KR20080022989A - Air and bone conduction pure tone hearing test method and it's program recorded media - Google Patents

Abstract

An air and bone conduction pure tone hearing test method and program recorded media thereof are provided to accurately test hearing by allowing a user to automatically hear masking sound at an ear with good hearing. An air and bone conduction pure tone hearing test method includes the steps of: installing a pure tone hearing test program at a terminal connected through a network; making a user hear pure tones at an ear with good hearing with wearing a headphone connected to the terminal by the pure tone hearing program and measuring an air hearing threshold by automatically increasing tone pressure according to reaction of the user; making the user hear the pure tone at an opposite ear and measuring the air hearing threshold by automatically increasing the tone pressure according to the reaction of the user; remeasuring a final threshold of the opposite ear after masking the ear with good hearing when the air hearing thresholds measured at the second and third steps are over 35dB; attaching a bone vibrator to a mastoid unit of the opposite ear in a state of wearing the headphone and measuring the bone hearing threshold by the same method with the fourth step after masking the ear with good hearing when a difference of the air hearing threshold of the ear with good hearing and the bone hearing threshold of the ear with bad hearing is over 15dB; and storing the measured results in a server and outputting the measured results to the user.

Description

Air and bone conduction pure tone hearing test method and it's program recorded media}

1 is a simplified flowchart of a pure sound hearing test method according to an embodiment of the present invention

Figure 2, Figure 3: brief flow chart of the pure sound test method

Figure 4: Schematic flowchart of shielding inspection method using noise

The present invention relates to the airway and bone conduction pure hearing test method, after determining the airway and bone hearing thresholds of both ears, when the hearing difference of both ears is large, noise is generated in the good ear and the final threshold of the bad ear is obtained in a shielded state. The present invention relates to a pure hearing test method for checking pure hearing.

Along with vision, hearing is an important cognitive means and an important means for obtaining information in the modern society of information. However, as the industrialization progresses, the noise around the workplace or residence increases, so that the noise-induced hearing loss increases.

However, the hearing loss as described above is progressing slowly except for some cases where the hearing is suddenly impaired. In order to treat such hearing loss, it is necessary to find it early and take appropriate measures. However, in order to detect early, it is necessary to visit the hospital periodically for a pure ear hearing test, but most of the cases do not have time to go to the hospital. In order to solve this problem, Korean Patent No. 10-345371 describes a method of performing a pure sound hearing test in a web environment, but it is configured to simply perform a pure sound test without shielding using noise, so the airway hearing thresholds of both sides differ by more than 35 decibels. If the difference between the airway hearing threshold in the poor or bad ear and the bone hearing threshold in the good ear is more than 15 decibels, the hearing loss of the ear being measured cannot be measured accurately, so a more accurate examination must be shielded by a well-trained audiologist or otolaryngologist in the hospital. There is a problem in that the pure sound hearing test must be re-examined. In this case, when the right and left hearing difference is severe, when the hearing threshold of the ear having a bad hearing is measured, the hearing may be heard first at the ear having the poor hearing and may be incorrectly measured. In this way, when hearing on one side, hearing on the other side is called shadow hearing (cross hearing), and it means loading noise on the side with good hearing to prevent shadow hearing. The shielding method used in airway and bone conduction hearing is a passive method in which a well-trained audiologist or physician calculates the amount of shielding directly using a shielding method using a formula and a psychoacoustic method. I'm doing it.

The present invention has been made to solve the above problems, when the hearing is tested in the ear-bad hearing by the closed car hearing method to prevent the phenomenon of being transmitted to the ear of the good hearing through the skull to the ear of the good hearing Its main purpose is to provide a pure sound hearing test method and a recording medium for recording the patient so that the patient can perform an accurate pure voice hearing test without the help of a doctor or an audiologist by including all possible variables.

