KR101557625B1 - Hearing Aid Capable of Selecting Fitting Parameter on Being Worn at Ear - Google Patents

Abstract

The present invention relates to a hearing aid capable of selecting a fitting parameter in a wear state, and more particularly, to a hearing aid which enables selection of a fitting parameter by a user to be suitable for a use environment in a wear state. The hearing aid comprises a selection switch (11) having user input means; A parameter selection module (122) storing at least one parameter belonging to at least one group which can be selected by the user by the selection switch (11); And a sound source reproduction module (121) for providing a sound source that is a basis of parameter extraction for the parameter selection module (122), wherein the parameter selection module (122) After fitting is possible.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hearing aid capable of selecting a fitting parameter in a wear state,

The present invention relates to a hearing aid capable of selecting a fitting parameter in a wear state, and more particularly, to a hearing aid which enables selection of a fitting parameter by a user to be suitable for a use environment in a wear state.

Generally, the fitting of a hearing aid can be accomplished by a method of storing selected fitting parameters in a hearing aid using fitting software in a processing device such as a personal computer (PC). The fitting software is operated based on the audiogram according to the user, and the fitting parameters are determined. If it is judged that the fitting applied during the use of the hearing aid is not suitable, a new fitting can be made through the hearing test such as a pure tone test again. Such a fitting procedure has a disadvantage in that the hearing test environment may not match the actual use environment. In addition, such a fitting process has a problem that the satisfaction according to the participation of the user is not reflected in the inspection process, and it can not cope with the change of the user's hearing.

As a prior art related to the fitting of a hearing aid, Patent Publication No. 2013-0067311 entitled " Hearing aid system and method for fitting a hearing aid system ". The prior art includes connecting means for providing a wireless connection with an external device, memory means for storing hearing aid variables, and signal processing means for starting recording in response to a trigger signal received from an external device, An audio-electrical input conversion device for providing an electrical audio signal, a memory means for storing a sample of the electrical audio signal, a user input means and a response to activation of the user input means And signal processing means for starting the recording of the electrical audio signal samples and starting transmission of the trigger signal to the hearing aid.

Another prior art related to the fitting of a hearing aid is disclosed in Korean Patent Publication No. 2012-0088879, 'Signal processing method in hearing aid, hearing aid fitting method and hearing aid'. The prior art includes capturing an acoustic signal; Deriving an input signal from the acoustic signal; Deriving a control signal from an input signal; Processing the input signal in a signal processing device in accordance with the control signal to provide an output signal, wherein deriving the control signal comprises estimating a signal level for the input signal to provide an input signal level estimate And using the input signal level estimate as an input to a standard compressor for the input signal to determine a standard compressor gain control output in accordance with standard compression characteristics and thereby providing a standard control signal component Using the input signal level estimate as an input to the individual compressor to determine an individualized compressor gain control output in accordance with the individualized compression characteristics for the input signal and thereby provide an individualization control signal component An individualization process execution step including the steps of: Characterized by multiplying the quasi-process control signal component and the individualization process control signal component to form the control signal, and wherein the standard process and the individualization process are performed in substantially the same frequency band .

Although the disclosed prior art discloses an individualized fitting suitable for a user's selection or a user, it is disadvantageous that an external auxiliary device must be used in the fitting process and the device is complicated and the complicated fitting process is repeated every time the use environment is changed .

The present invention has been made to solve the problems of the prior art and has the following purpose.

SUMMARY OF THE INVENTION An object of the present invention is to provide a hearing aid which enables fitting after wearing by selecting a predetermined parameter according to a use environment.

According to a preferred embodiment of the present invention, the hearing aid comprises a selection switch having user input means; A parameter selection module storing at least one parameter belonging to at least one group that can be selected by the user by the selection switch; And a sound source reproduction module for providing a sound source serving as a basis of parameter extraction for the parameter selection module, and fitting after wearing by parameter selection from the parameter selection module by the selection switch is possible.

