DE10115430C1 - Automatic calibration method for hearing aid adjustment system uses feedback of reproduced tone sequence detected by hearing aid microphone for correction of transmission errors - Google Patents

Abstract

The calibration method has a supplied tone sequence reproduced via the adjustment system (4A,4B,6A,6B) and detected via the microphone (8) of the hearing aid (3), with transmission of the microphone signal to the adjustment system, for comparison with the supplied tone sequence and correction of the transmission error indicated by the obtained difference. An Independent claim for a hearing aid adjustment system with automatic calibration is also included.

Description

The invention relates to a method for automatic potash Bring a fitting system for individual adaptation of a wearable hearing aid to a hearing aid wearer and an adaptation system for carrying out the method.

The fitting of a hearing aid is usually done in dialogue between a hearing aid wearer and an acoustician. the Hearing aid users are in a measuring room (fitting room) different sound examples presented, which he subjectively perceives and communicates his impressions to the acoustician. This compares the perceptions of the hearing aid wearer with those Impress normal listeners on the respective sound examples. The acoustician leads from the different sensations Hearing aid parameters that usually result in an improved Adjust the hearing aid to the hearing aid wearer. This procedure is repeated until the hearing impaired subjectively feels a number of sound examples similar like a normal listener.

A method is known from EP 0 831 672 A2 in which a hearing aid wearer using an interactive fitting pro gramms in the performance of sound samples on the thereby evoked hearing impressions reacted. From the so obtained Data are calculated for hearing aid specific setting parameters net and then transferred to the hearing aid. The dialogue with the acoustician, this procedure is largely used replaced by interactive software.

A system for determining hearing is known from US Pat. No. 5,825,894 assets of a person as well as to adapt a hearing aid known which is a three-dimensional acoustic environment realized to the hearing ability of the person without a hearing aid, with simulated hearing aid and with hearing aid. The  presented sound samples can be through digital filters as well as a changeable signal processing individually to the Hearing aid wearers can be adjusted. To grasp the objective and subjective hearing of a person comprises the system an intraka to be inserted into the person's ear canal nal prosthesis, which is used to measure the sound pressure level before Eardrum a microphone probe to be placed in the ear canal having. Using this probe, measurements of sound pressure level in the ear canal during all phases of the acquisition hearing (without hearing aid, with simulated hearing aid, with hearing aid) or the hearing aid adaptation.

A hearing aid is adapted to a person in the Usually in a fitting room. In doing so, the person who is with the hearing aid in the fitting room, from a Signal source, for example a CD or tape recorder, Sound samples provided. These sound examples simulate critical situations for the hearing aid wearer to optimize the fitting of the hearing aid so that the sound of the hearing aid is critical even among these Situations is acceptable. During the adjustment, the Signal processing in the hearing aid parameters relating to set individually. These parameters concern, for example as the signal transmission behavior, the gain, the Compression or settings for certain filters or Algorithms in the hearing aid, e.g. B. with respect to noise reduction ornamentation, language enhancement or feedback suppression.

To optimize these parameters and settings, the presented sound examples as well as possible with appropriate match realistic situations. Furthermore it is required, the characteristics of a presented sound example les, e.g. B. the frequency, the level, the dynamic range, the Phase position etc. at the location of the person's hearing as precisely as possible to know. These parameters differ due to a number of Factors from the ideal characteristics of the sound sample. To These factors include the fitting system  falsifications caused, e.g. B. in signal generation, signal storage, signal processing, signal ver amplification or playback of the signal via a loudspeaker chersystem. Furthermore, reflections on the walls of the An passraumes falsify the position of the Hearing aid wearer in the sound field can be from the ideal position deviate etc. These falsifications ultimately have an effect on the determined parameters for setting the hearing aid out so that this from the optimal parameters and settings lungs differ.

To largely eliminate the above negative influences minimize, it is necessary to determine the characteristics of the presented To know the sound sample as precisely as possible at the location of the hearing aid NEN. Therefore, at the beginning of an adjustment, there is one Calibration of the fitting system. To do this, use the sound speaker system emitted special calibration signals. through a special measuring probe (e.g. probe microphone) Calibration signal recorded at the location of the hearing aid and evaluated tet. As a result, signal falsifications are recognized and by corresponding settings of the fitting system largely eliminated.

The procedure described above is complex and has the further disadvantage that they help to achieve an optimal Result for each sound sample and every change in the buttocks sition of the hearing aid wearer performed again in the sound field must become.

The object of the present invention is to adapt the egg Simplify hearing aid to a hearing aid wearer.

