KR101369160B1 - Hearing Aid - Google Patents

Abstract

Disclosed are a hearing aid device and a method for measuring and correcting hearing using the same.
A terminal communication unit which receives a measurement control signal and a response signal from a communication terminal; A controller configured to set a hearing measurement value corresponding to the measurement control signal; A measurement signal generator configured to generate a hearing measurement signal based on the hearing measurement value; A measurement performing unit which converts the hearing measurement signal into an analog sound signal and outputs the measured sound to perform hearing measurement, and generates a hearing measurement result of the hearing measurement; A measurement result transmission unit for transmitting the hearing measurement result value to the communication terminal; And a storage unit for storing the hearing measurement value and the hearing measurement result value.
According to the present embodiment, a hearing measurement is performed in a hearing aid device using a control signal transmitted from a communication terminal, the hearing measurement result value calculated through the hearing signal is stored, and the hearing characteristics of the user based on the stored hearing measurement result value. By correcting the sound signal to fit the simple hearing measurement and correction of the hearing aid device is possible, there is an effect that can provide an optimized hearing aid device for the user.

Description

Hearing aid device and hearing measurement and correction method using same {Hearing Aid}

This embodiment relates to a hearing aid and a hearing measurement and correction method using the same. More specifically, a hearing measurement is performed in a hearing aid device using a control signal transmitted by a communication terminal, the hearing measurement result calculated through the hearing signal is stored, and the user's hearing characteristics are based on the stored hearing measurement result. Hearing device and a hearing measurement and correction method using the same to enable a simple hearing measurement and correction of the hearing aid by correcting the sound signal to fit.

The contents described in this section merely provide background information on the present embodiment and do not constitute the prior art.

Personal portable digital devices and communication communication terminals capable of reproducing sound or voice such as smart phones and MP3s have sufficient sound and amplification functions that may cause hearing damage to users. In listening to music or performing a voice call, most users increase the volume in consideration of the ambient noise environment and use the aforementioned devices. Due to this cause, the number of users of hearing aids is increasing in the younger class, and as a countermeasure, hearing aids using various digital technologies have appeared. Conventional hearing aids have a function of correcting and amplifying the acoustic signal according to the ambient noise canceling function and the frequency. In addition, there is a function to reconfigure the hearing aid filter according to the hearing condition, and to control the sound quality of the audio device.

However, even if these techniques are applied to hearing aids, the user may feel inconvenient to use the hearing aids because there is no way to effectively reflect the state of hearing that changes from time to time. In the current distribution and A / S structure of hearing aids, the frequency change and volume can be reset only through the dedicated correction equipment provided in the hearing aid specialty store. There is a inconvenience to visit the hearing aids that are equipped with a specialty store. In addition, hearing aids with various specifications have different beep frequencies required for hearing measurement and correction depending on the number of frequency channels and frequency bandwidths provided by each device. If the result value for the measurement is applied, there is a problem that the hearing aid cannot output at the frequency of the beep sound according to the applied result value.

According to the present embodiment, a hearing measurement is performed in a hearing aid device using a control signal transmitted from a communication terminal, the hearing measurement result value calculated through the hearing signal is stored, and the hearing characteristic of the user is based on the stored hearing measurement result value. The main object of the present invention is to provide a hearing aid and a hearing measurement and correction method using the same, which allow simple hearing measurement and correction of a hearing aid by correcting an acoustic signal.

According to an aspect of the present embodiment, a terminal communication unit for receiving a measurement control signal and a response signal from the communication terminal; A controller configured to set a hearing measurement value corresponding to the measurement control signal; A measurement signal generator configured to generate a hearing measurement signal based on the hearing measurement value; A measurement performing unit which converts the hearing measurement signal into an analog sound signal and outputs the measured sound to perform hearing measurement, and generates a hearing measurement result of the hearing measurement; A measurement result transmission unit for transmitting the hearing measurement result value to the communication terminal; And a storage unit for storing the hearing measurement value and the hearing measurement result value.

In addition, according to another aspect of the present invention, a method for performing a hearing measurement using a hearing aid device, comprising: a control signal receiving process for receiving a measurement control signal from a communication terminal; A measurement value setting step of setting a hearing measurement value corresponding to the measurement control signal; A hearing measurement signal generation process of generating a hearing measurement signal based on the hearing measurement value and converting the hearing measurement signal into an analog sound signal; A hearing measurement step of outputting the analog sound signal to perform a hearing measurement and generating a hearing measurement result value for the hearing measurement performed; And a measurement result transmission process of transmitting the hearing measurement result value to the communication terminal.