The present invention provides an installation step of allowing a server to transmit and install a pure sound hearing test program to a terminal connected through a network; The pure sound hearing test program installed in the terminal generates a pure tone for each frequency in the ear of the user wearing the headphone connected to the terminal and hears the user's response. A difference measuring step; A second measurement step of generating an audible tone for each frequency to the opposite ear and listening the user's response and receiving and responding to the user's response to automatically generate and listen to the airway hearing threshold; A third measurement step in which the difference between the airway hearing thresholds of the two ears obtained in the first measurement step and the second measurement step is greater than 35 decibels, generating noise in the ear having good hearing and shielding the final threshold of the opposite ear; With the headphone on one ear, attach the bone conduction vibrator to the endosperm of the other ear, and then examine the same procedure as the 1st and 2nd measurement steps. If the difference is more than 15 decibels, the fourth ear measurement step is performed to obtain a bone hearing threshold using the same method as the third measurement step by shielding the noise on the good ear with the bone conduction vibrator; The pure sound hearing test method characterized in that it comprises a; the output step of transmitting and storing the measurement results to the server and outputs the measurement results to the user as a technical gist.

In addition, the pure sound hearing test program installed in the computer generates the pure sound for each frequency in the ear of the user wearing the headphone connected to the computer and listens to the user's response and automatically increases or decreases the sound pressure accordingly to obtain the airway hearing threshold. A first measurement step; A second measurement step of generating an audible tone for each frequency to the opposite ear and listening the user's response and receiving and responding to the user's response to automatically generate and listen to the airway hearing threshold; A third measurement step in which the difference between the airway hearing thresholds of the two ears obtained in the first measurement step and the second measurement step is greater than 35 decibels, generating noise in the ear having good hearing and shielding the final threshold of the opposite ear; With the headphone on one ear, attach the bone conduction vibrator to the endosperm of the other ear, and then examine the same procedure as the 1st and 2nd measurement steps. If the difference is more than 15 decibels, the fourth ear measurement step is performed to obtain a bone hearing threshold using the same method as the third measurement step by shielding the noise on the good ear with the bone conduction vibrator; The measurement results are stored in the computer and output to a screen or a printer output to present to the user; airway and bone conduction pure sound test method characterized in that it comprises a another technical gist.

According to a preferred embodiment, the first measurement step and the second measurement step obtain a threshold value of the intermediate frequency, and then gradually change the high frequency range and then measure the threshold value of the intermediate frequency again, and the threshold value of the intermediate frequency is more than 10 decibels. In case of, the high-range threshold is recalculated and if the difference is less than 5 decibels, the low range is measured.

According to a preferred embodiment, the third measurement step, when the user responds to the sound generated in the ear with a bad hearing in the state of giving a shielding sound to the ear with a good hearing and increases the shielding sound of the ear with a good hearing If there is no response, the hearing is increased by increasing the sound of the ear is characterized by measuring the final threshold.

According to a preferred embodiment, the fourth measurement step, the difference between the airway hearing threshold of the bad ear and the bone hearing hearing threshold of the good ear is more than 15 decibels to the sound generated in the ear measured while giving a shielding sound to the good ear When the user responds to the response to increase the shielding sound of the opposite ear and if there is no response to increase the sound of the ear is measured characterized in that to measure the final threshold.

And a storage medium suitable for reading by a computer; Another technical subject of the present invention is to provide a recording medium in which the pure sound hearing test method is recorded, wherein the program means is stored in the storage medium to perform the pure sound hearing test method.

The present invention is to provide a pure sound hearing test method that can check the hearing more accurate by preventing the phenomenon of hearing transmitted through the skull when the ear hearing is bad hearing in the pure ear hearing test It can be seen. To this end, in the present invention, if the airway hearing threshold of both ears differs by more than 35 decibels or the difference between the bad hearing and the hearing loss thresholds of the good ears is 15 decibels or more, a more accurate threshold of the bad ears is obtained by using the car closing method. It is configured to This is because the stimulus sound of the bad ear is transmitted through the skull to the inner ear of the good ear, so the noise is heard in the good ear to obtain a more accurate airway and bone hearing threshold of the bad ear.

