EP1377118A2 - Hearing aid system with hearing aid and external processing unit - Google Patents

Abstract

The system has an external processor unit (1) with microphones (11A, 11B, 11C) to receive a signal for processing. Another signal processing unit is connected to a transducer. A transmission unit sends a processed signal to a reception unit (28) of a hearing aid (20) so that the reception unit delivers the signal to an output transducer. An Independent claim is also included for a method of operating a hearing aid.

Description

The invention relates to a hearing device system with a hearing device comprising at least a first input transducer, a first signal processing unit, an output transducer and a receiving unit, and having an external processor unit comprising at least a second input transducer, a second signal processing unit and a transmitting unit.

Furthermore, the invention relates to a method for operating a hearing aid with an input transducer, a first signal processing unit, an output transducer and a receiving device.

From WO 01/52597 A1 a hearing aid system with a transmission module is known. This transmission module has a microphone with which sound signals can be recorded at a certain distance from the hearing aid. The signals are sent to the hearing aid via signal conditioning via a transmitter and an antenna.

DE 100 48 354 A1 discloses a hearing device system in which an external processor unit has a microphone which records sound signals from which sound field characteristics are generated. The sound field characteristics are transmitted wirelessly to one or two hearing aids.

From DE 100 48 341 C1 a hearing aid is known, which detects the automatic selection of a hearing program, whether it is located in the vicinity of an external transmitter. The transmitter generates a transmitter-specific signal, so that an assignment of different transmitters can take place. The stations are assigned different listening situations, so that the Upon receipt of a transmitter-specific signal, the hearing device recognizes the instantaneous hearing situation and adapts the signal processing in the hearing device to this.

From US 5,721,783 a hearing aid system with a hearing aid and an external processor unit is known. A sound signal picked up by a hearing aid microphone is supplied via a wireless signal path to the external processor unit and processed therein. The processed signal is finally transmitted back to the hearing aid via the wireless signal path from the external processor unit and output via a receiver. To recognize the current hearing situation, the external processor unit may also include a microphone.

A disadvantage of the known hearing aid system is the lack of adaptability to certain listening situations.

The object of the present invention is therefore to improve the adaptability of a hearing aid system to difficult listening environments.

This object is achieved in a hearing device system with a hearing device which comprises at least a first input transducer, a first signal processing unit, an output transducer and a receiving unit, and with an external processor unit comprising at least a second input transducer, a second signal processing unit and a transmitting unit, in that the external processor unit is permanently assigned to a specific listening environment and in the processor unit a processing adapted to the listening environment processing of an input signal received from the second input transducer, wherein the external processor unit sends the processed signal via the transmitting unit and the hearing aid receives the transmitted signal by means of the receiving unit and via the output transducer gives.

• a) Bereitstellen einer externen Prozessoreinheit mit einem Eingangswandler, einer zweiten Signalverarbeitungseinheit und einer Sendeeinrichtung in einer bevorzugten Hörumgebung des Hörgeräteträgers,
• b) Anpassen der Signalverarbeitung in der externen Prozessoreinheit an die Hörumgebung,
• c) Aufnahme und Verarbeitung eines Eingangssignals durch die externe Prozessoreinheit,
• d) Senden des verarbeiteten Signals an das Hörgerät,

Empfang des gesendeten Signals durch das Hörgerät und Ausgabe über den Ausgangswandler.Furthermore, the object is achieved by a method for operating a hearing device with an input transducer, a first signal processing unit, an output transducer and a receiving device with the following steps:

• a) providing an external processor unit with an input transducer, a second signal processing unit and a transmitting device in a preferred listening environment of the hearing device user,
• b) adapting the signal processing in the external processor unit to the listening environment,
• c) recording and processing of an input signal by the external processor unit,
• d) sending the processed signal to the hearing aid,

Receiving the transmitted signal through the hearing aid and output via the output transducer.

