EP1406469A2 - Feedback compensator in acoustic amplifying systems, hearing-aid, method for feedback compensation and use of said method in hearing-aids - Google Patents

Abstract

The device has an adaptive feedback compensation filter, adaptation unit and frequency limiting filter. An input signal path is divided into 2 paths with filters. The first path interacts with the feedback compensation filter to subtract a compensation signal and with the adaptation unit for error signal output. A second node output and the second signal path are connected to a third node, whose output is connected to a system input, for addition. The device has an adaptive feedback compensation filter (25) for forming a compensation path, an adaptation unit (31) for the filter and a frequency limiting filter (27) for limiting the frequency range of the compensation path. An input signal (3) path is divided into two paths with filters. The first path interacts with the feedback compensation filter after the first filter (17) at a first node for subtraction of a compensation signal (23) and with the adaptation unit at a second node for error signal output. An output of the second node and the second signal path are connected to a third node, whose output is connected to an amplification system input, for addition. Independent claims are also included for the following: (a) a hearing aid with an inventive device (b) and a method of compensating a feedback signal in an acoustic amplification system.

Description

The invention relates to a feedback compensator in one acoustic amplification system for compensation of a feedback signal, that with an amplification of an input signal due to a feedback path from an amplified one Output signal on the input signal arises. The invention furthermore relates to a hearing aid with such a device Feedback compensator, based on a method of compensation a feedback signal in an acoustic amplification system and an application of the method in one Hearing aid.

With hearing aids there is generally the problem of an undesirable one acoustic feedback (feedback) between one Speakers and a microphone. Such feedback can Whistling or other disturbances and cause the benefit of the hearing aid for the hearing aid wearer significantly reduce or even reduce to zero. Depending on the properties of the hearing aid and the hearing situation feedback occurs at different frequencies.

With the help of adaptive feedback compensators, a Compensation signal generated by the input signal before the Reinforcement is subtracted and is such that a frequency causing a feedback to a Intensity is reduced below a so-called Stability limit is. The generation of the compensation signal takes place along a feedback compensation path an adaptive feedback compensation filter, which by means of an adaptation unit is set and the feedback path replicates. A frequency cut filter in the feedback compensation path limits the frequency range, in which the compensation signal is generated.

The implementation effort of feedback compensators is due to the generation of the feedback equivalent - feedback compensation path considerably. The generation of the Feedback compensation signal is usually done with a special adaptive feedback compensation filter, the so-called FIR filter (FIR: Finite Impulse Response). As an input signal the frequency-limited amplified serves in the FIR filter Output signal through the FIR filter in the compensation signal is converted.

The effect of the FIR filter, representative of most Feedback compensation filter, comes with an adaptation unit set, the so-called filter coefficients. The adaptation is based on a comparison of an error signal, mostly the input signal, with the amplified output signal. An important prerequisite for a successful Adaption is that the two signals before the comparison have experienced at least substantially the same filtering.

Nodes are required for the construction of a feedback compensator and arithmetic operations in the signal or feedback path, that require space and computing capacity. Furthermore needs one buffer memory to the signal for example by means of Adaptation unit and the feedback compensation filter to edit. The memory takes up space on the hearing aid chip and must be supplied by the hearing aid battery become.

Various feedback compensators are, for example, from the WO 00/19605 known. The bandwidth of the compensation signal limited by the feedback compensation filter generated interference on the amplified output signal minimized and be limited to the unstable frequency range.

The feedback compensators specified in WO 00/19605 work memory efficient; however, they show complicated Signal or feedback paths with multiple, complex addition arithmetic operations and knots on.

For example, in an embodiment in WO 00/19605 an input signal is split into three signals. The first both are merged again immediately after each filtering and form the input signal for the hearing aid signal processing. This input signal is used before Processing a compensation signal of an adjustable FIR filter subtracted for feedback compensation. The third Filtered signal serves an adaptation unit of the feedback compensation filter as an error signal. To adapt To be able to perform successfully, the one generated by the FIR filter Compensation signal not only from the input signal for the hearing aid signal processing subtracts, especially it is also subtracted from the error signal before it becomes the Adaptation unit is supplied. This version has three Addition nodes, three splitting nodes and three filters for the compensation of the input signal and is in the implementation accordingly expensive.

Another version is based on the complex use of two hearing aid signal processing. This is an input signal split into two signals. The first signal after filtering a first hearing aid signal processing fed. The second signal becomes complementary filtered to the first signal before using a compensation signal is merged. It then becomes an adaptation unit an adjustable FIR filter as an error signal and on the other hand a second hearing aid signal processing fed. The output signal of the second signal processing is filtered on the one hand on the FIR filter and on the adaptation unit is guided and on the other hand it is with one Output signal of the first hearing aid signal processing merged. In this version, the choice of complementary filter the hearing aid signal processing.

