The Statistical Distribution of Normal Hearing Thresholds for Low-Frequency Tones

Kurakata, Kenji; Mizunami, Tazu

doi:10.1260/026309208785844149

Cited by 10 publications

(9 citation statements)

References 11 publications

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“…2.3.3. At frequencies of 50 Hz and below [6] The hearing thresholds described in the previous two sections were those measured in a free field (see Sect. 2.2).…”

Section: Measurement Conditions Of Hearing Thresholdmentioning

confidence: 99%

“…2.3.2 and 2.3.3). The SDs for the two frequency regions were smoothed separately from those for the middle frequencies [6,7]. Fig.…”

Section: Smoothing the Estimated Sd Curvementioning

confidence: 99%

“…Fig. 4 Histogram of hearing thresholds at 20 Hz measured in the pressure field [6]. Normal distribution curve with the mean and standard deviation of the threshold data is superimposed.…”

Section: Smoothing the Estimated Sd Curvementioning

confidence: 99%

“…Results of the research on which ISO 28961 is based have been published in four journal papers [4][5][6][7]. The threshold data that were used and the procedures for estimating the form of threshold distribution are described there.…”

Section: Introductionmentioning

confidence: 99%

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How large is the individual difference in hearing sensitivity?: Establishment of ISO 28961 on the statistical distribution of hearing thresholds of otologically normal young persons

Kurakata

Mizunami

Matsushita

2013

Acoust. Sci. & Tech.

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ISO 28961, which describes the statistical distribution of hearing thresholds of otologically normal young persons, was established in 2012. The thresholds are those for pure tones of frontal incidence under binaural listening conditions in a free field. Percentiles of the threshold distribution are calculable as a function of frequency from 20 Hz to 16,000 Hz. This international standard is based on the study results of the present authors, who estimated the form of individual distribution using threshold data in their experiments and those in literature adopted in ISO 226 and ISO 389-7. However, because the results were published separately in four journal papers, users of the standard may encounter difficulty in understanding the process of how the threshold data have been integrated and how the threshold distribution has been determined. Therefore, the authors summarize them in this review paper and present an outline of the threshold distribution estimation so that the standard will be understood correctly and used widely.

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“…2.3.3. At frequencies of 50 Hz and below [6] The hearing thresholds described in the previous two sections were those measured in a free field (see Sect. 2.2).…”

Section: Measurement Conditions Of Hearing Thresholdmentioning

confidence: 99%

“…2.3.2 and 2.3.3). The SDs for the two frequency regions were smoothed separately from those for the middle frequencies [6,7]. Fig.…”

Section: Smoothing the Estimated Sd Curvementioning

confidence: 99%

“…Fig. 4 Histogram of hearing thresholds at 20 Hz measured in the pressure field [6]. Normal distribution curve with the mean and standard deviation of the threshold data is superimposed.…”

Section: Smoothing the Estimated Sd Curvementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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How large is the individual difference in hearing sensitivity?: Establishment of ISO 28961 on the statistical distribution of hearing thresholds of otologically normal young persons

Kurakata

Mizunami

Matsushita

2013

Acoust. Sci. & Tech.

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“…This minimum audible field has a standard deviation of around 10 dB and individuals are to be found whose thresholds are as low as -20 dB SPL at 4 kHz. Although the high-frequency response cut-off rate is always rapid, some can detect 24 kHz at high intensity [113][114][115][116][117][118][119][120].…”

Section: Spectral and Amplitude Limitsmentioning

confidence: 99%

A Hierarchical Approach for Audio Capture, Archive, and Distribution

Stuart¹,

Craven²

2019

J. Audio Eng. Soc.

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Recent interest in high-resolution digital audio has been accompanied by a trend to higher and higher sampling rates and bit depths, yet the sound quality improvements show diminishing returns and so fail to reconcile human auditory capability with the information capacity of the channel. We propose an audio capture, archiving, and distribution methodology based on sampling kernels having finite length, unlike the "ideal" sinc kernel that extends indefinitely. We show that with the new kernels, original transient events need not become significantly extended in time when reproduced. This new approach runs contrary to some conventional audio desiderata such as the complete elimination of aliasing. The paper reviews advances in neuroscience and recent evidence on the statistics of real signals, from which we conclude that the conventional criteria may be unhelpful. We show that this proposed approach can result in improved time/frequency balance in a high-performance chain whose errors, from the perspective of the human listener, are equivalent to those introduced when sound travels a short distance through air.

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Audibility of wind farm infrasound and amplitude modulated tonal noise at long-range locations

et al. 2022

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The Statistical Distribution of Normal Hearing Thresholds for Low-Frequency Tones

Cited by 10 publications

References 11 publications

How large is the individual difference in hearing sensitivity?: Establishment of ISO 28961 on the statistical distribution of hearing thresholds of otologically normal young persons

How large is the individual difference in hearing sensitivity?: Establishment of ISO 28961 on the statistical distribution of hearing thresholds of otologically normal young persons

A Hierarchical Approach for Audio Capture, Archive, and Distribution

Audibility of wind farm infrasound and amplitude modulated tonal noise at long-range locations

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