The hearing aid according to the invention is, for example, a hearing aid worn behind the ear, a hearing aid that can be worn in the ear, an implantable hearing aid or a pocket hearing aid. Furthermore, the hearing aid according to the invention may also be part of a hearing aid system comprising a plurality of devices for supplying a hearing-impaired person, e.g. Part of a hearing aid system with two worn on the head hearing aids for binaural care, part of a hearing aid with a head-worn hearing aid and a portable external processor unit, part of a fully or partially implantable hearing aid system with multiple components, part of a hearing aid system with external additional components such as remote control unit or external microphone unit, etc.

A hearing aid typically includes an input transducer for receiving an input signal. The input transducer is designed for example as a microphone, which receives an acoustic signal and converts it into an electrical signal. However, units which have a coil or an antenna and which have an electromagnetic potential are also possible as input transducers Record signal and convert into an electrical signal. Furthermore, a hearing device usually comprises a signal processing unit for processing and frequency-dependent amplification of the electrical signal. For signal processing in the hearing aid is a preferably digital signal processor (DSP), whose operation can be influenced by means of transferable to the hearing aid programs or parameters. As a result, the mode of operation of the signal processing unit can be adapted both to the individual hearing loss of a hearing aid wearer and to the current hearing situation in which the hearing aid is currently being operated. The thus changed electrical signal is finally fed to an output transducer. This is usually designed as a handset, which converts the electrical output signal into an acoustic signal. However, other embodiments are also possible here, for example, an implantable output transducer, which is directly connected to a ossicle and this stimulates to vibrate.

The external processor unit of the hearing aid system is permanently assigned to a specific hearing situation, ie arranged in a specific listening environment, such as eg fixed in the car. The external processor unit comprises at least one input transducer, which is preferably designed as a microphone, a signal processing unit and a transmitting unit. Furthermore, a telecoil for receiving an electromagnetic input signal may be present as an input transducer. The signal processing in the external processor unit is specially adapted to the listening environment in which the external processor unit is located. It is especially designed for difficult listening environments. Such listening environments may be, for example, the car or a workstation with a high level of noise. In the case of the hearing aid supply in the car, in particular the proximity to window panes represents a problem, which frequently causes feedback-induced oscillations in the hearing device. By the spatial separation of signal receiving microphone and handset when using the external Processor unit avoids this problem. Still problematic in the car listening environment is the conversation with a passenger. The signal source is not located as usual in the direction of the hearing aid wearer, but is aligned laterally to this. By arranged in front of the passenger external processor unit with a microphone can also avoid this problem.

Advantageously, the signal processing in the external processor unit is adjusted so that the difficulties associated with the listening environment are largely eliminated. For this purpose, filters or signal processing algorithms specially adapted to this hearing situation can be activated. The signal processing in the external processor unit can take place in parallel in a plurality of frequency channels.

For hearing aid wearers, there is usually a desire for small hearing aids that are as inconspicuous as possible. As a result, only comparatively little space is available in the hearing aids for electronic components, so that the computing power of the digital signal processing unit within the hearing aid is also limited. For an external processor unit, these limitations usually do not apply. Thus, the chip area required for adequate signal processing in the respective listening situation and thus computing power can be made available.

In order to adapt to different listening environments, the external processor unit is advantageously programmable, ie sequence programs for controlling the signal processing in the external processor unit can be transmitted to the external processor unit or the parameters relating to the signal processing can be set. By programming, external processor units of the same design can be manufactured and optimized for different listening environments.

In a hearing device system with a hearing device and an external processor unit, the hearing device must be prepared for receiving a signal from the external processor unit. Thus, an acoustic signal can be picked up by the input converter of the external processor unit, processed by the signal processing unit and transmitted by means of the transmitter unit to the hearing aid. Preferably, the hearing aid system comprises means for wireless transmission of a signal from the external processor unit to the hearing aid. If the signal path between the external processor unit and the hearing device is bidirectional, the external processor unit can advantageously also receive a signal emitted by the hearing aid. Settings on the external processor unit can be made for example via the hearing aid.

