiology 31:2, pages 305-321.
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Rachel Gomez, Alia Habib, David W. Maidment & Melanie A. Ferguson. (2022) Smartphone-Connected Hearing Aids Enable and Empower Self-Management of Hearing Loss: A Qualitative Interview Study Underpinned by the Behavior Change Wheel. Ear & Hearing 43:3, pages 921-932.
Crossref
Laura Winther Balling, Lasse Lohilahti Mølgaard, Oliver Townend & Jens Brehm Bagger Nielsen. (2021) The Collaboration between Hearing Aid Users and Artificial Intelligence to Optimize Sound. Seminars in Hearing 42:03, pages 282-294.
Crossref
Volker Hohmann, Richard Paluch, Melanie Krueger, Markus MeisGiso Grimm. (2020) The Virtual Reality Lab: Realization and Application of Virtual Sound Environments. Ear & Hearing 41:Supplement 1, pages 31S-38S.
Crossref
Trevor T. Perry, Peggy B. Nelson & Dianne J. Van Tasell. (2019) Listener Factors Explain Little Variability in Self-Adjusted Hearing Aid Gain. Trends in Hearing 23, pages 233121651983712.
Crossref
Dirk OettingVolker HohmannJens-E. Appell, Birger KollmeierStephan D. Ewert. (2018) Restoring Perceived Loudness for Listeners With Hearing Loss. Ear & Hearing 39:4, pages 664-678.
Crossref
Peggy B. Nelson, Trevor T. Perry, Melanie Gregan & Dianne VanTasell. (2018) Self-Adjusted Amplification Parameters Produce Large Between-Subject Variability and Preserve Speech Intelligibility. Trends in Hearing 22, pages 233121651879826.
Crossref
Ruiyu Liang, Ruxue Guo, Ji Xi, Yue Xie & Li Zhao. (2017) Self-Fitting Algorithm for Digital Hearing Aid Based on Interactive Evolutionary Computation and Expert System. Applied Sciences 7:3, pages 272.
Crossref
Hajime Sano. (2017) A review of hearing aid fitting procedures. AUDIOLOGY JAPAN 60:4, pages 201-209.
Crossref
Justin A. Zakis. 2016. Hearing Aids. Hearing Aids 217 252 .
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
Earl E. Johnson. (2013) Modern Prescription Theory and Application: Realistic Expectations for Speech Recognition With Hearing Aids. Trends in Amplification 17:3, pages 143-170.
Crossref
Gitte Keidser, Harvey Dillon, Lyndal Carter & Anna O’Brien. (2012) NAL-NL2 Empirical Adjustments. Trends in Amplification 16:4, pages 211-223.
Crossref
Karolina Smeds & Arne Leijon. 2011. Loudness. Loudness 223 259 .
Yu-Hsiang Wu & Ruth A. Bentler. (2010) Impact of Visual Cues on Directional Benefit and Preference: Part II—Field Tests. Ear & Hearing 31:1, pages 35-46.
Crossref
Justin A. Zakis, Harvey Dillon & Hugh J. McDermott. (2007) The Design and Evaluation of a Hearing Aid with Trainable Amplification Parameters. Ear & Hearing 28:6, pages 812-830.
Crossref
Lorienne M. Jenstad, Marlene P. Bagatto, Richard C. Seewald, Susan D. Scollie, Leonard E. Cornelisse & Ron Scicluna. (2007) Evaluation of the Desired Sensation Level [Input/Output] Algorithm for Adults with Hearing Loss: The Acceptable Range for Amplified Conversational Speech. Ear & Hearing 28:6, pages 793-811.
Crossref
Robyn M. Cox, Genevieve C. Alexander & Ginger A. Gray. (2007) Personality, Hearing Problems, and Amplification Characteristics: Contributions to Self-Report Hearing Aid Outcomes. Ear & Hearing 28:2, pages 141-162.
Crossref

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