The invention is based on the object of a feedback compensator, a hearing aid with a feedback compensator, a method for compensating a feedback signal in an acoustic amplification system and use the procedure in a hearing aid to indicate the little Use memory and with a simple structure or Process with just a few nodes and add arithmetic operations.

This task is accomplished by a feedback compensator in one acoustic amplification system to compensate for a Feedback signal that occurs when an input signal is amplified due to a feedback path from an amplified one Output signal to the input signal arises, solved, an adaptive feedback compensation filter for Formation of a feedback compensation path simulating the feedback path, an adaptation unit for adapting the Feedback compensation filter and a frequency limiting filter to limit the Frequency range of the feedback compensation path includes. An input signal path of the input signal points to one Splitting two signal paths, the first signal path a first filter and the second signal path a second Have filters. The first signal path is after the first filter at a first node for subtracting a compensation signal with the feedback compensation filter and on one second node for error signal delivery with the adaptation unit operatively connected. An exit of the second node and the second signal paths are with a third node for addition connected and an output of this third node is connected to one Input of the amplification system connected.

A feedback compensator according to the invention enables the adaptation unit and the feedback compensation filter to supply an output signal filtered with the same filter, so only one buffer memory for feedback compensation necessary is. This is based on the invention Arrangement of the filters, nodes and addition arithmetic operations in the signal path. The feedback compensator is also required according to the invention only two addition nodes and Splitting nodes, as well as a complementary filter pair. Corresponding The arrangement can be inexpensive and with little effort be implemented. in the Feedback compensation path - only one filter is used to limit the frequency range. This has the advantage of being artifacts in the low frequency Area can be reduced. The control of the amplification system takes place regardless of the parameters of the first and the second filter and the frequency limiting filter, because the feedback compensation on the entire amplification system refers. This allows a flexible choice of filters.

The task regarding a hearing aid is performed by a hearing aid solved that a feedback compensator of the above described type. The invention can be used in all known hearing aid types are used, for example in the case of hearing aids worn behind the ear, in the ear portable hearing aids, implantable hearing aids, Hearing aid systems or pocket hearing aids.

In einem Verfahrensmerkmal wird das Eingangssignal in einen rückkopplungsgefährdeten und in einen rückkopplungsungefährdeten Signalanteil aufgespaltet.

In einem weiteren Verfahrensmerkmal wird der rückkopplungsgefährdete Signalanteil mit einem Kompensationssignal des Rückkopplungskompensationsfilters zu einem rückkopplungskompensierten Signalanteil zusammengeführt.

In einem weiteren Verfahrensmerkmal wird der rückkopplungskompensierte Signalanteil mit der Adaptionseinheit zur Fehlersignalauswertung verbunden.

Im letzten Verfahrensmerkmal wird der rückkopplungskompensierte Signalanteil mit dem rückkopplungsungefährdeten Signalanteil zu einem rückkopplungskompensierten Signal zusammengeführt, das anschließend verstärkt wird.

Die Abfolge der Verfahrensmerkmale ist bezüglich der Reihenfolge ungebunden, wenn es auch vorteilhaft ist die ersten beiden Verfahrensmerkmale in der hier angegebenen Reihenfolge vor den letzten beiden Verfahrensmerkmalen durchzuführen. Der Vorteil des Verfahrens liegt im vereinfachten Ablauf sowie in der kostengünstigeren Umsetzung des Verfahrens durch den verringerten Speicherbedarf und die effiziente Durchführbarkeit.

Furthermore, the object is achieved by a method for compensating a feedback signal in an acoustic system, the feedback signal being produced when an input signal is amplified due to a feedback path from an amplified output signal to the input signal, wherein the feedback path is simulated by means of an adaptive feedback compensation filter controlled by an adaptation unit a frequency limitation filter limits the frequency range of the feedback path to be simulated and the method has the following method features:

In one method feature, the input signal is split into a signal component that is at risk of feedback and a signal that is not at risk of feedback.

In a further feature of the method, the signal component that is at risk of feedback is combined with a compensation signal of the feedback compensation filter to form a feedback-compensated signal component.

In a further method feature, the feedback-compensated signal component is connected to the adaptation unit for error signal evaluation.

In the last feature of the method, the feedback-compensated signal component is combined with the feedback-endangered signal component to form a feedback-compensated signal, which is then amplified.

The sequence of the process features is not tied to the sequence, although it is also advantageous to carry out the first two process features in the order specified here before the last two process features. The advantage of the method lies in the simplified procedure and in the more cost-effective implementation of the method due to the reduced memory requirement and the efficient feasibility.

In a particularly preferred development of the feedback compensator according to the invention, this acts on Multi-channel amplification system, for example from a filter bank consists of the input signal on several frequency specific customized reinforcement systems distributed. this has the advantage that the feedback compensator is all frequency specific adapted reinforcement systems simultaneously.

