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International Journal of Audiology Volume 48, 2009 - Issue 4
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Original Articles

Comparison of dual-time-constant and fast-acting automatic gain control (AGC) systems in cochlear implants

Patrick J. Boyle Department of Experimental Psychology, University of Cambridge, UKCorrespondence[email protected]
,
Andreas Büchner Medical University of Hannover, Germany
,
Michael A. Stone Department of Experimental Psychology, University of Cambridge, UK
,
Thomas Lenarz Medical University of Hannover, Germany
&
Brian C.J. Moore Department of Experimental Psychology, University of Cambridge, UK
Pages 211-221 | Received 13 Mar 2008, Published online: 07 Jul 2009

Citations (40)

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Read on this site (8)

Susan M. Reynolds & René H. Gifford. (2019) Effect of signal processing strategy and stimulation type on speech and auditory perception in adult cochlear implant users. International Journal of Audiology 58:6, pages 363-372.
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Hilal Dincer D’Alessandro, Patrick J. Boyle, Deborah Ballantyne, Marco De Vincentiis & Patrizia Mancini. (2018) The role of speech rate for Italian-speaking cochlear implant users: insights for everyday speech perception. International Journal of Audiology 57:11, pages 851-857.
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Mahmoud Keshavarzi, Thomas Baer & Brian C. J. Moore. (2018) Evaluation of a multi-channel algorithm for reducing transient sounds. International Journal of Audiology 57:8, pages 624-631.
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J. Gertjan Dingemanse, Jantien L. Vroegop & André Goedegebure. (2018) Effects of a transient noise reduction algorithm on speech intelligibility in noise, noise tolerance and perceived annoyance in cochlear implant users. International Journal of Audiology 57:5, pages 360-369.
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Hilal Dincer D’Alessandro, Deborah Ballantyne, Elio De Seta, Angela Musacchio & Patrizia Mancini. (2016) Adaptation of the STARR test for adult Italian population: A speech test for a realistic estimate in real-life listening conditions. International Journal of Audiology 55:4, pages 262-267.
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Patrick J Boyle & Brian C J Moore. (2015) Balancing cochlear implant AGC and near-instantaneous compression to improve perception of soft speech. Cochlear Implants International 16:sup1, pages S9-S11.
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Patrick Boyle. (2010) Evidence of Technology Impact. Cochlear Implants International 11:sup2, pages 43-47.
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Lu-Ming Joffo & Patrick Boyle. (2010) Star2 Validation Working Group: Cochlear Implant Users' Everyday-life Performance Assessed in Clinical Practice. Cochlear Implants International 11:sup2, pages 52-56.
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Articles from other publishers (32)

