论文信息 - A highly scalable spherical microphone array based on an orthonormal decomposition of the soundfield

A highly scalable spherical microphone array based on an orthonormal decomposition of the soundfield

This paper describes a beamforming microphone array consisting of pressure microphones that are mounted on the surface of a rigid sphere. The beamformer is based on a spherical harmonic decomposition of the soundfield. We show that this allows a simple and computationally effective, yet flexible beamformer structure. The look-direction can be steered to any direction in 3-D space without changing the beampattern. In general the number of sensors and their location is quite arbitrary as long as they hold a certain orthogonality constraint that we derived. For a practical example we chose a spherical array with 32 elements. The microphones are located at the center of the faces of a truncated icosahedron. The radius of the sphere is 5 cm. With this setup we can achieve a Directivity Index of 12 dB and higher. The operating frequency range is from 100 Hz to 5 kHz.

Gary W. Elko | Jens Meyer | G. Elko | Jens Meyer

[1] Gary W. Elko,et al. Superdirectional microphone arrays , 2000 .

[2] Akira Ishimaru,et al. Equally Spaced Spherical Arrays , 1968 .

[3] Roger K. Furness,et al. Ambisonics-An Overview , 1990 .

[4] G. R. Branner,et al. The far-field of a spherical array of point dipoles , 1994 .

[5] J. Daniel,et al. Représentation de champs acoustiques, application à la transmission et à la reproduction de scènes sonores complexes dans un contexte multimédia , 2000 .

[6] E. Gilbert,et al. Optimum design of directive antenna arrays subject to random variations , 1955 .

[7] Gary W. Elko,et al. A steerable and variable first-order differential microphone array , 1997, 1997 IEEE International Conference on Acoustics, Speech, and Signal Processing.

[8] M. Hoffman. Conventions for the analysis of spherical arrays , 1963 .