DE102008055726A1 - Hearing device e.g. concha-hearing device, for assisting hearing-impaired person, has microphone location effect-filter compensating positions of microphones, such that receiving signal is not influenced by microphone location effect-filter - Google Patents

Abstract

The device has microphone devices (10-12) including microphones for converting an acoustic signal into a microphone signal (m). Receiving devices (15-17) receive an electrical or electromagnetic signal and output a receiving signal (e). A signal processing device (18) processes the microphone signal and the receiving signal. A microphone location effect (MLF)-filter (13) is directly connected to outputs of the microphone devices before the signal processing device. The MLF-filter compensates positions of the microphones, such that the receiving signal is not influenced by the MLF-filter. An independent claim is also included for a method for processing a signal in a hearing device.

Description

The The present invention relates to a hearing device with a microphone device, having at least one microphone, for converting an acoustic Signal in a microphone signal, a receiving device for receiving an electrical or electromagnetic signal and for output a corresponding received signal and a signal processing device for processing the microphone signal and the received signal. Furthermore The present invention relates to a method for processing of signals in a corresponding hearing device. The term "hearing device" is used here any sound-emitting device that can be worn in / on the ear or on the head, in particular a hearing aid, a headset, headphone and the same.

Hearing aids are portable hearing aids that for the care of the hearing impaired serve. To meet the numerous individual needs, are different types of hearing aids such as behind-the-ear hearing aids (BTE), Hearing aid with external Listener (RIC: receiver in the canal) and in-the-ear hearing aids (IdO), z. B. Concha hearing aids or Channel hearing aids (ITE, CIC), provided. The hearing aids listed by way of example are on the outer ear or worn in the ear canal. About that In addition, there are bone conduction hearing aids on the market, implantable or vibrotactile hearing aids available. there the stimulation of the damaged hearing is either mechanical or electric.

Hearing aids have in principle as essential components an input transducer, an amplifier and an output transducer. The input transducer is usually a sound receiver, z. As a microphone, and / or an electromagnetic receiver, for. B. an induction coil. The output transducer is usually used as an electroacoustic transducer, z. B. miniature speaker, or as an electromechanical transducer, z. B. bone conduction, realized. The amplifier is usually integrated in a signal processing unit. This basic structure is in 1 shown using the example of a behind-the-ear hearing aid. In a hearing aid housing 1 To carry behind the ear are one or more microphones 2 built-in for recording the sound from the environment. A signal processing unit 3 also in the hearing aid housing 1 is integrated, processes the microphone signals and amplifies them. The output signal of the signal processing unit 3 goes to a speaker or listener 4 transmitted, which emits an acoustic signal. The sound is optionally transmitted via a sound tube, which is fixed with an earmold in the ear canal, to the eardrum of the device carrier. The power supply of the hearing aid and in particular the signal processing unit 3 done by a likewise in the hearing aid housing 1 integrated battery 5 ,

The Basic setting of a hearing aid is always based on the assumption that acoustic input signals the preferred direction taken in front and from a downstream Signal processing unit edited and finally strengthened. In the concrete application, therefore, the individual position of the microphone, z. B. at the entrance of the ear canal in IdO hearing aids or behind the ear in BTE hearing aids that varies from design to construction. The detection takes place Frequency-specific, so that in particular can also be detected that higher Frequencies in BTE hearing aids the auricle are sealed off and resonances occur more frequently in the case of ITE hearing aids.

The individual microphone position will be in a ready for the hearing aid fitting Fitting software or database integrated. In the fitting software the determined frequency-specific curve is thus for the basic setting the hearing device used that the position of the microphone frequency-specific through reinforcement and attenuation are corrected becomes. The goal is to be independent from the design of the hearing aid the same reinforcement to reach the eardrum.

to Compensation of the microphone position is usually an output side Filter bank used. has the hearing aid over several different inputs (eg microphone, audio input, telecoil, etc.), all will inputs Filtered by the output side filter bank equal. The conventional Compensation of the microphone position therefore discolored in the desired Make the acoustic input signals, but to the same extent the electrical or electromagnetic input signals of a Hearing aid. Because the compensation of the microphone position for electrical signals is not necessary, leads this leads to an unintentional distortion of the sound of all electrical Signals. The effects of microphone position compensation (MLE compensation; Microphone Location Effect) achieve values of up to 15 dB in the high-frequency range, one Magnitude the perceptive quite for Hearing impaired relevant is. In the application, this results in a too bright / shrill Sound impression for behind the ear worn BTE hearing aids, and a dull sound impression for IdO hearing aids (the smaller the hearing aid, the more dull).