In addition, the terminal communication unit for receiving the measurement control signal and the response signal from the communication terminal; A measurement signal generator configured to set a hearing measurement value corresponding to the measurement control signal and to generate a hearing measurement signal based on the hearing measurement value; A measurement performing unit configured to convert the hearing measurement signal into an audio signal and output the acoustic signal to perform hearing measurement, and to generate and store a hearing measurement result of the hearing measurement; A measurement result transmission unit for transmitting the hearing measurement result value to the communication terminal; And receiving an analog sound signal and converting the sound signal into a digital sound signal, applying the hearing measurement result to the digital sound signal, and resetting at least one or more information of a frequency channel, a bandwidth, and a volume. It provides a hearing aid device characterized in that it comprises a correction unit for generating a digital sound signal converted to an analog reset sound signal.

As described above, according to the present embodiment, the hearing measurement is performed in the hearing aid using the control signal transmitted by the communication terminal, and the hearing measurement result value calculated therein is stored and based on the stored hearing measurement result value. By correcting the acoustic signal according to the user's hearing characteristics, a simple hearing measurement and correction of the hearing aid is possible, and the user can provide an optimized hearing aid device.

In addition, there is no need to visit a place equipped with a dedicated correction device for the correction of the hearing aid device, it is possible to save time and money.

1 is a block diagram schematically showing a hearing aid system capable of measuring hearing according to the present embodiment;
2 is a block diagram schematically showing a hearing aid capable of measuring hearing according to the present embodiment;
3 is an exemplary view showing a data packet of a signal transmitted and received between a communication terminal and a hearing aid device according to the present embodiment;
4 is a flowchart illustrating a hearing measurement method using the hearing aid device according to the present embodiment;
5 is a flowchart illustrating a hearing measurement method using the hearing aid according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically showing the hearing aid system capable of measuring hearing according to the present embodiment.

As shown in FIG. 1, the hearing aid system includes a communication terminal 110 and a hearing aid device 120.

The communication terminal 110 refers to a terminal capable of transmitting and receiving various data using short-range communication according to a user's key manipulation, and includes a tablet PC, a laptop, a personal computer, It may be one of a smart phone, a personal digital assistant (PDA), a wireless terminal, and the like.

The communication terminal 110 is a terminal for performing voice or data communication using short-range communication, and executes a memory for storing a browser, a program and a protocol for communicating with the hearing aid device 120 using short-range communication, and various programs. Means a terminal equipped with a microprocessor for operation and control. On the other hand, the communication terminal 110 is preferably manufactured in the form having a touch screen, but is not necessarily limited thereto.

The communication terminal 110 drives the hearing measurement application 112 by a user's manipulation or command, and is connected to the hearing aid device 120 through the hearing measurement application 112 to transmit a measurement control signal. The hearing measurement application 112 refers to an application installed after being downloaded through an application store when the communication terminal 110 is a smart phone, and downloaded through a communication company server when the communication terminal 110 is a feature phone. It refers to virtual machines and applications.

The communication terminal 110 according to the present embodiment is connected to the hearing aid device 120 through the hearing measurement application 112 driven by the user's input, transmits a measurement control signal, and the hearing measurement result from the hearing aid device 120. Receive and display the value. Meanwhile, the communication terminal 110 is connected to the hearing aid device 120 using short-range communication and transmits a measurement control signal. Here, the short-range communication is preferably Zigbee (Zigbee), ULP (Ultra Low Power) technology in order to reduce the miniaturization and power consumption of the communication terminal 110 and the hearing aid device 120, but is not necessarily limited thereto, for example, Bluetooth , Wireless LAN communication, RFID (Radio Frequency Identification) and NFC (Near Field Communication) such as communication is also possible.

On the other hand, the measurement control signal is a signal input to the communication terminal 110 through the user's operation means a signal for controlling the setting of the hearing aid device 120. For example, the measurement control signal may set at least one or more information of a measurement frequency channel, a bandwidth, and a measurement volume.

The hearing measurement application 112 included in the communication terminal 110 refers to a software program for controlling the hearing aid device 120 that performs hearing measurement using short-range communication. The hearing measurement application 112 may be implemented or manufactured to suit various operating system (OS) environments such as iOS, Android, and Windows Phone 7.

