EP3054705A1 - Listening device for binaural supply and method for operating same - Google Patents

Abstract

A hearing device (1) for the binaural supply of a user (2) with a first hearing device (4), with a second hearing device (6) and with a control device (26) for controlling the first and the second hearing device (4, 6 ), each hearing aid (4, 5) each comprising a communication unit (11, 21), an audio receiver (10, 20) and a handset (12, 22), and wherein the communication units (11, 21) are for mutual data transmission are formed by inductive coupling. In this case, it is provided that the audio receivers (10, 20) are each set up to receive and process particularly stereophonic audio data (8), that the control device (26) is set up, one of the two hearing aids (eg 6) into a deactive one Audio receiving state, and to switch the other of the hearing aids (eg 4) in an active audio reception state within an operating period, the audio reception states of the hearing aid (4, 6) in dependence of a signal strength of the audio signal characterizing, each on a hearing aid (4, 6) related Parameters to exchange, and the hearing aid (eg 4) with active audio reception state to a transmission of audio data (8) to the hearing aid (6) with deactivated audio reception state by inductive coupling by means of the communication units (11, 21) to control. Furthermore, a corresponding operating method is specified.

Description

The invention relates to a hearing aid for the binaural supply of a user, which has a first hearing device for supplying the first ear, a second hearing device for supplying the second ear and a control device for controlling the first and the second hearing device, wherein the first hearing device has a first communication unit. a first audio receiver and a first handset, wherein the second hearing aid comprises a second communication unit, a second audio receiver and a second handset, and wherein the first communication unit and the second communication unit are adapted for mutual data transmission by inductive coupling. Furthermore, the invention relates to a method for operating such a hearing device. The invention is concerned with the application, the user of a binaural listening device in particular to record stereophonic audio data.

A listening device of the type mentioned is, for example, from the EP 2 782 363 A1 known. There, a specific arrangement of an antenna for a high-bandwidth binaural data transmission is disclosed for a hearing aid. Next is also from the EP 1 983 801 A2 Such a device for binaural supply of a user known. There, it is proposed to use hardware information about the other hearing device and / or audiometric data on the other ear to adjust the one hearing device by mutual data exchange. According to the DE 100 48 354 A1 Sound field characteristics are exchanged on the signal path between the two hearing aids and used to adapt the signal processing in the hearing aids.

Furthermore, from the WO 2006/122836 A2 a hearing device of the type mentioned above known. To a bidirectional connection between the communication units of the two hearing aids by means of inductive coupling specifically aligned antennas are called. In the EP 2 129 170 B1 is described for a hearing device of the type mentioned in the transfer of audio data to a battery-powered hearing aid. A device with an audio transmitter transmits digital audio data to an intermediate communication device. Between the hearing aid and the intermediate communication device, a wireless inductive connection is established in at least one direction.

Basically, in a listening device, which includes in particular battery-powered hearing aids, the energy efficiency must be observed in order to allow the longest possible service life. This also applies to a practical application, in which, in particular, stereophonic audio data are recorded in a binaural hearing device comprising a first hearing device and a second hearing device.

The invention is a first object to provide a listening device of the type mentioned for the binaural supply of a user, which allows the most energy-efficient recording of audio data. A further object of the invention is to specify a method for operating a listening device for the binaural supply of a user, which is as energy-efficient as possible with regard to the recording of audio data.

The first object is achieved according to the invention for a hearing device of the type mentioned above in that the first audio receiver and the second audio receiver are set up to receive and process particularly stereophonic audio data, and in that the control device is set up one of the two hearing aids deassive audio reception state, and to switch the respective other hearing aid into an active audio reception state, within an operating period, the audio reception states of the hearing aids as a function of a signal strength of the audio signal characterizing, each related to a hearing aid Parameters to exchange, and the hearing aid with active audio reception state to a transmission of audio data to the hearing aid with a disabled audio reception state by inductive coupling by means of the communication units to control.

The second object is achieved according to the invention for a method for operating a hearing device of the type mentioned above, that receives in an active audio reception state of a hearing device of the associated audio receiver in particular stereophonic audio data and further processed, while the other of the hearing aids is switched to an active audio reception state that within an operating period, the audio reception states of the hearing aids are exchanged as a function of a parameter relating to a signal strength of the audio signal, respectively, and that audio data are transmitted to the hearing aid in the active audio reception state by inductive coupling by means of the communication units by means of the hearing device.