This object is achieved by a method for the automatic calibration of a fitting system for the individual fitting of a hearing aid that can be worn on the body to a hearing aid wearer with the following steps:

• - Providing a sound sample through the fitting system and performing the sound sample,
• - Recording the presented sound sample by at least a microphone of the hearing aid,
• - Transmitting the signal picked up by the microphone or a signal derived from it from the Hörge advises on the fitting system,
• - Comparison of the provided sound sample or one derived signal with that to the matching system transmitted signal,
• - Customize the fitting system to match that of the Hearing aid to the signal transmitted to the fitting system provided sound sample.

Furthermore, the task is solved with an adaptation system Means for presenting sound samples, the adaptation system means for receiving one of the hearing aid microphone tes as a result of the sound sample or has a signal derived from this and the on pass system is adaptable to the received signal.

The invention can be with all known hearing aid types be used, for example in the case of wearable behind the ear Hearing aids, hearing aids portable, implantable Hearing aids or pocket hearing aids. Furthermore, the Hörge advises according to the invention also part of a plurality of devices Care of a hearing aid system that is comprehensive for the hearing impaired be, e.g. B. a hearing aid system with two worn on the head Hearing aids for binaural care or a hearing aid system tem, consisting of a device that can be worn on the head and an am Body portable processor unit.

The basic idea of the invention is for calibration a fitting system for the individual fitting of a hearing aid advises a microphone of the hearing aid wearer to be adapted To use hearing aid. This is possible because hearing aid micro phones generally have good signal transmission properties  and therefore here in addition to their normal Function in the hearing aid intended use good measuring results deliver nisse.

First, the hearing aid is customized the hearing aid wearer and for calibration of the fitting system a sound sample provided by the fitting system. For this purpose, the adaptation system preferably comprises a tape recorder advises a CD player, a tone generator or the like. at The sound examples are certain target values either already explicitly specified (e.g. sound example: "Sinus signal with signal frequency 1 kHz and sound pressure level of 50 dB without Noise component ") or you can use signal processing unit of the fitting system is set and varies become. The sound provided and modified if necessary Example is then taking into account the target parameters output through the speaker system of the fitting system and presented to the hearing aid wearer. The hearing aid microphone picks up the sound example in the form of an acoustic input signal and converts it into an electrical input signal. This electrical input signal is then either direct or if necessary after a signal processing on the adaptation system transferred back. Signal processing can be simple A / D conversion or a more complex signal analysis (Pe detection, spectral analysis,. , .) include. After a Signal analysis is sufficient, only that from the signal analysis to transmit the obtained characteristic values of the signal. This is especially with a limited transmission capacity of the Signal paths between the hearing aid to the fitting system geous. A comparison is then made in the adaptation system received by the hearing aid microphone or the signal therefrom derived signal with the underlying target signal. If deviations are found, the one provided will be Modified sound sample in such a way that that of the Hearing aid microphone received the best possible signal Has agreement with the target signal.  

Reading out the signal picked up by the microphone and the transmission of this signal or one derived from it Signals to the adaptation system take place in the invention preferably before the recorded signal to adapt to the individual hearing damage of the hearing aid wearer in the hearing aid is processed further. On the other hand, the signal in the Signal path of the hearing aid only after the adaptation to the individual hearing damage can be tapped and read out. The hearing correction carried out by the hearing aid is in this The case can be calculated out again using the fitting system.

The advantage of the invention is that one on agile calibration of the fitting system at the beginning of the hearing device adaptation largely eliminated. Both a probe micro fon as well as measurements that have previously been used for an acoustician additional expenses were incurred by the Erfin no longer required. The adjustment procedure is thus simplified and shortened. According to the invention, the caliber advantageous directly during the adjustment, also continuous nuely, to be carried out. The performance special Sound examples for calibration are no longer necessary.

Another advantage of the invention is that changes adjustments of the adjustment situation immediately during the individual Adaptation of the hearing aid to the hearing aid wearer be done. So it was partly necessary so far Adaptation system when changing from a sound sample to one to recalibrate others. Also a changed position of the Hearing aid wearer compared to the speaker system, e.g. B. caused by turning the head, has so far contributed to errors of adjustment. Even such errors during the arrival fit are eliminated by the invention.

In addition, the invention has the advantage that Error correction Deviations in the signal transmission behavior the components of the matching system from the ideal signal transmission to a certain extent. Therefore  can also use cheaper standard components be resorted to. So a simple fitting system already with a PC in connection with a sound card and a HiFi system.

