EP1298959A2 - Hearing aid with parasitic signal control - Google Patents

Abstract

The device has an acoustic pick-up for noise-free or noisy acoustic signals, a controler for controling hearing aid parameters and an analyzer for analyzing the acquired acoustic signal for noise signals and providing analysis results to the controler so that the hearing aid, especially individual transmission parameters or entire hearing programs, can be controled based on the analysis results. <??>AN Independent claim is also included for the following: a method of controling a hearing aid.

Description

The present invention relates to a hearing aid with an acoustic pickup to record a trouble-free or disturbed Acoustic signal and a control device for controlling of hearing aid parameters. In addition, the present concerns Invention a method for controlling a hearing aid.

Hearing aids are used in various types of hearing situations and must provide the patient with the desired acoustic Communicate stimuli. For example, the patient wants to Road traffic to perceive an omnidirectional Sound perception and when talking to a conversation partner experience a directed sound perception. About that In addition, the hearing aid wearer should use both corded as well as with cordless phones and with cell phones low-interference calls can be possible.

Hearing aids are usually capable of different To cope with hearing situations by being from the hearing aid wearer switched to different hearing programs can be. A typical hearing program is the telephone hearing program, where the acoustic signals coming from the microphone of the hearing aid, according to the spectrum of telephone signals be filtered to remove distracting ambient noise suppress in other spectral ranges. High quality Hearing aids usually have multiple microphones, through a special hearing program to achieve a Directivity can be interconnected.

Hearing aids are usually switched or controlled using switches, buttons or controls on the hearing aid housing. In so-called behind-the-ear hearing aids (BTE) this is not a problem since they have an appropriate size feature. In so-called in-the-ear hearing aids (ITE), the in the auricle or even exclusively in the ear canal (CIC devices; complete in the channel) the difficulty of attaching manual transmitters to the hearing aid itself, because their size is so small. The ITE hearing aids are therefore automatically controlled and connected.

As is known, a hearing aid can automatically be included in a telephone hearing program be switched on or an auditory coil activated, if a magnetic field is detected by the handset of a telephone device is emitted. For this is in the patent DE 31 09 049 C2 explains that by using elements, under the influence of a magnetic field in the A switch senses their electrical properties, for example the conductivity, change, to actuate the switching process the application of a magnetic field is still required. As Switching element, for example, a displaceable magnet can be used. The actual contact elements fall under the category non-contact switches and can e.g. B. as so-called Thermowell contacts, also called reed contacts are known or as magnetic field semiconductors, which also Hall generators are designed to be. For the switching process So it is necessary that the hearing aid is static Magnetic field registered so that it received the inductively Signals amplified according to the handset program.

Difficulty switching automatically to a telephone hearing program occur regularly when, for example in lecture halls the signal is inductive due to loops in the floor is transmitted, but no magnetic DC signal is present. The same problem occurs with mobile and cordless Phones that have piezoelectric earphones. About that the piezoelectric earphones do not transmit any usable inductive signals, so that inductive transducers in the hearing aid are unsuitable for this.

The object of the present invention is therefore the automatic switching and control of hearing aids with regard to improve on the respective listening situation.

According to the invention, this object is achieved by a hearing aid with an acoustic transducer to record a trouble-free or disturbed acoustic signal and a control device for Control of hearing aid parameters and an analysis device for analyzing the acoustic signal for interference signals and Delivering an analysis result to the control device, so that the hearing aid, in particular individual transmission parameters or entire hearing programs, based on the analysis result is controllable.

In addition, the stated task is solved by a Method for controlling a hearing aid by picking up a interference-free or disturbed acoustic signal, analyzing the Acoustic signal after interference signals and control of the hearing aid, in particular individual transmission parameters or entire hearing programs, based on the analyzed interference signals.

Preferred developments of the invention result from the Dependent claims.

By evaluating the useful signal, namely the acoustic signal, that carries the acoustic information, according to predefined Faults can be evaluated on an additional basis Sensor to be detected signal, e.g. B. one magnetic DC signal, can be dispensed with. Furthermore can by evaluating the interference signals caused by coupling of noise in the microphone of the hearing aid or of electrical or magnetic interference in the electronics of the hearing aid arise, hearing situations more differentiated be distinguished. So it is possible based on typical Rhythms when transferring data packets a phone call recognizable with a mobile phone.

