KR101442022B1 - Apparatus and method for compensation hearing loss - Google Patents

Abstract

There is provided a method and apparatus for easily testing hearing ability and providing a hearing correction service according to the result. The method of the present invention includes the steps of detecting first hearing frequency bands based on whether or not to respond to a test frequency; Detecting the second hearing loss frequency bands based on whether the first hearing loss frequency bands are output after increasing the volume of the first hearing loss frequency bands; Detecting a third hearing loss frequency band based on whether the second hearing loss frequency band is changed after outputting the changed frequency band; Storing the frequency band in which the hearing loss has been eliminated and the requirement for eliminating the hearing loss as hearing loss correction information; And correcting the audio signal based on the audio-visual correction information, and outputting the corrected audio signal. The apparatus of the present invention includes: a frequency generator for generating a test frequency; An audio output unit for outputting a test frequency; A user interface unit for receiving a user response according to an output of a test frequency; A controller for determining a hearing loss frequency band and generating correction information for correcting the hearing loss frequency band; A frequency corrector for correcting the frequency generated by the frequency generator and outputting the corrected frequency to the audio output unit; And a correction information storage unit for storing / managing the hearing-impaired correction information. Therefore, the present invention can early diagnose the hearing loss automatically, and it is possible to solve the hearing loss easily when speaking or listening to audio using the smartphone to which the present invention is applied.

Description

[0001] APPARATUS AND METHOD FOR COMPENSATION HEARING LOSS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hearing test, and more particularly, to a method and apparatus for easily testing hearing ability and providing a hearing correction service according to the result.

Hearing loss refers to a state in which the transmission of sound waves is not normally carried out due to an obstacle in the organs of the outer ear, eardrum, paper, and the like. Such hearing loss is mainly caused by 'degenerative hearing loss' caused by disease or aging, or 'noise-induced hearing loss' caused by people working in a long time noise environment. Therefore, in the past, the number of people suffering from hearing loss was relatively small. In particular, 'noise-induced hearing loss' was limited to musicians, soldiers, excavator users, factory workers, otolaryngologists and dentists exposed to noise inevitably.

However, with the development of civilization, the number of people appealing to "noise-induced hearing loss" is increasing beyond imagination. This is due to the increased use of electronic devices (eg, TVs, computers, etc.) that can cause hearing loss as they enter the modern world. In recent years, mobile devices such as smart phones and MP3 players have become commonplace, so that people using earphones or small-sized headphones are increasing rapidly. Therefore, in the past, patients with 'noise-induced hearing loss', which was confined to occupational diseases,

Early diagnosis and treatment are very important for such hearing loss, but they are often not recognized at the beginning.

Therefore, the present invention is intended to provide a method and apparatus for easily and audibly testing a hearing loss and providing a hearing loss correction service according to the test results.

In one aspect, a method for hearing loss correction service is provided. The method comprising: a first test step of sequentially outputting a preset test frequency and detecting first hearing loss frequency bands based on a response to the preset test frequency; A second test step of outputting a loud volume for each of the frequencies detected in the first hearing loss frequency band, and detecting second hearing loss frequency bands based on whether the response is made; A third test step of outputting the changed frequency band for each of the frequencies detected in the second hearing loss frequency band and detecting the third hearing loss frequency bands based on whether or not the response is made; Storing the frequency band and the requirement for eliminating the hearing loss in the second and third test steps as hearing loss correction information; And correcting the audio signal based on the hearing loss correction information and outputting the corrected audio signal.

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Wherein the corrected audio signal output step includes: correcting the sample sound based on the hearing loss correction information; Outputting the corrected sample sound and the pre-correction sample sound based on user's selection information; And determining whether to correct the audio signal based on the selection information of the user.