In another embodiment of the feedback compensator is the frequency limiting filter between the output of the Amplification system and the feedback compensator and the Adaptation unit arranged. This has the advantage that the Frequency limit filter only on the feedback compensation path acts.

In a special embodiment of the feedback compensator have the first filter and the frequency limiting filter an at least essentially the same filter function. The then pass through both inputs to the adaptation unit in the essentially the same filtering, firstly the input signal the first filter and the amplified output signal the frequency limiting filter. This leads to particularly good ones Requirements for a quick and good adaptation by means of the adaptation unit.

An advantageous embodiment of the method has another procedural feature on that the amplified output signal via the frequency limiting filter to the adaptation unit and passed to the feedback compensation filter becomes. This reduces the influence of the method on frequency ranges, where feedback is rare and diminished there the creation of artifacts.

In another advantageous embodiment of the method become the frequency ranges of the signal component that is at risk of feedback and the feedback compensation path chosen so that they are at least approximately the same. This improves the course of the adaptation in the adaptation unit.

In a further embodiment of the method, the reinforcement performed with a multi-channel amplification system, so that the process also has all of its advantages on use a multi-channel amplification system can transmit.

Furthermore, the task is accomplished by using the method in solved a hearing aid.

Further advantageous embodiments of the invention are characterized by the features of the subclaims.

FIG 1

einen schematischen Aufbau eines Rückkopplungskompensators zur Verdeutlichung von Signal- und Rückkopplungskompensationspfad und

FIG 2

einen schematischen Aufbau eines Rückkopplungskompensators für den Fall einer Mehrkanalhörhilfsgerätsignalverarbeitung

The following explains two exemplary embodiments with reference to FIGS. 1 and 2. The figures show:

FIG. 1

a schematic structure of a feedback compensator to illustrate the signal and feedback compensation path and

FIG 2

a schematic structure of a feedback compensator in the case of multi-channel hearing aid signal processing

Figure 1 shows a schematic structure of a feedback compensator 1, which is a good quality reinforcement of a acoustic input signal 3 with a hearing aid signal processing 5 allows even if a feedback path 7 is present. Along a feedback path 7 can an output signal 9 together with the acoustic input signal 3 Find entrance to hearing aid signal processing 5. Around a whistle or other interference due to the feedback too prevent the acoustic input signal 3 using a Feedback compensation path changed so that the There is no feedback.

For this purpose, the acoustic input signal 3 splits at one Splitting node 11 into two signal components, one in a feedback-prone signal component 13 and the other into a feedback-free signal portion 15. Two complementary Filters 17 and 19 carry out the splitting in the frequency domain, so that, for example, the first filter 17 only Transmits frequencies greater than one kilohertz.

The signal component 13, which is at risk of feedback, is connected to an addition node 21 with an inverted compensation signal 23 summarized. The compensation signal 23 is by means of a Feedback compensation filter 25 generated. As an entrance in the feedback compensation filter 25 is used with a Frequency limiting filter 27 filtered output signal 29. A Adaptation unit 31 changes the coefficients of the feedback compensation filter 25, so the filtered output signal 29 after passing the feedback compensation filter 25 predominantly in the frequency range of energy feedback having.

A prerequisite for a successful adaptation is a meaningful one Error signal 33. Such is the risk of feedback Signal portion 13 after the merge with the Compensation signal 23 taken and the adaptation unit 31 fed for evaluation.

After the removal of the error signal 33, the feedback risk Signal portion 13 with the feedback risk Signal portion 15 merged at another node before it reaches the hearing aid signal processing 5. There it will correspond to the hearing loss of the hearing aid wearer amplified and forwarded to a speaker. This here executed signal course is particularly advantageous in its sequence, because it needs few nodes and arithmetic operations.

The feedback path 7 can be based on two feedback mechanisms are based, on the one hand, on acoustic feedback directly from the Speakers on the input microphone and the other on electromagnetic Feedback from a loudspeaker coil, for example on a telephone coil inside a hearing aid.

The feedback compensator 1 requires only one memory for the filtered output signal 29, since this for processing both the feedback compensation filter 25 and the adaptation unit 31 is forwarded.

In the present feedback compensator 1 one is preferred the first filter 17 and the frequency limiting filter 27 set essentially with the same filter function, because then the signal paths to the adaptation unit 31, which with the output signal 9, go through the same filters: In In one case, the output signal 9 passes through the frequency limiting filter 27 and becomes the adaptation unit immediately afterwards 31 fed. In a second case the compensation signal 23, starting from the amplified output signal 9 first the frequency limiting filter 27 and then the feedback compensation filter 25 has gone through, together with the feedback-prone signal portion 13 of the adaptation unit 31 fed. In a third case, the output signal passes through that along the feedback path 7 to the input signal 3 arrives, which is usually identical to the frequency limiting filter 27 selected first filter 17. In this way is a Feedback compensation system built up on is based on only two addition notes and only one buffer memory needed.

