Development and verification of non-supervised smartphone-based methods for assessing pure-tone thresholds and loudness perception

Xu, Chen; Schell-Majoor, Lena; Kollmeier, Birger

doi:10.1101/2024.06.25.24309468

2024

DOI: 10.1101/2024.06.25.24309468

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Development and verification of non-supervised smartphone-based methods for assessing pure-tone thresholds and loudness perception

Chen Xu,

Lena Schell-Majoor,

Birger Kollmeier

Abstract: ObjectiveThe benefit of using smartphones for hearing tests in a non-supervised, rapid, and contactless way has drawn a lot of interest, especially if supra-threshold measures are assessed that go beyond audiogram-based measures alone. It is unclear, nevertheless, how well these measures compare to more supervised and regulated manual audiometric assessments. The aim of this study is to validate such smartphone-based methods against standardized laboratory assessments.DesignPure-tone audiometry and categorical… Show more

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Feasibility of efficient smartphone-based threshold and loudness assessments in typical home settings

Xu,

Schell-Majoor,

Kollmeier

2024

Preprint

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Ambient noise is a critical factor affecting the precision of mobile hearing tests conducted in home environments. Monitoring noise levels during out-of-booth measurements provides essential information about the suitability of the setting for accurate audiometric testing. When ambient noise is controlled, results are expected to be comparable to in-booth measurements. This study remotely conducted air-conduction pure-tone audiometry and adaptive categorical loudness scaling (ACALOS) tests at 0.25, 1, and 4 kHz using a smartphone, while an integrated microphone and a dosimeter app were used to quantify ambient noise levels. Additionally, a reinforced ACALOS (rACALOS) method was proposed to integrate threshold measurement into the ACALOS procedure. The rACALOS method not only improves the accuracy of threshold estimation but also increases efficiency by combining two independent procedures into a single, streamlined process. As a result, ambient noise levels were mostly below the maximum permissible level. Hearing tests conducted via smartphone demonstrated moderate-to-excellent reliability, with intraclass correlation coefficients (ICCs) exceeding 0.75, and strong validity, with biases of less than 1 dB. In simulations, the rACALOS method reduced the bias towards pre-assumed thresholds, and in behavioral experiments, it showed a stronger correlation with pure-tone audiometric thresholds than the baseline method. Overall, this study demonstrates that administering pure-tone audiometry and ACALOS tests at home is feasible, valid, efficient, and reliable when ambient noise is sufficiently low.

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Feasibility of efficient smartphone-based threshold and loudness assessments in typical home settings

Xu,

Schell-Majoor,

Kollmeier

2024

Preprint

View full text Add to dashboard Cite

show abstract

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Development and verification of non-supervised smartphone-based methods for assessing pure-tone thresholds and loudness perception

Cited by 1 publication

References 47 publications

Feasibility of efficient smartphone-based threshold and loudness assessments in typical home settings

Feasibility of efficient smartphone-based threshold and loudness assessments in typical home settings

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