Hearing aid device 120 is a device that is attached to the ear to compensate for hearing loss as is well known as a kind of amplification device. In more detail, the hearing aid device 130 is connected to the communication terminal 130 to perform a hearing measurement, and when the hearing measurement is completed, converts the acoustic signal received through the microphone into an electrical signal, the electrical signal to the hearing measurement result It means that the frequency channel and volume are set according to the value, and converted into an audio signal and provided to the user.

The hearing aid device 120 according to the present embodiment includes a hearing measurement module 130 and a hearing aid performing module 140.

The hearing measurement module 130 refers to a module connected to the communication terminal 110 to perform hearing measurement by using short-range communication.

The hearing measurement module 130 according to the present embodiment transmits and receives a connection signal and a response signal to and communicates with the communication terminal 110, and receives a measurement control signal generated by a user's operation to measure a hearing corresponding to the measurement control signal. Set the value. Here, the measurement control signal means a signal for setting at least one or more information of a measurement frequency channel, a bandwidth, and a measurement volume for performing hearing measurement. In addition, the hearing measurement module 130 performs hearing measurement by generating and outputting a hearing measurement signal which is a sound signal based on the hearing measurement value. Here, the hearing measurement signal is preferably a beep (Beep) for measuring hearing, but is not necessarily limited thereto, and may be implemented as any signal if hearing measurement is possible. In this case, when the user transmits an acknowledgment response signal through the communication terminal 110, the hearing measurement module 130 generates the corresponding hearing measurement signal as a hearing measurement result value, and the user recognizes the acknowledgment response through the communication terminal 110. When not transmitting a signal or transmitting an unknown response signal, the hearing measurement is performed by changing the value of the hearing measurement signal. In addition, the hearing measurement module 130 transmits the generated hearing measurement result value to be displayed on the communication terminal 110.

The hearing aid performing module 140 receives an analog sound signal, converts it into a digital sound signal, applies the hearing measurement result generated by the hearing measurement module 130 to the digital sound signal, and performs correction. The signal is converted into an analog sound signal and output.

2 is a block diagram schematically showing a hearing aid capable of measuring hearing according to the present embodiment.

The hearing aid device 120 according to the present embodiment includes a hearing measurement module 130 and a hearing aid performing module 140. In this case, the hearing measurement module 130 includes a terminal communication unit 210, a control unit 212, a storage unit 214, a measurement signal generator 216, a measurement execution unit 218, and a measurement result transmitter 219. The hearing aid performing module 140 includes an acoustic receiver 220, an A / D converter 222, a correction unit 224, a D / A converter 226, and an acoustic transmitter 228.

The hearing measurement module 130 refers to a module that performs hearing measurement. The components included in the hearing measurement module 130 will be described in detail as follows.

The terminal communication unit 210 is connected to an external device such as the communication terminal 110 to provide a communication interface for transmitting and receiving data between the hearing aid device 120 and the external device.

The terminal communication unit 210 according to the present embodiment receives a connection signal from the communication terminal 110, and changes the response signal by changing from the sleep mode to the active mode in order to use the near field communication according to the connection signal. Transmission to the communication terminal 110.

When the terminal communication unit 210 is connected to the communication terminal 110, the terminal communication unit 210 receives a measurement control signal generated by a user's operation from the communication terminal 110. Here, the measurement control signal refers to a signal for setting at least one or more information of a measurement frequency channel, a bandwidth, and a measurement volume of the hearing aid device 120.

On the other hand, when the terminal communication unit 210 receives an inquiry request for a preset value set in the hearing aid device 110 from the communication terminal 110, at least one of a frequency channel, a frequency bandwidth and a volume preset in the hearing aid device 110. The set value for one or more information is transmitted to the communication terminal 110.

The control unit 212 generally controls the operation of the hearing aid device 120, and removes the noise of the hearing aid performing module 140, adjusts a gain value of a frequency for sound correction, and transmits and stores a hearing related parameter. Control the operation.

The control unit 212 according to the present exemplary embodiment sets a hearing measurement value corresponding to the measurement control signal received from the terminal communication unit 210. Herein, the control unit 212 sets at least one or more information of a measurement frequency channel, a bandwidth, and a measurement volume. For example, when the measurement control signal requires the measurement frequency to be set to 200 Hz and the volume in 6 steps, the control unit 212 controls the hearing aid device 110 to measure the hearing frequency at 200 Hz and the volume in 6 steps. Change it and set it.

