Method and apparatus of determining the sound transfer characteristic of an active noise control system

US 5,602,926 A
Filed: 09/03/1993
Issued: 02/11/1997
Est. Priority Date: 03/09/1993
Status: Expired due to Term

First Claim

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1. A method of determining a transfer characteristic in an active-noise-control system, comprising the steps of:

arranging an error-detection means for detecting a noise-cancelling effect, a speaker for generating noise-cancelling sound, the detection means and a speaker being inwardly spaced by a given distance away from an end of a one-dimensional sound field that is defined by a linear ventilating system in which sound travels essentially parallel to the extended direction of the system, a noise detection means in the vicinity of a noise source in the one-dimensional sound field, and a transfer-characteristic-detection means between the noise-detection means and the error-detection means in the one-dimensional sound field;

supplying an output of the noise-detection means to an adaptive filter that causes the speaker to generate noise cancelling sound, the adaptive filter involving a filter for preventing feedback sound according to an output of the error-detection means, a filter for modeling a transfer system between the speaker and the error-detection means, and a noise-cancelling filter whose parameters are continuously adjusted; and

activating a transfer-characteristic determining means, through a sequencer when the noise detected by the error-detection means is minimized, to determine the transfer function of the one-dimensional sound field according to outputs of the noise-detection means and transfer-characteristic-detection means.

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Abstract

A method and apparatus of determining the transfer characteristic in an active-noise-control system, which involves generating white noise at an end of a one-dimensional sound field that is defined by a linear ventilating system in which sound travels essentially parallel to the extended direction of the system; equalizing the transfer characteristic of the one-dimensional sound field and generating cancelling sound, according to an inverse of the transfer characteristic, to cancel the white noise and prevent noise being output from the other end of the one-dimensional sound field; continuously preventing the noise output and measuring the characteristic data of the one-dimensional sound field at, at least, one measuring point in the one-dimensional sound field; and calculating the transfer function of the one-dimensional sound field in the noise-output-prevented state, according to the characteristic data of the sound field.

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19 Claims

1. A method of determining a transfer characteristic in an active-noise-control system, comprising the steps of:
- arranging an error-detection means for detecting a noise-cancelling effect, a speaker for generating noise-cancelling sound, the detection means and a speaker being inwardly spaced by a given distance away from an end of a one-dimensional sound field that is defined by a linear ventilating system in which sound travels essentially parallel to the extended direction of the system, a noise detection means in the vicinity of a noise source in the one-dimensional sound field, and a transfer-characteristic-detection means between the noise-detection means and the error-detection means in the one-dimensional sound field;
  
  supplying an output of the noise-detection means to an adaptive filter that causes the speaker to generate noise cancelling sound, the adaptive filter involving a filter for preventing feedback sound according to an output of the error-detection means, a filter for modeling a transfer system between the speaker and the error-detection means, and a noise-cancelling filter whose parameters are continuously adjusted; and
  
  activating a transfer-characteristic determining means, through a sequencer when the noise detected by the error-detection means is minimized, to determine the transfer function of the one-dimensional sound field according to outputs of the noise-detection means and transfer-characteristic-detection means.

2. A method of determining the transfer characteristic in an active-noise-control system, comprising the steps of:
- generating white noise at an end of a one-dimensional sound field that is defined by a linear ventilating system in which sound travels essentially parallel to the extended direction of the system;
  
  equalizing the transfer characteristic of the one-dimensional sound field and generating cancelling sound using a sound source, according to an inverse of the transfer characteristic, to cancel the white noise and prevent noise being output from the other end of the one-dimensional sound field;
  
  continuously preventing the noise output and activating the determination of transfer characteristic data of the one-dimensional sound field at, at least, one measuring point in the one-dimensional sound field using a transfer-characteristic detector positioned before the sound source; and
  
  calculating the transfer function, using a transfer characteristic determining unit connected to the transfer-characteristic detector, of the one-dimensional sound field in the noise-output-prevented state, according to the characteristic data of the sound field,wherein an impulse response is obtained from the measured data when obtaining the transfer function to the one-dimensional sound field.
- View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 3. The method according to claim 2, wherein the transfer characteristic of the one-dimensional sound field is equalized according to a learning identification method.
  - 4. The method according to claim 2, wherein the transfer characteristic of the one-dimensional sound field is equalized according to an NLMS method.
  - 5. The method according to claim 2, wherein the equalization of the transfer characteristic of the one-dimensional sound field involves the teaching a feedback-sound-preventive L-filter.
  - 6. The method according to claim 2, wherein the equalization of the transfer characteristic of the one-dimensional sound field involves the teaching a noise cancelling D-filter.
  - 7. The method according to claim 2, wherein the equalization of the transfer characteristic of the one-dimensional sound field involves the teaching a C-filter which models a transfer system between a speaker for generating noise cancelling sound and a microphone for detecting a noise cancelling effect.
  - 8. The method according to claim 2, wherein the noise-output-prevented state is realized by fixing the parameters of the L- and C-filters and maintaining the adaptive operation of the D-filter.
  - 9. The method according to claim 2, wherein the characteristic data of the one-dimensional sound field include signal-level data related to a noise-output measured at an end of the one-dimensional sound field and signal-level data related to the noise output measured at, at least, one measuring point in the one-dimensional sound field.
  - 10. The method according to claim 9, wherein the signal level data are stored in a memory.
  - 11. The method according to claim 2, wherein the at least one measuring point is sequentially shifted by a given distance at given intervals.
  - 12. The method according to claim 2, wherein the measured data are subjected to reverse Fourier transformation to obtain the transfer function of the one-dimensional sound field.
  - 13. The method according to claim 2, wherein an auto-correlation function is obtained from the measured data when obtaining the transfer function of the one-dimensional sound field.
  - 14. The method according to claim 2, wherein a cross-correlation function is obtained from the measurd data when obtaining the transfer function of the one-dimensional sound field.