An embodiment of the invention provides for the hearing device to be set to receive a signal from the external processor unit by actuating a control element. For example, the signal received from the microphone of the hearing aid is then mixed with the signal transmitted by the external processor unit. In this case, the weighting of the two signals is advantageously adjustable, so that in extreme cases the signal of the hearing device microphone is not further processed and only the signal picked up by the external processor unit reaches the receiver of the hearing aid.

In another variant of the invention it is provided that the hearing aid automatically detects whether it is in the immediate vicinity of an operating external processor unit, and optionally automatically adjusts the signal processing to this hearing situation. Conversely, the hearing aid falls back into the normal operating mode when no signal from an external processor unit is received. For example, to detect proximity to a particular external processing unit, the presence, frequency, and level of a carrier signal that may be from a particular one of them external processor unit for transmitting the further processed acoustic input signal starting, be checked. By different carrier frequencies then a distinction between different external processor units, which can receive the hearing aid possible. Depending on the respective external processor unit, from which a signal is received by the hearing aid, then the further processing of the received signal in the hearing aid can be done differently. Furthermore, it can be adjusted depending on settings or functions of the hearing aid itself, for example microphones on or off, be.

Furthermore, in a preferred embodiment, the external processor unit for adaptation to specific listening environments comprises a directional microphone system for generating a directional microphone characteristic. This is particularly advantageous if the preferred direction of arrival of useful signals and the preferred direction of incidence of interfering signals are clearly visible, as is the case for example in the car. In this case, the directivity of the external processor unit is preferably adjustable manually or automatically. In particular, a fine adaptation to the particular hearing situation can thus be achieved.

A variant of the invention provides that the signal transmitted from the external processor unit to the hearing device is further processed in the signal processing unit of the hearing aid. Thus, the adaptation to the individual hearing loss of the hearing device wearer by the signal processing unit of the hearing aid can also take place in the case of the signal transmitted to the hearing device by the external processor unit.

Figur 1

die Anordnung einer externen Prozessoreinheit in einem Auto und

Figur 2

ein vereinfachtes Blockschaltbild eines Hörgerätesystems gemäß der Erfindung.

Further details of the invention will become apparent from the following description of an embodiment. Show it:

FIG. 1

the arrangement of an external processor unit in a car and

FIG. 2

a simplified block diagram of a hearing aid system according to the invention.

Figure 1 shows an external processor unit 1 of a hearing aid system according to the invention, which is attached to the dashboard 2 of a car. The attachment takes place, for example, by means of a screw connection, a plug connection, an adhesive connection, a magnet holder, etc. In this case, the external processor unit 1 can also be arranged concealed in the car. As a result of the arrangement in the car, the external processor unit 1 is permanently assigned to the hearing situation "auto". Behind the sound inlets 1A, 1B and 1C of the external processor unit conceal ball microphones, which are electrically connected to a directional microphone system. Furthermore, the external processor unit 1 comprises an on / off switch 1D, an antenna 1E and a signal processing unit in the form of a digital signal processor (not shown). In the signal processing unit, the acoustic signals recorded by the microphones are processed further, wherein the signal processing in the exemplary embodiment is specially adapted to the hearing situation "car". To power the external processor unit 1, this is connected via a cable 1F to the power supply of the car. In order to avoid interference signals which are caused by reflections on the window panes, the external processor unit 1 is preferably arranged on the passenger side of the car in the region of a car radio 3.

The listening situation "car" is only one of many examples in which it makes sense to use an external processor unit specially adapted to the respective hearing situation. The invention is therefore not limited to the hearing situation "car" shown in the embodiment.

