1. Field of the Invention
The present invention relates to a hearing aid of the type having an estimating device for estimating a usable signal from an input signal disturbed by interference and a signal-processing device for processing the usable signal to form a usable output signal. The present invention also relates to a method for suppressing noise at a hearing aid.
2. Description of the Prior Art
Persons with impaired hearing often have a reduced ability to communicate in noisy situations. To improve the signal-to-noise ratio, methods of noise reduction have been used for some time. For this purpose, in hearing aids the acoustic signal is picked up with the aid of one or more microphones and electrically processed in such a way that the signal-to-noise ratio is improved, and subsequently an interference-suppressed signal is output via an earphone in the auditory canal.
Depending on how the hearing aid is fitted, the acoustic signal may also enter the auditory canal directly, i.e. concurrently with an electrical processing path, and thus impair the desired influence of the electrical signal processing. Typical concurrent signal paths arise, for example, in the case of hearing aids with open supply or ear adapters with venting holes. In particular, it is known that such concurrent signal paths can strongly impair the noise suppression based on the directional microphone method in the low-frequency range to about 1 kHz.
A hearing aid of the above general type is known, for example, from German OS 198 13 512. Noise suppression occurs in this known device with the aforementioned impairment.
In addition, European Application 1 304 902 describes a method for interference elimination of a redundant acoustic signal in which the intensity of the interference is estimated and, dependent on the intensity of the interference, an input signal component is masked.
An object of the present invention is to provide a hearing aid with improved noise suppression. It is an object to provide an improved method of noise suppression for hearing aids.
According to the invention, this object is achieved by a hearing aid with an estimating device for estimating a usable signal from an input signal disturbed by interference and a first signal-processing device for processing the usable signal to form a usable output signal, and wherein the estimating device also estimates an interfering signal from the input signal disturbed by interference. Furthermore, the hearing aid has a second signal-processing device, with which it is possible to simulate the transfer function of an acoustic path, which is suitable for applying the transfer function to the interfering signal, thereby forming an interfering output signal. The hearing aid also has a combing device that combines the usable output signal with the interfering output signal.
Furthermore, the invention provides a method for suppressing noises at a hearing aid by estimating a usable signal from an input signal disturbed by interference and processing the usable signal to form a usable output signal, and also estimating an interfering signal from the input signal disturbed by interference, applying a transfer function with which an acoustic pith is simulated to the interfering signal, thereby forming an interfering output signal, and forming the usable output signal with the interfering output signal. The acoustic path will generally pass by the hearing aid in the auditory canal. This is a relatively short distance, so that it is important to generate a compensating signal from the estimated interfering signal as quickly as possible with the second signal-processing device. In this way it is possible to compensate as much as possible for the sound interference getting past the hearing aid to the eardrum.
The simulated transfer function may be linear. This reduces the computing time and consequently optimizes the interfering signal compensation. Alternatively, however, the transfer function may be time-variant, so that, for example, shifting of the hearing aid in the auditory canal can be taken into account.
Furthermore, the hearing aid may have an acoustic sensor, which, in the state of the hearing aid in which it is inserted in an auditory canal, can be placed or is placed at the end of the hearing aid facing the eardrum, so that its signal can be used for dynamic variation of the simulated transfer function of the second signal-processing device. In this way it is possible to take into account the acoustic state ahead of the eardrum to adapt the transfer function with a control loop.
The hearing aid may also have a coupling device, with which the usable output signal of the first signal-processing device can be coupled to the second signal-processing device for the variation of the simulated transfer function. In a further embodiment, the coupling factor of the coupling device during operation of the hearing aid can be set or varied. It is advantageous or the interfering signal to be strongly correlated with the usable signal, so that excessive damping of the usable signal can be prevented.
The exemplary embodiments described below represent preferred embodiments of the present invention.
The hearing aid schematically represented in
The transfer function Ĥ is obtained from a concurrent, acoustic signal path, which can be represented by a linear acoustic system 5 with a transfer function H. The input variable of the concurrent signal path is the same acoustic signal x that is also picked up by the microphone 2. At the end of the concurrent signal path, i.e. in the auditory canal, the acoustic signal xH is obtained on account of the multiplication by the transfer function H of the linear acoustic system 5. That the concurrent signal path is a linear acoustic system is undoubtedly a simplifying assumption, which has the purpose of making the signal-processing device 4 that is used for estimating or simulating the concurrent signal path as simple as possible.
The output signal {circumflex over (n)} Ĥ of the signal-processing device 4 with the transfer function Ĥ represents an estimate of the interfering signal xH that passes via the concurrent signal path into the auditory canal. This signal {circumflex over (n)} Ĥ is subtracted from the output signal of the signal-processing device 1 and thereby fed in phase opposition into the auditory canal through the earphone or speaker 6 of the hearing aid. In this way, the interfering signal xH and the anti-phase, estimated interfering signal {circumflex over (n)} Ĥ are cancelled out in the auditory canal and the concurrent signal path is compensated, to the extent to which this is allowed by the difference in transit time between the acoustic signal path and the electrical signal path.
The hearing aid of a second embodiment of the present invention is schematically reproduced in
If, however, the estimated interfering signal {circumflex over (n)} correlates to a certain extent with the usable signal at the hearing aid output, the influence of the usable signal on the adaptation of the filter or the signal-processing device 4′ can be reduced by the transfer function Ĥ, in that the usable signal is filtered by the coupling function G with a suitably chosen system 8. Such a system is represented in
The other components that are not mentioned in connection with the description of
In summary, it can consequently be stated that the signal {circumflex over (n)} Ĥ fed into the auditory canal in phase opposition compensates for the Interfering signal components xH of the acoustic signal x in the auditory canal. In particular, the noise suppression by directional microphone switching configurations can also be made possible when concurrent signal paths do not make it possible by conventional approaches.
Although modifications and changes may be suggested by those skilled in the art, it is tile intention of the inventors to embody within the patent warranted hereon all changes and modifications as reasonably and properly come within the scope of their contribution to the art.
Number | Date | Country | Kind |
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103 57 800.5 | Dec 2003 | DE | national |