论文信息 - Spatial Coherence Functions for Differential Microphones in Isotropic Noise Fields

Spatial Coherence Functions for Differential Microphones in Isotropic Noise Fields

The spatial correlation function between directional microphones is useful in the design and analysis of the performance of these microphones in actual acoustic noise fields. These correlation functions are well known for omnidirectional receivers, but not well known for directional receivers. This chapter investigates the spatial correlation functions for Nth-order differential microphones in both spherically and cylindrically isotropic noise fields. The results are used to calculate the amount of achievable cancellation from an adaptive noise cancellation application using combinations of differential microphones to remove unwanted noise from a desired signal. The results are useful in determining signal-to-noise ratio gains from arbitrarily positioned differential microphone elements in microphone array applications.

Gary W. Elko | G. Elko

[1] J. S. Bird,et al. Speech enhancement for mobile telephony , 1990 .

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

[3] R. K. Cook,et al. Measurement of Correlation Coefficients in Reverberant Sound Fields , 1955 .

[4] B. Widrow,et al. Adaptive noise cancelling: Principles and applications , 1975 .

[5] Jeffrey J. Rodriguez,et al. Adaptive noise reduction in aircraft communication systems , 1987, ICASSP '87. IEEE International Conference on Acoustics, Speech, and Signal Processing.

[6] C. T. Morrow,et al. Point-to-point correlation of sound pressures in reverberation chambers , 1971 .

[7] M. M. Sondhi,et al. An adaptive echo canceller , 1967 .