The vehicle shielding method is a method of determining the strength of the strongest shielding sound within a range that does not become a central shielding. In other words, when the pure sound hearing is measured while the shielding sound is gradually strengthened, the pure tone threshold is increased by increasing the shielding sound. However, at a certain intensity, even if the shielding sound is louder, the pure tone threshold does not rise further and is fixed at a constant height. The pure threshold at this time is the correct threshold.

Hereinafter, the pure sound hearing test method of the present invention will be described in detail. 1 is a simplified flowchart of a pure sound hearing test method according to an embodiment of the present invention, Figures 2 and 3 are simplified flowcharts of a pure tone test, and Figure 4 is a simplified flowchart of a shield test method using noise.

The pure sound hearing test method of the present invention is composed of an installation step, a first measurement step, a second measurement step, a third measurement step, a fourth measurement step, and an output step.

First, the installation steps will be described. When the user accesses the server using a terminal connected to the Internet, that is, a computer, enters personal information to register as a member, and requests a pure voice hearing test, the server transmits and installs the pure voice hearing test program to the terminal. .

Next, the first measurement step will be described. When the user wears the headphones connected to the computer on which the pure sound hearing test program is installed and executes the pure sound hearing test program, the pure sound hearing test is started. The pure-ear hearing test program first asks the user to select a good ear, and then the user first selects the ear. The test method first generates 1000 Hz, 40 decibels of pure sound and outputs it to the user's ear. When the user hears the sound and presses the button, it descends at 5 decibel intervals, and if it is not heard (there is no button input for a certain time), the test is made up. In order to obtain the threshold, the test is repeated three times, and when the user's response is the same two or more times, the lower value is determined as the threshold. First, the test is performed at 1000 Hz, then measured at a high frequency range of 2000 Hz, 3000 Hz, 4000 Hz, and 8000 Hz, and then the threshold value of 1000 Hz is obtained again. At this time, if the threshold value of 1000 Hz differs by more than 10 decibels from the beginning, the high-range measurement is performed again. In the case of 5 decibels or less, the low frequencies are measured in the order of 500 Hz, 250 Hz, and 125 Hz.

Next, the second measurement step is a step of measuring the ear having a poor hearing not selected by the user in the same manner as the first measurement step.

Next, the third measurement step will be described. After performing the secondary measurement step, when the threshold value of both ears differs by more than 35 decibels, the third vehicle measurement method uses the vehicle closing method. This is because when the threshold difference between the two ears is more than 35 decibels, the vibration of the stimulus sound is transmitted through the skull when the bad ear is measured, and thus the correct hearing threshold cannot be obtained. First, the threshold of the bad ear obtained in the second measurement step is given while the sound of 10 decibels higher than the threshold of the good ear is shielded to the good ear. After that, if the user does not respond, the sound heard in the bad ear is increased by 5 decibels, and if there is a reaction, the shield sound in the good ear is increased and the response is confirmed. You will get it.

As described above, if the first to third measurement steps are performed, the airway hearing threshold can be obtained. However, since the airway hearing threshold can not obtain accurate hearing when suffering from otitis media, etc., the fourth measurement step is performed for a more precise examination. In the fourth measurement step, the bone conduction oscillation threshold of the ear is measured by attaching a bone conduction oscillator connected to a computer to the guiding protrusion of the ear to be measured while wearing headphones on the opposite ear and generating a pure sound in the bone conduction oscillator. At this time, if both ears are bad, that is, if both ears are suspected of hearing loss, the ear and the bone conduction oscillator is switched to measure the opposite ear. The measuring method is performed in the same process as the first measuring step or the second measuring step. If the difference between the bad ear's airway hearing threshold and the good ear's bone conduction hearing threshold is 15 decibels or more, wear headphones on the good ear and attach a bone oscillator to the ear. In this state, the noise is heard in the headphones, and the pure sound is generated on the bone oscillator side and the pure sound hearing test is performed. The measurement by shielding as described above is carried out through the same process as the third measurement step. The pure sound generated by the bone conduction vibrator is limited to 250 hertz to 4000 hertz.