FIG. 2 shows a simplified schematic representation of the block diagram of a hearing aid system 1, 20 according to the invention with a hearing aid 20, which includes the two microphones 21 and 22 for receiving an acoustic signal and conversion into an electrical signal. The microphone signals are first supplied to a signal preprocessing unit 23. This may include, for example, A / D converter. Further, a directional characteristic with the two microphones 21 and 22 can be generated by a delay element included in the signal preprocessing unit 23 and an addition element. Preferably, the directional characteristic is adjustable, which can be achieved for example by an adjustable delay time by the delay element. The preprocessed microphone signal is finally fed to the signal processing unit 24. In this signal processing takes place to compensate for the individual hearing damage of a hearing aid wearer. Finally, the processed signal, optionally after a D / A conversion, is fed back to a receiver 25 for reconversion into an acoustic signal.

For adaptation of the hearing aid 20 according to FIG. 2 to different listening environments and for individual adaptation to a hearing aid wearer, the hearing aid 20 comprises a control unit 26 in conjunction with a memory unit 27. Thus, depending on the respective hearing situation and the needs of the hearing aid wearer, the parameters and parameters relating to signal processing Settings may be changed or certain functions of the hearing aid 20, such as a noise suppression algorithm or a speech signal enhancement algorithm, turned on and off. The adjustment of the directivity of the microphone system 21, 22 is set by the control unit 26 in conjunction with the signal preprocessing unit 23.

Further, for wireless programming of the hearing aid 20, a transmitting and receiving unit 28 is provided in the hearing aid 20. By means of these, the sequence programs relating to the signal processing as well as parameters and settings on the hearing device 20 transferred and stored for example in the memory unit 27.

In order to improve the supply of a hearing aid wearer, especially in difficult listening environments, a hearing aid system 1, 20 according to the invention is formed from the hearing aid 20 together with an external processor unit 1. The external processor unit 1 according to the embodiment includes the three microphones 11A, 11B and 11C. These also detect acoustic input signals and convert them into electrical input signals. To generate different, in particular adjustable directional characteristics, the microphones 11A, 11B, 11C of the external processor unit 1 are first supplied to a signal preprocessing unit 12. The actual signal processing then takes place in the signal processing unit 13. The external processor unit 1 is permanently assigned to a specific listening environment. For example, the external processor unit 1, as shown in Figure 1, be mounted in a car. The signal processing in the signal processing unit 13 is then specially adapted to this listening environment. Thus, a specific directional characteristic can be set, selected frequency ranges in which interference is to be expected can be amplified less, in contrast to frequency ranges in which useful signals, for example speech, are to be expected and which are particularly emphasized. So that one and the same external processor unit 1 can also be operated in different listening environments if required, this is designed to be programmable, comparable to the hearing aid 20. The external processor unit 1 therefore comprises a control unit 14, a memory unit 15 and a transmitting and receiving unit 16. The control unit 14 is used to set the current sequence program for controlling the signal processing in the signal processing unit 13. Likewise, parameters of the signal processing unit 13 are set. For this purpose, the control unit 14 is connected to a memory unit 15. For programming the external Processor unit 1 is also equipped with a transmitting and receiving unit 16, by means of which a wireless signal transmission with a programming device (not shown) is made possible.

Now, if a hearing aid wearer with worn hearing aid 20 in the immediate vicinity of the operating external processor unit 1, so recognizes the hearing aid 20 automatically and adjusts the internal signal processing to this listening situation. Thus, a signal picked up by the microphones 11A, 11B and 11C and processed in the signal processing unit 13 is wirelessly transmitted to the hearing aid 20 via the transmitting and receiving unit 16 and the transmitting and receiving unit 28 of the hearing aid 20. In the signal preprocessing unit 23, the transmitted signal is mixed with the microphone signals of the microphones 21 and 22. The weighting of the individual signals is preferably adjustable and is set by means of the control unit 26. For example, the signal generated by the two microphones 21 and 22 may receive the same weight as the signal transmitted from the external processor unit 1. The resulting signal is finally supplied to the signal processing unit 24. This is operated in this operating mode (receiving a signal of the external processor unit 1) in a specially designed for this situation listening program. Finally, the processed signal is converted back into an acoustic signal by the receiver 25 and fed to the hearing aid wearer's hearing.

