Measurement of Compound Sound Sources with Adaptive Spatial Radiation for Low-Frequency Active Noise Control Applications

The proposed compound sound sources for low-frequency noise control applications are composed of dipole sources. Their spatial radiation, which is critical in the modal field of small, closed spaces, is intended to be controlled with independent driving signals of each dipole. The need for small and...

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Veröffentlicht in:	Archives of acoustics 2021-01, Vol.46 (2), p.205-212
Hauptverfasser:	Giouvanakis, Marios, Sevastiadis, Christos, Papanikolaou, George
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Schlagworte:	Acoustics Science & Technology Technology
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container_title	Archives of acoustics
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creator	Giouvanakis, Marios Sevastiadis, Christos Papanikolaou, George
description	The proposed compound sound sources for low-frequency noise control applications are composed of dipole sources. Their spatial radiation, which is critical in the modal field of small, closed spaces, is intended to be controlled with independent driving signals of each dipole. The need for small and efficient low-frequency elementary monopole sources led to the proposed vented sub-woofer loudspeaker design with low force factor (low-Bl) drivers. The investigated sources are set up in quadrupole configurations and measured in terms of polar near field response patterns to verify the theoretical predictions. The measurement results consist of the validation of the proposed compound sound sources on the implementation of active noise control problems in the low-frequency range. Also, their small size and modular construction make them interesting for use in other applications.
doi_str_mv	10.24425/aoa.2021.136576
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subjects	Acoustics Science & Technology Technology
title	Measurement of Compound Sound Sources with Adaptive Spatial Radiation for Low-Frequency Active Noise Control Applications
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