In the output stage, if the airway and bone conduction thresholds for both ears are obtained as described above, the result is displayed on the screen, and the result is transmitted to the server and stored. If the hearing loss is found, the user is prompted to go to the hospital or wear a hearing aid. do.

Hereinafter, with reference to the accompanying drawings will be described in detail the operation and effect of the pure sound hearing test method according to an embodiment of the present invention.

First of all, a user who wants to perform a pure tone hearing test can access a server by operating a computer connected to a network. After inputting the user's personal information to the server and requesting the inspection to be performed, the server side transmits the program and installs it on the computer.

Then, when the user wants to start the test while wearing the headphones, the program first allows the user to select the ear that he or she often uses or the ear that he thinks is better. For example, if the user chooses to use the right ear more often, the test is started.

 The test is first performed at 1000 Hz. First, it produces 40 decibels of sound and outputs it to the right side of the headphone only. If the user still does not hear the sound, the program waits for 5 seconds, increases 5 decibels, and generates and outputs 45 decibels.

At this time, if the client hears the sound at 45 decibels and enters the enter key, the program remembers that the client does not hear the sound of 40 decibels and hears the 45 decibels, and again generates a sound of 40 decibels lower than 40 decibels. If you do not hear the sound and do not press the enter key, you will finally hear that you have heard 45 decibels.

 As described above, when the test is finished at 1000 Hz, the next step is to increase the range to 2000 Hz, 3000 Hz, 4000 Hz, and 8000 Hz for the right ear. After measuring the high range as described above, it is measured again at 1000 Hz to obtain a threshold. At this time, if the user's threshold value is 55 decibels or more, the difference is more than 10 decibels in the previous result, so the high-range is measured again. Then, if the result of the test again at 1000 Hz is a difference within 5 decibels from the previous result, the threshold is again obtained at the low frequencies of 500 Hz, 250 Hz, and 125 Hz.

When the test of the right ear is finished as described above, the test of the left ear is performed this time. The examination process is performed in the same manner as the examination of the right ear.

If the difference between the hearing and hearing thresholds of both ears is more than 35 decibels after obtaining the right ear threshold and left ear hearing threshold, the transmission through the skull occurs and the exact value cannot be obtained. As you hear it, you'll generate a pure tone in the bad ear and retest. First, select the frequency of 35 dB decibel or higher in the program, and listen to the ear hearing threshold that was initially obtained on the other ear. For example, if you hear from the other ear, you can increase the noise of the good ear by 5 decibels, and if you hear it, you can increase the noise of the good ear by 5 decibels. If it is equal to the ear hearing threshold of the other ear, it is determined to be true prayer threshold when the hearing threshold of the other ear is the same as the initial ear hearing threshold after repeating the process of increasing the noise of the good ear again by 5 decibels. When the noise is heard, when the hearing threshold of the other ear is increased, the noise is increased while finding the portion where the elevated hearing threshold does not change to be the final prayer hearing threshold. The test sequence is tested at 1000 Hz, then at high frequency and again at 1000 Hz to compare with previous test results. If the difference is small, the low end is measured to determine the final airway hearing threshold of the bad ear.

As described above, a test using a headphone is performed to obtain an airway hearing threshold. At this time, if the result of the airway hearing threshold is judged to be deafness or is currently suffering from otitis media, the airway is blocked, so the exact hearing cannot be judged only by the airway hearing threshold to obtain a bone hearing threshold. The client first wears headphones in the good ear, and attaches the bone vibrator, or bone vibrator, to the yoke behind the ear. When the bone conduction oscillator is connected to a computer and requested to perform a bone conduction hearing test, the pure ear hearing test program obtains the bone conduction hearing threshold through the same process as the method for obtaining an airway hearing threshold.

At this time, if the difference between the airway hearing threshold of the bad ear and the bone hearing hearing threshold of the good ear is 15 decibels or more, wear headphones on the good ear and measure the bone conduction vibration while attaching the bone conduction vibrator to the ear to measure. The pure sound is generated on the sieve side, and the pure tone hearing test is performed.

Bone hearing test is to measure the frequency of pure sound by changing from 250Hz to 4000Hz.