These problems are solved according to the state of the art in that the MLE is compensated via a proposal in the fitting software with the aid of the hearing aid's own filter bank. However, this approach involves two major disadvantages. On the one hand, the hearing aid acoustician does not necessarily follow the manufacturer's fitting proposal (realized via the program selection), but selects electrical input signals manually. On the other hand, the compensation can only be as accurate as the resolution of the filter bank used in the fitting software. This is particularly problematic in low-price hearing aids, since there are often multiple channels are summarized on the processing chip, so that the resolution decreases accordingly.

The The object of the present invention is therefore the microphone position a hearing device, the multiple input channels has, as exactly as possible to compensate.

According to the invention this Task solved by a hearing device with a microphone device having at least one microphone, for converting an acoustic signal into a microphone signal, a Receiving device for receiving an electrical or electromagnetic Signal and to output a corresponding received signal and a signal processing device for processing the microphone signal and the received signal, as well as an MLE filter, the immediate to the output of the microphone device in front of the signal processing device is switched to compensate for a position of the at least one microphone, so that the received signal is not affected by the MLE filter becomes.

Furthermore a hearing device is provided with a microphone device having at least one microphone, for converting an acoustic signal into a microphone signal, a receiving device for receiving an electrical or electromagnetic signal and for outputting a corresponding received signal and a signal processing device for processing the microphone signal and the received signal including a Compensation of a position of at least one microphone, as well an inverting MLE filter directly connected to the output the receiving device connected in front of the signal processing device is to neutralize the compensation of the signal processing device, so the microphone signal from the inverting MLE filter is not being affected.

As well There is provided a method of processing signals in a hearing device Converting an acoustic signal through a microphone into a microphone signal, Receiving an electrical or electromagnetic signal and outputting a corresponding received signal and processing of the microphone signal and the received signal, as well as filtering the microphone signal before Process for compensating a position of the microphone, wherein the received signal is not affected by the filtering.

Finally will Also provided is a method for processing signals in a hearing device by converting an acoustic signal through a microphone into a Microphone signal, receiving an electrical or electromagnetic Signal and output a corresponding received signal and processing the microphone signal and the received signal with compensation of a Position of the at least one microphone, as well as filtering the received signal before processing to neutralize the compensation of the position of the microphone, where the microphone signal is not affected by the filtering becomes.

In Advantageously, it is immediate by the input side MLE filtering immediately after the microphones or inverse MLE filtering the electrical inputs possible, that only the microphone signals are affected by the compensation. The electrical or electromagnetic input signals remain from the microphone position compensation untouched and thus uncolored.

Preferably the signal processing device is a summation device connected upstream to the output signal of the MLE filter (microphone signal) with the received signal (electrical or electromagnetic signals) to add. In the alternative embodiment, the summation device the output of the inverting MLE filter (electrical or electromagnetic signals) is added to the microphone signal. By the Addition of the signals is after the summation one common processing of the input signals possible, but the microphone position compensation is performed before the summation device in the individual signals or neutralized. Enable second-order linear MLE filters a high quality compensation of the microphone position. Of course it stays It is also possible to use other digital filters as well.

In Advantageously, the MLE filter or the inverting MLE filter be a biquat filter.

Further can the filter coefficients of the MLE filter or of the inverting one MLE filters individually adapted to the user of the hearing. This takes into account the fact that every user of a hearing due to the individual anatomy of the microphone of a hearing device carries in another place.