The storage unit 230 according to the present exemplary embodiment stores the hearing measurement value set by the controller 212, and stores the hearing measurement result value calculated by the measurement execution unit 219. Here, the storage unit 230 may provide the hearing measurement value or the hearing measurement result value when a request for the hearing measurement value or the hearing measurement result value is received from the communication terminal 110 or the hearing aid performing module 140.

The measurement signal generator 216 generates a hearing measurement signal based on the hearing measurement value set by the controller 212. Here, the hearing measurement signal is preferably a beep (Beep) for measuring hearing, but is not necessarily limited thereto, and may be implemented as any signal if hearing measurement is possible.

The measurement performer 218 performs hearing measurement using the hearing measurement signal generated by the measurement signal generator 216.

When the measurement performing unit 218 according to the present exemplary embodiment receives the hearing measurement start signal from the communication terminal 110, the hearing measurement signal is converted into an analog measurement signal which is a sound signal and then output. Meanwhile, when the user transmits an acknowledgment response signal through the communication terminal 110, the measurement execution unit 218 generates a corresponding hearing measurement signal as a hearing measurement result value. Here, when the user does not transmit the acknowledgment response signal through the communication terminal 110, the measurement performing unit 218 performs a hearing measurement by changing the value of the hearing measurement signal.

The measurement result transmitter 219 transmits the hearing measurement result value generated by the measurement operator 218 to be visually or audibly displayed on the communication terminal 110.

Hearing aid performing module 140 is a module for correcting the sound signal received from the outside. A detailed description of the components included in the hearing aid performing module 140 is as follows.

The sound receiver 220 receives the sound signal and converts the sound signal into an electric signal. For example, when a sound signal is received, the sound receiver 220 converts a signal corresponding to the sound signal into an analog sound signal which is an electric signal. Here, the sound receiving unit 220 is preferably implemented in the form of a microphone (Microphone), but is not necessarily limited thereto.

The A / D converter 222 converts an analog sound signal into a digital sound signal. Here, the A / D converter 222 converts the analog sound signal for the sound into a digital sound signal so that the correction unit 224 may perform the correction. Here, the A / D converter 222 converts a signal through one or more of a voltage-frequency conversion method, a voltage-time conversion method, and a digital pulse method.

The correction unit 224 according to the present embodiment amplifies the digital sound signal converted from the A / D converter 222, receives the hearing measurement result value from the hearing measurement module 130, and applies to the digital sound signal Correct.

On the other hand, the correction unit 224 may be implemented including an integrated circuit used for the acoustic coding for digitizing the sound of the analog signal. Here, the integrated circuit refers to a circuit capable of processing at high speed by repeatedly performing arithmetic operations to process digital signals at high speed. The correction unit 224 is preferably implemented as a digital signal processor (DSP) whose primary purpose is to improve arithmetic processing speed based on digital signal processing technology, but is not necessarily limited thereto.

The D / A converter 226 converts the digital sound signal into an analog sound signal. Here, the D / A converter 226 converts the digital sound signal corrected by the correction unit 224 into an analog sound signal in order to transmit the sound signal to the user. Meanwhile, the D / A converter 226 refers to an inverse transform process that is the reverse of the operation performed by the A / D converter 222.

The sound transmitter 228 refers to a module that converts the electrical signal converted by the D / A converter 226 into an acoustic signal. For example, when an analog sound signal, which is an electrical signal, is received from the D / A converter 226, the sound transmitter 228 converts the analog sound signal into an audio signal. Here, the sound transmitter 228 is preferably implemented in the form of a receiver, that is, a speaker, but is not necessarily limited thereto.

3 is an exemplary view showing a data packet of a signal transmitted and received between a communication terminal and a hearing aid device according to the present embodiment.

As shown in FIG. 3, the data packet includes type information 310, code information 320, and data information 330. Meanwhile, the data packet according to the present embodiment may be implemented with all signals and information transmitted and received between the communication terminal 110 and the hearing aid device 120 according to a value set in the packet.

As the type information 310, a value of '0' or '1' may be set. '0' means a data type for performing a command, and '1' means a data type for performing a response according to the command. Here, the data type for performing the command includes at least one information of the access signal, inquiry information, start / end information, acknowledgment response signal and set value control information transmitted from the communication terminal 110 to the hearing aid device 120. It can be implemented as a signal. In addition, the data type for performing a response according to the command may be implemented as a signal including information on normal or abnormal performance of the command.