When the test is terminated as described above, the pure ear hearing test program transmits the result to the server, and when it is determined that the hearing loss is recommended to the user to visit the hospital for a precise test.

Here, in the embodiment of the present invention, the pure sound hearing test program is received through the network, and the result is configured to be transmitted to the server side, but the user directly installs the pure sound hearing test program recorded on the recording medium, and then performs the test offline. It is okay to lose.

As described above, according to the pure-sound hearing test method of the present invention is configured to check the hearing of the bad side in the state of automatically hearing the shielding sound without the help of an audiologist or a doctor on the good side can be more accurately examine their hearing The effect is that you can respond quickly.

Claims (6)

An installation step of allowing the server to transmit and install a pure sound hearing test program to a terminal connected through a network; The pure sound hearing test program installed in the terminal generates a pure tone for each frequency in the ear of the user wearing the headphone connected to the terminal and hears the user's response. A difference measuring step; A second measurement step of generating an audible tone for each frequency to the opposite ear and listening the user's response and receiving and responding to the user's response to automatically generate and listen to the airway hearing threshold; A third measurement step in which the difference between the airway hearing thresholds of the two ears obtained in the first measurement step and the second measurement step is greater than 35 decibels, generating noise in the ear having good hearing and shielding the final threshold of the opposite ear; With the headphone on one ear, attach the bone conduction vibrator to the endosperm of the other ear, and then examine the same procedure as the 1st and 2nd measurement steps. If the difference is more than 15 decibels, the fourth ear measurement step is performed to obtain a bone hearing threshold using the same method as the third measurement step by shielding the noise on the good ear with the bone conduction vibrator; And transmitting and storing the measurement result to a server, and outputting and presenting the measurement result to a user. The pure sound hearing test program installed in the computer generates the pure sound for each frequency in the ear of the user wearing the headphone connected to the computer, hears the user's response, and receives the user's response and automatically increases or decreases the sound pressure accordingly. A difference measuring step; A second measurement step of generating an audible tone for each frequency to the opposite ear and listening the user's response and receiving and responding to the user's response to automatically generate and listen to the airway hearing threshold; A third measurement step in which the difference between the airway hearing thresholds of the two ears obtained in the first measurement step and the second measurement step is greater than 35 decibels, generating noise in the ear having good hearing and shielding the final threshold of the opposite ear; With the headphone on one ear, attach the bone conduction vibrator to the endosperm of the other ear, and then examine the same procedure as the 1st and 2nd measurement steps. If the difference is more than 15 decibels, the fourth ear measurement step is performed to obtain a bone hearing threshold using the same method as the third measurement step by shielding the noise on the good ear with the bone conduction vibrator; And storing the measurement results in a computer and outputting the results to a screen or a printer and presenting them to a user. The method of claim 1 or 2, wherein the first measurement step and the second measurement step obtain a threshold value of the intermediate frequency, and then gradually change the high frequency range to obtain a threshold value of the intermediate frequency. If the difference is more than 10 decibels to obtain the high-frequency threshold again, if the difference is less than 5 decibels airway and bone conduction pure hearing test method characterized in that to measure the low range. The method of claim 1 or 2, wherein the third measurement step, If the user reacts to the sound generated in the ear having a bad hearing while the shield is being given to the ear having a hearing loss, the shield sound of the ear having a hearing loss is increased, and the sound of the ear having a bad hearing is increased if there is no response. Airway and bone conduction pure hearing test method characterized in that the final threshold is measured. According to claim 1 or 2, wherein the fourth measurement step, If the difference between the bad ear airway hearing threshold and the good ear bone conduction hearing threshold is 15 decibels or more, if the user responds to the sound produced by the ear being measured while giving the good ear a shielding sound, If there is no response, the airway and bone conduction pure hearing test method characterized in that to measure the final threshold by increasing the sound of the ear to measure. A storage medium suitable for reading by a computer; 3. The recording medium on which the airway and bone conduction pure hearing test method is recorded, comprising: program means stored in the storage medium for performing the pure voice hearing test method according to claim 1 or 2.

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