According to another preferred embodiment of the present invention, the sound source reproduction module includes a pre-stored internal sound source unit and an external sound source unit introduced from the outside.

According to another preferred embodiment of the present invention, the hearing aid further comprises an environment variable unit for extracting environmental parameters from the sound source and a comparator for comparing said at least one parameter with said environmental parameter.

According to another preferred embodiment of the present invention, the hearing aid further comprises a communication chip for updating the data of the parameter selection module.

According to another preferred embodiment of the present invention, the parameter stored in the parameter selection module is clustered.

The hearing aid according to the present invention has an advantage that fitting can be performed in a state in which a user wears a hearing aid using previously stored fitting parameters. The fitting parameters can be divided into a plurality of groups according to the use environment, and the user can perform fitting using the selection switch according to the actual use environment. Therefore, it is possible to fit fitting to each user's own at the same time while being suitable for the actual use environment. In addition, the hearing aid according to the present invention has an advantage that a function realized in an expensive hearing aid can be applied at a low manufacturing cost.

1 schematically shows an embodiment of the structure of a hearing aid according to the present invention.
2 schematically shows an embodiment of an operating structure of a hearing aid according to the present invention.
3 schematically shows an embodiment in which a hearing aid according to the present invention is applied in an actual use environment.
FIG. 4 schematically shows an embodiment of a method of using a hearing aid according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

1 schematically shows an embodiment of the structure of a hearing aid according to the present invention.

Referring to FIG. 1, a hearing aid 10 according to the present invention includes a selection switch 11 having user input means; A parameter selection module (122) storing at least one parameter belonging to at least one group which can be selected by the user by the selection switch (11); And a sound source reproduction module (121) for providing a sound source that is a basis of parameter extraction for the parameter selection module (122), wherein the parameter selection module (122) After fitting is possible.

The hearing aid 10 may be in any form known in the art. The structure of the hearing aid 10 according to the present invention can be realized by installing the sound source reproduction module 121 and the parameter selection module 122 in the form of software or hardware while connecting the selection switch 11 to a known hearing aid, Can be made.

The parameters herein may include, for example, amplification levels according to frequency bands, compression ratios according to frequency bands, movement of specific frequency bands, white noise or environmental noise. In this way, the parameters may include fitting parameters based on audiograms according to individual users, actual usage environment of the user, and fitting parameters reflecting the user's subjective characteristics. For example, the parameters may include such things as the hearing loss frequency band, the amplification level according to the hearing loss frequency band, or the compression ratio. The parameters may also include environmental noise that the user is not sensitive or responsive to, environmental noise due to the user's preferred speech signal, or user's environment. As described below, parameters may be classified to belong to at least one group.

The selection switch 11 may be provided so as to enable the user to operate it, for example, and may be located outside by using a cable from a hearing aid module worn on the ear. Alternatively, the selection switch 11 may be made in software, for example, to appear in a pop-up form on a mobile device using a communication chip embedded in the hearing aid 10. Also, the selection switch 11 can be made to be connected to the hearing aid module using a connection jack. The selection switch 11 can be made in various forms, and the present invention is not limited by the shape, structure, or connection method of the hearing aid module with the selection switch 11.

The selection switch 11 may have a plurality of auxiliary buttons for selection or adjustment of parameters such as a setting button 111 and an adjustment button 112, for example. For example, when the setting button 111 is pressed, different parameters may be selected to be selected, and if the setting button 111 is held pressed for a predetermined time, the corresponding parameter may be selected. The adjustment button 112 may, for example, have the function of increasing or decreasing the volume during fitting. Also, an adjustment button 112 may be used for movement to another group. The number of the auxiliary buttons provided on the selection switch 11 is not particularly limited, and the operation of each of the auxiliary buttons and the functions thereof can be set in various forms.

