Hearing aid
First Claim
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1. A hearing aid comprising:
- an input transducer for transforming an acoustic input signal into a first electrical signal, a first filter bank with bandpass filters for dividing the first electrical signal into a set of bandpass filtered first electrical signals, a first set of combining nodes for receiving said set of bandpass filtered first electrical signals and combining them with a set of third electrical signals in order to output a first set of combining node output signals, a processor adapted for individual processing of each signal among the set of combining node output signals and adding together the processed electrical signals in order to generate a second electrical signal, an output transducer for transforming said second electrical signal into an acoustic output signal, a second filter bank with bandpass filters for dividing said second electrical signal into a set of bandpass filtered second electrical signals, the bandpass filters of the second filter bank being substantially identical to respective bandpass filters of the first filter bank, a first set of adaptive filters for estimating acoustic feedback by filtering of the bandpass filtered second electrical signals according to a set of first filter coefficients and generating the set of third electrical signals, a second set of adaptive filters with second filter coefficients for filtering the bandpass filtered second electrical signals into respective fourth electrical signals, a second set of combining nodes for generation of fifth electrical signals by combining the fourth electrical signals with the respective signals of said first set of combining node output signals, and for inputting said fifth electrical signals to said second set of adaptive filters for adjustment of the second filter coefficients, a controller adapted to determine a first parameter of an acoustic feedback loop of the hearing aid and to adjust a first adaptation rate of said set of first filter coefficients, wherein said controller is adapted to determine a second parameter of an acoustic feedback loop of the hearing aid and to adjust the second filter coefficients with a second adaptation rate that is higher than the first adaptation rate, and wherein said controller is adapted to estimate the amount of acoustic feedback based on information from said second set of adaptive filters.
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Abstract
The present invention relates to a hearing aid with an adaptive filter for suppression of acoustic feedback in the hearing aid. The hearing aid further comprises a controller that is adapted to compensate for acoustic feedback by determination of a first parameter of an acoustic feedback loop of the hearing aid and adjustment of a second parameter of the hearing aid in response to the first parameter whereby generation of undesired sounds is substantially avoided. Hereby a gain safety margin requirement is significantly reduced.
30 Citations
23 Claims
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1. A hearing aid comprising:
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an input transducer for transforming an acoustic input signal into a first electrical signal, a first filter bank with bandpass filters for dividing the first electrical signal into a set of bandpass filtered first electrical signals, a first set of combining nodes for receiving said set of bandpass filtered first electrical signals and combining them with a set of third electrical signals in order to output a first set of combining node output signals, a processor adapted for individual processing of each signal among the set of combining node output signals and adding together the processed electrical signals in order to generate a second electrical signal, an output transducer for transforming said second electrical signal into an acoustic output signal, a second filter bank with bandpass filters for dividing said second electrical signal into a set of bandpass filtered second electrical signals, the bandpass filters of the second filter bank being substantially identical to respective bandpass filters of the first filter bank, a first set of adaptive filters for estimating acoustic feedback by filtering of the bandpass filtered second electrical signals according to a set of first filter coefficients and generating the set of third electrical signals, a second set of adaptive filters with second filter coefficients for filtering the bandpass filtered second electrical signals into respective fourth electrical signals, a second set of combining nodes for generation of fifth electrical signals by combining the fourth electrical signals with the respective signals of said first set of combining node output signals, and for inputting said fifth electrical signals to said second set of adaptive filters for adjustment of the second filter coefficients, a controller adapted to determine a first parameter of an acoustic feedback loop of the hearing aid and to adjust a first adaptation rate of said set of first filter coefficients, wherein said controller is adapted to determine a second parameter of an acoustic feedback loop of the hearing aid and to adjust the second filter coefficients with a second adaptation rate that is higher than the first adaptation rate, and wherein said controller is adapted to estimate the amount of acoustic feedback based on information from said second set of adaptive filters. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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11. The hearing aid according to claim 1, further comprising means for updating at least one of said first and said second set of filter coefficients according to a normalized Least Mean Square:
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where u(n) is an N dimensional vector containing the latest N samples of the signal u, c(n) is a vector containing the current values of the N filter coefficients, c(0) is a vector containing the initial values of the N filter coefficients, c(n+1) is the updated values of the N filter coefficients, and e(n) is the current sample of the second electrical signal.
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12. The hearing aid according to claim 1, comprising means for updating at least one of said first and said second set of filter coefficients according to a power normalized Least Mean Square algorithm
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13. The hearing aid according to claim 1, comprising means for updating at least one of said first and said second set of filter coefficients according to a leaky sign least mean square algorithm:
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14. The hearing aid according to claim 1, comprising means for updating at least one of said first and said second set of filter coefficients according to a leaky sign—
- sign least mean square algorithm;
- sign least mean square algorithm;
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15. The hearing aid according to claim 1, wherein said controller is adapted to adjust said second parameter in response to said first parameter and in response to the actual acoustic environment.
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16. The hearing aid according to claim 1, comprising a delay line for delaying said second electrical signal and for feeding the delayed second electrical signal to said first adaptive filter.
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17. The hearing aid according to claim 1, wherein said controller is adapted to calculate a maximum gain value for said processor.
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18. A hearing aid comprising:
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an input transducer for transforming an acoustic input signal into a first electrical signal, a processor for generation of a second electrical signal by processing of the first electrical signals into the second electrical signal, an output transducer for transforming the second electrical signal into an acoustic output signal, a first adaptive filter with first filter coefficients for estimation of acoustic feedback by generation of third electrical signals by filtering of the second electrical signal and adapting the third signals to said first electrical signal, which first adaptive filter is a warped adaptive filter and wherein the first filter coefficients are updated with a first convergence rate, a set of second adaptive filters with second filter coefficients filtering the second electrical signals into respective fourth electrical signals, and a combining node for generation of fifth electrical signals by combining the fourth electrical signals with respective first electrical signals and for feeding the fifth electrical signals to the second set of adaptive filters, and wherein the second filter coefficients are updated with a second convergence rate that is higher than the first convergence rate. - View Dependent Claims (19)
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20. A hearing aid comprising:
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an input transducer for transforming an acoustic input signal into a first electrical signal, a first filter bank with bandpass filters for dividing the first electrical signal into a set of bandpass filtered first electrical signals, a first set of combining nodes for receiving said set of bandpass filtered first electrical signals and combining them with a set of third electrical signals in order to output a first set of combining node output signals, a processor adapted for individual processing of each signal among the set of combining node output signals and adding together the processed electrical signals in order to generate a second electrical signal, an output transducer for transforming said second electrical signal into an acoustic output signal, a second filter bank with bandpass filters for dividing said second electrical signal into a set of bandpass filtered second electrical signals, the bandpass filters of the second filter bank being substantially identical to respective bandpass filters of the first filter bank, a first set of adaptive filters for estimating acoustic feedback by filtering of the bandpass filtered second electrical signals according to a set of first filter coefficients and generating the set of third electrical signals, and a controller adapted to determine an operating gain of the processor and to adjust a first adaptation rate of said set of first filter coefficients according to the operating gain. - View Dependent Claims (21, 22, 23)
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Specification