If the hearing aid wearer leaves the sphere of influence of the external processor unit 1, the hearing aid 20 recognizes this automatically, for example by the fact that no corresponding signal with a required signal strength can be received, and switches back into a "normal" hearing program.

The invention offers the advantage that by using an external processor unit 1, an optimal adaptation of the hearing aid system 1, 20 can be made to a specific hearing situation.

Claims (14)

Hearing aid system (1, 20) with a hearing aid (20) comprising at least a first input transducer (21, 22), a first signal processing unit (24), an output transducer (25) and a receiving unit (28), and with an external processor unit ( 1) comprising at least a second input transducer (11A, 11B, 11C), a second signal processing unit (13) and a transmitting unit (16),
characterized in that the external processor unit (1) is permanently assigned to a specific listening environment and in the processor unit (1) a processing adapted to the listening environment processing of an input signal from the second input transducer (11A, 11B, 11C), wherein the external processor unit ( 1) transmits the processed signal via the transmitting unit (16) and the hearing aid (20) receives the transmitted signal by means of the receiving unit (28) and emits it via the output transducer (25). Hearing aid system (1, 20) according to claim 1,
characterized in that the external processor unit (1) is designed for fixed allocation to different listening environments and the second signal processing unit (13) is adaptable to different listening environments. Hearing aid system (1, 20) according to claim 2,
characterized in that for adapting the second signal processing unit (13) to the listening environment parameters and / or functions in the external processor unit (1) are adjustable. Hearing aid system (1, 20) according to one of claims 1 to 3,
characterized in that the external processor unit (1) for generating a directional microphone characteristic comprises a directional microphone system (11A, 11B, 11C). Hearing aid system (1, 20) according to claim 4,
characterized in that the directional microphone characteristic is adjustable. Hearing aid system (1, 20) according to one of claims 1 to 5,
characterized in that the hearing aid (20) is adaptable to receiving a signal from the external processor unit (1). Hearing aid system (1, 20) according to claim 6,
characterized in that there are a plurality of external processor units dedicated to different listening environments, and the hearing aid (20) is adaptable to receiving signals from the different external processor units. Hearing aid system (1, 20) according to claim 6 or 7,
characterized in that the hearing aid (20) automatically detects whether the receiving unit (28) receives a signal from an external processor unit (1), and the hearing aid (20) is automatically adaptable to the reception of the signal. Hearing aid system (1, 20) according to one of claims 6 to 8,
characterized in that the first signal processing unit (24) is adaptable to receive a signal from the external processor unit (1). Hearing aid system (1, 20) according to one of claims 1 to 9,
characterized in that in the hearing aid (20) before the signal delivery, a further processing of the received signal. Hearing aid system (1, 20) according to claim 10
characterized in that the received signal with a of the first input transducer (21, 22) recorded signal is miscible. Hearing aid system (1, 20) according to claim 11,
characterized in that the adjustable weight signals are miscible. Method for operating a hearing device (20) having an input transducer (21, 22), a first signal processing unit (24), an output transducer (25) and a receiving device (28), comprising the following steps: e) providing an external processor unit (1) with an input transducer (11A, 11B, 11C), a second signal processing unit (13) and a transmitter (16) in a preferred listening environment of the hearing aid user, f) adapting the signal processing in the external processor unit (1) to the listening environment, g) recording and processing of an input signal by the external processor unit (1), h) sending the processed signal to the hearing aid (20), i) receiving the transmitted signal by the hearing aid (20) and output via the output transducer (25). A method according to claim 13, characterized
characterized in that the received signal before the signal output is further processed.

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