KR20220070815A - A Fitting Module Using a Mobile Device and a Method for Fitting with the Same - Google Patents

Abstract

The present invention relates to a fitting module for a portable electronic device and a fitting method using the same. The fitting module using a portable mobile device comprises: a band selection unit (12) for storing a sound signal in various frequency bands; a noise selection unit (13) for storing various sound signals introduced through a microphone of a portable electronic device; a fitting control unit (11) for transmitting a sound signal according to a frequency band to a hearing device (HA) through a speaker of the portable electronic device from the band selection unit (12) or the noise selection unit (13); a response detection unit (14) for detecting a response state for different frequency bands; a gain level determination unit (15) for determining a gain level according to a response detection result; and a hearing data unit (18) for generating hearing data based on the gain level according to the frequency band. Therefore, the present invention has an effect of providing a fitting module using a mobile device capable of adjusting a fitting level according to a use environment while allowing hearing data for fitting to be created by a mobile device such as a smartphone and a fitting method using the same.

Description

A Fitting Module Using a Mobile Device and a Method for Fitting with the Same}

The present invention relates to a fitting module by a mobile device and a fitting method by the same, and more particularly, to a fitting module using a mobile device capable of fitting to a fitting application installed in the mobile device, and a fitting method by the fitting module.

The hearing aid should be fitted according to the hearing data generated by the hearing test, and the hearing data may be generated by a professional hearing test organization. However, according to the development of electronic devices, personal hearing data may be created by an appropriate fitting program. Also, the hearing aid may be fitted and used by the generated hearing data. For example, hearing data may be created by installing a hearing test program in the form of an application in a mobile device such as a smartphone. Fitting for hearing aid is necessary for various types of earphones, and when a fitting program is installed in an electronic device such as a smartphone, it has the advantage that it can be applied to various types of earphones. Various prior art related to fitting are known in the art, and Patent Publication No. 10-2015-0082400 discloses that a direct communication channel between a hearing aid fitting part configured to communicate directly with a hearing aid system and an external device is a hearing aid fitting part, an external device, and a hearing aid. A hearing aid fitting system configured by a control server based on a unique identification of the fitting device and a method of fitting the hearing aid system are disclosed. In addition, Patent Laid-Open No. 10-1518877 discloses a self-fitting type hearing aid capable of adjusting frequency characteristics and output volume of the hearing aid without relying on an external fitting device. The hearing aid fitting method disclosed in the prior art has a problem in that if it can be applied to various hearing aids, the system structure for fitting becomes complicated, and when fitting is performed simply by itself, it is difficult to fit an individual suitable for it. Therefore, there is a need to develop a fitting technique or method suitable for individuals while fitting is performed in a simple manner.

The present invention is to solve the problems of the prior art and has the following objects.

Prior Art 1: Patent Publication No. 10-2015-0082400 (V-MEX A/S, published on July 15, 2015) Hearing aid fitting system and hearing aid system fitting method Prior art 2: Patent registration number 10-1518877 (Dr. Med Co., Ltd., announced on May 12, 2015) Self-fitting hearing aid

It is an object of the present invention to provide a fitting module and a fitting method using a mobile device capable of generating hearing data for fitting by a mobile device such as a smart phone and at the same time adjusting a fitting level according to a usage environment.

According to a suitable embodiment of the present invention, a fitting module using a mobile device includes: a band selection unit for storing sound signals of various frequency bands; a noise selection unit configured to store various sound signals introduced through a microphone of the mobile device; a fitting control unit for transmitting a sound signal according to a frequency band from the band selection unit or the noise selection unit to the hearing device through the speaker of the mobile device; a reaction detection unit for detecting reaction states for different frequency bands; a gain level determining unit that determines a gain level according to the response detection result; and a hearing data unit configured to generate hearing data based on the gain level according to the frequency band.

According to another suitable embodiment of the present invention, various environmental noises 31 are stored in the noise selection unit, and a plurality of hearing data are generated based on the environmental noises.

According to another suitable embodiment of the present invention, a fitting method by a portable mobile device includes the steps of: storing environmental noise according to various environmental conditions; generating tinnitus data according to environmental noise, and generating noise based thereon; generating various types of sound signals by a portable mobile device; applying hearing data to the sound signal; a step of injecting noise in the process of applying the hearing data;

A sound signal to which the noise-injected hearing data is applied is reproduced through a speaker; and detecting feedback on the reproduced sound.