The setting chip 12 includes a parameter selection module 122 in which parameters selected by the selection switch 11 are stored and a sound source reproduction module 121 that provides a sound source for selection of parameters in the parameter setting module 122 . The setting chip 12 may be functionally connected to the hearing aid unit 13 and may be installed inside the hearing aid module. Herein, the hearing aid unit 13 refers to a device or a device including a chip, which is related to the direct operation and control of the hearing aid 10 including, for example, a microphone pro, a filter, a receiver, an amplifier and a signal processing processor. And the hearing aid module includes the setting chip 12 and the hearing aid unit 13 and the hearing aid 10 includes the selection switch 11. [ The set concept is merely for convenience of explanation, and the setting chip 12 may include a signal processing processor, and some functions or elements of the hearing aid unit 13 may be included in the setting chip 12 as needed. May include various known components related to the operation of the hearing aid unit 10 of the hearing aid unit 13 or the setting chip 12. [

The sound source reproducing module 121 may include an internal sound source unit 121a and an external sound source unit 121b. The internal sound source unit 121a may include a plurality of pre-stored sound source data and may have sound source data having different characteristics such as different frequencies, for example. Each sound source data can be classified and stored according to the characteristics. On the other hand, the external sound source unit 121b may be configured to transmit the sound source introduced from the outside to the microphone. The internal sound source unit 121a can be used, for example, when a user performs fitting in a quiet environment for initial fitting of a hearing aid. And the external sound source unit 121b can be used to fit the sound source unit 121a to fit the actual environment in a state where it is fitted by the internal sound source unit 121a.

The parameter data stored in the parameter selection module 122 can be determined from the sound source data transmitted from the sound source reproduction module 121. [ And the parameter can be selected by the selection switch 11. A plurality of parameters may be stored in the parameter selection module 122 and each parameter may be transmitted to the hearing aid unit 13 by the selection switch 11. [ For example, each parameter stored in the parameter selection module 122 may have a serial number and the parameter may be transferred to the hearing aid unit 13 in turn each time the selection switch 11 is pressed. Then, it can be fitted by the selected parameter and transmitted to the user through the receiver. If the user desires the selected parameter, the selection switch 11 is depressed for a certain period of time and thus the fitting parameter can be determined.

If the number of parameter data is large, selecting such a series of data in this order can complicate the fitting process. In addition, parameters having different characteristics may be required depending on the user. Therefore, the parameter data is appropriately selected and the selected parameters need to be properly classified.

Each parameter stored in the parameter selection module 122 may be classified according to the audiogram of the user or selected from standard parameter data. First, the hearing data of the user can be analyzed and a plurality of parameters can be selected according to the analysis result. On the other hand, the standard parameter data may be parameter data required according to the user's hearing data and the user's personal characteristics, and from which a plurality of parameters required of the user may be selected. A clustering method can be applied in the process of analyzing hearing data or selecting parameters from standard parameter data. The clustering process can be applied, for example, but not limited to, a K-means clustering method. By clustering, for example, the parameters can be classified to belong to at least one cluster, for example the clusters can be from 3 to 10. Clustering can be applied in advance or applied during use. Clustering can be multi-level. For example, clustering can be made up of upper clusters and lower clusters.

Clustering has the advantage that the parameters are adapted to the actual usage environment of the user, while at the same time facilitating the user's selection. The actual usage environment of the user includes the user's own physical environment and the external environment. For example, the parameter selection module 122 may include an analysis unit and the analysis unit may store parameters that are not used for a long time to the user, or parameters that are not generated and stored from the new sound source. After analyzing the parameters stored in the analysis module, the clustering can be resumed and the selection of parameters suitable for the user is made possible.

On the other hand, the analysis module can select a cluster suitable for the user's current environment based on parameters extracted from the sound source transmitted from the user's actual use environment. When the user presses the selection switch 11, the parameters included in the selected cluster can be given priority. The analysis module may have functionality similar to the comparator described below.

When the parameter is selected in the setting chip 12, it can be transmitted to the hearing aid unit 13, so that the hearing aid unit 13 can be fitted according to the selected parameter. When the actual use environment is changed, the user can perform fitting using the selection switch 11 again.

