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Audiology Volume 21, 1982 - Issue 1
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Original Article

A Standard Determination of Paired Air- and Bone-Conduction Thresholds under Different Masking Noise Conditions

D. W. Robinson Acoustics Unit, National Physical Laboratory, Teddington, Middlesex, UK
&
M. S. Shipton Acoustics Unit, National Physical Laboratory, Teddington, Middlesex, UK
Pages 61-82 | Published online: 07 Jul 2009

Citations (15)

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Read on this site (10)

Karina C. De Sousa, Cas Smits, David R. Moore, Hermanus Carel Myburgh & De Wet Swanepoel. (2020) Pure-tone audiometry without bone-conduction thresholds: using the digits-in-noise test to detect conductive hearing loss. International Journal of Audiology 59:10, pages 801-808.
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Robert H. Margolis, Robert H. Eikelboom, Chad Johnson, Samantha M. Ginter, De Wet Swanepoel & Brian C. J. Moore. (2013) False air-bone gaps at 4 kHz in listeners with normal hearing and sensorineural hearing loss. International Journal of Audiology 52:8, pages 526-532.
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Roberta Marino, Nicola Linton, Robert H. Eikelboom, Elle Statham & Gunesh P. Rajan. (2013) A comparative study of hearing aids and round window application of the vibrant sound bridge (VSB) for patients with mixed or conductive hearing loss. International Journal of Audiology 52:4, pages 209-218.
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Robert H. Margolis, Brian R. Glasberg, Sarah Creeke & Brian C.J. Moore. (2010) AMTAS®: Automated method for testing auditory sensitivity: Validation studies. International Journal of Audiology 49:3, pages 185-194.
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Maranda McBride, Tomasz Letowski & Phuong Tran. (2008) Bone conduction reception: Head sensitivity mapping. Ergonomics 51:5, pages 702-718.
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M. E. Lutman & A. C. Davis. (1994) The Distribution of Hearing Threshold Levels in the General Population Aged 18–30 Years. Audiology 33:6, pages 327-350.
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John D. Durrani & Rick Hyre. (1993) Relative Effective Frequency Response of Bone versus Air Conduction Stimulation Examined via Masking. Audiology 32:3, pages 175-184.
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D. W. Robinson. (1988) Threshold of hearing as a function of age and sex for the typical unscreened population. British Journal of Audiology 22:1, pages 5-20.
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Michel Picard, Henry J. Ilecki & James D. Baxter. (1988) Essai clinique du BOBCAT: Première série de résultats sur la fiabilité et la validité de l'audiométrie tonale informatisée. Audiology 27:4, pages 234-246.
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Bo Håkansson, Anders Tjellström & Ulf Rosenhall. (1985) Acceleration Levels at Hearing Threshold with Direct Bone Conduction Versus Conventional Bone Conduction. Acta Oto-Laryngologica 100:3-4, pages 240-252.
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Articles from other publishers (5)

Jia Li, Liujie Ren, Tongge Wu, Dongming Yin, Peidong Dai, Lifen Chen & Tianyu Zhang. (2020) Experimental and Numerical Studies on Vibration Modes and Transcranial Attenuation Characteristics in Unilateral Bone Conduction Hearing. Shock and Vibration 2020, pages 1-17.
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Laura Fröhlich, Stefan K. Plontke & Torsten Rahne. (2018) Influence of transducer types on bone conduction hearing thresholds. PLOS ONE 13:4, pages e0195233.
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Satoki Ogiso, Koichi Mizutani, Keiichi Zempo, Naoto Wakatsuki & Yuka Maeda. (2017) Estimation of contact force and amount of hair between skin and bone-conducted sound transducer using electrical impedance. Japanese Journal of Applied Physics 56:7S1, pages 07JC06.
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Guy R. Lightfoot & Jacqui B. Hughes. (2007) Bone conduction errors at high frequencies: implications for clinical and medico-legal practice. The Journal of Laryngology & Otology 107:4, pages 305-308.
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R. R. A. Coles, M. E. Lutman & D. W. Robinson. (2007) The limited accuracy of bone-conduction audiometry: its significance in medicolegal assessments. The Journal of Laryngology & Otology 105:7, pages 518-521.
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