Furthermore, the receiving device may have a telecoil, an audio input and / or a Bluetooth input. Also other one Transmissions for wired and wireless transmission are conceivable. Thus, it can be ruled out that, for example, telephone coil signals, audio input signals and the like are unintentionally changed by the microphone position compensation.

According to one another embodiment both the microphone device, an MLE filter and the receiving device an inverse MLE filter downstream. That's because the electric comes from Signal from a microphone, the z. B. is worn on the body and therefore also spectrally discolored was the need for an additional Entzerrungsmöglichkeit. Also can each subunit of the microphone and receiver a separate (inverse) filters are assigned, for. B. the audio and Bluetootheingang each one inverse MLE filter and the inductive input no Filter.

The The present invention will now be described in detail with reference to the accompanying drawings, in which: show:

1 the basic structure of a hearing aid according to the prior art;

2 a block diagram of a hearing aid signal processing according to the invention according to a first embodiment and

3 a block diagram of a hearing aid signal processing according to the invention according to a second embodiment.

The below described embodiments represent preferred embodiments of the present invention.

The invention is based on the idea to compensate only the signals of the microphone device with respect to the position of the microphone or the microphones. In the example of 2 the hearing aid has several microphones 10 . 11 and 12 , The output signals of these microphones 10 . 11 and 12 form a microphone signal m. This microphone signal m becomes before any microphone-external processing of a position compensation device 13 (MLE; Microphone Location Effect) supplied. There, the microphone signal m is preprocessed by filtering the signal taking into account the position of the microphone or microphones. The output signal m 'of the MLE filter 13 becomes a summation device, in the concrete case an adder 14 , fed. The adder 14 adds to the compensated microphone signal m 'a signal e of another signal receiving device. This signal receiving device consists in the present example of a telecoil 15 , an audio input 16 and a bluetooth input 17 , The signal receiving device is thus generally used in addition to the acoustic signals that are recorded by the microphone device to record electrical or electromagnetic signals and to provide for further signal processing. Therefore, this includes any signal input that allows a wired or wireless transmission.

The sum signal of the adder 14 is fed to the usual signal processing of a hearing aid. In the example of 2 the signal processing is easy through an amplifier 18 symbolizes. The output signal of the amplifier 18 becomes a listener 19 forwarded. In signal processing 18 There is no further MLE compensation. This means that only the microphone signal m is compensated for the position of the microphones, but not the signal e of the electrical or electromagnetic receiving device.

An alternative embodiment is in 3 shown. Also in this case, the hearing aid has several input channels. There are several microphones 20 . 21 . 22 provided that provide a microphone signal m. In addition, in turn, a receiving device for electrical and electromagnetic signals is provided, consisting of a telecoil 25 , an audio input 26 and a bluetooth input 27 , Their signals are brought together and thus provide an electrical input signal e. This electrical input signal e is in the present example before the actual signal processing as a raw signal an inverting MLE filter 23 fed. This results in a signal e ', which is compensated inversely with respect to the microphone position or microphone positions.

The signals m and e 'are in an adder 24 added and the sum signal is a signal processing unit 28 fed. This signal processing unit 28 is combined on the output side with an MLE compensation. This means that any signal in the signal processing unit 28 undergoes MLE compensation. This MLE compensation is desired for the microphone signal m. For the electrical input signal e, however, this MLE compensation would be undesirable. However, after the signal e is already compensated inversely, it is done by the MLE compensation in the signal processing unit 28 a neutralization of the compensation. The compensation is thus canceled for electrical signals.

The output signal of the signal processing unit 28 becomes a listener in the usual way 29 fed.

The MLE filter 13 as well as the inverse MLE filter 23 For example, it can be realized as a biquat filter, which is calibrated either in the basic setting of the hearing device by the established hearing care professional or already in the delivery state. The calculation of the filter coefficients can be done online (ie at the acoustician) on the basis of the curve stored in the fitting software, or else by parameters stored in a database.