Chiara Valzolgher, Julie Gatel, Sabrina Bouzaid, Solene Grenouillet, Michela Todeschini, Gregoire Verdelet, Romeo Salemme, Valerie Gaveau, Eric Truy, Alessandro Farnè & Francesco Pavani. (2022) Reaching to Sounds Improves Spatial Hearing in Bilateral Cochlear Implant Users. Ear & Hearing 44:1, pages 189-198.
Crossref
Fan-Gang Zeng. (2022) Celebrating the one millionth cochlear implant. JASA Express Letters 2:7.
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Brian C. J. Moore. (2022) Listening to Music Through Hearing Aids: Potential Lessons for Cochlear Implants. Trends in Hearing 26, pages 233121652110729.
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H. Christiaan Stronks, Annemijn L. Tops, Phillipp Hehrmann, Jeroen J. Briaire & Johan H. M. Frijns. (2021) Personalizing Transient Noise Reduction Algorithm Settings for Cochlear Implant Users. Ear & Hearing 42:6, pages 1602-1614.
Crossref
M. Torben Pastore, Kathryn R. Pulling, Chen Chen, William A. Yost & Michael F. Dorman. (2021) Effects of Bilateral Automatic Gain Control Synchronization in Cochlear Implants With and Without Head Movements: Sound Source Localization in the Frontal Hemifield. Journal of Speech, Language, and Hearing Research 64:7, pages 2811-2824.
Crossref
Alan W. Archer-Boyd & Robert P. Carlyon. (2021) Further simulations of the effect of cochlear-implant pre-processing and head movement on interaural level differences. The Journal of the Acoustical Society of America 150:1, pages 506-525.
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Federica Di Berardino, Diego Zanetti, Daniela Soi, Lara Dalla Costa & Sandro Burdo. (2021) The Role of Autosensitivity Control (ASC) in Cochlear Implant Recipients. Audiology Research 11:1, pages 22-30.
Crossref
Mahmoud Keshavarzi, Tobias Reichenbach & Brian C. J. Moore. (2021) Transient Noise Reduction Using a Deep Recurrent Neural Network: Effects on Subjective Speech Intelligibility and Listening Comfort. Trends in Hearing 25, pages 233121652110414.
Crossref
Taylor A. Bakal, Kristina DeRoy Milvae, Chen Chen & Matthew J. Goupell. (2021) Head Shadow, Summation, and Squelch in Bilateral Cochlear-Implant Users With Linked Automatic Gain Controls. Trends in Hearing 25, pages 233121652110181.
Crossref
Robert T. Dwyer, Chen Chen, Phillipp Hehrmann, Nichole C. Dwyer & René H. Gifford. (2021) Synchronized Automatic Gain Control in Bilateral Cochlear Implant Recipients Yields Significant Benefit in Static and Dynamic Listening Conditions. Trends in Hearing 25, pages 233121652110141.
Crossref
M.J. van Gendt, M. Siebrecht, J.J. Briaire, S.M. Bohte & J.H.M. Frijns. (2020) Short and long-term adaptation in the auditory nerve stimulated with high-rate electrical pulse trains are better described by a power law. Hearing Research 398, pages 108090.
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Hilal Dincer D’Alessandro & Patrizia Mancini. (2020) Intonational cues for speech perception in noise by cochlear implant listeners. European Archives of Oto-Rhino-Laryngology 277:12, pages 3315-3321.
Crossref
Xin Luo, Courtney Kolberg, Kathryn R. Pulling & Tamiko Azuma. (2020) Psychoacoustic and Demographic Factors for Speech Recognition of Older Adult Cochlear Implant Users. Journal of Speech, Language, and Hearing Research 63:6, pages 1712-1725.
Crossref
Ricardo Bolaños-Pérez, José Miguel Rocha-Pérez, Alejandro Díaz-Sánchez, Jaime Ramirez-Angulo & Esteban Tlelo-Cuautle. (2020) CMOS Analog AGC for Biomedical Applications. Electronics 9:5, pages 878.
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Michael A. Stone, Garreth Prendergast & Shanelle Canavan. (2020) Measuring access to high-modulation-rate envelope speech cues in clinically fitted auditory prostheses. The Journal of the Acoustical Society of America 147:2, pages 1284-1301.
Crossref
Patrick J. Boyle. 2020. The Human Auditory System - Basic Features and Updates on Audiological Diagnosis and Therapy. The Human Auditory System - Basic Features and Updates on Audiological Diagnosis and Therapy.
Alan W. Archer-Boyd, Tobias Goehring & Robert P. Carlyon. (2020) The Effect of Free-Field Presentation and Processing Strategy on a Measure of Spectro-Temporal Processing by Cochlear-Implant Listeners. Trends in Hearing 24, pages 233121652096428.
Crossref
Enrique A. Lopez-Poveda, Almudena Eustaquio-Martín, Milagros J. Fumero, Joshua S. Stohl, Reinhold Schatzer, Peter Nopp, Robert D. Wolford, José M. Gorospe, Rubén Polo, Auxiliadora Gutiérrez Revilla & Blake S. Wilson. (2019) Lateralization of virtual sound sources with a binaural cochlear-implant sound coding strategy inspired by the medial olivocochlear reflex. Hearing Research 379, pages 103-116.
Crossref
Nathaniel J. Spencer, Kate Helms TilleryChristopher A. Brown. (2019) The Effects of Dynamic-range Automatic Gain Control on Sentence Intelligibility With a Speech Masker in Simulated Cochlear Implant Listening. Ear & Hearing 40:3, pages 710-724.
Crossref
Alan W. Archer-Boyd & Robert P. Carlyon. (2019) Simulations of the effect of unlinked cochlear-implant automatic gain control and head movement on interaural level differences. The Journal of the Acoustical Society of America 145:3, pages 1389-1400.
Crossref
Alan W. Archer-Boyd, Rosy V. Southwell, John M. Deeks, Richard E. Turner & Robert P. Carlyon. (2018) Development and validation of a spectro-temporal processing test for cochlear-implant listeners. The Journal of the Acoustical Society of America 144:5, pages 2983-2997.
Crossref
A. Büchner & L. Gärtner. (2017) Technische Entwicklungen bei CochleaimplantatenTechnical advancements in cochlear implants. HNO 65:4, pages 276-289.
Crossref
Alexis Bozorg-Grayeli, Nicolas Guevara, Jean-Pierre Bebear, Marine Ardoint, Sonia Saaï, Michel Hoen, Dan Gnansia, Philippe Romanet & Jean-Pierre Lavieille. (2015) Clinical evaluation of the xDP output compression strategy for cochlear implants. European Archives of Oto-Rhino-Laryngology 273:9, pages 2363-2371.
Crossref
Karl-Heinz Dyballa, Phillipp Hehrmann, Volkmar Hamacher, Thomas Lenarz & Andreas Buechner. (2016) Transient Noise Reduction in Cochlear Implant Users: A Multi-Band Approach. Audiology Research 6:2, pages 154.
Crossref
Greg D. Watkins, Brett A. Swanson & Gregg J. Suaning. (2016) A simulation analysis of the variability of the roving level hearing test. A simulation analysis of the variability of the roving level hearing test.
Lidwien C. E. VeugenJosef ChalupperAd F. M. SnikA. John van OpstalLucas H. M. Mens. (2016) Matching Automatic Gain Control Across Devices in Bimodal Cochlear Implant Users. Ear & Hearing 37:3, pages 260-270.
Crossref
Waldo Nogueira, Thilo Rode & Andreas Büchner. (2016) Spectral contrast enhancement improves speech intelligibility in noise for cochlear implants. The Journal of the Acoustical Society of America 139:2, pages 728-739.
Crossref
Karl-Heinz Dyballa, Phillipp Hehrmann, Volkmar Hamacher, Waldo Nogueira, Thomas Lenarz & Andreas Büchner. (2015) Evaluation of A Transient Noise Reduction Algorithm in Cochlear Implant Users. Audiology Research 5:2, pages 116.
Crossref
Waldo Nogueira, Leonid M. Litvak, Aniket A. Saoji & Andreas Büchner. (2015) Design and Evaluation of a Cochlear Implant Strategy Based on a “Phantom” Channel. PLOS ONE 10:3, pages e0120148.
Crossref
Phyu P. Khing, Brett A. Swanson & Eliathamby Ambikairajah. (2013) The Effect of Automatic Gain Control Structure and Release Time on Cochlear Implant Speech Intelligibility. PLoS ONE 8:11, pages e82263.
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
Michael A. Stone, Christian Füllgrabe & Brian 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. The Journal of the Acoustical Society of America 126:5, pages 2155-2158.
Crossref

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