Method and apparatus for intelligent acoustic signal processing in accordance with a user preference

US 9,807,521 B2
Filed: 07/24/2007
Issued: 10/31/2017
Est. Priority Date: 10/22/2004
Status: Active Grant

First Claim

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1. An acoustic attenuation control apparatus, comprising:

an input sensor for receiving input acoustic signals to be processed, said input sensor including a microphone array, said microphone array consisting essentially of directional microphones for manifesting vibration in response to interaction with the input acoustic signals from a plurality of distinct directions in a user'"'"'s surroundings to generate a plurality of input signals, each of said plurality of signals representing an acoustic input from only one of the plurality of distinct directions relative to said input sensor;

amplifiers operatively connected to said microphone array, wherein each of said plurality of input signals is amplified by one of said amplifiers prior to processing by said processing device;

a processing device for producing, in response to the plurality of distinct input signals, at least one output signal dynamically controllable by a user, said processing device generating the output signal with at least a partially attenuated signal from at least one of the plurality of distinct directions, said signal processing device further including a mixing circuit to enable a mixing of at least two acoustic signals from the plurality of distinct directions; and

an acoustic output port for generating the output acoustic signal produced by said signal processing device to protect the user from hearing loss due to excessively loud acoustic signals from the at least one of the plurality of distinct directions, wherein said acoustic output port includes at least one speaker and where the apparatus further comprises at least one ear bud housing at least said microphone array, amplifier and speaker.

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Abstract

The present invention is directed to a “smart earplug” capable of selectively adjusting the output of an array of acoustic wave generation elements or speakers within a user'"'"'s ear canal in response to input signals, wherein at least one of the input signals has been at least partially attenuated.

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15 Claims

1. An acoustic attenuation control apparatus, comprising:
- an input sensor for receiving input acoustic signals to be processed, said input sensor including a microphone array, said microphone array consisting essentially of directional microphones for manifesting vibration in response to interaction with the input acoustic signals from a plurality of distinct directions in a user'"'"'s surroundings to generate a plurality of input signals, each of said plurality of signals representing an acoustic input from only one of the plurality of distinct directions relative to said input sensor;
  
  amplifiers operatively connected to said microphone array, wherein each of said plurality of input signals is amplified by one of said amplifiers prior to processing by said processing device;
  
  a processing device for producing, in response to the plurality of distinct input signals, at least one output signal dynamically controllable by a user, said processing device generating the output signal with at least a partially attenuated signal from at least one of the plurality of distinct directions, said signal processing device further including a mixing circuit to enable a mixing of at least two acoustic signals from the plurality of distinct directions; and
  
  an acoustic output port for generating the output acoustic signal produced by said signal processing device to protect the user from hearing loss due to excessively loud acoustic signals from the at least one of the plurality of distinct directions, wherein said acoustic output port includes at least one speaker and where the apparatus further comprises at least one ear bud housing at least said microphone array, amplifier and speaker.
- View Dependent Claims (2, 3)
- - 2. The acoustic attenuation control apparatus according to claim 1, wherein said apparatus further comprises a user control housing that encloses said processing device, said mixing circuit and a power source, wherein said housing includes at least one user-adjustable control.
  - 3. The acoustic attenuation control apparatus according to claim 1, wherein said partially attenuated signal is perceived as being lower than an ambient sound from the same direction.

4. An acoustic signal processing system for attenuating acoustic signals in accordance with a user preference, comprising:
- at least one microphone array, said microphone array including directional microphones, mounted on opposite sides of a baffle, for generating a plurality of input signals in response to acoustic vibrations, each input signal representing an acoustic input from one of a plurality of distinct directions in the user'"'"'s environment as delineated by said baffle and relative to said microphone array, wherein said baffle is a circuit board having the microphones mounted on opposite sides thereof;
  
  a signal processing device for producing, in response to the plurality of distinct input signals, at least one output signal, said signal processing device generating the output signal with at least a partially attenuated signal from at least one of the plurality of directions while maintaining a uniform frequency response, said signal processing device further including a mixing circuit, responsive to the user preference, to mix at least two acoustic signals from the plurality of distinct directions; and
  
  at least one speaker for generating the output acoustic signal in response to the output signal from said signal processing device.
- View Dependent Claims (5, 6, 7)
- - 5. The acoustic control apparatus according to claim 4, further comprising at least one amplifier operatively connected to said microphone array.
  - 6. The acoustic control apparatus according to claim 4, wherein a first of said directional microphones receives acoustic vibrations from a first direction and a second of said directional microphones receives acoustic vibrations from a second direction that is opposite the first direction.
  - 7. The acoustic control apparatus according to claim 4, wherein said partially attenuated signal from at least one of the plurality of directions results in the output acoustic signal representing the at least one of the plurality of directions at a level that is perceived as lower than the acoustic input from the at least one of the plurality of directions.

8. A method for attenuating the sound perceived by a user from at least one direction, comprising:
- receiving an input acoustic signal from each of a plurality of separate directions, using a micro-electronic microphone array having microphones separated from one another by at least one baffle, where at least a first microphone only receives a first input acoustic signal from a first direction relative to the baffle and a second microphone only receives a second input acoustic signal from a second direction generally opposite the first direction and generating a plurality of input signals representing the respective acoustic input from each of a plurality of separate directions relative to the array;
  
  processing the input signals to produce at least one output acoustic signal such that the output acoustic signal level is generally reflective of a combination of the input acoustic signals, except that one of said first and second input acoustic signals is attenuated to a lower level in the output acoustic signal; and
  
  generating, by an output speaker responsive to the at least one output signal, an acoustic signal directly in the canal of a user'"'"'s ear.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
- - 9. The method of claim 8, further including occluding the canal of the user'"'"'s ear with an ear bud to substantially prevent the perception of the ambient sound except that which is provided by only a single output speaker in the ear bud.
  - 10. The method of claim 8, wherein the output signal is adjustable to include a partially attenuated input from at least one of the plurality of directions.
  - 11. The method of claim 8 wherein receiving an input acoustic signal from each of a plurality of separate directions relative includes receiving acoustic signals from at least two directions that are generally opposite one another.
  - 12. The method of claim 8, wherein said baffle comprises a circuit board having the microphones mounted on opposite sides thereof.
  - 13. The method of claim 8, wherein a first microphone receives the input acoustic signal from a direction in front of the baffle and where a second microphone receives the input acoustic signal from a direction in back of the baffle.
  - 14. The method of claim 8, wherein the attenuation of said signal results in the generation of an acoustic output signal that is perceived by the user as lower in volume than the input acoustic signal from that direction.
  - 15. The method of claim 8, wherein said lower level is a reduced level that is safe for the user.

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Current Assignee
Alan J. Werner Jr
Original Assignee
Alan J. Werner Jr
Inventors
Werner, Jr., Alan J., Bugler, Malcolm
Primary Examiner(s)
Lao, Lun-See

Application Number

US11/782,321
Publication Number

US 20080044040A1
Time in Patent Office

3,752 Days
Field of Search

381111, 381 92, 381 941- 943, 381380, 381374, 381370, 381 74, 381312, 381313
US Class Current
CPC Class Codes

H04R 2420/07   Applications of wireless lo...

H04R 2430/20   Processing of the output si...

H04R 25/407   Circuits for combining sign...

H04R 25/43   Electronic input selection ...

H04R 25/505   using digital signal proces...

Method and apparatus for intelligent acoustic signal processing in accordance with a user preference

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

54 Citations

15 Claims

Specification

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Method and apparatus for intelligent acoustic signal processing in accordance with a user preference

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

54 Citations

15 Claims

Specification

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Use Cases

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Others