Abstract
“Hearing” sensors, which measure structure-born sounds, caused from deformation of a car during crash in order to advance crash detection performance, will go into series production soon. For this reason and to bring the next generation on the way there are many research activities in the field of structure-born sound transmission on the Institute of Applied Research at University of Applied Sciences Ingolstadt, which are done in cooperation with Audi AG and Continental AG.
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References
Feser, M.; McConnel, D.; Brandmeier, T.; Lauerer, C.: Advanced Crash Discrimination using Crash Impact Sound Sensing (CISS ). SAE International - Airbag 2005
Brandmeier, T.; Lauerer, C.; Spannaus, P.; Feser, M.: Crasherkennung durch Körperschall. Haus der Technik, Sensoren im Automobil, 2006, S. 187–203
Kopella, M.S.; Bernhard, R.J.: Variation of structural acoustic characteristics of automotive structures, Noise control engineering journal 44 (1996), S. 93–99
Müller, B.: Die Tera Ära. Technology Review 12, 2004
Bendat, J.S.; Piersol, A.G.: Engineering Applications Of Correlation And Spectral Analysis. New York: Wiley 1993
Wighe, R.G.; Walker, J.G.:Noise and Vibration Handbook. England: Ellis Horwood Limited, 1982
Fahy, F.; Walker, J.: Advanced Applications in Acoustics, Noise and Vibration. London/New York: Spon Press, 2004
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Luegmair, M., Oestreicher, L. Structure-born sound transmission as an important influence on crash detection. ATZ Worldw 110, 38–41 (2008). https://doi.org/10.1007/BF03224986
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DOI: https://doi.org/10.1007/BF03224986