KR20210158020A - Apparatus for generating test sound based hearing threshold and method of the same - Google Patents

Abstract

According to the present invention, provided is a device for generating a speech hearing test sound in consideration of a hearing threshold, which includes: a processor for setting pure sound frequency information and pure sound size information of a pure sound hearing test sound; an output unit for outputting the pure sound hearing test sound based on the pure sound frequency information and the pure sound size information; and an input unit for receiving information on whether to hear the pure sound hearing test sound from an examinee.

Description

Apparatus for generating test sound based hearing threshold and method of the same

The present invention relates to an apparatus for generating speech audiometry in consideration of a hearing threshold and a method for performing the same.

These days, as personal sound devices such as MP3 players and smartphones become common, the age of hearing loss is gradually decreasing, and interest in improving the working environment of workers exposed to continuous noise in industrial settings is growing. Hearing loss can progress slowly and you can lose your hearing without your knowledge.

In order to cope with hearing loss, it is important to know the individual's hearing condition on a daily basis to prevent and treat hearing loss at an early stage. However, for early detection, periodic hearing tests are required, so there is no time to visit the hospital, or the distance to the hospital is far from the hospital to prevent timely examinations. In addition, since the hearing test examines the testee's response to sound for each frequency, a reliable threshold value can be determined only when it is performed in a quiet environment such as a soundproof booth. However, there is a problem that the soundproof booth requires an examination space of a certain size and an expensive installation cost, and it can be used only by visiting a hospital or a designated place where hearing test is possible. Conventional efforts to perform a hearing test in a noisy environment are as follows. Headphones, such as circumaural earphones, can completely cover the ears to enhance the soundproofing effect, but deliver a sense of pressure to the subject's ears, and the subject may complain of stuffiness. In the case of an insert earphone capable of inserting the device close to the ear, the effect of sound transmission is great, but there is a limitation in blocking in a low frequency band. Both of these earphones have a passive offset effect, but there is a limit as a means of blocking ambient noise because the test results vary depending on the wearing state.

In addition, by outputting a consistent test sound without considering the hearing condition of the examinee, and examining the hearing by receiving the examinee's audible status of the test sound, a meaningless test sound is output to increase the test time and accuracy of the test There is a problem of falling.

An object of the present invention is to provide an apparatus for generating a speech audiometry sound in consideration of a hearing threshold capable of generating a speech audiometry sound for examining a subject's hearing in consideration of the hearing threshold. Another object of the present invention is to provide a computer-readable recording medium in which a program for executing the method in a computer is recorded.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned may be understood by the following description, and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the appended claims.

According to the present invention, there is provided an apparatus for generating a speech hearing test sound in consideration of a hearing threshold, comprising: a processor for setting pure tone frequency information and pure tone size information of a pure tone hearing test sound; an output unit for outputting the pure tone hearing test sound based on the pure tone frequency information and the pure tone size information; and an input unit for receiving information on whether or not to hear the pure tone hearing test sound from the examinee.

The processor generates hearing threshold average information of the examinee based on the pure tone frequency information and the pure tone size information of the pure tone hearing test sound corresponding to the audible information indicating audibility, and based on the hearing threshold average information One of the preliminary speech hearing test sound sets among the plurality of preliminary speech hearing test sound sets may be selected as the speech hearing test sound set to be applied to the subject.

The processor sequentially sets the pure tone frequency information to any one reference pure tone frequency from among a plurality of preset reference pure tone frequencies, and when the pure tone frequency information is set, the pure tone level information can be set by increasing the size of a unit of pure tone from the minimum standard pure tone level.

The processor determines an audible pure tone level for each of the plurality of reference pure tone frequencies based on the pure tone level information of the pure tone hearing test sound output at a time when the audibility information indicating audibility is input, and a pure tone between the audible pure tone levels The magnitude deviation is calculated, and the average of some audible pure tone magnitudes among the audible pure tone sizes for each of the plurality of reference pure tone frequencies based on whether the pure tone magnitude deviation is included in a preset deviation range may be calculated as the hearing threshold average information .

The processor may select a preliminary speech hearing test sound set of a hearing threshold range including the hearing threshold average information from among the hearing threshold ranges corresponding to each of the plurality of preliminary speech hearing test sound sets as the speech hearing test sound set.

According to the present invention, there is provided a method for generating a speech hearing test sound in consideration of a hearing threshold, the method comprising: setting, by a processor, pure tone frequency information and pure tone size information of a pure tone hearing test sound; outputting, by an output unit, the pure tone hearing test sound based on the pure tone frequency information and the pure tone size information; receiving, by an input unit, audible information about the pure tone hearing test sound from the examinee; and the processor generates the hearing threshold average information of the examinee based on the pure tone frequency information and the pure tone magnitude information of the pure tone hearing test sound corresponding to the audible information indicating audible hearing, and based on the hearing threshold average information and selecting any one preliminary speech hearing test sound set from among the plurality of preliminary speech hearing test sound sets as the speech hearing test sound set to be applied to the subject.