The fitting module according to the present invention is installed in a portable mobile device such as a smart phone to enable self-fitting by performing fitting using a function of the mobile device. In addition, the fitting module according to the present invention allows the hearing change to be easily detected while adjusting the fitting data according to the hearing change. The fitting method by a portable mobile device according to the present invention allows the tinnitus phenomenon to be selectively alleviated or treated while fitting to be suitable for the use environment.

1 shows an embodiment of a fitting module using a mobile device according to the present invention.
2 illustrates an embodiment of a fitting method using a mobile device according to the present invention.
3 illustrates an embodiment to which an environmental situation is applied in a fitting process by the fitting module according to the present invention.
4 shows an embodiment to which the fitting method according to the present invention is applied.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments are for a clear understanding of the present invention, and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so unless necessary for the understanding of the invention, the description will not be repeated and well-known components will be briefly described or omitted, but the present invention It should not be construed as being excluded from the embodiment of

1 shows an embodiment of a fitting module 10 using a mobile device according to the present invention.

Referring to Fig. 1, the fitting module using a mobile device includes: a band selection unit 12 for storing sound signals of various frequency bands; a noise selection unit 13 for storing various sound signals introduced through the microphone of the mobile device; a fitting control unit 11 that transmits a sound signal according to a frequency band from the band selection unit 12 or the noise selection unit 13 to the hearing device HA through the speaker of the mobile device; a reaction detection unit 14 for detecting reaction states for different frequency bands; a gain level determining unit 15 that determines a gain level according to the reaction detection result; and a hearing data unit 18 that generates hearing data based on the gain level according to the frequency band.

The fitting module 10 may include an application that can be installed in an electronic device such as a smartphone, and may be operated using various installed parts or elements of the electronic device. For example, the fitting module 10 may operate a microphone, a speaker, or Bluetooth communication installed in an electronic device, and may use such a device in the fitting process. The overall operation of the fitting module 10 may be controlled by the fitting control unit 11, which generates fitting data to install the fitting data in the hearing aid, or to fit the sound signal transmitted to the hearing aid. It can have a function to apply data. Voice signals or sound signals of various frequency bands of the band selection unit 12 may be stored, and for fitting, the fitting control unit 11 selects a sound signal of each frequency band and sends it to the user through the speaker 22 . can transmit In addition, the noise selection unit 13 may be installed to collect and store various types of noise introduced through the receiver or the microphone 21 in the process of using the electronic device. In order to generate hearing data for fitting, sound signals of different frequency bands are selected by the band selection unit 12 by the fitting control unit 11 to transmit the hearing device HA through the speaker 22 of the mobile device. may be transmitted to the user. The hearing device HA may be an electronic device for transmitting various voices or sounds that can transmit a sound signal transmitted from the speaker 22 to the user's ear, such as an unfitted hearing aid or earphone. Each voice signal may be made of signals of various frequency bands in the audible frequency range, and sound signals of the same frequency band may be delivered to a user while having different amplitudes. In addition, the user's response to the sound signals having different amplitudes for each frequency band may be detected by the reaction detection unit 14 . In order to detect a reaction, a level indicator capable of displaying a level audible to the user may be displayed on the screen of the mobile electronic device. The user can indicate whether the delivered sound signal is audible, the level at which it is heard, or a response to a similar sound signal. In this way, sound signals of various frequency bands are transmitted to the user through the speaker 22 in various sizes, the reaction is detected by the reaction detection unit 14, and the detection result is transmitted to the gain level determination unit 15. can An amplification level for each frequency band may be determined by the gain level determining unit 15 , and hearing data may be generated by the hearing data unit 18 based on the amplification level. The user's hearing may be affected by various ambient noises, and different types of noises are selected by the noise selection unit 13 to detect the user's hearing level according to the ambient noise, and then fitted according to the hearing data. state can be transmitted to the user. In addition, the user's reaction to this may be detected by the reaction detection unit 14 to generate supplementary hearing data. A plurality of supplementary hearing data may be created for one hearing data. When hearing data or supplementary hearing data is generated in this way, a hearing aid may be fitted based thereon. For example, hearing data or supplementary hearing data is stored in the fitting module 10 , and when a user needs to purchase and use a hearing aid, the hearing aid may be fitted based on the hearing data. When the hearing aid has its own programmable structure, fitting data may be transmitted to the fitting module 10 to the hearing aid. For example, the hearing aid may perform Bluetooth communication, and fitting data may be transmitted from the mobile device to the hearing aid through Bluetooth communication, so that the hearing aid may be fitted. Alternatively, the hearing aid may be connected to enable data communication with the mobile device through, for example, a USB port, so that the hearing aid may be fitted. The fitting of the hearing aid according to the fitting data generated by the fitting module may be performed in various ways and is not limited to the presented embodiment. Hearing data or supplementary hearing data according to the present invention may be applied to electronic devices such as earphones. For example, the fitting module 10 may check whether the earphone is connected through wired or wireless communication, and transmit a voice signal fitted with the supplementary hearing data to the earphone. Alternatively, the supplementary audio signal may be transmitted to the hearing aid according to the supplementary hearing data. The fitting module 10 may be applied to various types of hearing devices, and the present invention is not limited thereto.

