Voice coder with two microphone system and strategic microphone placement to deter obstruction for a digital communication device
First Claim
1. A system to support background noise reduction in a communication device, comprising:
- a first microphone located at a first location and operable to collect primarily a user'"'"'s voice signal;
a second microphone located at a second location and operable to collect a primarily background signal other than the user'"'"'s voice signal; and
a voice coder operable to;
receive signals from both the first microphone and the second microphone; and
generate an enhanced signal with reduced noise and improved signal-to-noise ratio (SNR);
a noise reduction component associated with the voice coder operable to compensate or remove background noise from the first microphone signal using the background noise signal from the second microphone;
the noise reduction component further comprises;
a synchronizer circuit operable to synchronize the signals from the first microphone and the second microphone when there is a delay that is not otherwise compensated for;
a continuous time quadrant modulation circuit operable to reduce background noise by subtracting the primarily background noise signal from the second microphone from the background noise component of the composite signal from the first microphone via analog signal processing;
a discrete time circuit operable to perform;
slowing or controllably delaying the progress or propagation of the signal from the first microphone;
reducing background noise by subtracting the signal from the second microphone from the background noise component of the composite signal from the first microphone via digital signal processing.
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Accused Products
Abstract
The present invention provides a voice coder for voice communication that employs a multi-microphone system as part of an improved approach to enhancing signal quality and improving the signal to noise ratio for such voice communications, where there is a special relationship between the position of a first microphone and a second microphone to provide the communication device with certain advantageous physical and acoustic properties. In addition, the communication device can have certain physical characteristics, and design features. In a two microphone arrangement, the first microphone is located in a location directed toward the speech source, while the second microphone is located in a location that provides a voice signal with significantly lower signal-to-noise ratio (SNR).
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Citations
9 Claims
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1. A system to support background noise reduction in a communication device, comprising:
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a first microphone located at a first location and operable to collect primarily a user'"'"'s voice signal; a second microphone located at a second location and operable to collect a primarily background signal other than the user'"'"'s voice signal; and a voice coder operable to; receive signals from both the first microphone and the second microphone; and generate an enhanced signal with reduced noise and improved signal-to-noise ratio (SNR); a noise reduction component associated with the voice coder operable to compensate or remove background noise from the first microphone signal using the background noise signal from the second microphone; the noise reduction component further comprises; a synchronizer circuit operable to synchronize the signals from the first microphone and the second microphone when there is a delay that is not otherwise compensated for; a continuous time quadrant modulation circuit operable to reduce background noise by subtracting the primarily background noise signal from the second microphone from the background noise component of the composite signal from the first microphone via analog signal processing; a discrete time circuit operable to perform; slowing or controllably delaying the progress or propagation of the signal from the first microphone; reducing background noise by subtracting the signal from the second microphone from the background noise component of the composite signal from the first microphone via digital signal processing. - View Dependent Claims (2, 3, 4)
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5. A method to support background noise reduction in a communication device, comprising:
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collecting primarily a user'"'"'s voice signal via a first microphone; collecting a primarily background signal other than the user'"'"'s voice signal via a second microphone; compensating or removing background ambient noise from the first microphone signal using the background noise signal from the second microphone; and generating an enhanced signal with reduced noise and improved signal-to-noise ratio (SNR) synchronizing the signals from the first microphone and the second microphone when there is a delay that is not otherwise compensated for; reducing background noise by subtracting the primarily background noise signal from the second microphone from the background noise component of the composite signal from the first microphone via analog or digital signal processing; slowing or controllably delaying the progress or propagation of the signal from the first microphone; altering the gain or weight applied to at least one of the signals from the first and the second microphones, or to a signal derived from the first microphone or the second microphone; and generating one or more counterbalanced signals that are operable to attenuate or altogether cancel background or environmental noise that is not intended or desirable to be transmitted to another party. - View Dependent Claims (6, 7)
positioning at least one of the plurality of secondary microphones to collect clear and undistorted background sound; and determining the most effective microphone to use for noise reduction or cancellation given a possible obstruction or distortion situation of one or more of the plurality of secondary microphones.
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8. A system to support background noise reduction in a communication device, comprising:
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means for collecting primarily a user'"'"'s voice signal via a first microphone; means for collecting a primarily background signal other than the user'"'"'s voice signal via a second microphone; means for compensating or removing background ambient noise from the first microphone signal using the background noise signal from the second microphone; and means for generating an enhanced signal with reduced noise and improved signal-to-noise ratio (SNR) by use of a voice coder operable to; accept and process signals from a plurality of microphones using appropriate coding scheme; compensate or remove background noise from one of the plurality of microphones signals using the background noise from rest of the plurality of microphone signals; generate an enhanced signal with reduced noise and improved signal-to-noise ratio (SNR); and provide the enhanced signal to a speaker and/or speaker phone; wherein at least one of the plurality of microphones is primarily for the sensing and transducing of a user'"'"'s voice and at least one of the plurality of microphones is primarily for sensing and transducing background or ambient sounds or noise other than the user'"'"'s voice;
a noise reduction component associated with the voice coder operable to compensate or remove background noise from the first microphone signal using the background noise signal from the second microphone;the noise reduction component further comprises; a synchronizer circuit operable to synchronize the signals from the first microphone and the second microphone when there is a delay that is not otherwise compensated for; a continuous time quadrant modulation circuit operable to reduce background noise by subtracting the primarily background noise signal from the second microphone from the background noise component of the composite signal from the first microphone via analog signal processing; a discrete time circuit operable to perform; slowing or controllably delaying the progress or propagation of the signal from the first microphone; and reducing background noise by subtracting the signal from the second microphone from the background noise component of the composite signal from the first microphone via digital signal processing.
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9. A system to support background noise reduction in a communication device, comprising:
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a voice coder operable to; accept and process signals from a plurality of microphones using appropriate coding scheme; compensate or remove background noise from one of the plurality of microphones signals using the background noise from rest of the plurality of microphone signals; generate an enhanced signal with reduced noise and improved signal-to-noise ratio (SNR); and provide the enhanced signal to a speaker and/or speaker phone; wherein at least one of the plurality of microphones is primarily for the sensing and transducing of a user'"'"'s voice and at least one of the plurality of microphones is primarily for sensing and transducing background or ambient sounds or noise other than the user'"'"'s voice;
a noise reduction component associated with the voice coder operable to compensate or remove background noise from the first microphone signal using the background noise signal from the second microphone;the noise reduction component further comprises; a synchronizer circuit operable to synchronize the signals from the first microphone and the second microphone when there is a delay that is not otherwise compensated for; a continuous time quadrant modulation circuit operable to reduce background noise by subtracting the primarily background noise signal from the second microphone from the background noise component of the composite signal from the first microphone via analog signal processing; a discrete time circuit operable to perform; slowing or controllably delaying the progress or propagation of the signal from the first microphone; and reducing background noise by subtracting the signal from the second microphone from the background noise component of the composite signal from the first microphone via digital signal processing.
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Specification