DVE system with instability detection
First Claim
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1. A digital voice enhancement communication system comprising:
- a first acoustic zone;
a second acoustic zone;
a microphone at said first zone;
a loudspeaker at said second zone and electrically coupled to said microphone such that the speech of a person at said first zone can be heard by a person at said second zone as transmitted by an electrical signal from said microphone to said loudspeaker, said loudspeaker being acoustically coupled to said microphone such that said microphone is subject to acoustic feedback from said loudspeaker;
an instability detector detecting an unstable acoustic feedback condition from said loudspeaker to said microphone by sensing a condition of said electrical signal transmitted from said microphone to said loudspeaker;
a corrective processor responsive to said instability detector to modify said electrical signal to reduce unstable acoustic feedback, wherein said sensed condition is a sinusoidal characteristic of said electrical signal wherein said sensed condition is said electrical signal becoming sinusoidal in nature, and wherein said instability detector comprises;
a model modeling said electrical signal as a filter model with filter coefficients;
detection logic monitoring one of said filter coefficients and outputting a feedback indicator signal to said corrective processor in response to a given condition of said filter coefficient, wherein said detection logic outputs said feedback indicator signal to said corrective processor when the variation of said filter coefficient is below a designated threshold, and wherein said detection logic outputs said feedback indicator signal to said corrective processor when the magnitude of the variation of said filter coefficient is below said designated threshold.
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Abstract
A digital voice enhancement, DVE, communication system includes an instability detector detecting an unstable acoustic feedback condition from a loudspeaker to a microphone by sensing a condition of the electrical signal transmitted from the microphone to the loudspeaker, and a corrective processor responsive to the instability detector to modify the electrical signal to reduce unstable acoustic feedback. The sensed condition may be magnitude, power, or, preferably, the sinusoidal characteristic of the electrical signal, namely the electrical signal becoming sinusoidal in nature.
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Citations
20 Claims
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1. A digital voice enhancement communication system comprising:
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a first acoustic zone;
a second acoustic zone;
a microphone at said first zone;
a loudspeaker at said second zone and electrically coupled to said microphone such that the speech of a person at said first zone can be heard by a person at said second zone as transmitted by an electrical signal from said microphone to said loudspeaker, said loudspeaker being acoustically coupled to said microphone such that said microphone is subject to acoustic feedback from said loudspeaker;
an instability detector detecting an unstable acoustic feedback condition from said loudspeaker to said microphone by sensing a condition of said electrical signal transmitted from said microphone to said loudspeaker;
a corrective processor responsive to said instability detector to modify said electrical signal to reduce unstable acoustic feedback, wherein said sensed condition is a sinusoidal characteristic of said electrical signal wherein said sensed condition is said electrical signal becoming sinusoidal in nature, and wherein said instability detector comprises;
a model modeling said electrical signal as a filter model with filter coefficients;
detection logic monitoring one of said filter coefficients and outputting a feedback indicator signal to said corrective processor in response to a given condition of said filter coefficient, wherein said detection logic outputs said feedback indicator signal to said corrective processor when the variation of said filter coefficient is below a designated threshold, and wherein said detection logic outputs said feedback indicator signal to said corrective processor when the magnitude of the variation of said filter coefficient is below said designated threshold. - View Dependent Claims (2)
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3. A digital voice enhancement communication system comprising:
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a first acoustic zone;
a second acoustic zone;
a microphone at said first zone;
a loudspeaker at said second zone and electrically coupled to said microphone such that the speech of a person at said first zone can be heard by a person at said second zone as transmitted by an electrical signal from said microphone to said loudspeaker, said loudspeaker being acoustically coupled to said microphone such that said microphone is subject to acoustic feedback from said loudspeaker;
an instability detector detecting an unstable acoustic feedback condition from said loudspeaker to said microphone by sensing a condition of said electrical signal transmitted from said microphone to said loudspeaker;
a corrective processor responsive to said instability detector to modify said electrical signal to reduce unstable acoustic feedback, wherein said sensed condition is a sinusoidal characteristic of said electrical signal wherein said sensed condition is said electrical signal becoming sinusoidal in nature, and wherein said instability detector comprises;
a model modeling said electrical signal as a filter model with filter coefficients;
detection logic monitoring one of said filter coefficients and outputting a feedback indicator signal to said corrective processor in response to a given condition of said filter coefficient, wherein said detection logic outputs said feedback indicator signal to said corrective processor when the variation of said filter coefficient is below a designated threshold, and wherein said detection logic outputs said feedback indicator signal to said corrective processor when the power of the variation of said filter coefficient is below said designated threshold. - View Dependent Claims (4)
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5. A digital voice enhancement communication system comprising:
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a first acoustic zone;
a second acoustic zone;
a microphone at said first zone;