2 illustrates an embodiment of a fitting method using a mobile device according to the present invention.

Referring to FIG. 2 , the fitting module 10 may be executed to generate hearing data in the mobile device 20 such as a smartphone in which the fitting module is installed. When the fitting module 10 is executed, the execution mode of the fitting module 10 may be determined by the mode button 191 . The mode may be selected according to various environmental conditions in which hearing data are generated, such as, for example, an indoor mode, an outdoor mode, a noise mode, and an earphone wearing mode. When a mode is selected by the mode button 191, fitting may start. When fitting is started, fitting conditions may be set by the condition setting unit 16 . The fitting condition may include, for example, a basic size of a sound signal of each frequency band, a directivity characteristic, a number of repetitions, a bandwidth of each frequency band, or a tone color. When the fitting condition is set by the condition setting unit 16 as described above, different frequency bands may be selected by the selection button 192 . When a frequency band is selected by the selection button 192 as described above, a sound signal of the corresponding frequency band may be transmitted to the user through a speaker or an earphone. The volume may be adjusted by the volume button 193 in each frequency band. The volume button 193 may include an automatic recovery unit 193a. During the fitting process, the user may continuously increase the volume in an inaudible frequency band, thereby causing the volume to become excessively high. Due to this, a sound signal having a high volume in another frequency band may be transmitted to the user, thereby exposing the user to a risk. To prevent this, the volume button 193 may include an automatic restoration unit 193a, and when fitting is started in different frequency bands by the automatic restoration unit 193a, a basic volume may be restored. The user's hearing may be tested for each frequency band, and if it is determined that hearing is weak in a specific frequency band, it may be confirmed by the frequency band check unit 17 . The frequency band check unit 17 may have a function of identifying a frequency band indicating weak hearing and notifying the user thereof. In the frequency band check 17, a frequency band indicating weak hearing is displayed on the screen of the mobile device in an alarm manner, and the frequency band is repeatedly tested. When this process is completed, the entire test data may be transmitted to the hearing data generating unit 18 to generate hearing data. When the hearing data is generated in this way, the noise button 194 may be selected according to the user's selection. The noise button 194 may have a function of generating supplementary hearing data by adding noise to the generated hearing data. Various types of environmental noise may be selected by the noise button 194 , and the user's hearing may be tested in each frequency band in a state in which the noise is added to generate supplementary hearing data. As described above, various functions may be supplemented by the generation of hearing data or supplementary hearing data by the mobile device.

3 illustrates an embodiment to which an environmental situation is applied in a fitting process by the fitting module according to the present invention.

