Psychoacoustic hearing and masking thresholds-based noise compensator system
US-9392365-B1 · Jul 12, 2016 · US
System and method for acoustic management
US2016012813A1 · US · A1
| Field | Value |
|---|---|
| Publication number | US-2016012813-A1 |
| Application number | US-201514794160-A |
| Country | US |
| Kind code | A1 |
| Filing date | Jul 8, 2015 |
| Priority date | Jul 9, 2014 |
| Publication date | Jan 14, 2016 |
| Grant date | — |
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Abstract
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A system and method for acoustic management that includes improving the sound quality of two or more audio processing modules in an acoustic environment may receive first control parameters from a first audio processing module. Receiving second control parameters from a second audio processing module. An audio processing interaction may be derived between with the first audio processing module and the second audio processing module determined from the first control parameters and the second control parameters. The first control parameters and the second control parameters may be modified responsive to the derived audio processing interaction. The modified first control parameters may be sent to the first audio processing module and the modified second control parameters may be sent to the second audio processing module where the first audio processing module and the second audio processing module may perform any one or more of processing audio captured from an acoustic environment and processing audio to be reproduced in the acoustic environment.
First claim
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1 . A method for acoustic management comprising: receiving first control parameters from a first audio processing module; receiving second control parameters from a second audio processing module; deriving an audio processing interaction between with the first audio processing module and the second audio processing module determined from the first control parameters and the second control parameters; modifying the first control parameters and the second control parameters responsive to the derived audio processing interaction; and sending the modified first control parameters to the first audio processing module and the modified second control parameters to the second audio processing module where the first audio processing module and the second audio processing module performs one or more of processing audio captured from an acoustic environment and processing audio to be reproduced in the acoustic environment. 2 . The method for acoustic management of claim 1 , where the first control parameters are echo control parameters; the first audio processing module comprises an acoustic echo cancellation module; the second control parameters are noise control parameters; and the second audio processing module comprises an active noise control module. 3 . The method for acoustic management of claim 2 , where the modified echo control parameters and the modified noise control parameters instruct the acoustic echo cancellation module and the active noise control module to process non-overlapping frequencies. 4 . The method for acoustic management of claim 2 , where the modified noise control parameters instruct the active noise control module to be responsive to a change in the echo path. 5 . The method for acoustic management of claim 1 , where the first control parameters are voice control parameters; the first audio processing module comprises a voice processing module; the second control parameters are the noise control parameters; and the second audio processing module comprises the active noise control module. 6 . The method for acoustic management of claim 5 , where the modified noise control parameters instruct the active noise control module to be responsive to audio captured from an acoustic environment when voice is not detected in the captured audio. 7 . The method for acoustic management of claim 5 , where the modified noise control parameters instruct the active noise control module to increase noise reduction at a microphone when the voice processing module is active and to increase noise reduction at user locations when the voice processing module is inactive. 8 . The method for acoustic management of claim 1 , where the first control parameters are audio control parameters; the first audio processing module comprises an audio processing module; the second control parameters are the noise control parameters; and the second audio processing module comprises the active noise control module. 9 . The method for acoustic management of claim 8 , where the modified noise control parameters instruct the active noise control module to increase noise reduction at each of one or more user locations. 10 . The method for acoustic management of claim 1 , where the first control parameters are engine sound enhancement control parameters; the first audio processing module comprises an engine sound enhancement module; the second control parameters are the noise control parameters; and the second audio processing module comprises the active noise control module. 11 . The method for acoustic management of claim 10 , where the modified noise control parameters instruct the active noise control module to be responsive to audio components not generated in the engine sound enhancement module. 12 . A system for acoustic management comprising: an acoustic management module: receiving first control parameters from a first audio processing module and receiving second control parameters from a second audio processing module; deriving an audio processing interaction between with the first audio processing module and the second audio processing module determined from the first control parameters and the second control parameters; modifying the first control parameters and the second control parameters responsive to the derived audio processing interaction; and transmitting the modified first control parameters to the first audio processing module and the modified second control parameters to the second audio processing module where each of the first audio processing module and the second audio processing module performs one or more of processing audio captured from an acoustic environment and processing audio to be reproduced in the acoustic environment. 13 . The system for acoustic management of claim 12 , where the first control parameters are echo control parameters; the first audio processing module comprises an acoustic echo cancellation module; the second control parameters are noise control parameters; and the second audio processing module comprises an active noise control module. 14 . The system for acoustic management of claim 13 , where the modified echo control parameters and the modified noise control parameters instruct the acoustic echo cancellation module and the active noise control module to process non-overlapping frequencies. 15 . The system for acoustic management of claim 13 , where the modified noise control parameters instruct the active noise control module to be responsive to a change in the echo path. 16 . The system for acoustic management of claim 12 , where the first control parameters are voice control parameters; the first audio processing module comprises a voice processing module; the second control parameters are the noise control parameters; and the second audio processing module comprises the active noise control module. 17 . The system for acoustic management of claim 16 , where the modified noise control parameters instruct the active noise control module to be responsive to audio captured from an acoustic environment when voice is not detected in the captured audio. 18 . The system for acoustic management of claim 16 , where the modified noise control parameters instruct the active noise control module to increase noise reduction at a microphone when the voice processing module is active and to increase noise reduction at user locations when the voice processing module is inactive. 19 . The system for acoustic management of claim 12 , where the first control parameters are audio control parameters; the first audio processing module comprises an audio processing module; the second control parameters are the noise control parameters; and the second audio processing module comprises the active noise control module. 20 . The system for acoustic management of claim 19 , where the modified noise control parameters instruct the active noise control module to increase noise reduction at each of one or more user locations. 21 . The system for acoustic management of claim 12 , where the first control parameters are engine sound enhancement control parameters; the first audio processing module comprises an engine sound enhancement module; the second control parameters are the noise control parameters; and the second audio processing module comprises the active noise control module. 22 . The system for acoustic management of claim 21 , where the modified noise control parameters instruct the active noise control module to be responsive to audio comp
Assignees
Inventors
Classifications
Speech enhancement, e.g. noise reduction or echo cancellation (reducing echo effects in line transmission systems H04B3/20; echo suppression in hands-free telephones H04M9/08) · CPC title
Detection of presence or absence of voice signals (switching of direction of transmission by voice frequency in two-way loud-speaking telephone systems H04M9/10) · CPC title
the noise being echo, reverberation of the speech · CPC title
- G10K11/175Primary
using interference effects; Masking sound · CPC title
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- What does patent US2016012813A1 cover?
- A system and method for acoustic management that includes improving the sound quality of two or more audio processing modules in an acoustic environment may receive first control parameters from a first audio processing module. Receiving second control parameters from a second audio processing module. An audio processing interaction may be derived between with the first audio processing module …
- Who is the assignee on this patent?
- Ontario Inc 2236008
- What technology area does this patent fall under?
- Primary CPC classification G10K11/175. Mapped technology areas include Physics.
- When was this patent published?
- Publication date Thu Jan 14 2016 00:00:00 GMT+0000 (Coordinated Universal Time) (A1). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 1 related publication on this page (citations in our corpus or others sharing the same primary CPC).