Active noise control system for headphone applications

This paper presents the design and implementation of an adaptive feedback active noise control (ANC) system for headphone applications. The ideal position of the error microphone in the ear-cup was studied and determined experimentally, and music signals were used for adaptive system identification...

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Veröffentlicht in:	IEEE transactions on control systems technology 2006-03, Vol.14 (2), p.331-335
Hauptverfasser:	Kuo, S.M., Mitra, S., Woon-Seng Gan
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustics Active noise control Active noise control (ANC) Active noise reduction Adaptative systems Adaptive control adaptive feedback ANC systems Adaptive systems ANC headphones Applied sciences Computer science control theory systems Control systems Control theory. Systems error sensor optimization Exact sciences and technology Feedback Fundamental areas of phenomenology (including applications) Headphones Information, signal and communications theory Low-frequency noise Microphones Miscellaneous Multiple signal classification Music Noise Noise cancellation Noise: its effects and control Physics Programmable control secondary path modeling Signal processing Telecommunications and information theory
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container_title	IEEE transactions on control systems technology
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creator	Kuo, S.M. Mitra, S. Woon-Seng Gan
description	This paper presents the design and implementation of an adaptive feedback active noise control (ANC) system for headphone applications. The ideal position of the error microphone in the ear-cup was studied and determined experimentally, and music signals were used for adaptive system identification of the secondary path. The designed ANC headphone was implemented using the TMS320C32 digital signal processor for real-time experiments. Performance has been evaluated and compared with a high-end commercial ANC headphone using the same set of primary noises including real-world engine noises. Experiment results show the proposed ANC headphone achieves higher noise cancellation, especially for low-frequency harmonics
doi_str_mv	10.1109/TCST.2005.863667
format	Article
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The ideal position of the error microphone in the ear-cup was studied and determined experimentally, and music signals were used for adaptive system identification of the secondary path. The designed ANC headphone was implemented using the TMS320C32 digital signal processor for real-time experiments. Performance has been evaluated and compared with a high-end commercial ANC headphone using the same set of primary noises including real-world engine noises. 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The ideal position of the error microphone in the ear-cup was studied and determined experimentally, and music signals were used for adaptive system identification of the secondary path. The designed ANC headphone was implemented using the TMS320C32 digital signal processor for real-time experiments. Performance has been evaluated and compared with a high-end commercial ANC headphone using the same set of primary noises including real-world engine noises. Experiment results show the proposed ANC headphone achieves higher noise cancellation, especially for low-frequency harmonics</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TCST.2005.863667</doi><tpages>5</tpages></addata></record>
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subjects	Acoustics Active noise control Active noise control (ANC) Active noise reduction Adaptative systems Adaptive control adaptive feedback ANC systems Adaptive systems ANC headphones Applied sciences Computer science control theory systems Control systems Control theory. Systems error sensor optimization Exact sciences and technology Feedback Fundamental areas of phenomenology (including applications) Headphones Information, signal and communications theory Low-frequency noise Microphones Miscellaneous Multiple signal classification Music Noise Noise cancellation Noise: its effects and control Physics Programmable control secondary path modeling Signal processing Telecommunications and information theory
title	Active noise control system for headphone applications
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