In another aspect, a hearing test and a hearing loss correction service device are provided. The apparatus comprises: a frequency generator for generating a frequency for testing; An audio output unit sequentially outputting the test frequency; A user interface unit for receiving a user response according to the output of the test frequency; A control unit for determining a hearing loss frequency band based on the user's response and generating correction information for correcting the hearing loss frequency band; A frequency corrector for correcting a frequency generated by the frequency generator based on the control of the controller and outputting the corrected frequency to the audio output unit; And a correction information storage unit for receiving and storing / managing the frequency band in which the hearing loss is eliminated by the correction unit and the requirement for eliminating the hearing loss. The apparatus further includes a report generation unit generating the hearing test result report under the control of the control unit; And a display unit for displaying the generated report.

By applying the hearing test method of the present invention to a smartphone, it is possible to easily test hearing. Therefore, hearing loss can be diagnosed at an early stage, and if it is judged to be serious hearing loss, it can be induced by recognizing it. In addition, there is an advantage that the hearing loss can be easily solved when the hearing loss frequency is corrected based on the result of the hearing test, so that when he / she hears a call, audio, or external environment related to the device using the smartphone.

Also, the hearing test method according to the present invention and the hearing correction service method according to the result can be applied to a non-smartphone user by applying the method to a dedicated multimedia device separately from the application of the smartphone.

1 is a schematic block diagram of a hearing test and hearing loss correction service apparatus according to an embodiment of the present invention.
2 is a schematic flowchart of a method of hearing test and a method for correcting hearing loss according to an embodiment of the present invention.
3 is a process flow chart for a standard test procedure according to an embodiment of the present invention.
4 is a flowchart of a volume up test process according to an embodiment of the present invention.
5 is a process flow chart for the in-depth test process according to an embodiment of the present invention.
6 is a flowchart illustrating a process of generating correction information for each user according to an embodiment of the present invention.
7 is a diagram illustrating an example of a screen when a standard test is performed using a smartphone to which the present invention is applied.
FIG. 8 is a view showing an example of a screen showing a standard test result using a smartphone to which the present invention is applied.
9 is a view showing an example of a screen when a volume up test is performed using a smartphone to which the present invention is applied.
10 is a view showing an example of a screen showing a result of a volume up test using a smartphone to which the present invention is applied.
FIG. 11 is a diagram illustrating an example of a screen when deep testing is performed using a smartphone to which the present invention is applied.
12 is a view showing an example of a screen showing a result of an in-depth test using a smartphone to which the present invention is applied.
FIG. 13 is a view showing an example of a screen for displaying a guide message when a user wants to compare a corrected sound with a pre-corrected sound using a smartphone to which the present invention is applied.
FIG. 14 is a view showing an example of a screen displaying a guidance message for determining whether or not a hearing loss frequency is corrected using a smartphone to which the present invention is applied.
FIG. 15 is a view showing an example of a screen displaying a guidance message for selecting a frequency band for hearing test using a smartphone to which the present invention is applied.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and like parts are denoted by similar reference numerals throughout the specification. And a detailed description thereof will be omitted to omit descriptions of portions that can be readily understood by those skilled in the art.

Throughout the specification and claims, where a section includes a constituent, it does not exclude other elements unless specifically stated otherwise, but may include other elements.

1 is a schematic block diagram of a hearing test and hearing loss correction service apparatus according to an embodiment of the present invention. 1, the apparatus 100 of the present invention includes a frequency generator 110, a frequency corrector 120, an audio output unit 130, a user interface unit (I / F) 140, a controller 150, A report generation unit 160, a display unit 170, a hearing loss frequency storage unit 180, and a correction information storage unit 190.

The frequency generation unit 110 generates a frequency. In particular, the frequency generating unit 110 generates a preset frequency for the hearing test. For example, the frequency generating unit 110 may generate 12 frequencies of 6 left and right frequencies (for example, 250 Hz, 500 Hz, 1 KHz, 2 KHz, 4 KHz, and 8 KHz). For this, the frequency generator 110 is preferably controlled by the controller 150.

The frequency correction unit 120 corrects the frequency. In particular, it corrects the frequency generated by the frequency generator 110 and outputs the corrected frequency to the audio output unit 130. For this, the frequency corrector 120 may be under the control of the controller 150. For example, when the apparatus 100 of the present invention is performing a volume up test, the frequency corrector 120 increases the frequency of the frequency generated by the frequency generator 110, The frequency correction unit 120 outputs the frequency bandwidth enlarged.