The code information 320 is a code for classifying a type according to a data packet. '0' denotes a code for performing a connection signal between the communication terminal 110 and the hearing aid 120, and '1' refers to setting information of the hearing aid 120, and '2' and '3' measure hearing. Mode change of '4' and '5' is the start and end of the hearing measurement of the hearing aid device 120, '6' is the request for hearing measurement result value, '7' is the response signal to the hearing signal and '8' Represents a measurement control signal for the hearing aid device 120 to implement the signal.

The data information 330 means information for storing data for controlling environment setting and hearing measurement. For example, when the code information 320 is a measurement control signal set to '8', the data information 330 stores data such as measurement frequency 200 Hz, volume 6 levels, and the like, which are information on the actual setting of the measurement control signal.

4 is a flowchart illustrating a hearing measurement method using the hearing aid according to the present embodiment.

When the hearing aid device 120 receives a connection signal from the communication terminal 110, the hearing aid device 120 operates a sleep mode in the hearing aid device 120 to transmit and receive data using the short-range communication with the communication terminal 110. Switch to the mode (S410).

The hearing aid device 120 transmits a response signal corresponding to the access signal to the communication terminal 110 (S414).

When the hearing aid device 120 is connected to the communication terminal 110 through a data communication setting routine (Routine) (S418), the preset value set in the hearing aid device 120 is transmitted to the communication terminal 110 to synchronize. (S420). For example, the set value for at least one or more information of a frequency channel, a frequency bandwidth, and a volume preset in the hearing aid device 110 is transmitted to the communication terminal 110 to update and store the set value stored in the communication terminal 110. Here, the hearing aid device 120 is shown to automatically transmit a set value when connected to the communication terminal 110, but is not necessarily limited thereto, and is set when receiving a request for setting information inquiry from the communication terminal 110. The value may be transmitted to the communication terminal 110.

When the hearing aid device 120 receives a measurement control signal input through a user's operation from the communication terminal 110 (S424), sets the hearing measurement value corresponding to the measurement control signal to the hearing aid device 120 (S428). .

The hearing aid device 120 generates a hearing measurement signal based on the set hearing measurement value (S430). Here, the hearing measurement signal is preferably a beep (Beep) for measuring hearing, but is not necessarily limited thereto, and may be implemented as any signal if hearing measurement is possible.

The process after step S430 will be described later in FIG. 5.

5 is a flowchart illustrating a hearing measurement method using the hearing aid according to the present embodiment.

Subsequently to step S430, when the hearing aid device 120 receives the hearing measurement start signal from the communication terminal 110 (S434), the hearing aid device 120 converts the hearing measurement signal into an analog measurement signal and outputs the signal (S438).

When the hearing aid device 120 receives a response signal corresponding to the hearing measurement signal within a predetermined time (S440), the hearing aid device 120 generates and stores a hearing measurement result value including the measured frequency and the measured signal strength level (S450).

The hearing aid device 120 deletes the measurement frequency corresponding to the hearing measurement result value from the previously stored measurement frequency list (S452). Here, the deleted measurement frequency can be restored according to a user's request for restoration or a reset function of the hearing measurement application 112, and can be restored in software via languages such as C, C ++, Java, Visual Basic, and Visual C. Restoration can be set according to the implemented program module.

The hearing aid device 120 checks the deleted measurement frequency based on the hearing measurement result value, and terminates the hearing measurement when there is no more measurement frequency to measure in the measurement frequency list (S454).

On the other hand, as a result of confirming step S440, when the response signal corresponding to the hearing measurement signal is not input within a predetermined time, it is generated by increasing the strength of the hearing measurement signal by one level (S448), this process Is repeatedly executed until a response signal is input. If the level of the hearing measurement signal is at the maximum level, step S450 is performed to store the maximum level as the hearing measurement result value.

In FIGS. 4 to 5, the steps S410 to S454 are described as being sequentially executed. However, this is merely illustrative of the technical idea of the embodiment, and a person having ordinary knowledge in the technical field to which the embodiment belongs. 4 to 5 because it can be applied to various modifications and variations by changing the order described in Figs. 4 to 5 or executing one or more steps of steps S410 to S454 in parallel without departing from the essential characteristics of the example, Is not limited to time-series order.

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

As described above, the present embodiment is applied to the field to perform hearing measurement in a hearing aid device using a control signal transmitted from a communication terminal, store the hearing measurement result value calculated through this, and store the stored hearing measurement result. By correcting the acoustic signal according to the hearing characteristics of the user based on the value, it is a useful invention to generate the effect of simple hearing measurement and the correction of the hearing aid device and the use of the optimized hearing aid device.

