Spherical loudspeaker array for local active control of sound.

Active control of sound has been employed to reduce noise levels around listeners' head using destructive interference from noise-canceling sound sources. Recently, spherical loudspeaker arrays have been studied as multiple-channel sound sources, capable of generating sound fields with high complexity. In this paper, the potential use of a spherical loudspeaker array for local active control of sound is investigated. A theoretical analysis of the primary and secondary sound fields around a spherical sound source reveals that the natural quiet zones for the spherical source have a shell-shape. Using numerical optimization, quiet zones with other shapes are designed, showing potential for quiet zones with extents that are significantly larger than the well-known limit of a tenth of a wavelength for monopole sources. The paper presents several simulation examples showing quiet zones in various configurations.

[1]  A. J. Kempton The ambiguity of acoustic sources—A possibility for active control? , 1976 .

[2]  David Wessel,et al.  Characterization of Spherical Loudspeaker Arrays , 2004 .

[3]  Boaz Rafaely,et al.  Spatial Aliasing in Spherical Microphone Arrays , 2007, IEEE Transactions on Signal Processing.

[4]  A. Roure,et al.  Optimization of an active noise control system using spherical harmonics expansion of the primary field , 1997 .

[5]  Colin H. Hansen,et al.  SECONDARY ACOUSTIC SOURCE TYPES FOR ACTIVE NOISE CONTROL IN FREE FIELD: MONOPOLES OR MULTIPOLES? , 2000 .

[6]  Stephen J. Elliott,et al.  Active cancellation of acoustic pressure and particle velocity in the near field of a source , 1999 .

[7]  Bolton,et al.  Sound cancellation by the use of secondary multipoles: experiments , 1995, The Journal of the Acoustical Society of America.

[8]  B. Rafaely Plane-wave decomposition of the sound field on a sphere by spherical convolution , 2004 .

[9]  D. Healy,et al.  Computing Fourier Transforms and Convolutions on the 2-Sphere , 1994 .

[10]  J. Stuart Bolton,et al.  Sound cancellation by the use of secondary multipoles: Experiments , 2000 .

[11]  Philip A. Nelson,et al.  Statistical Aspects of Active Control in Harmonic Enclosed Sound Fields , 1994 .

[12]  M. Azarpeyvand Active noise cancellation of a spherical multipole source using a radially vibrating spherical baffled piston , 2005 .

[13]  Gene H. Golub,et al.  Matrix computations (3rd ed.) , 1996 .

[14]  Gottfried Behler Sound source with adjustable directivity , 2006 .

[15]  Boaz Rafaely,et al.  Analysis and design of spherical microphone arrays , 2005, IEEE Transactions on Speech and Audio Processing.

[16]  Sarah Rollins,et al.  An experimental evaluation of regular polyhedron loudspeakers as omnidirectional sources of sound , 2006 .

[17]  I. Stothers,et al.  In-flight experiments on the active control of propeller-induced cabin noise , 1990 .