The audio output unit 130 outputs various audio signals output through the corresponding device 100. In particular, the audio output unit 130 sequentially outputs the test frequency transmitted through the frequency generator 110 or the frequency corrector 120. For this, the audio output unit 130 may be under the control of the control unit 150. For example, when the apparatus 100 of the present invention is performing a standard test, the audio output unit 130 outputs the frequency transmitted from the frequency generation unit 110, and the apparatus 100 of the present invention performs a volume up test Or the in-depth test is being performed, the audio output unit 130 outputs the frequency transmitted from the frequency correction unit 120. [

Meanwhile, the audio output unit 130 outputs a general audio signal when the apparatus 100 of the present invention is not in the hearing test. If the user selects the correction for the hearing loss frequency, And corrects and outputs the general audio signal based on the information. For example, it is possible to automatically adjust the volume according to the frequency based on the 'hearing loss correction information' generated by the user-specific test result. In addition, the audio output unit 130 alternately outputs the sound corrected for the sample sound and the sound before correction so as to enable the user to determine whether or not to correct the hearing loss frequency after comparing the sound before and after the correction. can do. To this end, the audio output unit 130 is under the control of the control unit 150.

The user interface unit (I / F) 140 provides an interface with the user. In particular, it receives the user's response according to the output of the test frequency. That is, the response signal of the user who senses the test frequency. To this end, the user interface unit (I / F) 140 may be implemented in various forms such as a keypad, a mouse, and a touch screen. For example, if the user who senses the test frequency touches a certain area of the touch screen, the controller 150 determines that the user senses the frequency. That is, the control unit 150 confirms that the frequency is not the hearing loss frequency.

The controller 150 controls the apparatus 100 of the present invention based on the user's selection information input through the user interface unit (I / F) 140 or a preset control program. That is, the control unit 150 includes a frequency generation unit 110, a frequency correction unit 120, an audio output unit 130, a report generation unit 160, a hearing loss frequency storage unit 180, and a correction information storage unit 190 So that the device 100 of the present invention tests the user's hearing and provides a hearing-aid frequency correction service according to the result.

In particular, the control unit 150 determines the hearing loss frequency band of the user based on the user's response and generates correction information for correcting the hearing loss frequency band. That is, when there is no user response to the specific test frequency, the frequency is stored in the hearing loss frequency storage unit 180, and the frequency correction unit 120 is controlled to correct the frequency. To this end, the control unit 150 controls the frequency correction unit 120 to primarily output a loud volume for the hearing loss frequency band and to change the frequency band secondarily.

Meanwhile, the control unit 150 previously sets the test frequency for the test frequency and the test frequency for the sound band differently and sets the test frequency for the test frequency for the sound band to the user's selection information input through the user interface unit (I / F) And controls the frequency generating unit 110 based on the received signal. That is, the control unit 150 determines which of the voice band and the sound band to test, and then controls the frequency generation unit 110 to generate a test frequency corresponding to the determined frequency band.

The control unit 150 generates a corrected sample sound and a pre-corrected sample sound based on the deaf-hearing correction information, and transmits the corrected sample sound and the pre-corrected sample sound to the audio output unit 130. The control unit 150 receives the user's selection information in response thereto, Or not.

The report generation unit 160 generates a result report of each step-by-step test for testing hearing. In particular, the report generating unit 160 can generate a graphical result report. To this end, the report generation unit 160 operates under the control of the control unit 150.

The display unit 170 displays the report generated by the report generation unit 160. [

The hearing loss frequency storage unit 180 stores frequencies judged to be the hearing loss frequencies as a result of each step of the test, and provides the request when the control unit 150 requests it.