15. A method of determining the transfer characteristic in an active-noise-control system, comprising the steps of:
- generating white noise at an end of a one-dimensional sound field that is defined by a linear ventilating system in which sound travels essentially parallel to the extended direction of the system;
  
  equalizing the transfer characteristic of the one-dimensional sound field and generating cancelling sound, according to an inverse of the transfer characteristic, to cancel the white noise and prevent noise being output from the other end of the one-dimensional sound field;
  
  continuously preventing the noise output and activating the determination of transfer characteristic data of the one-dimensional sound field at, at least, one measuring point in the one-dimensional sound field; and
  
  calculating the transfer function of the one-dimensional sound field in the noise-output-prevented state, according to the characteristic data of the sound field,wherein a cross-correlation function is obtained from the measured data when obtaining the transfer function of the one-dimensional sound field.

16. An apparatus for estimating a transfer characteristic in an active-noise-control system, comprising:
- noise detection means disposed in the vicinity of a noise source, to detect white noise caused by the noise source that is disposed at an end of a one-dimensional sound field that is defined by a linear ventilating system in which sound travels essentially parallel to the extended direction of the system;
  
  error detection means spaced away from the noise source by a given distance and inwardly positioned away from an open end of the one-dimensional sound field by a given distance;
  
  a speaker disposed in the vicinity of the error detection means, to generate sound for cancelling the white noise;
  
  transfer characteristic detection means disposed between the noise detection means and the error detection means, to measure the transfer characteristic of the one-dimensional sound field;
  
  an adaptive filter whose parameters are successively adjusted according to outputs from the noise detection means and error detection means, to cause the speaker to generate the noise cancelling sound;
  
  a sequencer for starting the determination of a transfer characteristic when the cancelling sound provided by the speaker cancels the noise and the error detection means detects no noise, the sequencer maintaining the noise cancelled state until the determination is completed; and
  
  transfer characteristic determination means for determining the transfer function of the one-dimensional sound field according to outputs of the noise-detection means and transfer-characteristic-detection means, according to an instruction from the sequencer.
- View Dependent Claims (17, 18)
- - 17. The apparatus according to claim 16, wherein the transfer-characteristic-detection means is sequentially shifted by a given distance at given intervals between the noise-detection means and the error-detection means.
  - 18. The apparatus according to claim 16, wherein the sequencer 9 has a memory for storing the determined transfer-function data.

19. A method of determining the transfer characteristic in an active-noise-control system, comprising the steps of:
- generating white noise at an end of a one-dimensional sound field that is defined by a linear ventilating system in which sound travels essentially parallel to the extended direction of the system;
  
  equalizing the transfer characteristic of the one-dimensional sound field and generating cancelling sound, according to an inverse of the transfer characteristic, to cancel the white noise and prevent noise being output from the other end of the one-dimensional sound field;
  
  continuously preventing the noise output and activating the determination of transfer characteristic data of the one-dimensional sound field at, at least, one measuring point in the one-dimensional sound field; and
  
  calculating the transfer function of the one-dimensional sound field in the noise-output-prevented state, according to the characteristic data of the sound field,wherein an auto-correlation function is obtained from the measured data when obtaining the transfer function of the one-dimensional sound field.

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Current Assignee
Fujitsu Limited
Original Assignee
Fujitsu Limited
Inventors
Ohashi, Tadashi, Fujii, Kensaku, Ohga, Juro
Primary Examiner(s)
Isen, Forester W.

Application Number

US08/115,872
Time in Patent Office

1,257 Days
Field of Search

381/71, 381/94
US Class Current

381/71.5
CPC Class Codes

G10K 11/17815   between the reference signa...

G10K 11/17854   the filter being an adaptiv...

G10K 11/17881   the reference signal being ...

G10K 2210/3018   Correlators, e.g. convolver...

G10K 2210/30232   Transfer functions, e.g. im...

G10K 2210/3045   Multiple acoustic inputs, s...

G10K 2210/3049   Random noise used, e.g. in ...

G10K 2210/506   Feedback, e.g. howling

Method and apparatus of determining the sound transfer characteristic of an active noise control system

First Claim

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39 Citations

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Method and apparatus of determining the sound transfer characteristic of an active noise control system

First Claim

1 Assignment

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Abstract

39 Citations

19 Claims

Specification

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