Authors: Chung, King; Tufts, Jennifer; Nelson, Lance

Source: Human Factors: The Journal of the Human Factors and Ergonomics Society, Volume 51, Number 1, February 2009 , pp. 78-89(12)

Publisher: Human Factors and Ergonomics Society

Abstract:

Objective: The objective of this study was to test the effects of modulation-based digital noise reduction (MB-DNR) on noise levels, speech intelligibility, and listening preference in four real-world noises. Background: A significant challenge in hearing protection device (HPD) design is to reduce ambient noise levels while maintaining users' ability to understand speech. MB-DNR technology, currently employed in hearing aids, potentially could be used to achieve these objectives. Methods: Speech and noise calibrated to signal-to-noise ratios (SNRs) of 0, −5, and −10 dB in the sound field were recorded at the outputs of two digital hearing aids in the ears of a Knowles Electronic Manikin for Acoustic Research with and without MB-DNR activated (i.e., NR and noNR, respectively). Listeners' speech intelligibility scores and sound quality preferences were evaluated while they listened to the recordings presented via ER-3A insert earphones at 85 dB SPL. Results: MB-DNR reduced the overall noise level by approximately 4 to 7 dB. Listeners obtained significantly higher speech intelligibility scores in the NR condition at an SNR of −10 dB in two noises and similar scores in the noNR and NR conditions in all other cases. They preferred the NR condition in all cases. Conclusion: MB-DNR reduced overall noise level, enhanced sound quality, and maintained or improved speech intelligibility in the four military noises tested. Applications: MB-DNR algorithms potentially could be incorporated into HPDs to enhance performance and increase user acceptance.

Keywords: MODULATION-BASED NOISE REDUCTION; DNR; HEARING PROTECTOR; HEARING AID; MILITARY NOISE; SPEECH INTELLIGIBILITY; SOUND QUALITY; SPEECH PRODUCTION AND RECOGNITION; AUDITION; SENSORY AND PERCEPTUAL PROCESSES; HEALTH AND MEDICAL SYSTEMS

Document Type: Research article

DOI: 10.1177/0018720809333083

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