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. 2021 Jul-Sep;23(110):75-80.
doi: 10.4103/nah.NAH_61_20.

Calculation of the physiologically developed nighttime noise index from existing noise indices

Junta Tagusari  1 Yusei Tanaka  2 Toshihito Matsui  1
Affiliations

Calculation of the physiologically developed nighttime noise index from existing noise indices

Junta Tagusari et al. Noise Health. 2021 Jul-Sep.

Abstract

Background:: The effects of noise on sleep and health have been evaluated in earlier studies using noise indices chosen on the basis of practical considerations and not on the physiologic mechanisms of sleep disturbance due to noise exposure. We investigated the neurophysiologic mechanisms of sleep and found that the arithmetic mean of the sound levels above a threshold (formula image) may be used effectively to evaluate the effects of nighttime noise exposure. However, the efficacy of using formula image has only been confirmed in a specific setting; therefore, the reliability of formula image in other situations should be investigated by applying it in epidemiologic studies. In this study, we aimed to obtain an alternative equation for calculating formula image from existing noise indices, given that detailed information on fluctuations in sound levels, needed to calculate formula image according to the definition, is not readily available.

Materials and Methods:: We examined statistical relationships among noise indices namely formula image, the number of noise events above 60 and 70 dB (N60 and N70), and the night equivalent sound level (Lnight). The study area was around the Kadena military airfield, where the sound levels were recorded at noise monitoring stations.

Results:: formula image showed a very strong correlation with N60 and N70 but not with Lnight. Among regression equations, an equation representing N60 and the interaction between N60 and Lnight, which is equivalent to the product of N60 and a linear expression of Lnight, showed the highest prediction capability.

Conclusion:: We obtained a regression equation to calculate formula image from N60 and Lnight. Although this alternative equation for formula image is only applicable for military aircraft noise, it will aid the re-analysis of existing epidemiologic studies as well as further investigations on the relationship between noise exposure and health effects.

Keywords: Aircraft noise; neurophysiology; night equivalent sound level; nighttime noise; number of noise events.

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Conflict of interest statement

None

Figures

Figure 1
Figure 1
A map around the Kadena military airfield. Among 21 noise monitoring stations that have been set up by the local governments, we employed 10 stations (white circles) near the extended lines of the two runways to investigate night-time aircraft noise exposure
Figure 2
Figure 2
Correlations of noise indices (N60, N70, Lnight, and formula image calculated from the sound level recorded at the 10 monitoring stations around the Kadena military airfield. The correlation coefficients (r) were also shown
Figure 3
Figure 3
Fitting results of the multivariate regression equation of formula image with N60 and interaction between N60 and Lnight (Eq. 3). The correlation coefficient (r) was also shown
Figure 4
Figure 4
The relative risk of the onset of motility due to night-time noise estimated from Lnight and N60. N60 was set to 10, 25, 50, 100, and 150. The relative risk in Lnight ≤ 43.2 dB was shown as 1.
See this image and copyright information in PMC

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References

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