Self-calibration of multi-microphone noise reduction system for hearing assistance devices using an auxiliary device
First Claim
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1. A hearing assistance system comprising a hearing assistance device andan auxiliary device;
- the hearing assistance device comprisingHD-a) a multitude M of input units IUi, i=1, . . . , M, adapted to provide or to receive a time-frequency representation Si(k,m) of a signal si(n) at an ith input unit in a number of frequency bands and a number of time instances, k being a frequency band index, m being a time index, n representing time, and M being larger than or equal to two; and
HD-b) a multi-input unit noise reduction system comprising a multi-channel beamformer filtering unit operationally coupled to said multitude of input units IUi, i=1, . . . , M, and configured to determine filter weights w(k,m) for providing a beamformed signal Y(k,m), wherein signal components from other directions than a direction of a target signal source are attenuated, whereas signal components from the direction of the target signal source are left un-attenuated or are attenuated less than signal components from said other directions;
the system comprising a user interface for activating a calibration mode in the auxiliary device and in the hearing assistance device;
the auxiliary device comprisingAD-a) an output transducer for converting an electric signal representative of a sound to an acoustic sound signal;
AD-b) a control unit for forwarding an electric calibration signal to the output transducer when said calibration mode is activated;
wherein the system, during said calibration mode, is configured to estimate a look vector d(k,m) for a target signal originating from a target signal source located at a specific location relative to the user based on the electric calibration signal converted by the output transducer of the auxiliary device to an acoustic calibration sound signal, the estimated look vector d(k,m) being used to determine optimal beamformer weights, andwherein said specific location relative to the user is the location of said output transducer of the auxiliary device, wherein said look vector d(k, m) is an M-dimensional vector comprising elements (i=1, . . . , M), the ith element d(k,m) defining an acoustic transfer function from the target signal source to the ith input unit, or a relative acoustic transfer function from the ith input unit to a reference input unit.
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Abstract
A hearing assistance system calibrates a noise reduction system of a hearing assistance device. The system comprises a hearing assistance device, and an auxiliary device. The hearing assistance device comprises a multitude of input units, and a multi-channel beamformer filtering unit configured to determine filter weights for a beamformed signal. The system further comprises a user interface for activating a calibration mode. The auxiliary device comprises an output transducer for converting an electric calibration signal to an acoustic calibration sound signal. The system is configured to estimate a look vector for a target signal originating from a target signal source located at a specific location relative to the user based on the acoustic calibration sound signal.
38 Citations
19 Claims
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1. A hearing assistance system comprising a hearing assistance device and
an auxiliary device; -
the hearing assistance device comprising HD-a) a multitude M of input units IUi, i=1, . . . , M, adapted to provide or to receive a time-frequency representation Si(k,m) of a signal si(n) at an ith input unit in a number of frequency bands and a number of time instances, k being a frequency band index, m being a time index, n representing time, and M being larger than or equal to two; and HD-b) a multi-input unit noise reduction system comprising a multi-channel beamformer filtering unit operationally coupled to said multitude of input units IUi, i=1, . . . , M, and configured to determine filter weights w(k,m) for providing a beamformed signal Y(k,m), wherein signal components from other directions than a direction of a target signal source are attenuated, whereas signal components from the direction of the target signal source are left un-attenuated or are attenuated less than signal components from said other directions; the system comprising a user interface for activating a calibration mode in the auxiliary device and in the hearing assistance device; the auxiliary device comprising AD-a) an output transducer for converting an electric signal representative of a sound to an acoustic sound signal; AD-b) a control unit for forwarding an electric calibration signal to the output transducer when said calibration mode is activated; wherein the system, during said calibration mode, is configured to estimate a look vector d(k,m) for a target signal originating from a target signal source located at a specific location relative to the user based on the electric calibration signal converted by the output transducer of the auxiliary device to an acoustic calibration sound signal, the estimated look vector d(k,m) being used to determine optimal beamformer weights, and wherein said specific location relative to the user is the location of said output transducer of the auxiliary device, wherein said look vector d(k, m) is an M-dimensional vector comprising elements (i=1, . . . , M), the ith element d(k,m) defining an acoustic transfer function from the target signal source to the ith input unit, or a relative acoustic transfer function from the ith input unit to a reference input unit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. A method of calibrating a multi-input unit noise reduction system of a hearing assistance device, the method comprising:
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providing a hearing assistance device comprising the multi-input unit noise reduction system and a multitude M of input units, where M is larger than or equal to two; providing an auxiliary device comprising an output transducer; locating the auxiliary device within a predetermined distance of a user wearing said hearing assistance device, thereby defining a specific location of (the output transducer of) the auxiliary device relative to (the hearing assistance device of) the user; initiating a calibration mode in the hearing assistance device and the auxiliary device; providing an acoustic calibration signal by the output transducer of the auxiliary device; providing a time-frequency representation Si(k,m) of the calibration signal si(n) at an ith input unit, i=1, 2, . . . , M, in a number of frequency bands and a number of time instances, k being a frequency band index and m being a time index, the method further comprising; estimating a look vector d(k, m) for a target signal originating from a target signal source located in said specific location relative to the user based on said time-frequency representation Si(k,m) of the calibration signal si(n), i=1, 2, . . . , M, wherein said look vector d(k,m) is an M-dimensional vector comprising elements (i=1, . . . , M), the ith element di(k,m) defining an acoustic transfer function from the target signal source to the ith input unit, or a relative acoustic transfer function from the ith input unit to a reference input unit; and determining optimal beam former weights based on said estimated look vector .
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Specification
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Current AssigneeOticon A/S (William Demant Fonden)
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Original AssigneeOticon A/S (William Demant Fonden)
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InventorsJensen, Jesper, Pedersen, Michael Syskind
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Primary Examiner(s)Kuntz, Curtis
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Assistant Examiner(s)KAUFMAN, JOSHUA A
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Application NumberUS14/678,179Publication NumberTime in Patent Office704 DaysField of SearchUS Class Current1/1CPC Class CodesA61N 1/36039 fitting proceduresH04R 2225/41 Detection or adaptation of ...H04R 2430/23 Direction finding using a s...H04R 25/30 Monitoring or testing of he...H04R 25/407 Circuits for combining sign...H04R 25/50 Customised settings for obt...H04R 25/558 Remote control, e.g. of amp...H04R 3/002 Damping circuit arrangement...