In a particularly advantageous manner, the MLE filter 13 or the inverse MLE filter 23 individually configured for a customer to balance its individual MLE. For this purpose, a measurement of the MLE at the customer's ear preferably takes place during the adaptation. The filter coefficients are then calculated on-site or a suitable parameter set is selected from a predefined set.

As the previous embodiments show, thus according to the invention an additional Filter inserted in the signal path of the electrical input signals. This Filter either raises a compensation generally performed in signal processing for electrical Input signals on or leads only a compensation of the microphone signals.

In Advantageously, the filter is parameterized by the fitting software, what additional complexity of product development outsourced to the platform development. From this base, the functionality be derived with reduced effort to other products.

For the user There is the advantage that the electrical signals are not more undesirable discolored become. Furthermore is an incorrect operation by the hearing aid audi ker, possibly not according to the manufacturer's suggestion (eg in the program selection) follows, excluded.

Claims (10)

Hearing device with - a microphone device ( 10 . 11 . 12 ), which has at least one microphone, for converting an acoustic signal into a microphone signal (m), - a receiving device ( 15 . 16 . 17 ) for receiving an electrical or electromagnetic signal and for outputting a corresponding received signal (e) and - a signal processing device ( 18 ) for processing the microphone signal (m) and the received signal (e), characterized by - an MLE filter ( 13 ) directly to the output of the microphone device ( 10 . 11 . 12 ) in front of the signal processing device ( 18 ) for compensating a position of the at least one microphone, so that the received signal (e) from the MLE filter ( 13 ) is not affected. Hearing apparatus according to claim 1, wherein the signal processing device ( 18 ) a summation device ( 14 ) is connected upstream to the output signal (m ') of the MLE filter ( 13 ) with the received signal (e) to add. Hearing device with - a microphone device ( 20 . 21 . 22 ), which has at least one microphone, for converting an acoustic signal into a microphone signal (m), - a receiving device ( 25 . 26 . 27 ) for receiving an electrical or electromagnetic signal and for outputting a corresponding received signal (e) and - a signal processing device ( 28 ) for processing the microphone signal (m) and the received signal (e) including a compensation of a position of the at least one microphone, characterized by - an inverting MLE filter ( 23 ) directly to the output of the receiving device ( 25 . 26 . 27 ) in front of the signal processing device ( 28 ) is switched to neutralize the compensation of the signal processing device ( 28 ), so that the microphone signal (m) from the inverting MLE filter ( 23 ) is not affected. Hearing apparatus according to claim 3, wherein the signal processing device ( 28 ) a summation device ( 24 ) is connected upstream to the output signal (e ') of the inverting MLE filter ( 23 ) with the microphone signal (m). Hearing apparatus according to one of the preceding claims, wherein the MLE filter ( 13 ) or the inverting MLE filter ( 23 ) is a biquad filter. Hearing apparatus according to one of the preceding claims, wherein the filter coefficients of the MLE filter ( 13 ) or the inverting MLE filter ( 23 ) are individually adapted to the user of the hearing device. Hearing apparatus according to one of the preceding claims, wherein the receiving device ( 15 . 16 . 17 ; 25 . 26 . 27 ) has a telecoil, an audio input and / or a Bluetooth input. Hearing apparatus according to one of claims 3 to 7, wherein an MLE filter ( 13 ) directly to the output of the microphone device ( 10 . 11 . 12 ) is connected in front of the signal processing device. A method of processing signals in a hearing device by - converting an acoustic signal by a Mi in a microphone signal (m), - receiving an electrical or electromagnetic signal and outputting a corresponding received signal (s) and - processing the microphone signal (m) and the received signal (e), characterized by - filtering the microphone signal (m) before processing to compensate for a position of the microphone, wherein the received signal (e) is not affected by the filtering. Method for processing signals in one hearing by - Change an acoustic signal through a microphone into a microphone signal (M), - receive an electrical or electromagnetic signal and outputting a corresponding received signal (e) and - To process of the microphone signal (m) and the received signal (e) under compensation a position of the at least one microphone, marked by - Filter the received signal (e) before processing for neutralization the compensation of the position of the microphone, the microphone signal (m) is not affected by the filtering.