According to the current state of the art, audio data in a listening device for the binaural supply of a user are respectively received and processed by the audio receiver of each hearing device. In the right ear supplying the hearing aid in the case of stereophonic audio data, the channel of the right channel is played on the listener. In the hearing aid supplying the left ear, the left channel is correspondingly played on the listener in the case of stereophonic audio data.

In a first step, the invention recognizes that unnecessarily energy is consumed with such a technique in the transmission of particular stereophonic audio data in the listening device, because in each of the two hearing aids, the complete stereophonic audio signal is received and processed, although for output via the respective Only the right or left channel of the audio signal is needed.

In a second step, the invention is based on the consideration that the energy requirement for recording stereophonic audio data in a binaural hearing device can be reduced if the data transmission between the two hearing devices implemented in modern binaural hearing aids is also intelligently utilized by inductive coupling for the transmission of audio data ,

As a solution to the stated problem, the invention proposes in a third step to actively switch only one of the two hearing aids for receiving and further processing audio data (active audio reception state), while the other of the two hearing aids for receiving and further processing stereophonic audio data is deactivated (deactivated audio reception state). In other words, the audio receiver and the further processing of audio data received therewith in the hearing device with deactivated audio reception state is switched off. Instead, the hearing aid, which is in the deaf audio receiving state, receives audio data on the inductive coupling established connection from the other hearing aid, which is in the active audio receiving state. A time difference between the audio signals of both ears due to the processing and transmission is negligible, since the latencies occurring in modern hearing aids are outside of human perception. Thus, modern hearing aids allow real-time processing.

Due to the fact that only one of the hearing aids is in the active audio reception state during the recording of audio data, the energy requirement for receiving and processing audio data is first halved for the listening device compared to a parallel reception on both sides. Further, the data transmission by inductive coupling between the communication units of both hearing aids, which takes place in the electrodynamic near field, very energy efficient and also to a balance between the hearing aids anyway consistently established. Overall, the energy efficiency for the recording of audio data can thus be improved for a listening device for binaural supply by the audio data received only on one side and transmitted by the established between the hearing aids inductive signal connection to the other hearing aid.

Basically, the invention is not limited to the type of audio data. The energetic advantages are also achieved in the transmission of mono signals. Preferably, however, stereophonic audio data is transmitted. Furthermore, the type of transmission of the audio data is basically not restricted. Conveniently, however, it is a wireless transmission of audio data to the listening device, wherein the wireless transmission takes place in particular by means of digitally coded data. However, the invention is by no means limited thereto. Hearing aids in particular include hearing aid devices that are designed for a user with limited hearing. However, the invention is not limited thereto. In this respect, the invention also includes headphones as hearing aids, as used, for example, in the context of a headset or the like.

Preferably, a wireless transmission of the audio data by means of a transmission standard for locally established radio networks, such as WLAN. In principle, transmission of the audio data by means of BLUETOOTH is also possible. However, since the establishment of BLUETOOTH by means of so-called "scatternets" with variable assignment of transmission stations, this can lead to unwanted signal delays and shadowing.

In addition to the described advantage of an energy-efficient transmission, the invention offers the further advantage of a uniform audio signal on both hearing aids, in particular in the case of wireless reception via local radio networks. If the audio signal from both hearing aids is received independently and further processed, it may, depending on the whereabouts of the user to undesirable differences in the signal strengths of the audio signals for both hearing aids come. This is avoided in a one-sided reception. In this case, the invention makes it possible to select the receiving or active hearing device as a function of the signal strength and / or the signal quality. This is particularly advantageous when considering the strong attenuation effects in the RF range through the head.

In the inductive coupling between the hearing aids is worked at low frequencies in which the attenuation by the human body is comparatively low. For a transmission by means of inductive coupling between the two hearing aids, for example, a frequency band at 3.2 MHz is used, so that the conditions of the near field for transmission are reached. The frequency band used for wireless transmission via WLAN is 2.4 GHz. In this frequency range, the human body already leads to a significant attenuation of the transmission signals.

A further improvement of the energy efficiency for recording of stereophonic audio data is achieved if already provided in the hearing aid with active audio reception state, the audio only the hearing aid with deactivated audio reception associated stereo channel and only these are transmitted by inductive coupling to the disabled for audio reception hearing aid. This further reduces the amount of data to be transmitted by inductive coupling in the case of stereophonic audio data. Also, the energy consumption of the hearing aid is thereby further reduced overall.