The correction information storage unit 190 stores correction information. If a plurality of users perform hearing tests through the apparatus 100 of the present invention, correction information is stored for each user. At this time, the 'correction information' refers to the frequency band in which the hearing loss is eliminated and the requirement for eliminating the hearing loss through the correction of the frequency correction unit 120 among the frequencies classified into the hearing loss frequency band due to no user response at the initial test In the case of a frequency band in which the hearing loss is eliminated, the frequency band and the volume magnitude at that time become correction information. By changing the frequency band, in the case of the frequency band in which the hearing loss is eliminated, The band change information may be the correction information.

Such an inventive device 100 may be implemented in a smart phone. Accordingly, the audio output unit 130 may share the audio output unit of the smartphone, the user interface unit (I / F) 140 may share the user interface unit of the smartphone, and the display unit 170 may share the display unit of the smartphone.

FIGS. 7 to 15 show an example of a smartphone screen according to the process when the apparatus 100 of the present invention provides a hearing test and an auditory hearing correction service.

2-6 show flowcharts of the process when the apparatus 100 of the present invention operates in accordance with the method according to an embodiment of the present invention.

2 is a schematic flowchart of a method of hearing test and a method for correcting hearing loss according to an embodiment of the present invention. Referring to FIGS. 1 and 2, in order to provide a hearing test and a hearing loss correction service, the control unit 150 firstly controls the standard test to be performed (S100). That is, when the frequency generator 110 sequentially outputs the preset test frequency, the controller 150 receives the response signal, detects the frequency bands in which the response signal is not received in the first hearing frequency band, And stores it in the frequency storage unit 180.

Then, the control unit 150 performs a volume up test (S200) on the frequency band classified into the first hearing loss frequency band. To this end, the control unit 150 controls the frequency correction unit 120 and the audio output unit 130 so as to read the first hearing frequency bands from the hearing loss frequency storage unit 180 and output the first hearing frequency bands, respectively, . And detects the second hearing frequency bands based on whether or not the second hearing frequency bands are responded to and stores the detected second hearing frequency bands in the hearing loss frequency storage unit 180.

In addition, the control unit 150 performs an in-depth test (S300) on each of the frequencies classified into the second hearing loss frequency band. For this, the control unit 150 reads out the second hearing loss frequency bands from the hearing loss frequency storage unit 180, and changes the frequency bands for each of them to output the frequency correction unit 120 and the audio output unit 130 . And detects the third hearing frequency bands on the basis of whether or not the third hearing frequency bands are responded to and stores them in the hearing loss frequency storage unit 180. [ At this time, if a frequency band that can not be detected by the user is detected even after the in-depth test, the controller 150 may determine that the condition of the user is serious and advise the user to consult a specialist.

Then, the controller 150 generates per-user correction information based on the results of the volume up test (S200) and the in-depth test (S300) (S400). That is, the control unit 150 stores the frequency band and the requirement for eliminating the hearing loss in the correction information storage unit 190 for the frequency band in which the hearing loss is eliminated as a result of the volume up test (S200) and the in-depth test (S300).

Finally, the control unit 150 corrects the audio signal based on the stored information on the stored audio-visual information, and outputs the corrected audio signal (not shown).

3 is a flowchart of a standard test procedure (S100) according to an embodiment of the present invention. Referring to FIGS. 1 and 3, the apparatus 100 of the present invention outputs a test frequency generated through a frequency generator 110 (S110). At this time, the control unit 150 determines which of the voice band and the sound band to test based on the selection information of the user, and selects one of the test frequencies set for the voice band and the sound band, It is possible to select and output the test frequency corresponding to the result. FIG. 15 illustrates an example of a screen for selecting a band for testing as described above. Referring to FIG. 15, a smartphone to which the present invention is applied displays a voice band inspection selection area D and a sound band inspection selection area E so that a user can select one of them.

In step S110, the control unit 150 outputs a frequency for test to determine whether the user responds to the test frequency in step S120. If there is no response, the control unit 150 registers the corresponding frequency as the primary hearing loss frequency (S130). That is, the non-response frequency is stored in the hearing loss frequency storage unit 180. If it is determined in step S140 that the number of times of frequency output is not more than the predetermined number of times in step S150, the sequence of steps S110 to S130 is repeatedly performed. If the number of frequency output times exceeds a predetermined number (S150), a standard test result report is created (S160) and the standard test procedure is terminated. In this case, the preset number of times is preferably '12'. That is, for the standard test, the frequency generator 110 can sequentially output twelve test frequencies in total, six each for the left and right.

