Personal acoustic device position determination
First Claim
Patent Images
1. A method comprising:
- analyzing an inner signal output by an inner microphone disposed within a cavity of a casing of an earpiece of a personal acoustic device and an outer signal output by an outer microphone disposed on the personal acoustic device so as to be acoustically coupled to an environment external to the casing of the earpiece;
determining an operating state of the earpiece based on the analyzing of the inner and outer signals;
wherein;
analyzing the inner and outer signals comprises comparing a signal level of the inner signal within a selected range of frequencies to a signal level of the outer signal within the selected range of frequencies; and
determining the operating state of the earpiece comprises determining that the earpiece is in the operating state of being positioned in the vicinity of an ear at least partly in response to detecting that the difference between the signal levels of the inner signal and the outer signal within the selected range of frequencies is within a maximum degree of difference specified by a difference threshold setting; and
imposing a transfer function on the outer signal that modifies a sound represented by the outer signal in a manner substantially similar to the manner in which a sound propagating from the environment external to the casing to the cavity is modified at a time when the earpiece is in the operating state of being positioned in the vicinity of an ear.
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Abstract
A apparatus and method for determining an operating state of an earpiece of a personal acoustic device and/or the entirety of the personal acoustic device by analyzing signals output by at least an inner microphone disposed within a cavity of a casing of the earpiece and an outer microphone disposed on the personal acoustic device in a manner acoustically coupling it to the environment outside the casing of the earpiece.
82 Citations
14 Claims
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1. A method comprising:
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analyzing an inner signal output by an inner microphone disposed within a cavity of a casing of an earpiece of a personal acoustic device and an outer signal output by an outer microphone disposed on the personal acoustic device so as to be acoustically coupled to an environment external to the casing of the earpiece; determining an operating state of the earpiece based on the analyzing of the inner and outer signals; wherein; analyzing the inner and outer signals comprises comparing a signal level of the inner signal within a selected range of frequencies to a signal level of the outer signal within the selected range of frequencies; and determining the operating state of the earpiece comprises determining that the earpiece is in the operating state of being positioned in the vicinity of an ear at least partly in response to detecting that the difference between the signal levels of the inner signal and the outer signal within the selected range of frequencies is within a maximum degree of difference specified by a difference threshold setting; and imposing a transfer function on the outer signal that modifies a sound represented by the outer signal in a manner substantially similar to the manner in which a sound propagating from the environment external to the casing to the cavity is modified at a time when the earpiece is in the operating state of being positioned in the vicinity of an ear. - View Dependent Claims (2)
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3. A method comprising:
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analyzing an inner signal output by an inner microphone disposed within a cavity of a casing of an earpiece of a personal acoustic device and an outer signal output by an outer microphone disposed on the personal acoustic device so as to be acoustically coupled to an environment external to the casing of the earpiece; and determining an operating state of the earpiece based on the analyzing of the inner and outer signals; and wherein analyzing the inner and outer signals comprises analyzing a difference between a first transfer function representing the manner in which a sound emanating from an acoustic noise source in the environment external to the casing changes as it propagates from the noise source to the inner microphone within the cavity and a second transfer function representing the manner in which the sound changes as it propagates from the noise source to the outer microphone by deriving a third transfer function that is at least indicative of the difference between the first and second transfer functions. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10)
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11. A personal acoustic device comprising:
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a first earpiece having a first casing; a first inner microphone disposed within a first cavity of the first casing and outputting a first inner signal representative of sounds detected by the first inner microphone; a first outer microphone disposed on the personal acoustic device so as to be acoustically coupled to an environment external to the first casing and outputting a first outer signal representative of sounds detected by the first outer microphone; a control circuit coupled to the first inner microphone and to the first outer microphone to receive the first inner signal and the first outer signal, to analyze a difference between the first inner signal and the first outer signal, and to determine an operating state of the first earpiece based, at least in part, on analyzing the difference between the first inner signal and the first outer signal; and wherein the first outer microphone is a communications microphone disposed on the personal acoustic device so as to detect speech sounds of the user.
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12. A personal acoustic device comprising:
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a first earpiece having a first casing; a first inner microphone disposed within a first cavity of the first casing and outputting a first inner signal representative of sounds detected by the first inner microphone; a first outer microphone disposed on the personal acoustic device so as to be acoustically coupled to an environment external to the first casing and outputting a first outer signal representative of sounds detected by the first outer microphone; a control circuit coupled to the first inner microphone and to the first outer microphone to receive the first inner signal and the first outer signal, to analyze a difference between the first inner signal and the first outer signal, and to determine an operating state of the first earpiece based, at least in part, on analyzing the difference between the first inner signal and the first outer signal; and an audio controller coupled to the control circuit, wherein the control circuit, in response to determining that a change in operating state of at least the first earpiece has occurred, operates the audio controller to take an action selected from the group of actions consisting of muting audio detected by a communications microphone of the personal acoustic device, and rerouting audio to be acoustically output by a first acoustic driver of the first earpiece to being acoustically output by a second acoustic driver of a second earpiece of the personal acoustic device.
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13. A personal acoustic device comprising:
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a first earpiece having a first casing; a first inner microphone disposed within a first cavity of the first casing and outputting a first inner signal representative of sounds detected by the first inner microphone; a first outer microphone disposed on the personal acoustic device so as to be acoustically coupled to an environment external to the first casing and outputting a first outer signal representative of sounds detected by the first outer microphone; a control circuit coupled to the first inner microphone and to the first outer microphone to receive the first inner signal and the first outer signal, to analyze a difference between the first inner signal and the first outer signal, and to determine an operating state of the first earpiece based, at least in part, on analyzing the difference between the first inner signal and the first outer signal; and wherein the control circuit comprises; an adaptive filter to filter one of the first inner signal and the first outer signal, wherein the adaptive filter adapts filter coefficients according to an adaptation algorithm selected to reduce signal power of an error signal; a differential summer to subtract the one of the first inner signal and the first out signal from the other of the first inner signal and the first outer signal to derive the error signal; a storage in which is stored predetermined adaptive filter parameters representative of a known operating state of the personal acoustic device; and a controller for comparing adaptive filter parameters derived by the adaptive filter through the adaptation algorithm to the predetermined adaptive filter parameters stored in the storage. - View Dependent Claims (14)
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Specification