In a further advantageous embodiment of the invention, the first audio receiver and the second audio receiver are set up for receiving and for decoding stereo-coded audio data coded according to a method of channel coupling. In other words, this improves the hearing aids for receiving compressed stereophonic audio data, which can be used to further improve energy efficiency.

The methods of coding stereophonic audio data by channel coupling are those methods that take into account the given redundancy in the two stereo channels. For example, the amount of data to be transmitted for stereo signals can be reduced by transmitting the stereophonic audio data in the form of a DC and a differential signal; the stereo channels are more consistent than they are different. Also, data compression can be achieved by transmitting a center and a difference signal. Also, in the compression of stereophonic audio data, features of human hearing can be exploited. For example, human hearing evaluates temporal differences to spatial hearing at low frequencies, while intensity differences are more likely to be used for orientation at higher frequencies.

Depending on the compression method used, the stereophonic audio data can be reconstructed exactly and completely or with a certain loss of quality on the transmitter side. The methods of compression or coding by channel coupling are also known as so-called joint stereo methods. The method with transmission of a mean value signal (M) and a difference or side signal (S) is also known as a mid-side method or M / S method.

Data compression of stereophonic audio data reduces the amount of data to be transmitted to or received from the hearing aid, which in turn leads to an improvement in energy efficiency. For example, in a time-division multiplexing method for transmitting the stereo channels versus a separate transmission of the two channels with a joint stereo coding method, a data reduction of up to 25% can be achieved.

The control device for controlling the two hearing aids is preferably provided as a first control unit in the first hearing aid and as a second control unit in the second hearing aid, wherein the first and the second control unit communicate by transmitting data by means of the established inductive coupling between the communication devices. Not necessarily, this requires a master-slave operation. In an alternative embodiment, the control device is arranged externally and takes over the control of both hearing aids, for example via a correspondingly established radio link. In particular, an external control device is arranged in an audio transmitter, which provides the audio data.

Within an operating period, the audio reception states are exchanged by appropriate control as a function of a parameter which characterizes a signal strength of the audio signal and which is in each case related to a hearing aid. In this case, reference is made in particular to a change in position of the user, so that it is advisable on the basis of the given signal strength to change the hearing device in the active audio reception state to the active audio reception state and at the same time to deactivate the other hearing device with regard to audio reception. On the other hand, multiple exchanges of the reels as a hearing aid active or inactive means of extending the overall life of the binaural hearing aid. For example, a uniform exchange or loading of the batteries is achieved via a corresponding exchange of roles between two hearing aids, if the battery having a lower energy content more often takes the disabling role in terms of audio reception. As a result, a difference in the charge state of newly inserted batteries or an increased one-sided load of a battery is taken into account in particular, the latter being, for example, a consequence of a gain in the hearing aids set differently due to different hearing in both ears.

Regardless of such considerations, the roles of the hearing aids with respect to the audio reception preferably periodically exchanged in terms of a uniform load on both hearing aids, including the control device is set up accordingly.

Accordingly, the control device is set up to exchange the audio reception states of the hearing aids as a function of a parameter which characterizes a signal strength of the audio signal and is related in each case to a hearing aid. By detecting such a parameter, it is possible to take into account the respective current state given for a hearing device and accordingly to exchange the audio reception states of the hearing aids in the sense of an extended life of the entire system.

In addition to an exchange of the audio reception states of the hearing devices, it is preferable, in particular for this purpose, to switch the hearing device into the active audio reception state whose battery has a higher energy content or which is less loaded with regard to a power extraction. In other words, the control device is additionally set up to exchange the audio reception states of the hearing devices as a function of a parameter which characterizes a battery state or a load state and is in each case related to a hearing device.

The term battery here is understood to mean both a rechargeable battery, ie an accumulator, and a battery, which is intended for single use.

Expediently, a control device is provided which is set up to determine a current energy content, ie in particular a current state of charge, of the first and second battery at predeterminable time intervals, to compare the determined energy contents with one another and in each case to place the hearing device in the deaf audio reception state to switch, whose battery currently has a lower energy content. The term of a predeterminable time interval is understood here and in the following to mean that the time interval is either permanently predetermined or can be variably set to a predetermined value.

