The Journal of the INCE of Japan
Online ISSN : 1883-7506
Print ISSN : 0386-8761
Volume 36 , Issue 6
Showing 1-2 articles out of 2 articles from the selected issue
  • Mari Ueda, Katsuya Yamauchi, Koji Nagahata
    2012 Volume 36 Issue 6 Pages 418-424
    Published: December 01, 2012
    Released: January 16, 2020

    The adequate sound levels for advertising sounds for the visually impaired under the sound environment with traffic noise were measured through a psychoacoustic experiment to revel the effect of the advertising sounds, and so on. The participants were asked to adjust the playback level of the each advertising sounds to an adequate level by using the fader of the sound mixer while comparing to the back ground sound levels. The experimental results showed that the estimated adequate sound level for the auditory advertising and back ground music from shop was approximately 10 dB lower than the environmental sound level. It was revealed that few participants get information from advertising sounds. Even if such information was used, sound loudness was tuned to no higher than necessary sound level. That was different from sound relevant to safety such as vehicle noise. Actually sound level of advertising sounds used in public exceeds 15 dB above desired level by the visually impaired. These results suggest that the consideration this fact, establishment of a regulation to reduce.

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  • —Vibrational Properties of Floor Slabs and Prediction using FEM—
    Hikari Tanaka, Kiyoshi Masuda
    2012 Volume 36 Issue 6 Pages 425-434
    Published: December 01, 2012
    Released: January 16, 2020

    The floor impact sounds of steel structure buildings were examined. Steel structure buildings tend to have better insulation performance against heavy impact sources than reinforced concrete buildings. First, vibration characteristics were measured on the floor slabs of a steel structure building. It was found that the steel beams vibrated with the floor slabs, thus improving the insulation performance compared with reinforced concrete buildings. Next, to predict floor impact sounds, a finite element method of modeling steel structure buildings was examined and used to calculate the floor impact sounds of two buildings. The results agreed well with measured values.

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