Fig. 1

den schematischen Aufbau eines Hörgeräts;

Fig. 2

eine typische Zeitmultiplex-Rahmenstruktur; und

Fig. 3

Signalformen von vorverarbeiteten Störsignalen.

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

Fig. 1

the schematic structure of a hearing aid;

Fig. 2

a typical time division frame structure; and

Fig. 3

Signal forms of pre-processed interference signals.

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

A digital hearing aid 1 according to the invention comprises according to FIG. 1 two microphones 2, 3 and optionally an audio coil 4. The two Microphones 2, 3 record the corresponding sound and convert it for further processing for the control device 5. In the hearing coil or the induction pickup 4, the radiated by an induction system or a telephone coil Signal inductively recorded and for further processing also forwarded to the control device 5. The Control device 5 analyzes the sensors 2, 3 and 4 received signals and controls the transmission function between transducers 2, 3, 4 and one Speaker 6.

According to the invention, the hearing aid is now switched or controlled or its hearing programs and / or transmission parameters not a signal from a switch or a constant signal an external device such as B. the static magnetic field signal a telephone handset coil. Rather, according to the present invention, an external interference signal used for switching or controlling. The acoustic Interference signal superimposed on the useful signal can, for example be a broadcast signal from a mobile phone that despite shielding measures can be heard in the audio area.

To reduce the interference caused by cell phones To get to know them better, reference is made to FIG. 2. There the time-division multiplex frame structure of data packets is described, as usually used in mobile radio technology becomes. The frameworks are subdivided hierarchically starting from hyperframes into subordinate superframes, Multiple frames and TDM frames. The frame length is of multiple frames in the traffic channel typically 120 ms, in the organization channel 235.4 ms and that of a TDM frame 4.615 ms. The corresponding transmission frequencies for TDM frames are in the audible range at around 200 Hz. Even higher ones Harmonics of the transmission frequencies of the multiple frames are in the audible range. Are signal components from the mobile phone Data packets sent into the hearing aid electromagnetically interspersed, so it can be clearly perceptible Disturbances come.

Wireless telephone systems use certain defined frequency bands, in which they transmit their data packets. The Telephone standard DECT for cordless phones includes, for example Transmission frequencies between 1880 and 1900 MHz. The Sending a data packet takes approx. In the DECT telephone standard 417 µs. In addition, the individual data packets are grouped sent in 10 ms intervals.

The digital D network for mobile phones based on the GSM standard based, works in the range of 900 MHz with 992 channels, where 124 frequencies with 8 channels each in time multiplex be used. The channel grid is 200 KHz. In uses the same on the GSM-like DCS1800 standard based e-cellular network predefined frequency bands in the range of 1800 MHz. Furthermore, the American analog AMPS system with 666 channels and 30 KHz channel grid operated in the 800 MHz range.

The interference interspersed in the hearing aid is now used to determine if the patient is using a cell phone phone. As the interfering signal with increasing The distance between the mobile phone and the hearing aid may decrease can be clearly determined by threshold analysis whether there is an active telephone system near the hearing aid.

In spite of careful electromagnetic interference Shielding measures in the hearing aid, such as this from the EMC problem is known on hearing systems. These interferences are so high that the usual packet rates directly as interference are detectable. Such interference signals are therefore suitable also for further processing. To receive this concrete The shields could improve interference signals accordingly redesigned, or special antennas for the interference signal be provided. Such an antenna then looks like an additional pickup in addition to the microphones 2, 3 and Induction coil 4. Its output signal can be used accordingly Control of the hearing aid can be used.

From the above illustration it can be seen that disturbances, caused by wireless phone systems are in many frequency ranges. For example the high carrier frequencies of the transmission signals or the relatively low-frequency, characteristic signal patterns, with which the data packets are transmitted become.

The immediate evidence of a bedding in, from a mobile phone originating carrier signal can be narrowband Signal detection is done. With a level meter, the in the hearing aid interspersed carrier signals in the typical Spectral range can be recognized.

As has already been briefly indicated, there is another possibility proof of the proximity of a mobile phone to the hearing aid in characteristic signal patterns, especially the to demonstrate faults caused by data packets.