In the speech hearing test sound generation method in consideration of the hearing threshold according to the present invention, the processor sequentially sets the pure tone frequency information to any one reference pure tone frequency among a plurality of preset reference pure tone frequencies, and when the pure tone frequency information is set, audible The method may further include setting the pure tone size information by increasing the pure tone size information by unit units from a minimum standard pure tone level until a point in time when the audible status information indicating .

According to the method for generating a speech hearing test sound in consideration of a hearing threshold according to the present invention, the plurality of reference pure tones based on the pure tone level information of the pure tone hearing test sound output when the audible information indicating audible is input by the processor Check the audible pure tone level for each frequency, calculate a pure tone size deviation between the audible pure tone levels, and based on whether the pure tone level deviation is included in a preset deviation range, some of the audible pure tone sizes for each of the plurality of reference pure tone frequencies are audible The method may further include calculating an average of pure tone levels as the hearing threshold average information.

In the speech hearing test sound generation method in consideration of the hearing threshold according to the present invention, the processor performs a preliminary speech hearing in a hearing threshold range including the hearing threshold average information from among the hearing threshold ranges corresponding to each of the plurality of preliminary speech audio test sound sets. The method may further include selecting a test sound set as the speech hearing test sound set.

The computer program according to the present invention may be stored in a computer-readable recording medium so as to be combined with a computer, which is hardware, to perform the method.

As described above, by generating a speech audiogram in which the hearing threshold of the subject is taken into account, the test sound meaningless for the hearing test is not used for the hearing test, thereby reducing the time required for the hearing test and improving the reliability of the test. can be improved

1 is a diagram illustrating an example of an apparatus for generating a speech hearing test sound in consideration of a hearing threshold and a subject performing a test using the apparatus.
2 is a block diagram of an apparatus for generating speech hearing test sounds in consideration of a hearing threshold.
3 is a diagram illustrating another example of an apparatus for generating speech hearing test sounds in consideration of a hearing threshold and a subject performing a test using the apparatus.
4 is a diagram illustrating an example of a screen displayed on a display unit of an apparatus for generating speech hearing test sounds in consideration of a hearing threshold.
5 is a diagram illustrating another example of a screen displayed on a display unit of an apparatus for generating speech hearing test sounds in consideration of a hearing threshold.
6 is a diagram illustrating frequency characteristics of Korean phonemes.

Hereinafter, various embodiments of the present invention will be described with reference to the accompanying drawings. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include various modifications, equivalents, and/or alternatives of the embodiments of the present invention. In connection with the description of the drawings, like reference numerals may be used for like elements.

In this document, expressions such as "have", "may have", "includes", or "may include" indicate the presence of a corresponding characteristic (eg, a numerical value, function, operation, or component such as a part). and does not exclude the presence of additional features.

In this document, expressions such as “A or B”, “at least one of A or/and B”, or “one or more of A or/and B” may include all possible combinations of the items listed together. . For example, "A or B", "at least one of A and B", or "at least one of A or B" means (1) includes at least one A, (2) includes at least one B; Or (3) it may refer to all cases including both at least one A and at least one B.

Expressions such as "first", "second", "first", or "second" used in this document can modify various elements, regardless of order and/or importance, and It is used only to distinguish it from other components, and does not limit the components. For example, the first subject device and the second subject device may represent different subject devices regardless of order or importance. For example, without departing from the scope of the rights described in this document, a first component may be referred to as a second component, and similarly, the second component may also be renamed as a first component.

A component (eg, a first component) is "coupled with/to (operatively or communicatively)" to another component (eg, a second component); When referring to "connected to", it will be understood that the certain element may be directly connected to the other element or may be connected through another element (eg, a third element). On the other hand, when it is said that a component (eg, a first component) is "directly connected" or "directly connected" to another component (eg, a second component), the component and the It may be understood that other components (eg, a third component) do not exist between other components.

The expression “configured to (or configured to)” as used in this document, depending on the context, for example, “suitable for”, “having the capacity to )", "designed to", "adapted to", "made to", or "capable of" . The term "configured (or set up to)" may not necessarily mean only "specifically designed to" in hardware. Instead, in some contexts, the expression “a device configured to” may mean that the device is “capable of” with other devices or parts. For example, the phrase "a processor configured (or configured to perform) A, B, and C" refers to a dedicated processor (eg, an embedded processor, MCU), or one or more software programs stored in memory, for performing the corresponding operations. By executing, it may mean a generic-purpose processor (eg, CPU, AP) capable of performing corresponding operations.