Figures 7 and 8 show examples of smartphone screens associated with the standard test illustrated in Figure 3. FIG. 7 is a view showing an example of a screen when performing a standard test using a smartphone to which the present invention is applied, and FIG. 8 is a view showing an example of a screen showing a standard test result using a smartphone to which the present invention is applied FIG.

Referring to FIG. 7, the smartphone displays it on the screen so that the output frequency can be identified on the left or right side, and indicates the frequency of the current frequency in the center of the screen (A). In the example of FIG. 7, the user indicates that the currently output frequency is sensed by touching the 'next' portion at the bottom center of the screen. In the example of FIG. 7, the apparatus 100 of the present invention displays on the screen whether the currently output frequency is outputted to the left earphone or the right earphone. However, it may be possible for the user to identify it without displaying it on the screen. For example, a touch area indicating 'left' and 'right' may be created at the bottom of the screen, and the left and right sides may be distinguished by touching the area of the user's side.

Referring to FIG. 8, in order to show a standard test result, the smartphone displays a line (dotted line) for indicating whether or not a signal of each frequency band is detected at the center of the graph, and a white mark ) Is judged to be the hearing loss frequency band. In the example of FIG. 8, it can be seen from the standard test that the corresponding user shows a hearing loss state in three frequency bands (500 Hz, 1 KHz, 4 KHz).

4 is a flowchart of a volume up test procedure (S200) according to an embodiment of the present invention. Referring to FIGS. 1 and 4, for the volume up test, the controller 150 receives a frequency (a frequency registered as the primary hearing loss frequency in the example of FIG. 3) to be subjected to volume up test from the hearing loss frequency storage unit 180 (S210), and outputs the volume up (S220). To this end, the controller 150 controls the frequency corrector 120 and the audio output unit 130.

Then, it is confirmed whether or not the user responds thereto (S230). If there is no response, the control unit 150 repeats the series of steps S220 to S250 until the number of times of the volume increase exceeds a predetermined number of times. In this case, the preset number of times is preferably " 3 ". That is, the volume up test can increase the frequency of each of the frequency bands registered with the first-order hearing loss frequency by '3 steps'. However, the set number of times is not limited to '3'. The set number of times may be adjusted depending on the performance of the device or other operating conditions. For example, the set number may be 2 or more and 10 or less. That is, the volume up test can output the frequency of each of the frequency bands by increasing the frequency in multiple stages.

Meanwhile, if the user does not respond to the '3 step' volume up, the control unit 150 registers the frequency as the second hearing loss frequency (S260).

If the user responds in step S230, the controller 150 stores the volume up information of the corresponding frequency in step S270. This means that the hearing loss of the corresponding frequency is solved by the volume up, so that the volume up information can be used later as hearing correction information of the corresponding frequency.

This series of processing steps (S210 to S270) is repeated until all the registered primary hearing frequencies registered in the example of FIG. 3 are processed (S280). When all the primary hearing frequencies have been processed, the control unit 150 generates a volume up test result report (S290) and terminates the volume up test process.

9 and 10 show examples of smartphone screens associated with the volume up test illustrated in FIG. FIG. 9 is a view showing an example of a screen when a volume up test is performed using a smartphone to which the present invention is applied, FIG. 10 is an example of a screen showing a volume up test result using a smartphone to which the present invention is applied, Fig.

Referring to FIG. 9, the smartphone allows the number of times of volume up to be counted by displaying the block B on the vertical line of the corresponding frequency while volume up the primary hearing loss frequency.

Referring to FIG. 10, in order to show the result of the volume up test, the smartphone displays a line (dotted line) for indicating whether or not the signal of each frequency band is detected at the center of the graph, mark) is judged to be the hearing loss frequency band. In the example of FIG. 10, the volume up test shows that the corresponding user is in a hearing loss state with respect to one frequency band (4 KHz). This also indicates that the volume-up has relieved the hearing of the two frequency bands (500Hz, 1KHz).

