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Journal Article

Citation

Nixon CW, Morris LJ, McCavitt AR, McKinley RL, Anderson TR, McDaniel MP, Yeager DG. Aviat. Space Environ. Med. 1998; 69(7): 675-683.

Affiliation

Biodynamics and Biocommunications Division, Armstrong Laboratory, Wright-Patterson AFB, Dayton, OH 45433-7901, USA.

Copyright

(Copyright © 1998, Aerospace Medical Association)

DOI

unavailable

PMID

9681374

Abstract

HYPOTHESIS: Female produced speech, although more intelligible than male speech in some noise spectra, may be more vulnerable to degradation by high levels of some military aircraft cockpit noises. The acoustic features of female speech are higher in frequency, lower in power, and appear more susceptible than male speech to masking by some of these military noises. Current military aircraft voice communication systems were optimized for the male voice and may not adequately accommodate the female voice in these high level noises. METHODS: This applied study investigated the intelligibility of female and male speech produced in the noise spectra of four military aircraft cockpits at levels ranging from 95 dB to 115 dB. The experimental subjects used standard flight helmets and headsets, noise-canceling microphones, and military aircraft voice communications systems during the measurements. RESULTS: The intelligibility of female speech was lower than that of male speech for all experimental conditions; however, differences were small and insignificant except at the highest levels of the cockpit noises. Intelligibility for both genders varied with aircraft noise spectrum and level. Speech intelligibility of both genders was acceptable during normal cruise noises of all four aircraft, but improvements are required in the higher levels of noise created during aircraft maximum operating conditions. CONCLUSIONS: The intelligibility of female speech was unacceptable at the highest measured noise level of 115 dB and may constitute a problem for other military aviators. The intelligibility degradation due to the noise can be neutralized by use of an available, improved noise-canceling microphone, by the application of current active noise reduction technology to the personal communication equipment, and by the development of a voice communications system to accommodate the speech produced by both female and male aviators.


Language: en

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