118 / 2021-03-30 23:10:57
Combing the Virtual Sensing Methods with Adjustable Structure for a Headrest Active Noise Control System
Active noise control; Headrest; Virtual sensing methods; Adaptive feedback control; Nominal performance; Non-nominal performance;
Draft Accepted
Zeqiang Zhang / Chinese Academy of Sciences;Institute of Acoustics
Ming Wu / Chinese Academy of Sciences;Institute of Acoustics
Chen Gong / Chinese Academy of Sciences;Institute of Acoustics
Lan Yin / Chinese Academy of Sciences;Institute of Acoustics
Jun Yang / Chinese Academy of Sciences;Institute of Acoustics
In this paper, we apply two commonly used virtual sensing (VS) methods: the remote microphone method (RMM) and auxiliary filter method (AFM) to a headrest active noise control (ANC) system with the adjustable structure we have already proposed. The VS methods are used to overcome the case that error microphone cannot be placed at the target due to application limitations or physical constraints. The adjustable headrest structure allows secondary loudspeakers and the corresponding microphone to be moved as a single unit while maintaining the relative distances between the secondary loudspeakers and microphone constant, to ensure that the related plant responses are consistent. The noise attenuation performance of multichannel adaptive feedback control algorithms incorporating two VS methods at designated locations was evaluated in a room under nominal and non-nominal conditions. Experimental results demonstrate that the headrest ANC system with VS methods was superior to that without VS methods in terms of the nominal noise reduction performance. And the noise attenuation effectiveness of the RMM and AFM was at the same level in this case. However, the non-nominal performance of the VS methods against primary source variations may be inferior to that of the non-VS methods with indirect control by the physical monitoring microphone.
Important Date
  • Conference Date

    Nov 01

    2022

    to

    Nov 03

    2022

  • Oct 30 2022

    Draft paper submission deadline

  • Nov 09 2022

    Registration deadline

Sponsored By
Qingdao University of Technology