FIG. 5 is a process flow chart for an in-depth test procedure (S300) according to an embodiment of the present invention. Referring to FIGS. 1 and 5, for the in-depth test, the controller 150 selects a frequency (a frequency registered as a second-order hearing loss frequency in the example of FIG. 4) to be subjected to in-depth testing from the hearing loss frequency storage unit 180 (S310) and changes the frequency band of the frequency (S320). That is, the amplification processing is performed on the frequency range in which the bandwidth of the frequency is widened by a predetermined range (for example, -10 Hz, + 10 Hz) based on the frequency, so as to match the gown cyan distribution curve characteristic. However, the range value can be changed for a preset range. To this end, the controller 150 controls the frequency corrector 120 and the audio output unit 130.

Then, it is confirmed whether or not the user responds thereto (S330). If there is no response, the control unit 150 repeats the series of steps S320 to S350 until the number of frequency changes exceeds a predetermined number of times. In this case, the preset number of times is preferably " 2 ". That is, the in-depth test can be performed by changing the frequency band through '2' for each of the frequency bands registered with the second hearing loss frequency.

Meanwhile, if the user does not respond in spite of changing the frequency band over '2', the controller 150 registers the frequency as the third hearing loss frequency in step S360. Also, in this case, the controller 150 may determine that the hearing loss state of the user is serious, and recommend the user to consult a specialist. In other words, the severity of the hearing loss state can be notified to the user through an alarm or a warning message.

If the user responds in step S330, the control unit 150 stores frequency band change information of the corresponding frequency in step S370. This means that the hearing loss of the corresponding frequency is solved by changing the frequency band, so that the frequency band changing information may be used later as hearing correction information of the corresponding frequency.

This series of processing steps S310 to S370 is repeated until all the secondary hearing frequencies registered in the example of FIG. 4 are processed (S380). When the process is completed for all secondary hearing frequencies, the controller 150 creates a deep test result report (S390) and ends the deep test procedure.

Figs. 11 and 12 show examples of smartphone screens associated with the depth test illustrated in Fig. FIG. 11 is a view showing an example of a screen when a deep test is performed using a smartphone to which the present invention is applied, and FIG. 12 is an example of a screen showing a deep test result using a smartphone to which the present invention is applied FIG.

Referring to FIG. 11, the smartphone changes the frequency band of the second-order hearing loss frequency band and displays the frequency band change state (C) on the vertical line of the corresponding frequency so that the number of frequency band changes can be counted.

Referring to FIG. 12, in order to show the in-depth test result, the smartphone displays a line (dotted line) for indicating whether or not the signal of each frequency band is detected at the center of the graph, and a white mark ) Is judged to be the hearing loss frequency band. In the example of FIG. 12, it can be seen that the in-depth test shows that the corresponding user still shows a hearing loss state for one frequency band (4 KHz). This also indicates that there is no frequency that resolves the hearing loss by changing the frequency band. That is, the user indicates that the hearing loss can not be solved through the volume up or the frequency band change for the frequency of 4 KHz.

6 is a flowchart illustrating a process of generating correction information for each user (S400) according to an exemplary embodiment of the present invention. Referring to FIGS. 1 and 6, in order to generate user-specific correction information, the controller 150 corrects a preset sample sound (S410). For this, the controller 150 uses the volume up information stored in step S270 of FIG. 4 and the frequency band change information stored in step S370 of FIG. That is, through the volume up test and the in-depth test, the preset sample sound is corrected using the frequency at which the hearing loss has been eliminated and its elimination requirement (for example, volume level, frequency band information).

When the user's selection information for the comparison sample sound and the sample sound before correction is input, the sample sound corrected based on the selection information or the sample sound before correction is output (S420 to S440). The comparison experience process is repeated until the user selects termination (S450). FIG. 13 is a view showing an example of a screen displaying a guidance message when a user wants to compare a corrected sound with a sound before correction using a smartphone to which the present invention is applied, and shows an example of a screen for such comparison experience guidance have.