110: communication terminal 120: hearing aid device
130: hearing measurement module 140: hearing aid module
210: terminal communication unit 212: control unit
214: storage unit 216: measurement signal generation unit
218: measurement execution unit 219: measurement result transmission unit
220: sound receiving unit 222: A / D conversion unit
224: correction unit 226: D / A conversion unit
228: sound transmitter

Claims (10)

A terminal communication unit which receives a measurement control signal and a response signal from a communication terminal;
A controller configured to set a hearing measurement value corresponding to the measurement control signal;
A measurement signal generator configured to generate a hearing measurement signal based on the hearing measurement value;
A measurement performing unit which converts the hearing measurement signal into an analog sound signal and outputs the measured sound to perform hearing measurement, and generates a hearing measurement result of the hearing measurement;
A measurement result transmission unit for transmitting the hearing measurement result value to the communication terminal; And
A storage unit for storing the hearing measurement value and the hearing measurement result value
Hearing aid, characterized in that it comprises a. The method of claim 1,
A correction unit for correcting by applying the stored hearing measurement result value to the sound signal to process a digital sound signal;
Hearing aid, characterized in that it further comprises. The method of claim 1,
Wherein,
Hearing aid device, characterized in that for generating command data for performing at least one or more of the operation of noise reduction, adjustment of the gain value of the frequency for sound correction, transmission and storage of hearing measurement related parameters. The method of claim 1,
The terminal communication unit,
Communication with the communication terminal using a short-range communication method, the short-range communication uses at least one communication method of Bluetooth, Zigbee, ULP (Ultra Low Power) technology to reduce the size and power consumption Hearing aid, characterized in that. The method of claim 1,
The measurement performing unit,
When the response signal according to the recognition of the analog sound signal is received from the communication terminal within a predetermined time, the hearing measurement result is generated,
When the response signal according to the recognition of the analog sound signal is not received or the unacknowledged response signal is received from the communication terminal within a predetermined time, the amplitude level of the analog sound signal is amplified and outputted, and the amplitude level is increased. Hearing device, characterized in that for generating a hearing level measurement result of the amplitude level when the maximum level. The method of claim 1,
The terminal communication unit,
When receiving the inquiry request for the preset value set in the hearing aid device from the communication terminal, characterized in that for transmitting at least one or more information of the frequency channel, frequency bandwidth and volume preset to the hearing aid device to the communication terminal. Hearing aid characterized in that. The method according to claim 6,
The measurement control signal,
Hearing device, characterized in that the signal is generated including at least one or more information of the measurement frequency channel, bandwidth and measurement volume in the communication terminal to perform the hearing measurement. In the method of performing hearing measurement using a hearing aid,
A control signal receiving step of receiving a measurement control signal from a communication terminal;
A measurement value setting step of setting a hearing measurement value corresponding to the measurement control signal;
A hearing measurement signal generation process of generating a hearing measurement signal based on the hearing measurement value and converting the hearing measurement signal into an analog sound signal;
A hearing measurement step of outputting the analog sound signal to perform a hearing measurement and generating a hearing measurement result value for the hearing measurement performed; And
Measurement result transmission process for transmitting the hearing measurement result value to the communication terminal
Hearing measurement method comprising a. The method of claim 8,
The hearing measurement process,
When the response signal according to the recognition of the analog sound signal is received from the communication terminal within a predetermined time, the hearing measurement result is generated,
If a response signal corresponding to the recognition of the analog sound signal is not received from the communication terminal or if an unrecognized response signal is received, the amplitude level of the analog sound signal is amplified and outputted, and the amplitude level is maximum. And a step of generating the amplitude level as a result of hearing measurement when the level corresponds. A terminal communication unit which receives a measurement control signal and a response signal from a communication terminal;
A measurement signal generator configured to set a hearing measurement value corresponding to the measurement control signal and to generate a hearing measurement signal based on the hearing measurement value;
A measurement performing unit configured to convert the hearing measurement signal into an audio signal and output the acoustic signal to perform hearing measurement, and to generate and store a hearing measurement result of the hearing measurement;
A measurement result transmission unit for transmitting the hearing measurement result value to the communication terminal; And
Receives an analog sound signal and converts it into a digital sound signal, and applies the hearing measurement result to the digital sound signal to reset at least one or more information of a frequency channel, a bandwidth, and a volume. Compensation unit for converting digital sound signal into analog reset sound signal
Hearing aid, characterized in that it comprises a.

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