The control device is preferably further configured to determine wear and / or degree of aging of the first and second battery at predeterminable time intervals, to compare the determined wear and / or aging rates and to respectively switch the hearing device to the deactive audio reception state, the battery thereof has a higher degree of wear and / or aging. In particular, the wear and / or degree of aging of a battery is determined via the "state of health" or via the remaining capacity, ie the maximum possible charging capacity.

In a further development, the control device is preferably also configured to detect an active power extraction of the first and the second battery at predetermined time intervals, to compare the detected power withdrawals and to respectively switch the hearing device to the deactive audio reception state whose battery currently has a higher power consumption having.

The aforementioned switching strategies lead to an extension of the operating time and life of the entire system. In particular, this asymmetries in the two hearing aids in terms of power draw, initial charge states of the batteries, aging or wear conditions of the batteries, e.g. Age or number of charge and discharge cycles, or battery quality reduced.

Preferably superimposed on this, the control device is expediently arranged to detect the signal strengths of the audio data received in the first hearing device and in the second hearing device at selectable time intervals, to compare the detected signal strengths with each other and in each case the hearing device to switch to the deaf audio receiving state, the signal strength is currently lower. Conversely, in this case, of course, the hearing aid is switched to the active audio reception state whose detected signal strength is stronger. This improves the signal quality of the recorded audio data for the user.

In a further preferred refinement, the control device is set up to respectively switch one of the hearing devices into the active audio reception state at predetermined time intervals for the detection of an audio signal, and otherwise switch both hearing devices into the deactive audio reception state. In other words, in each case only one of the hearing aids is active for recognizing an audio signal. If an audio signal is detected, it is received via the hearing aid switched in the active audio receiving mode and further processed and transmitted by inductive coupling to the other hearing aid. Since the audio data is not received via both hearing aids, it is not necessary to regularly switch both hearing aids to an active operating state for detecting audio signals. This also improves energy efficiency. To detect an audio signal, only one of the two hearing aids is regularly activated.

Expediently, the hearing device further comprises an audio transmitter, which is set up for a wireless transmission of in particular stereophonic audio data. In particular, the audio transmitter is set up to encode stereophonic audio data according to a method of channel coupling. Such an audio transmitter is for example a smartphone which provides the required functions by implementing a corresponding software ("app"). Alternatively, the audio transmitter is designed as part of an audio source, such as a PC, a stereo or a TV receiver, or as part of an audio transceiver. The audio transceiver is an intermediate link between an audio source and the listening device. The audio transceiver receives the audio data from the corresponding audio source Audio source and converts them into corresponding signals, which in particular comprise coded stereo data according to a method of channel coupling.

The above-described embodiments of the invention relate both to the hearing device and to a method for operating such a hearing device. The advantages mentioned can be transmitted without any problems. If method steps are described as such, they are implemented in the listening device by a control device which is set up for carrying out the corresponding method steps with appropriate control of the components of the listening device or hearing aids.

FIG 1

eine Höreinrichtung zur binauralen Versorgung eines Nutzers, die zur Einspielung von stereofonen Audiodaten eingerichtet ist.

An embodiment of the invention will be explained in more detail with reference to a drawing. Showing:

FIG. 1

a listening device for the binaural supply of a user who is set up to record stereophonic audio data.

In FIG. 1 is a listening device 1 for the binaural supply of a user 2 via a first hearing aid 4 for the supply of the first, right ear 5 and a second hearing aid 6 for the supply of the second, left ear 7 shown. The listening device 1 shown is set up for recording particularly stereophonic audio data 8 via both hearing aids 4, 6. The audio data 8 are transmitted to the hearing aids 4, 6 by means of radio, for example via WLAN, for which purpose a corresponding audio transmitter 9 is provided. The audio transmitter 9 is for example a smartphone or an audio transceiver, which is wired or wirelessly connected to an audio source 30. The audio source 30 is for example a PC, a TV receiver, a radio receiver or a stereo system.

The first hearing device 4 comprises a first audio receiver 10 for receiving and further processing audio data, a first communication unit 11, a first receiver 12 and a first control unit 13. For energy supply, a rechargeable first battery 14 is implemented.

Correspondingly, the second hearing device 6 comprises a second audio receiver for receiving audio data 8, a second communication unit 21, a second receiver 22 and a second control unit 23. A second rechargeable battery 24 is implemented for supplying energy.