In one embodiment of the invention, the method steps once at the beginning of the adjustment or at the beginning of a new sound sample. Preferably done the adaptation of the fitting system to that of the hearing aid transmitted signal, however, continuously in the form of a rule loop. As a result, the fitting system is always correctly calibrated riert.

In the invention there is between the hearing aid and the An pass system a signal path. This is via this signal path signal received by the microphone due to the sound example or the signal derived therefrom from the hearing aid to the Transfer fitting system. The signal path can be wireless or be wired. With the transmitted Sig nal can be both an analog signal and act a digital signal. Especially with a tight limited transmission rate of the signal path, it is advantageous not directly the signal received by the microphone but a signal derived from it from the hearing aid to the Transfer fitting system. This signal then contains le only characteristic parameters of that of the microphone received signal, e.g. B. with respect to the signal level or Frequency spectrum.

In one embodiment of the invention, the volume of the signal provided by the fitting system is varied as a result of the signal transmitted from the hearing aid to the fitting system. Adjusting the volume is a very simple form of error correction, which in many cases already gives a satisfactory result. For example, a sine signal of a certain frequency can be presented as a sound example, which should be present at the hearing aid wearer's ear with a sound pressure level of 50 dB. If an evaluation of the signal received by the hearing aid microphone shows that the sound pressure level deviates significantly from 50 db, the level of the signal emanating from the matching system is varied until 50 db are measured by the hearing aid microphone.

This procedure can be analogous to any acoustic Extend signals and other parameters of this signal be tert, such as the angle of incidence at which the signal hits the microphone, the frequency spectrum that Phase position or the noise component. In principle, the Method according to the invention actually at the location of the Hearing aid existing signal detected (actual signal) and with the intended signal (target signal) compared. Are signi noticeable deviations found, an adjustment is made of the signal presented by the matching system.

Another embodiment of the invention provides that of signal received by the microphone into a plurality of frequencies to disassemble tapes and adapt the adjustment system fre to be carried out with reference to the reference band. The disassembly of the received Signals in frequency bands can be done both in the hearing aid or after the transfer in the adaptation system. This allows deviations from the target characteristics of a sound sample be recorded and corrected more precisely.

Further details of the invention are described below of exemplary embodiments explained in more detail. In it show:

Fig. 1 shows a hearing aid user wearing a portable behind the ear hearing aid, and a fitting adjustment system for individual adjustment of the hearing aid to the hearing aid wearer,

Fig. 2 shows a hearing aid in connection with a fitting system according to the invention and

Fig. 3 is a block diagram of the hearing aid of FIG. 2.

Fig. 1 shows a hearing aid wearer 1 , which is located in a fitting room 2 . The adaptation room 2 is soundproof and serves to protect against external acoustic interference. At one ear of the hearing device 1, a behind-the-ear hearing aid 3, which is to be individually adapted to the hearing loss of the hearing device wearer. 1 In addition to the fitting room 2 , the fitting system according to the embodiment includes other components. These include a processor and amplifier unit 4 , a CD device 5 for inserting sound examples and a speaker system symbolized by the two speakers 6 A and 6 B. Usually, the fitting of a hearing aid takes place in collaboration with an acoustician who operates the fitting system, detects the reactions of the hearing aid wearer 1 to the sound examples presented and makes settings on the hearing aid 3 from the knowledge thus obtained. This process is repeated with a variety of sound examples and by varying these sound examples until a satisfactory function of the hearing aid 3 is achieved. In order to verify the intended effect of the sound samples at the location of the hearing aid wearer 1 , a calibration of the fitting system has so far been carried out using a measuring microphone.

According to the invention, the. Calibration of the fitting system now using at least one microphone of the hearing aid 3 . A signal exchange via a signal path 7 is provided between the hearing aid 3 and the processor and amplifier unit 4 . Physically, this can be the same wireless or wired connection that is also provided for the transmission of setting parameters to the hearing aid during programming.

A more precise representation of the overall system and the connec tions between individual components can be seen from FIG. 2. The CD device 5 is integrated into the processor unit 4 A in the form of a PC. As a result, the acoustician can choose from a large number of sound examples and the selected sound examples can also vary to a certain extent. For example, the acoustician can specify certain characteristic values for the selected sound example, for example the maximum signal level or the signal-to-noise ratio. A target signal for the location of the hearing aid can thereby be predetermined. The selected and possibly modified sound sample is fed to the amplifier unit 4 B, amplified, and converted into an acoustic signal via the two loudspeakers 6 A and 6 B and transmitted to the hearing aid 3 .