Described below is the process of selecting a parameter.

2 schematically shows an embodiment of an operating structure of a hearing aid according to the present invention.

Referring to FIG. 2, the hearing data 251 according to the hearing test is analyzed and the clustering of the parameters can be performed by the clustering unit 252. Clustering of parameters by the hearing data 251 and the clustering unit 252 is included in the above-described parameter selection module (see reference numeral 122 in FIG. 1) (122). ≪ / RTI > When the clustered parameter is stored in the parameter selection module, the hearing aid user can perform fitting of the hearing aid by the operation of the selection switch 21. [ The sound source is first transmitted through the control module 24 by the sound source reproduction unit 221 and the user selects one parameter by the selection switch 21. [ The sound source transmitted by the parameter unit 222 can be fitted and transmitted to the hearing aid unit 23. [ It is then processed by the processing processor and delivered to the user. The user can display the satisfaction according to the selected parameter and can also select other parameters. The comparator 26 tracks the application of a plurality of fitting parameters according to the transmitted sound source. On the other hand, the comparator 26 may have a predetermined parameter list that is suitable for the user. And transmits the predetermined parameter to the parameter unit 222 so that it is selected by the selection switch 21 accordingly. On the other hand, as described above, according to the present invention, each parameter can belong to a plurality of clusters and needs to be a selection of one parameter belonging to each cluster. So that the comparator 26 can derive a selection of one of the parameters belonging to each cluster. For example, the comparator 26 can notify the user when all of the parameters belonging to one cluster are selected by the selection switch 21. The user can then repeat the selection of parameters in the cluster again. The comparator 26 can derive the appropriate selection of the user's parameters in various ways and store the selected parameters. In the case where the use environment is changed in the future, the user can be guided to apply the parameter according to the change of the use environment.

If the user wears a hearing aid and fits according to the method described above and uses the hearing aid, the fitting can be performed again if the use environment is changed. When the fitting is performed in this process, the parameter unit 222 may select a cluster related to the environmental factor among a plurality of the clusters and provide the parameter to the user. Optionally, the comparator 26 may extract and pass parameters related to the changed environment to the parameter unit 222. And the parameter unit 222 may optionally provide a parameter associated with the transmitted parameter to the user's selection switch 21.

The hearing aid according to the present invention may be operated in various ways and is not limited to the embodiments shown.

3 schematically shows an embodiment in which a hearing aid according to the present invention is applied in an actual use environment.

Referring to FIG. 3, the sound source reproducing module may include an internal sound source unit 311 and an external sound source unit 312. The internal tone generator unit 311 may store a plurality of tone generator data suitable for fitting, for example, according to a user's preferred tone generator or user's hearing data. For example, sound source data having different frequencies, envelopes, waveforms, or white noise may be stored in the internal sound source unit 311. On the other hand, the external sound source unit 312 may have a function of transmitting a sound source generated in an external environment. The external tone generator unit 312 may include speech and environmental noise of the conversation user. The internal sound source unit 311 can be used for the initial fitting and the external sound source unit 312 can be operated in an actual use environment. The sound source transmitted from the internal sound source unit 311 and the external sound source unit 312 can be selected by the filter unit 313 or filtered and transmitted to the control unit 34. [ The filter unit 313 can select a sound source transmitted from the internal sound source unit 311 and the external sound source unit 312 and can filter the sound source transmitted to the external sound source unit 312 and transmit it to the control unit 34 have. For example, if the sound source is out of the audible frequency or is temporarily generated, it can be removed by the filter unit 313 in advance and transmitted to the control unit 34. The filter unit 313 may be independent of the control unit 34 or be part of the control unit 34. [ The control unit 34 transmits the delivered sound source to the comparator 26. [ Then, the comparator 26 determines whether it is an initial fitting process or an initial fitting is performed and a use environment fitting. If it is the initial fitting, the fitting proceeds according to the method described in Fig. Otherwise, if it is a use environment fitting, the sound source transmitted from the external sound source unit 312 is transmitted to the environment variable unit 322. The environment variable unit 322 extracts the environment parameter from the sound source transferred from the comparator 26 and transmits it to the comparator 26.

