IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0794643
(2010-06-04)
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등록번호 |
US-8639516
(2014-01-28)
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발명자
/ 주소 |
- Lindahl, Aram
- Paquier, Baptiste Pierre
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출원인 / 주소 |
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대리인 / 주소 |
Morgan, Lewis & Bockius LLP
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인용정보 |
피인용 횟수 :
21 인용 특허 :
223 |
초록
▼
Systems, methods, and devices for user-specific noise suppression are provided. For example, when a voice-related feature of an electronic device is in use, the electronic device may receive an audio signal that includes a user voice. Since noise, such as ambient sounds, also may be received by the
Systems, methods, and devices for user-specific noise suppression are provided. For example, when a voice-related feature of an electronic device is in use, the electronic device may receive an audio signal that includes a user voice. Since noise, such as ambient sounds, also may be received by the electronic device at this time, the electronic device may suppress such noise in the audio signal. In particular, the electronic device may suppress the noise in the audio signal while substantially preserving the user voice via user-specific noise suppression parameters. These user-specific noise suppression parameters may be based at least in part on a user noise suppression preference or a user voice profile, or a combination thereof.
대표청구항
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1. A method comprising: determining a test audio signal that includes a user voice sample and at least one distractor;applying noise suppression to the test audio signal based at least in part on first noise suppression parameters to obtain a first noise-suppressed audio signal;causing the first noi
1. A method comprising: determining a test audio signal that includes a user voice sample and at least one distractor;applying noise suppression to the test audio signal based at least in part on first noise suppression parameters to obtain a first noise-suppressed audio signal;causing the first noise-suppressed audio signal to be output to a speaker;applying noise suppression to the test audio signal based at least in part on second noise suppression parameters to obtain a second noise-suppressed audio signal;causing the second noise-suppressed audio signal to be output to the speaker;obtaining an indication of a user preference of the first noise-suppressed audio signal or the second noise suppressed audio signal; anddetermining user-specific noise suppression parameters based at least in part on the first noise suppression parameters or the second noise suppression parameters, or a combination thereof, depending on the indication of the user preference of the first noise-suppressed signal or the second noise-suppressed signal, wherein the user-specific noise suppression parameters are configured to suppress noise when a voice-related feature of the electronic device is in use. 2. The method of claim 1, wherein determining the test audio signal comprises recording the user voice sample using a microphone while the distractor is playing aloud on the speaker. 3. The method of claim 1, wherein determining the test audio signal comprises recording the user voice sample using a microphone while the distractor is playing aloud on another device. 4. The method of claim 1, wherein determining the test audio signal comprises recording the user voice sample using a microphone and electronically mixing the user voice sample with the distractor. 5. The method of claim 1, further comprising: applying noise suppression to the test audio signal based at least in part on third noise suppression parameters to obtain a third noise-suppressed audio signal;causing the third noise-suppressed audio signal to be output to the speaker;applying noise suppression to the test audio signal based at least in part on fourth noise suppression parameters to obtain a fourth noise-suppressed audio signal;causing the fourth noise-suppressed audio signal to be output to the speaker;obtaining an indication of a user preference of the third noise-suppressed audio signal or the fourth noise-suppressed audio signal; anddetermining the user-specific noise suppression parameters based at least in part on the first noise suppression parameters, the second noise suppression parameters, the third noise suppression parameters, or the fourth noise suppression parameters, or a combination thereof, depending on the indication of the user preference of the third noise-suppressed audio signal or the fourth noise-suppressed audio signal. 6. The method of claim 5, further comprising determining the third noise suppression parameters and the fourth noise suppression parameters based at least in part on the user preference of the first noise-suppressed audio signal or the second noise-suppressed audio signal. 