In the hearing aid 3 there is a microphone 8 for recording an acoustic input signal and converting it into an electrical input signal. The electrical input signal is fed to a signal processing unit 9 . A / D conversion of the input signal and a division into N different frequency bands takes place in this. Furthermore, the resulting signals are subsequently processed, taking into account setting parameters which act on the signal processing unit 9 and are used to individually adapt the hearing device 3 to the hearing damage of the hearing device wearer 1 , and are supplied to a listener 10 . This converts the electrical signals into acoustic signals, which are finally fed to the hearing aid wearer's hearing.

According to the invention the fitting system 4 A, 4 B, 5, 6 A, 6 B is detected the presented by the fitting system 4 A, 4 B, 5, 6 A, 6 B sound sample by the microphone 8 of the hearing device 3 for calibration and in the signal processing unit 9 converted from an analog signal into a digital signal.

As is apparent from Fig. 3, which shows the hearing device 3 in the block diagram, the image captured by the microphone 8 signal at different points in the signal the signal path can be tapped 9 and transmitted via the signal path 7 to the processor unit 4. A processing unit. In this way, the electrical signal generated by the microphone can be tapped directly. However, it is also possible for the signal to be tapped off only after signal preprocessing in the signal preprocessing unit 11 . In the signal preprocessing unit 11 , for example, an A / D conversion, a signal pre-amplification or a division of the microphone signal into several frequency bands takes place.

One embodiment of the invention provides that a signal analysis of the microphone signal takes place in the signal preprocessing unit 11 . There are then only thus determined characteristics of the microphone signal, which relate for example to the signal level, the RMS (Root Mean Square-) value, the phase, etc., transmitted to the processor unit 4 A. These parameters can also be specific to the frequency band.

The actual signal processing in the hearing aid to compensate for the hearing loss of a hearing aid wearer takes place in the signal main processing unit 12 . If the signal is tapped only after the main signal processing unit 12 and transmitted to the processor unit 4 A, then the signal processing carried out in the main signal processing unit 12 by the processor unit 4 A must be taken into account, for example calculated out again, in order to draw conclusions about the acoustic signal from the transmitted signal to win at the entrance of the microphone 8 . As can be seen from FIG. 3, a signal postprocessing can also be carried out in a signal postprocessing unit 13 in the signal processing unit 9 before the output of the output signal via the receiver 10 . This can e.g. B. include a summation of the signals of individual frequency bands, a signal amplification and a D / A conversion. The embodiment further shows that by means of a switch 5, there can also be a choice regarding the position in the signal path of the signal processing unit 9 at which the signal is tapped and read out.

The division of the signal processing unit 9 into signal preprocessing unit 11 , main signal processing unit 12 and signal postprocessing unit 13 only reflects the basic sequence of signal processing. Technically, the three processing stages can also be implemented in one unit. Software implementation is also possible, at least in part.

The processor unit 4 A compares the intended characteristic values of the sound example (target signal) with the characteristic values actually measured at the location of the hearing device 3 . For this purpose, the signals are compared with one another with regard to their amplitudes, their frequency and the phase position. In a control loop, the sound example is adjusted until the signal picked up by the microphone 8 and transmitted to the matching system or a signal derived therefrom largely corresponds to the target signal.

As the exemplary embodiment shows, no additional microphone is required for calibrating the matching system in this arrangement. The time-consuming presentation of special signals for calibration is also not necessary. The calibration is carried out continuously during the adjustment and also based on sound examples that reflect real environmental situations. Transmission errors caused by the frequency response of the amplifier unit 4 B or the loudspeakers 6 A and 6 B are compensated for. Likewise, there is a continuous correction of the signal distortions caused by changes in position of the hearing aid 3 relative to the loudspeakers 6 A, 6 B or by reflections on the walls of the fitting room 2. This ensures that the selected sound is always in accordance with the acoustician's specifications at the ear of the Hearing aid wearer 1 is present.

The exemplary embodiment only reflects the basic possibilities Opportunities of the invention reflected. It can be a variety  expand on variants. By eliminating the calibration The adaptation process is also particularly tailored to individual needs Adaptation of a hearing aid to a hearing aid wearer possible by the hearing aid wearer himself, so the adapt solution in connection with a multimedia PC equipped with a sound card and suitable software, and one HiFi system can also be done without a fitting room and at home.