The comparator 26 selects a cluster that matches the environment parameter from the cluster parameter unit 222 of the parameter selection module. Then we select the parameter with high matching level from the selected cluster again. And transmits it to the control unit 34. The control unit 34 then transmits the selected parameter to the hearing aid unit 33 and thus becomes a fitting in the hearing aid unit 33. [ The user can select different parameters using the selection switch as required.

Parameters selected for the user may be stored in the memory 37 and parameters stored in the memory 37 may be stored when a similar external environmental sound source is transmitted in the future. Data stored in the cluster parameter 222 may be updated using the communication chip 31 as needed. The communication chip 31 may be a wired or wireless means that can be connected to an external device. The updating of the data can be done, for example, when a change in the user's hearing data is required or when new standard parameter data needs to be applied.

The use of the hearing aid according to the present invention will be described below.

FIG. 4 schematically shows an embodiment of a method of using a hearing aid according to the present invention.

Referring to FIG. 4, in order to use the hearing aid according to the present invention, parameters must be stored first (S411). Parameters can be stored in clustering form. The user can select a stored parameter by using a switch for initial fitting (S412). Then, a fitting to which various parameters are applied may be performed (S413). If the user is satisfied with the set fitting, it can be determined (S414). The satisfaction of the user can be judged in the initial fitting process or in the use process of the hearing aid, and can be judged, for example, by the user's selection switch. If the user is not satisfied with the setting (NO), the switch selection process is started again (S412). If the user is satisfied with the setting (YES), the user uses the hearing aid according to the applied fitting. Thereafter, the use environment may be changed (S415), and the user may need to perform the use environment fitting. The user inputs the process from the selection switch for the environment fitting (S416). According to the input of the user, the external sound source is transmitted and environment variable extraction can be performed as described above (S417). The parameter may be called from the parametric selection module according to the extracted environment variable (S418). Then, the hearing aid fitting may be set according to the called parameter (S413), and the satisfaction level may be determined again (S414). And the process described above can be initiated.

The embodiment shown in FIG. 4 is illustrative and the hearing aid according to the present invention can be used in various ways, and the present invention is not limited to the embodiments shown.

The hearing aid according to the present invention has an advantage that fitting can be performed in a state in which a user wears a hearing aid using previously stored fitting parameters. The fitting parameters can be divided into a plurality of groups according to the use environment, and the user can perform fitting using the selection switch according to the actual use environment. Therefore, it is possible to fit fitting to each user's own at the same time while being suitable for the actual use environment. In addition, the hearing aid according to the present invention has an advantage that a function realized in an expensive hearing aid can be applied at a low manufacturing cost.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: Hearing aid 11: Selection switch
111: Setting button 112: Control button
12: Setting chip 121: Sound source reproducing module
121a: Internal sound source unit 121b: External sound source unit
122: Parameter selection module 13: Hearing aid unit
222: parameter unit 23: hearing unit
251: hearing data 252: clustering unit
26: comparator 31: communication chip
311: Internal sound source unit 312: External sound source unit
313: Filter unit 34: Control unit
322: environment variable unit 33: hearing aid unit
37: Memory

Claims (5)

A selection switch (11) having user input means;
A parameter selection module (122) in which at least one parameter belonging to two or more divided groups that can be selected by the user by the selection switch (11) is stored;
An environment variable unit (322) for extracting environmental parameters from a sound source; a comparator (26) for comparing the environmental parameter and the at least one parameter; And
And a sound source reproduction module (121) for providing a sound source serving as a basis of parameter extraction for the parameter selection module (122)
Wherein fitting is possible after wearing by parameter selection from the parameter selection module (122) by the selection switch (11). delete delete delete delete

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