Referring to FIG. 3 , various environmental noises 31 are stored in the noise selection unit 13 , and a plurality of hearing data are generated based on the environmental noises 31 . A user may use a hearing aid or earphone in various environments, and noise according to the user's use environment may affect hearing. Various types of environmental noise may be collected by the environmental noise unit 31 by the environmental noise unit 31 . For example, the environmental noise may be collected through a microphone of the mobile device, and the collected environmental noise may be transmitted to the noise data module 32 . The noise data module 32 includes an environment information unit 32 that analyzes the collected noise characteristics to determine an environment; and a noise data unit 322 that generates noise data according to each environmental situation. The noise data and the reproduced sound 34 generated in this way may be generated, and the noise sound source may be generated by the noise sound source generating module 33 . The noise sound source may be reproduced through the speaker 22, and the reproduced sound signal may be transmitted to the hearing device HA through the communication means 35 and 36 such as Bluetooth communication. And the effect of such noise on the user's hearing may be analyzed. The noise data may have a function of allowing the noise-removed sound to be delivered to the user when the user is located in an environment that generates noise while analyzing the effect of noise on the user's hearing as described above. A plurality of noise data may be generated according to different environments with respect to one hearing data, and noise data suitable therefor may be applied according to each use environment. As such, the noise data may be used for various purposes and is not limited to the presented embodiment. Noise data can also be used to alleviate tinnitus symptoms.

4 shows an embodiment to which the fitting method according to the present invention is applied.

Referring to FIG. 4 , a tinnitus phenomenon may occur to a user according to the use environment 41 , and the tinnitus phenomenon may be alleviated by the tinnitus data generated by the tinnitus data module 45 . The subjective feeling of noise heard in the ear is called tinnitus, and it is recognized that sound is heard in the absence of external auditory stimulation. In most cases, situational tinnitus is not clinically called tinnitus, but is called tinnitus when it is at the level of harassment. Since the cause of tinnitus is not clear, a treatment method has not been established in practice, and treatment methods such as drug therapy to relieve symptoms accompanying tinnitus, counseling treatment, use of a hearing aid with tinnitus masking function, or psychiatric treatment are being applied. Another method of alleviating or treating tinnitus is to insert white noise or a sound signal preferred by the user into the sound signal actually heard in a situation in which tinnitus occurs or in a normal situation to provide. Tinnitus data may be generated by the tinnitus data module 45 from sound signals such as noise, white noise, natural sound, or music generated in various environmental conditions. Various types of tinnitus data may be generated according to the user's environment, and the generated tinnitus data may be transmitted to the noise generating module 46 . The noise generating module 46 may have a function of determining a type of tinnitus data applied, a size of tinnitus data, a frequency band of tinnitus data, or an application period of tinnitus data according to a use environment. For example, if a user feels tinnitus in a quiet indoor environment, a mixture of white noise and music may be generated. The noise generated in this way may be applied to the hearing data 43 applied to the reproduced sound 421 , the voice 422 , or the environmental sound 423 . A reproduction sound 421 , a voice 422 , or an environment sound 423 mixed with noise may be reproduced by the sound source generating module 44 and transmitted to the user through the speaker 22 . After a certain period of time has elapsed, whether the user feels the tinnitus phenomenon may be checked by the feedback module 47, and noise may be generated from various tinnitus data according to the feedback result. Tinnitus data is generated from various noises and can be applied in various ways and is not limited to the presented embodiment.

Although the present invention has been described in detail above with reference to the presented embodiment, those skilled in the art will be able to make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiment. . The present invention is not limited by such variations and modifications, but only by the claims appended hereto.

10: Fitting module
11: Fitting control unit 12: Band selection unit
13: noise selection unit 14: reactive mount unit
15: gain level determination unit 18: hearing data unit
21: microphone 31: environmental noise

Claims (3)

a band selection unit 12 for storing sound signals of various frequency bands;
a noise selection unit 13 for storing various sound signals introduced through the microphone of the mobile device;
a fitting control unit 11 that transmits a sound signal according to a frequency band from the band selection unit 12 or the noise selection unit 12 to the hearing device HA through the speaker of the mobile device;
a reaction detection unit 14 for detecting reaction states for different frequency bands;
a gain level determining unit 15 that determines a gain level according to the reaction detection result; and
A fitting module using a mobile device, comprising a hearing data unit (18) for generating hearing data based on a gain level according to a frequency band. The fitting module using a mobile device according to claim 1, wherein various environmental noises (31) are stored in the noise selection unit (13), and a plurality of hearing data are generated based on the environmental noises (31). storing environmental noise according to various environmental conditions;
generating tinnitus data according to environmental noise, and generating noise based thereon;
generating various types of sound signals by a portable mobile device;
applying hearing data to the sound signal;
A step of injecting noise in the process of applying the hearing data;
A sound signal to which the noise-injected hearing data is applied is reproduced through a speaker; and
A method of fitting by a portable mobile device, comprising the step of detecting feedback for a playback sound.

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