Terms used in this document are only used to describe specific embodiments, and may not be intended to limit the scope of other embodiments. The singular expression may include the plural expression unless the context clearly dictates otherwise. Terms used herein, including technical or scientific terms, may have the same meanings as commonly understood by one of ordinary skill in the art described in this document. Among the terms used in this document, terms defined in a general dictionary may be interpreted with the same or similar meaning as the meaning in the context of the related art, and unless explicitly defined in this document, have an ideal or excessively formal meaning. not interpreted In some cases, even terms defined in this document cannot be construed to exclude embodiments of this document.

Hereinafter, an apparatus for generating a speech hearing test sound in consideration of a hearing threshold will be described in detail with reference to the drawings.

1 is a diagram illustrating an example of a speech hearing test sound generating apparatus 100 considering a hearing threshold and a subject performing a test using the same, and FIG. 2 is a speech hearing test sound generating apparatus 100 considering a hearing threshold. 3 is a diagram illustrating another example of the speech hearing test sound generating apparatus 100 considering the hearing threshold and another example of a subject performing the test using the same, and FIG. 4 is the speech hearing test sound considering the hearing threshold. It is a view showing an example of a screen displayed on the display unit of the generating apparatus 100, and FIG. 5 is a view showing another example of the screen displayed on the display unit of the speech hearing test sound generating apparatus considering the hearing threshold, FIG. 6 is a diagram showing the frequency characteristics of Korean phonemes.

1 to 6 , the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold according to an embodiment of the present invention includes a processor 110 , an output unit 120 , a display unit 130 , and an input unit 140 . ), a communication unit 150 and a storage unit 160 may be included. Among the components of the speech hearing test sound generating device 100 in consideration of the hearing threshold according to the present invention, only the components related to the function of testing hearing, displaying the test result or applying the test result to reproduce the sound source will be described. do. Therefore, it can be understood by those of ordinary skill in the art related to the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold that other general-purpose components may be further included in addition to the components shown in FIG. 2 . .

The speech hearing test sound generating apparatus 100 considering the hearing threshold according to an embodiment of the present invention is portable by the examinee who tests hearing 　 It is a device that reproduces a sound source or outputs a signal for reproducing the sound source. . In this case, being portable means that there is no inconvenience in carrying the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold in hand or on the body. In addition, a device for reproducing a sound source means a device that generates a sound that the examinee can hear from data stored in the form of a digital or analog signal, or outputs a signal that generates a sound that the examinee can hear. For example, of the speech hearing test sound generating apparatus 100 considering the hearing threshold, a mobile phone, a personal digital assistant, an MP3 player (MPEG Audio layer-3 Player), a CD player (Compact Disc player) ), a portable media player, and the like, and the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold is not limited thereto, and generates a sound that the examinee can hear, or the examinee can hear it. Includes any device that outputs a signal that produces sound.

The speech hearing test sound generating device 100 considering the hearing threshold is a device in which a function of testing hearing is added to a device that reproduces a sound that the examinee can hear or outputs a signal representing a sound that the examinee can hear to be. Hearing ability refers to the ability to hear sounds with the ear, and the hearing test is a test that measures the degree of hearing. That is, the speech hearing test sound generating device 100 considering the hearing threshold reproduces a sound source to which a function for measuring the degree of the ability to hear a sound with the ear is added, or outputs a signal for reproducing the sound source means the device.

In this case, a signal for reproducing a sound source is a signal for generating a sound. A signal generating sound is composed of a waveform having amplitude and frequency phase. This signal is amplified through an amplifier to generate a sound, or a sound is generated by the output unit 120 of the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold. In this case, the output unit 120 may be implemented as a headset 120a as shown in FIG. 1 , or may be implemented as a plurality of speakers 120a ′ as shown in FIG. 3 . The speech hearing test sound generating apparatus 100 considering the hearing threshold may test the auditory ability of the examinee with reference to the degree of hearing the sound generated in this way.

The output unit 120 according to an embodiment may output a pure tone hearing test sound composed of pure tones as a sound for testing hearing.

The test sound generated by reproducing the signal output from the speech hearing test sound generating apparatus 100 considering the hearing threshold stimulates the auditory organ of the examinee to allow the examinee to listen to the test sound. The output unit 120 may directly output a test sound from the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold by using an audio signal generating a sound.

To this end, the processor 110 may set pure tone frequency information and pure tone size information of the pure tone hearing test sound. Here, the pure tone frequency information may be information indicating a pure tone frequency of a pure tone audiogram, and the pure tone size information may be information indicating a pure tone level of a pure tone audiometry sound.