a loudspeaker at said second zone and electrically coupled to said microphone such that the speech of a person at said first zone can be heard by a person at said second zone as transmitted by an electrical signal from said microphone to said loudspeaker, said loudspeaker being acoustically coupled to said microphone such that said microphone is subject to acoustic feedback from said loudspeaker;
an instability detector detecting an unstable acoustic feedback condition from said loudspeaker to said microphone by sensing a condition of said electrical signal transmitted from said microphone to said loudspeaker;
a corrective processor responsive to said instability detector to modify said electrical signal to reduce unstable acoustic feedback, wherein said sensed condition is a sinusoidal characteristic of said electrical signal wherein said sensed condition is said electrical signal becoming sinusoidal in nature, and wherein said instability detector comprises;
a model modeling said electrical signal as a filter model with filter coefficients;
detection logic monitoring one of said filter coefficients and outputting a feedback indicator signal to said corrective processor in response to a given condition of said filter coefficient, wherein said detection logic outputs said feedback indicator signal to said corrective processor when the magnitude of the difference between said filter coefficient and a given value is below a designated threshold. - View Dependent Claims (6, 7)
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8. A digital voice enhancement communication system comprising:
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a first acoustic zone;
a second acoustic zone;
a microphone at said first zone;
a loudspeaker at said second zone and electrically coupled to said microphone such that the speech of a person at said first zone can be heard by a person at said second zone as transmitted by an electrical signal from said microphone to said loudspeaker, said loudspeaker being acoustically coupled to said microphone such that said microphone is subject to acoustic feedback from said loudspeaker;
an instability detector detecting an unstable acoustic feedback condition from said loudspeaker to said microphone by sensing a condition of said electrical signal transmitted from said microphone to said loudspeaker;
a corrective processor responsive to said instability detector to modify said electrical signal to reduce unstable acoustic feedback, wherein said sensed condition is a sinusoidal characteristic of said electrical signal wherein said sensed condition is said electrical signal becoming sinusoidal in nature, and wherein said instability detector comprises;
a model modeling said electrical signal as a filter model with filter coefficients;
detection logic monitoring one of said filter coefficients and outputting a feedback indicator signal to said corrective processor in response to a given condition of said filter coefficient, wherein said detection logic outputs said feedback indicator signal to said corrective processor when the power of the difference between said filter coefficient and a given value is below a designated threshold. - View Dependent Claims (9, 10)
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- 11. A method for detecting and reducing instability in a digital voice enhancement communication system having a first acoustic zone, a second acoustic zone, a microphone at said first zone, a loudspeaker at said second zone and electrically coupled to said microphone such that the speech of a person at said first zone can be heard by a person at said second zone as transmitted by an electrical signal from said microphone to said loudspeaker, said loudspeaker being acoustically coupled to said microphone such that said microphone is subject to acoustic feedback from said loudspeaker, said method comprising detecting an unstable acoustic feedback condition from said loudspeaker to said microphone by sensing a condition of said electrical signal transmitted from said microphone to said loudspeaker, and responding to said sensed condition to modify said electrical signal to reduce unstable acoustic feedback, wherein said sensed condition is a sinusoidal characteristic of said electrical signal wherein said sensed condition is said electrical signal becoming sinusoidal in nature, and comprising modeling said electrical signal as a filter model with filter coefficients, and monitoring one of said filter coefficients and generating a feedback indicator signal to modify said electrical signal in response to a given condition of said filter coefficient, and comprising generating said feedback indicator signal when the variation of said filter coefficient is below a designated threshold, and comprising generating said feedback indicator signal when the magnitude of the variation of said filter coefficient is below said designated threshold.
- 13. A method for detecting and reducing instability in a digital voice enhancement communication system having a first acoustic zone, a second acoustic zone, a microphone at said first zone, a loudspeaker at said second zone and electrically coupled to said microphone such that the speech of a person at said first zone can be heard by a person at said second zone as transmitted by an electrical signal from said microphone to said loudspeaker, said loudspeaker being acoustically coupled to said microphone such that said microphone is subject to acoustic feedback from said loudspeaker, said method comprising detecting an unstable acoustic feedback condition from said loudspeaker to said microphone by sensing a condition of said electrical signal transmitted from said microphone to said loudspeaker, and responding to said sensed condition to modify said electrical signal to reduce unstable acoustic feedback, wherein said sensed condition is a sinusoidal characteristic of said electrical signal wherein said sensed condition is said electrical signal becoming sinusoidal in nature, and comprising modeling said electrical signal as a filter model with filter coefficients, and monitoring one of said filter coefficients and generating a feedback indicator signal to modify said electrical signal in response to a given condition of said filter coefficient, and comprising generating said feedback indicator signal when the variation of said filter coefficient is below a designated threshold, and comprising generating said feedback indicator signal when the power of the variation of said filter coefficient is below said designated threshold.
Specification