Claims
- 1. An automatic sound controlling apparatus for improving accuracy of producing a canceling sound comprising:
- an electric-signal-to-sound converter outputting a compensating sound to a canceling space to cancel a sound from a sound-producing source;
- a sound-to-electric-signal converter for converting a residual sound in the canceling space into an electric signal to form an error signal based on the residual sound;
- adaptive filtering means that controls filter coefficients based on the error signal from the sound-to-electric-signal converter to form a compensating signal that is supplied to the electric-signal-to-sound converter;
- transfer characteristics simulating means that simulates transfer characteristics in the canceling space and receives the compensating signal from the adaptive filtering means;
- adding means that adds the error signal and an output signal of the transfer characteristics simulating means;
- a switch that alternatively feeds first and second signals to the adaptive filtering means, the first signal representing characteristics of the sound-producing source, and the second signal being an output of the adding means; and
- a prefilter provided for said adaptive filtering means before forming said compensating signal to equalize frequency characteristics of at least one of a main muffler and submufflers, wherein the frequency characteristics of the main muffler and the submufflers, coupled in serial to an engine, are measured in advance, so that on the basis of this measurement the coefficients of the prefilter are set to an initial setting circuit and a coefficient memory.
- 2. An automatic sound controlling apparatus for improving accuracy of producing a canceling sound comprising:
- a sound making device for outputting a compensating sound in a canceling space to cancel undesired sound from a sound-producing source;
- a sound receiving device for producing an error signal that represents a difference between said compensating sound and said undesired sound;
- an adaptive filter that forms a compensating signal for attenuation of said undesired sound, said compensating signal being based on said error signal produced from said sound receiving device and being supplied to the sound making device; and
- a prefilter provided for said adaptive filter, said prefilter equalizing frequency characteristics of at least one of a main muffler and a submuffler before forming said compensating signal.
- 3. The automatic sound controlling apparatus for improving the accuracy of producing the canceling sound of claim 2, further comprising a transfer characteristics simulator for simulating transfer characteristics in the canceling space and receiving the compensating signal from the adaptive filter.
- 4. The automatic sound controlling apparatus for improving the accuracy of producing the canceling sound of claim 3, further comprising an adder for adding the error signal and an output signal from the transfer characteristics simulator to allow an output signal of said adder be applied to said prefilter.
- 5. The automatic sound controlling apparatus for improving the accuracy of producing the canceling sound of claim 4, further comprising a switch that alternatively feeds first and second signals to the prefilter, the first signal representing characteristics of the sound-producing source, and the second signal being an output of the adder.
- 6. A method for canceling undesired sound from a sound-producing source comprising:
- outputting a compensating sound in a canceling space with a sound making device to cancel said undesired sound;
- producing an error signal from a sound receiving device that represents a difference between the compensating sound and said undesired sound;
- forming a compensating signal for attenuation of said undesired sound, said compensating signal being based on said error signal produced from said sound receiving device and being supplied to said sound making device; and
- equalizing frequency characteristics of at least one of a muffler and a submuffler before forming said compensating signal.
- 7. The method of claim 6, further comprising receiving the compensation signal from an adaptive filter and providing a simulated transfer characteristics signal in the canceling space and adding the error signal and said simulated transfer characteristics signal to define an addition signal.
- 8. The method of claim 7, further comprising switching between said addition signal and a signal representing characteristics of said sound-producing source depending on detection of one of a no-load state and a load state.
- 9. An automatic sound controlling apparatus for improving accuracy of producing a canceling sound comprising:
- a sound making device for outputting a compensating sound in a canceling space to cancel undesired sound from a sound-producing source;
- a sound receiving device for producing an error signal that represents a difference between said compensating sound and said undesired sound;
- an adaptive filter that forms a compensating signal for attenuation of said undesired sound, said compensating signal being based on said error signal produced from said sound receiving device and being supplied to the sound making device;
- a prefilter provided for said adaptive filter, said prefilter equalizing frequency characteristics of at least one of a main muffler and a submuffler before forming said compensating signal;
- a transfer characteristic simulator for simulating transfer characteristics in the canceling space and receiving the compensating signal from the adaptive filter;
- an adder for adding the error signal and an output signal from the transfer characteristic simulator to allow an output signal of said adder to be applied to said prefilter;
- a switch that alternatively feeds first and second signals to the prefilter, the first signal representing characteristics of the sound-producing source, and the second signal being an output of the adder; and
- a switch controller for selecting a position of said switch depending on detection of one of a no-load state and a load state.
- 10. The automatic sound controlling apparatus for improving the accuracy of producing the canceling sound of claim 9, further comprising a transmission controller that selects said position depending on detection of one of the no-load state and the load state.
Priority Claims (2)
Number |
Date |
Country |
Kind |
3-191902 |
Jul 1991 |
JPX |
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3-286417 |
Oct 1991 |
JPX |
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Parent Case Info
This is a continuation of U.S. patent application Ser. No. 07/915,136 filed Jul. 20, 1992, now U.S. Pat. No. 5,404,409.
US Referenced Citations (12)
Foreign Referenced Citations (4)
Number |
Date |
Country |
0098594 |
Jan 1984 |
EPX |
63-311396 |
Dec 1988 |
JPX |
WO9222054 |
Dec 1992 |
JPX |
8802912 |
Apr 1988 |
WOX |
Non-Patent Literature Citations (3)
Entry |
Eriksson, L.J. "Recursive Algorithms for Active Noise Control", International Symposium Apr. 9-11, 1991, pp. 137-146. |
Eriksson, L.J. "Recursive Algorithms for Active Noise Control"; Apr. 4-11, 91, pp. 137-146, International Symposium Active Control of Sound and Vibration. |
Patent Abstracts of Japan, vol. 17, No. 502 (P-1610) JP-A-51 027 680 (Fujitsu Ten Ltd) 25 May 1993. |
Continuations (1)
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Number |
Date |
Country |
Parent |
915136 |
Jul 1992 |
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