In summary, for the individual adaptation of a hearing aid ( 3 ) that can be worn on the body to a hearing aid wearer ( 1 ), the hearing aid wearer ( 1 ) is provided with a sound example with predeterminable signal characteristics by means of an adjustment system ( 4 , 4 A, 4 B, 6 A, 6 B). The sound example is recorded by at least one microphone of the hearing device ( 3 ) and transmitted back either directly or, if necessary, after signal processing to the matching system ( 4 , 4 A, 4 B, 6 A, 6 B). From the comparison of the specified signal with the signal actually measured at the location of the hearing device wearer ( 1 ), transmission errors of the adaptation system ( 4 , 4 A, 4 B, 6 A, 6 B) can be recognized and continuously compensated for during the adaptation. This eliminates the need to calibrate the fitting system ( 4 , 4 A, 4 B, 6 A, 6 B) at the beginning of a fitting.

Claims (10)

1. A method for the automatic calibration of a fitting system ( 4 , 4 A, 4 B, 6 A, 6 B) for the individual fitting of a hearing device ( 3 ) that can be worn on the body to a hearing device wearer ( 1 ) with the following steps:

• - Providing a sound sample through the matching system ( 4 , 4 A, 4 B, 6 A, 6 B) and presenting the sound sample,
• - Recording the presented sound example by at least one microphone ( 8 ) of the hearing device ( 3 ),
• - Transmitting the signal picked up by the microphone ( 8 ) or a signal derived therefrom from the hearing aid ( 3 ) to the matching system ( 4 , 4 A, 4 B, 6 A, 6 B),
• Comparison of the provided sound sample or a signal derived therefrom with the signal transmitted to the matching system ( 4 , 4 A, 4 B, 6 A, 6 B),
• - Adaptation of the adjustment system ( 4 , 4 A, 4 B, 6 A, 6 B) to match the signal transmitted by the hearing aid ( 3 ) to the adjustment system ( 4 , 4 A, 4 B, 6 A, 6 B) the provided sound sample.

2. The method of claim 1, wherein the steps are in the form a control loop. 3. The method according to claim 1 or 2, wherein the prepared provided sound sample signal values can be specified and these characteristic values with corresponding, from which to the adjustment system compared with the transmitted signal and the adaptation of the adaptation system in this regard that the characteristic values of the sound provided play at least essentially with the characteristic values of the transmitted signal match. 4. The method according to any one of claims 1 to 3, wherein the volume of the signal provided by the matching system ( 4 , 4 A, 4 B, 6 A, 6 B) is adjusted. 5. The method according to any one of claims 1 to 4, wherein the frequency response of the matching system ( 4 , 4 A, 4 B, 6 A, 6 B) is adjusted. 6. The method according to claim 5, wherein the signal received by the microphone ( 8 ) in the hearing aid ( 3 ) or in the adaptation system ( 4 , 4 A, 4 B, 6 A, 6 B) is broken down into a plurality of frequency bands and the adaptation the matching system ( 4 , 4 A, 4 B, 6 A, 6 B) is related to the frequency band transmitted by the hearing aid ( 3 ). 7. The method according to any one of claims 1 to 6, wherein in the hearing aid ( 3 ) there is a signal analysis of the signal received by the microphone ( 8 ) and resulting signal characteristics on the matching system ( 4 , 4 A, 4 B, 6 A, 6 B) are transferred. 8. The method according to claim 7, wherein the RMS (root mean square) value of the signal received by the microphone is determined in the hearing aid and transmitted to the matching system ( 4 , 4 A, 4 B, 6 A, 6 B). 9. The method according to any one of claims 1 to 8, wherein the adaptation system ( 4 , 4 A, 4 B, 6 A, 6 B) for presenting a sound, for example, a sound system with at least one speaker ( 6 A, 6 B) and one Amplifier unit ( 4 B) and, when adapting the matching system ( 4 , 4 A, 4 B, 6 A, 6 B) to the signal transmitted by the hearing aid ( 3 ), deviations in the frequency response of the loudspeaker ( 6 A, 6 B ) and / or the amplifier unit ( 4 B) can be corrected by an ideal frequency response. 10. adjustment system ( 4 , 4 A, 4 B, 6 A, 6 B) for performing the method according to any one of the preceding claims with means for performing sound examples, the adjustment system ( 4 , 4 A, 4 B, 6 A having 6 B) means for receiving one of the Mikrofön of the hearing aid (3) due to the sound embodiment the recorded signal or a signal derived from this signal and said fitting adjustment system (4, 4 a, 4 B, 6 a, 6 B) of the received signal is calibratable.