7. An electronic device, comprising at least one processor and memory storing one or more programs for execution by the at least one processor, the one or more programs including instructions for: determining a test audio signal that includes a user voice sample and at least one distractor;applying noise suppression to the test audio signal based at least in part on first noise suppression parameters to obtain a first noise-suppressed audio signal;causing the first noise-suppressed audio signal to be output to a speaker;applying noise suppression to the test audio signal based at least in part on second noise suppression parameters to obtain a second noise-suppressed audio signal;causing the second noise-suppressed audio signal to be output to the speaker;obtaining an indication of a user preference of the first noise-suppressed audio signal or the second noise suppressed audio signal; anddetermining user-specific noise suppression parameters based at least in part on the first noise suppression parameters or the second noise suppression parameters, or a combination thereof, depending on the indication of the user preference of the first noise-suppressed signal or the second noise-suppressed signal, wherein the user-specific noise suppression parameters are configured to suppress noise when a voice-related feature of the electronic device is in use. 8. The electronic device of claim 7, wherein the instructions for determining the test audio signal comprises instructions for recording the user voice sample using a microphone while the distractor is playing aloud on the speaker. 9. The electronic device of claim 7, wherein the instructions for determining the test audio signal comprises instructions for recording the user voice sample using a microphone while the distractor is playing aloud on another device. 10. The electronic device of claim 7, wherein the instructions for determining the test audio signal comprises instructions for recording the user voice sample using a microphone and for electronically mixing the user voice sample with the distractor. 11. The electronic device of claim 7, further comprising instructions for: applying noise suppression to the test audio signal based at least in part on third noise suppression parameters to obtain a third noise-suppressed audio signal;causing the third noise-suppressed audio signal to be output to the speaker;applying noise suppression to the test audio signal based at least in part on fourth noise suppression parameters to obtain a fourth noise-suppressed audio signal;causing the fourth noise-suppressed audio signal to be output to the speaker;obtaining an indication of a user preference of the third noise-suppressed audio signal or the fourth noise-suppressed audio signal; anddetermining the user-specific noise suppression parameters based at least in part on the first noise suppression parameters, the second noise suppression parameters, the third noise suppression parameters, or the fourth noise suppression parameters, or a combination thereof, depending on the indication of the user preference of the third noise-suppressed audio signal or the fourth noise-suppressed audio signal. 12. The electronic device of claim 11, further comprising determining the third noise suppression parameters and the fourth noise suppression parameters based at least in part on the user preference of the first noise-suppressed audio signal or the second noise-suppressed audio signal. 13. A non-transitory computer-readable storage medium, storing one or more programs for execution by one or more processors of an electronic device, the one or more programs including instructions for: determining a test audio signal that includes a user voice sample and at least one distractor;applying noise suppression to the test audio signal based at least in part on first noise suppression parameters to obtain a first noise-suppressed audio signal;causing the first noise-suppressed audio signal to be output to a speaker;applying noise suppression to the test audio signal based at least in part on second noise suppression parameters to obtain a second noise-suppressed audio signal;causing the second noise-suppressed audio signal to be output to the speaker;obtaining an indication of a user preference of the first noise-suppressed audio signal or the second noise suppressed audio signal; anddetermining user-specific noise suppression parameters based at least in part on the first noise suppression parameters or the second noise suppression parameters, or a combination thereof, depending on the indication of the user preference of the first noise-suppressed signal or the second noise-suppressed signal, wherein the user-specific noise suppression parameters are configured to suppress noise when a voice-related feature of the electronic device is in use. 14. The non-transitory computer-readable storage medium of claim 13, wherein the instructions for determining the test audio signal comprise instructions for recording the user voice sample using a microphone while the distractor is playing aloud on the speaker. 15. The non-transitory computer-readable storage medium of claim 13, wherein the instructions for determining the test audio signal comprise instructions for recording the user voice sample using a microphone and for electronically mixing the user voice sample with the distractor. 16. The non-transitory computer-readable storage medium of claim 13, further comprising instructions for: applying noise suppression to the test audio signal based at least in part on third noise suppression parameters to obtain a third noise-suppressed audio signal;causing the third noise-suppressed audio signal to be output to the speaker;applying noise suppression to the test audio signal based at least in part on fourth noise suppression parameters to obtain a fourth noise-suppressed audio signal;causing the fourth noise-suppressed audio signal to be output to the speaker;obtaining an indication of a user preference of the third noise-suppressed audio signal or the fourth noise-suppressed audio signal; anddetermining the user-specific noise suppression parameters based at least in part on the first noise suppression parameters, the second noise suppression parameters, the third noise suppression parameters, or the fourth noise suppression parameters, or a combination thereof, depending on the indication of the user preference of the third noise-suppressed audio signal or the fourth noise-suppressed audio signal. 