Dabei sind F1 und F2 die Übertragungsfunktionen des ersten bzw. zweiten Filters 17 bzw. 19, F3 ist die Übertragungsfunktion des Frequenzbegrenzungsfilters 27, H und H' sind die Übertragungsfunktionen des Rückkopplungspfads 7 bzw. des Rückkopplungskompensationsfilters 25 und G ist die Übertragungsfunktion der Hörhilfsgerätsignalverarbeitung 5. Das Produkt aus H und F2 kann bei günstiger Auslegung von F1 und F2 vernachlässigt werden.

The overall transfer function of the amplification system with the feedback compensator 1 is given as follows:

F1 and F2 are the transfer functions of the first and second filters 17 and 19, F3 is the transfer function of the frequency limiting filter 27, H and H 'are the transfer functions of the feedback path 7 and the feedback compensation filter 25 and G is the transfer function of the hearing aid signal processing 5. The product of H and F2 can be neglected with a favorable design of F1 and F2.

In Figure 2 is a schematic structure of a alternative - use of the feedback compensator 1 shown. The difference 1 is the signal processing using a Multi-channel hearing aid signal processing 34 performed. For this purpose, the recombined signal after input in the multi-channel hearing aid signal processing 34 by means of a Filterbank 35 on the various amplifiers 37, which in the work in different frequency ranges. Subsequently become the amplified signals in an addition node 39 summarized again to the amplified output signal 9. The advantage of this embodiment is that the adjustment the multi-channel hearing aid signal processing 34 to the Hearing loss of the hearing aid wearer regardless of the filter function of the frequency limiting filter 27 or the first filter 17 is. Influencing the parameters of multi-channel hearing aid signal processing 34 through the feedback compensator 1 is due to the inventive arrangement of the feedback compensator 1 prevents and allows a separate one Setting the parameters of the multi-channel hearing aid signal processing 34 and the parameters of the feedback compensator 1.

Claims (10)

Feedback compensator (1) in an acoustic amplification system for compensating a feedback signal,
that arises when an input signal is amplified due to a feedback path (7) from an amplified output signal (9) to the input signal (3),
with an adaptive feedback compensation filter (25) for forming a feedback compensation path simulating the feedback path (7),
with an adaptation unit (31) for adapting the feedback compensation filter (25) and
with a frequency limiting filter (27) for limiting the frequency range of the feedback compensation path,
an input signal path of the input signal (3) having two signal paths after splitting,
the first signal path having a first filter (17) and the second signal path having a second filter (19),
wherein the first signal path after the first filter is operatively connected to the feedback compensation filter (25) at a first node for subtracting a compensation signal (23) and to the adaptation unit (31) at a second node for outputting an error signal, and
an output of the second node and the second signal path being connected to a third node for addition,
an output of the third node being connected to an input of the amplification system. Feedback compensator (1) according to claim 1,
characterized in that the amplification system comprises a multi-channel amplification system. Feedback compensator (1) according to claim 1 or 2,
characterized in that the frequency limiting filter (27) is arranged between the output of the amplification system and the feedback compensation filter (25). Feedback compensator (1) according to one of Claims 1 to 3,
characterized in that the first filter (17) and the frequency limiting filter (27) have an at least substantially the same filter function. Hearing aid with a feedback compensator (1) one of claims 1 to 4. Method for compensating a feedback signal in an acoustic system, the feedback signal being produced when an input signal (3) is amplified due to a feedback path (7) from an amplified output signal (9) to the input signal (3), with an adaptation unit (31 ) controlled, adaptive feedback compensation filter (25), the feedback path (7) is simulated, and wherein a frequency limiting filter (27) limits the frequency range of a feedback compensation path emulating the feedback path (7), with the following method features: Splitting the input signal (3) into a feedback-endangered (13) and into a feedback-endangered signal portion (15). Merging the signal component (13) at risk of feedback with a compensation signal (23) of the feedback compensation filter (25) to form a feedback-compensated signal component. Feeding the feedback-compensated signal portion with the adaptation unit (31) for error signal evaluation. Merging the feedback-endangered (15) with the feedback-compensated signal component into a feedback-compensated signal, which is then amplified. The method of claim 6, wherein the amplified output signal (9) via the frequency limiting filter (27) to the adaptation unit (31) and to the feedback compensation filter (25) is directed. A method according to claim 6 or 7, wherein the feedback vulnerable Signal component (13) and the feedback compensation path at least approximately to the same frequency range be restricted. Method according to one of claims 6 to 8, wherein the reinforcement performed with a multi-channel amplification system becomes. Application of the method according to one of claims 1 to 9 in a hearing aid.

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