The first communication unit 11 and the second communication unit 21 are formed for mutual data transmission by inductive coupling. During the operation of the listening device 1, data synchronization between the first hearing device 4 and the second hearing device 6 with respect to an optimal binaural supply of the user 2 is constantly taking place via this data transmission.

In order to record preferably stereophonic audio data 8, in each case only one of the hearing devices 4, 6 is put into an active audio reception state. The respective other of the hearing aids 4, 6 is then in each case in a deaf audio reception state. In the present case, the right hearing aid 4 is switched to the active audio reception state. The left hearing aid 6 is switched to the deaf audio receiving state. The stereophonic audio data 8 are exclusively received by the hearing aid 4 via radio and further processed. The stereophonic audio data 8 includes a right stereo channel R and a left stereo channel L.

In the first hearing device 4, caused by the first control unit 13, the received stereophonic audio data 8 processed further. In particular, the right stereo channel R is extracted and dubbed to the first listener 12. At the same time, the received audio data 8 from the first, in the active audio receiving state receiver 4 by means of inductive Coupling via the first communication unit 11 to the second communication unit 21 of the second hearing aid 6 transmitted. There, the left stereo channel L is extracted from the obtained audio data and transferred to the second listener 22.

The control units 13, 23 of the two hearing aids 4, 6 also communicate via the inductive coupling between the communication units 11 and 21. In particular, the hearing aids 4, 6 assigned roles in terms of an active or deaf audio reception state by appropriate control by means of the first and the second control unit 13, 23 exchanged. In this way, a uniform load of the batteries 14 and 24 is achieved. In this case, the respective battery status in the associated hearing device 4, 6 is preferably determined by means of the control units 13, 23, and in each case that hearing device 4, 6 is switched to the active audio reception state whose battery 14, 24 still has a larger energy content. The hearing aid 4, 6 is switched to the active audio reception state by regularly checking the signal strength of the obtained audio data 8, in which audio data 8 having a higher signal intensity is received.

If stereophonic audio data 8 are no longer received over a predetermined period of time, then both hearing aids are put into the deactive audio reception state by means of the control units 13, 23. At regular intervals then one of the hearing aids 4, 6 is placed in the active audio reception state and checks to what extent audio signal 8 are available for recording. If audio signals 8 are detected, they are recorded via the activated hearing device 4, 6 in the listening device 1.

The described and illustrated method enables high energy efficiency for recording stereophonic audio data 8, since these are received on one side only and further processed. The forwarding of the audio data 8 to the respective other hearing aid 4 or 6 is energy-efficient via an inductive coupling between the communication units 11, 21.

Further improvement of the energy efficiency is achieved by designing the audio transmitter 9 for encoding and transmitting stereophonic audio data 8 encoded according to a method of channel coupling. As a result, a data compression and thus a reduced data rate for transmitting the audio data 8 is made possible. Furthermore, the energy efficiency of the method is improved in that, via the inductive coupling between the two communication units 11, 21, only one stereo channel (in the present case the left stereo channel L) is transmitted in an intended embodiment variant, which is responsible for the hearing aid 4, 6 deactivating in each case with respect to the audio reception is needed.

Claims (16)