Then, it is determined whether or not the audio signal is corrected based on the user's selection information. That is, when the user who has undergone the comparison experience selects the correction sound (S460), the controller stores the correction information in the correction information storage unit 190 (S470). This is used as information for calibrating the hearing loss if the user calls or uses the smartphone in the future. FIG. 14 is a diagram illustrating an example of a screen for displaying a prompt for determining whether or not the hearing loss frequency is corrected using the smartphone to which the present invention is applied. In the screen example of FIG. 14, The hearing-aid correction information is registered as the correction information of the user, and the corresponding frequency is previously corrected based on the hearing-impaired correction information at the time of audio output in the future and then output.

In the above-described exemplary system, the methods are described on the basis of a flowchart as a series of steps or blocks, but the present invention is not limited to the order of the steps, and some steps may occur in different orders or simultaneously .

It will also be understood by those skilled in the art that the steps shown in the flowchart are not exclusive and that other steps may be included or that one or more steps in the flowchart may be deleted without affecting the scope of the invention.

Claims (15)

delete delete delete delete delete A first test step of sequentially outputting a preset test frequency and detecting a frequency with no response in a first hearing loss frequency band on the basis of whether or not the response is made;
A second test step of detecting frequencies with no response on a second hearing loss frequency band on the basis of a response to the output of the second hearing loss frequency band after increasing the volume for each of the frequencies detected in the first hearing loss frequency band;
A third test step of outputting the changed frequency band for each of the frequencies detected in the second hearing loss frequency band and detecting the third hearing loss frequency bands based on whether or not the response is made;
Storing the frequency band and the requirement for eliminating the hearing loss in the second and third test steps as hearing loss correction information; And
Correcting the audio signal based on the hearing loss correction information, and outputting the corrected audio signal,
The deaf information
A frequency band in which the hearing loss has been eliminated in the second test step, a volume magnitude at that time, a frequency band in which the hearing loss has been eliminated in the third test step, and frequency band change information at that time,
The corrected audio signal output step
Correcting the sample sound based on the hearing loss correction information;
Outputting the corrected sample sound and the pre-correction sample sound based on user's selection information; And
Further comprising the step of determining whether to correct the audio signal based on the selection information of the user. delete delete A frequency generator for generating a test frequency;
An audio output unit sequentially outputting the test frequency;
A user interface unit for receiving a user response according to the output of the test frequency;
A control unit for determining a hearing loss frequency band based on the user's response and generating correction information for correcting the hearing loss frequency band;
A frequency corrector for correcting a frequency generated by the frequency generator based on the control of the controller and outputting the corrected frequency to the audio output unit; And
And a correction information storage unit for receiving and storing / managing the frequency band in which the hearing loss has been eliminated by the correction unit and the requirement for eliminating the hearing loss,
The audio output unit
Corrects and outputs the general audio signal based on the information on hearing loss correction stored in the correction information storage unit,
The control unit
And generates a corrected sample sound and a pre-correction sample sound based on the deafness correction information, outputs the generated corrected sound through the audio output unit, and determines whether or not to correct the general audio signal by receiving user's selection information in response thereto A hearing test and a hearing loss correction service device. 10. The method of claim 9,
A report generation unit for generating the hearing test result report under the control of the control unit; And
And a display unit for displaying the generated report. 10. The apparatus of claim 9, wherein the control unit
Wherein the controller is configured to primarily output a loudspeaker to output the loudspeaker frequency band in order to correct the loudspeaker frequency band and to change the frequency band secondarily. 10. The apparatus of claim 9, wherein the control unit
A test frequency corresponding to the determined band among the test frequencies set differently from each other is determined based on the user's selection information inputted through the user interface unit, And controls the frequency generating unit. The apparatus of claim 9, wherein the correction information storage unit
A frequency band in which the hearing loss is eliminated and a volume magnitude at that time; And
And the frequency band is changed to store the frequency band in which the hearing loss has been eliminated and the frequency band change information at that time as the hearing loss correction information. delete delete

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