Publication detail
Application of MEMS microphone array for acoustic holography
HAVRÁNEK, Z. BENEŠ, P. KLUSÁČEK, S.
Original Title
Application of MEMS microphone array for acoustic holography
Type
conference paper
Language
English
Original Abstract
The paper shows the overall potential and applicability of microphone arrays equipped with MEMS miniature capacitive microphones for use with near-field acoustic holography algorithms to visualize and localize sound sources. Comprehensive test of double layer rectangular matrix microphone array and several acoustic holography algorithms has been carried out to find weaknesses of proposed MEMS array technology in practical measurement conditions including complex sources and disturbing sound field. Test setups include determination of secondary (disturbing) source strength, influence of distance of the primary and secondary sources and also measurement array stand-off distance on prediction accuracy of localization and characterization of sound and vibration sources. Attention is also focused on available signal-to-noise ratio of sound pressure measurement with applied MEMS microphones and its influence on determination of regularization parameters for inverse acoustic holography calculation. Drawbacks of complex or even unfeasible calibration procedure for such MEMS transducers also influence the presented prediction accuracy results in practical measurements.
Keywords
acoustic holography, MEMS microphone, microphone arrays
Authors
HAVRÁNEK, Z.; BENEŠ, P.; KLUSÁČEK, S.
RIV year
2015
Released
31. 5. 2015
Publisher
European Acoustics Association
Location
Maastricht, Belgie
ISBN
2226-5147
Periodical
Proceedings - European Conference on Noise Control
Year of study
2015
State
unknown
Pages from
919
Pages to
924
Pages count
6
BibTex
@inproceedings{BUT115829,
author="Zdeněk {Havránek} and Petr {Beneš} and Stanislav {Klusáček}",
title="Application of MEMS microphone array for acoustic holography",
booktitle="Proceedings of Euronoise 2015",
year="2015",
journal="Proceedings - European Conference on Noise Control",
volume="2015",
pages="919--924",
publisher="European Acoustics Association",
address="Maastricht, Belgie",
issn="2226-5147"
}