A hearing device (1) for the binaural supply of a user (2), with a first hearing device (4) for supplying the first ear (5) and with a second hearing device (6) for supplying the second ear (7), wherein the first hearing device ( 4) comprises a first communication unit (11), a first audio receiver (10) and a first handset (12), wherein the second hearing aid (6) comprises a second communication unit (21), a second audio receiver (20) and a second handset (22 ), and wherein the first communication unit (11) and the second communication unit (21) are designed for mutual data transmission by inductive coupling, and with a control device (26) which is responsible for controlling the first hearing device (4) and the second hearing device (6) is set up,
characterized in that the first audio receiver (10) and the second audio receiver (20) are arranged for receiving and processing particularly stereophonic audio data (8), and in that the control device (26) is set up, one of the two hearing aids (eg 6) into an active audio reception state, and to switch the respectively other one of the hearing devices (eg 4) into an active audio reception state, within one operating period, the audio reception states of the hearing devices (4, 6) depending on a signal strength of the audio signal, in each case on a hearing device ( 4, 6), and to actuate the hearing aid (eg 4) with active audio reception state to a transmission of audio data (8) to the hearing aid (6) with deactivated audio reception state by inductive coupling by means of the communication units (11, 21). Hearing device (1) according to claim 1,
characterized in that the control device (26) is arranged, the hearing aid (eg 4) with active Audio receiving state to a transmission of audio data (8) only to the hearing aid (eg 6) with deactivated audio reception associated stereo channel to control. Audio device (1) according to claim 1 or 2,
characterized in that the first audio receiver (10) and the second audio receiver (20) are adapted to receive and decode stereo coded audio data (8) encoded according to a method of channel coupling. Audio device (1) according to one of the preceding claims,
characterized in that the control device (26) comprises a first control unit (13) in the first hearing aid (4) and a second control unit (23) in the second hearing aid (6), which are set up by transmitting data between the communication devices (11, 21) to communicate. Audio device (1) according to one of the preceding claims,
characterized in that the control device (26) is set up to exchange the audio reception states of the hearing aids (4, 6) periodically within an operating period. Hearing device (1) according to claim 1,
characterized in that the control device (26) is arranged to detect at predetermined time intervals in each case the signal strengths of the first hearing aid (4) and the second hearing aid (6) received audio data (8) to compare the detected signal strengths with each other and each hearing aid (eg 6) to switch to the deaf audio receiving state, the signal strength is currently lower. Audio device (1) according to one of the preceding claims,
characterized in that the control device (26) is arranged to switch at predetermined time intervals for the detection of an audio signal in each case one of the hearing aids (eg 4) in the active audio reception state and otherwise both hearing aids (4, 6) in each case in the deaf audio reception state. Audio device (1) according to one of the preceding claims,
characterized in that it further comprises an audio transmitter (9) which is set up for a wireless transmission of in particular stereophonic audio data (8), in particular for a wireless transmission of stereophonic audio data (8) coded according to a method of channel coupling. Method for operating a hearing device (1), comprising a first hearing aid (4) for supplying the first ear (5) and a second hearing aid (6) for supplying the second ear (7), wherein the first hearing aid (4) comprises a first communication unit (11), a first audio receiver (10) and a first handset (12), wherein the second hearing aid (6) comprises a second communication unit (21), a second audio receiver (20) and a second handset (22), and wherein the first communication unit (11) and the second communication unit (21) are designed for mutual data transmission by inductive coupling, and a control device (26) which is set up to control the first hearing device (4) and the second hearing device (6), characterized in that in an active audio receiving state of a hearing aid (eg 4) the associated audio receiver (eg 10) receives and processes in particular stereophonic audio data while the jewei ls another of the hearing aids (eg 6) is switched to a deaf audio receiving state that within one Operating period the audio reception states of the hearing aids (4, 6) depending on a signal strength of the audio signal characterizing, each on a hearing aid (4, 6) related parameters are exchanged, and that by means of the hearing aid (eg 4) in the active audio reception state audio data (8) the hearing aid (eg 6) in the active audio receiving state by inductive coupling by means of the communication units (11, 21) are transmitted. Method according to claim 9,
characterized in that by means of the hearing aid (eg 4) in the active audio reception state audio data (8) of only the hearing aid (eg 6) are assigned in the deactive operating state associated stereo channel. Method according to claim 9 or 10,
characterized in that in the audio receiver (eg 10) of the respective hearing device (eg 4) in the active audio reception state encoded stereophonic audio data are received and decoded according to a method of channel coupling. Method according to one of claims 9 to 11,
characterized in that the audio reception states of the hearing aids (4, 6) are exchanged within an operating period. Method according to claim 12,
characterized in that within a period of operation, the audio reception states of the hearing aids (4, 6) are periodically exchanged. Method according to one of claims 9 to 13,
characterized in that in each case the signal strengths of the audio data received in the first hearing device and in the second hearing device (4, 6) are detected at predefinable time intervals, the detected signal strengths with one another are compared and in each case the hearing aid (eg 6) is switched to the deaf audio receiving state, the signal strength is currently lower. Method according to one of claims 9 to 14,
characterized in that at predetermined time intervals for the detection of an audio signal in each case one of the hearing aids (eg 4) in the active audio reception state and otherwise both hearing aids (4, 6) are each switched to the deaf audio reception state. Method according to one of claims 9 to 15,
characterized in that the in particular stereophonic audio data (8), in particular the stereophonic audio data (8) coded according to a method of channel coupling, are received wirelessly by an audio transmitter (9).

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