17. The non-transitory computer-readable storage medium of claim 16, further comprising determining the third noise suppression parameters and the fourth noise suppression parameters based at least in part on the user preference of the first noise-suppressed audio signal or the second noise-suppressed audio signal. 18. The non-transitory computer-readable storage medium of claim 13, wherein the instructions for determining the test audio signal comprise instructions for recording the user voice sample using a microphone while the distractor is playing aloud on another device. 19. A method, comprising: at a first electronic device associated with a first user, including at least one processor and memory: obtaining, by the first electronic device, a first user voice signal associated with the first user;receiving, by the first electronic device, from a second electronic device associated with a second user distinct from the first user, second user noise suppression parameters associated with the second user;in accordance with a user-specific preference of the second user, applying, by the first electronic device, noise suppression to the first user voice signal based at least in part on the second user noise suppression parameters; andafter applying noise suppression to the first user voice signal, providing, by the first electronic device, the first user voice signal to the second electronic device. 20. The method of claim 19, further comprising: providing, by the first electronic device, first user noise suppression parameters associated with the first user to the second electronic device; andreceiving, by the first electronic device, a second user voice signal associated with the second user from the second electronic device, wherein, in accordance with a user-specific preference of the first user, the second user voice signal has had noise suppression applied thereto based at least in part on the first user noise suppression parameters before being received by the first electronic device. 21. A non-transitory computer-readable storage medium, storing one or more programs for execution by one or more processors of a first electronic device, the one or more programs including instructions for: obtaining, by the first electronic device, a first user voice signal associated with a first user of the first electronic device;receiving, by the first electronic device, from a second electronic device associated with a second user distinct from the first user, second user noise suppression parameters associated with the second user;in accordance with a user-specific preference of the second user, applying, by the first electronic device, noise suppression to the first user voice signal based at least in part on the second user noise suppression parameters; andafter applying noise suppression to the first user voice signal, providing, by the first electronic device, the first user voice signal to the second electronic device. 22. The non-transitory computer-readable storage medium of claim 21, wherein the one or more programs further include instructions for: providing, by the first electronic device, first user noise suppression parameters associated with the first user to the second electronic device; andreceiving, by the first electronic device, a second user voice signal associated with the second user from the second electronic device, wherein, in accordance with a user-specific preference of the first user, the second user voice signal has had noise suppression applied thereto based at least in part on the first user noise suppression parameters before being received by the first electronic device. 23. A first electronic device, comprising: one or more processors; andmemory storing one or more programs including instructions that when executed by the one or more processors cause the first electronic device to: obtain a first user voice signal associated with a first user of the first electronic device;receive, from a second electronic device associated with a second user distinct from the first user, second user noise suppression parameters associated with the second user;in accordance with a user-specific preference of the second user, apply noise suppression to the first user voice signal based at least in part on the second user noise suppression parameters; andafter applying noise suppression to the first user voice signal, provide the first user voice signal to the second electronic device. 24. The first electronic device of claim 23, wherein the one or more programs further include instructions that cause the first electronic device to: provide first user noise suppression parameters associated with the first user to the second electronic device; andreceive a second user voice signal associated with the second user from the second electronic device, wherein, in accordance with a user-specific preference of the first user, the second user voice signal has had noise suppression applied thereto based at least in part on the first user noise suppression parameters before being received by the first electronic device.
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