In this case, the electromagnetic interference is included the transmission rate of the data packets modulated. These modulations can be recognized in the signal processing of the hearing aids and are often perceived as disturbances in the audio area. Narrow band filtering for interference signals with packet frequency would, for example, provide a clear reference to the present Enter DECT fields on the hearing aid if their intensity is one Limit exceeded. Once the intensity of these interference fields drops again, it can be assumed that the Radiotelephone removed from the hearing aid or the phone call has ended.

3 shows a typical signal curve f (t) of a Interference signal, such as that caused by a time slot-oriented radio telephone system is caused. The increases in amplitude are clear can be seen in time slots 0 and 80. The function curve g (t) shows that for evaluation in FIG. 3 below processed audio signal. With a level measurement, but also by analyzing the waveform, in this example a characteristic triangular waveform, and other evaluation methods can provide clear evidence for interspersed data packet signals.

The hearing aid can use the characteristic interference signals are switched or controlled. Thus, when proving characteristic interference signals individual hearing aid parameters can be changed automatically. For example, the hearing aid be switched to a predetermined gain if telephoning the hearing aid wearer with a mobile phone is recognized. Likewise, the filter bandwidth of the hearing aid be reduced when the hearing aid is making a call with a Cordless phone registered.

In addition to controlling individual parameters, several parameters, which are summarized in so-called hearing programs are changed at the same time by a hearing program switched to another. For example the hearing aid, if it detects the proximity of a telephone device, from a hearing program for directed hearing into a hearing program can be switched for omnidirectional listening.

The use of interference signals to control and switch Hearing aids is not just in the area of walkie talkies limited. Rather, it is also possible for the hearing aid when detecting interference signals caused by digital television, Music transmission caused by headphones and the like switch to a suitable hearing program.

Claims (13)

Hearing aid (1) with
an acoustic sensor (2, 3, 4) for recording a trouble-free or disturbed acoustic signal and
a control device (5) for controlling hearing aid parameters,
marked by
an analysis device for analyzing the recorded and / or further processed acoustic signal after interference signals and providing an analysis result to the control device (5), so that the hearing device (1), in particular individual transmission parameters or entire hearing programs, can be controlled on the basis of the analysis result. Hearing aid according to claim 1, wherein the analysis result Indication of the type and / or size of one or more which includes interference signals. Hearing aid according to claim 1 or 2, wherein the recorded and / or further processed acoustic signal from the analysis device according to level, carrier frequency, modulation frequency, Degree of modulation and / or estimated signal-to-noise ratio is evaluable. Hearing aid according to one of claims 1 to 3, wherein the Acoustic transducer, a microphone (2, 3) and the acoustic signal is a sound signal. Hearing aid according to one of claims 1 to 4, wherein the Acoustic signal by the analysis device in frequency bands is evaluable. Hearing aid according to one of claims 1 to 5, wherein the Acoustic signal by the analysis device according to predetermined Signal patterns, especially those during transmission of data packets from wireless transmission systems, is evaluable. Hearing aid according to one of claims 1 to 6, wherein by the analysis device can detect an interference signal, caused by data packets from a mobile terminal and the hearing aid (1) upon detection of this interference signal automatically by the control device (5) a telephone hearing program switches. Method for controlling a hearing aid (1)
Recording and processing a noise-free or disturbed acoustic signal
marked by
Analyze the recorded and / or processed acoustic signal for interference signals and
Controlling the hearing device (1), in particular individual transmission parameters or entire hearing programs, on the basis of the analyzed interference signals. The method of claim 8, wherein the interference signal after Type and / or measure is analyzed. The method of claim 8 or 9, wherein the recorded and / or further processed acoustic signal according to level, Carrier frequency, modulation frequency, degree of modulation and / or the estimated signal-to-noise ratio is evaluated becomes. Method according to one of claims 8 to 10, wherein the Acoustic signal is evaluated in frequency bands. Method according to one of claims 8 to 11, wherein the Acoustic signal according to predetermined signal patterns, in particular those in the transmission of data packets, is evaluated. Method according to one of claims 8 to 12, wherein the Acoustic signal according to typical for mobile and cordless phones Useful signal properties is examined.

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