The output unit 120 may output a pure tone hearing test sound based on pure tone frequency information and pure tone size information set by the processor 110 .

Specifically, the processor 110 sequentially sets the pure tone frequency information to any one reference pure tone frequency among a plurality of preset reference pure tone frequencies, and when the pure tone frequency information is set, the pure tone level until a point in time when audible information indicating audibility is input. The information may be set by increasing the size of a unit of pure tone from the minimum standard pure tone level.

For example, the plurality of reference pure tone frequencies may be 500 Hz, 1000 Hz, 2000 Hz, 3000 Hz, and 4000 Hz, the minimum reference pure tone level may be 0 dB, and the unit pure tone level may be 1 dB.

Accordingly, the output unit 120 may output a pure tone hearing test sound in which the pure tone frequency information is 500 Hz, 1000 Hz, 2000 Hz, 3000 Hz, and 4000 Hz, respectively, and the pure tone level information increases by 1 dB from 0 dB.

In this case, the input unit 140 may receive information on whether or not to hear the pure tone hearing test sound from the examinee. Here, the audible information may be information indicating whether the examinee can hear the output pure tone hearing test sound.

To this end, the input unit 140 may be implemented as a microphone 140a capable of inputting audible information as a voice signal, as shown in FIG. 1 , and as shown in FIG. 3 , press the audible information button It may be implemented as a keyboard 140b capable of inputting a signal, or may be implemented as a touch panel S1 capable of inputting audible information as a touch signal.

The processor 110 determines the audible pure tone size for each of a plurality of reference pure tone frequencies based on the pure tone level information of the pure tone hearing test sound output at the time when audible information indicating audibility is input, and calculates the pure tone level deviation between the audible pure tone levels. and, based on whether the pure tone size deviation is included in a preset deviation range, an average of some audible pure tone levels among a plurality of audible pure tone levels for each reference pure tone frequency may be calculated as the hearing threshold average information.

Specifically, the processor 110 determines the audible pure tone size for each reference pure tone frequency based on the reference pure tone frequency indicated by the pure tone frequency information of the pure tone hearing test sound output at the point in time when audible information indicating audibility is input, and the pure tone size indicated by the pure tone size information. can be checked with

That is, the processor 110 may check the audible pure tone for each of the plurality of reference pure tone frequencies of 500 Hz, 1000 Hz, 2000 Hz, 3000 Hz, and 4000 Hz.

Thereafter, the processor 110 calculates a pure tone size deviation between audible pure tone levels corresponding to adjacent reference pure tone frequencies, and if all pure tone level deviations are included in a preset deviation range, it is determined that the subject's hearing type is flat, and the reference pure tone An average of audible pure tones corresponding to frequencies of 500 Hz, 1000 Hz, and 2000 Hz may be calculated as hearing threshold average information.

Conversely, the processor 110 calculates a pure tone size deviation between audible pure tone levels corresponding to adjacent reference pure tone frequencies, and when one or more pure tone level deviations are out of a preset deviation range, it is determined that the subject's hearing type is sloped, and the reference An average of audible pure tones corresponding to each of the pure tone frequencies of 1000 Hz, 2000 Hz, 3000 Hz, and 4000 Hz may be calculated as hearing threshold average information.

Thereafter, the processor 110 may select any one preliminary speech hearing test sound set from among the plurality of preliminary speech hearing test sound sets as the speech hearing test sound set to be applied to the examinee based on the hearing threshold average information.

Here, the plurality of preliminary speech hearing test sound sets may refer to a bundle of a plurality of speech hearing test sounds differently selected according to the average hearing threshold. An average range of a hearing threshold of the examinee to which the plurality of preliminary speech audiometry sets can be applied may be set.

Here, the preliminary speech hearing test sound set may be composed of test sounds selected by applying a two-parameter logistic model based on Item Response Theory (IRT).

For example, the plurality of preliminary speech audiogram sets may be first to fourth preliminary speech audiogram sets, and each of the first to fourth preliminary speech audiogram sets is in the first to fourth hearing threshold range. can be matched. For example, the first hearing threshold range may be a normal hearing threshold range of 20 dB or less, the second hearing threshold range may be a mild hearing threshold range of 21 dB to 40 dB, and the third hearing threshold range may be a moderate hearing threshold range of 41 dB to 70 dB. The hearing threshold range may be a range, and the fourth hearing threshold range may be a high hearing threshold range of greater than 71 dB.

Accordingly, the processor 110 may select a preliminary speech hearing test sound set in the hearing threshold range including the hearing threshold average information from among the hearing threshold ranges corresponding to each of the plurality of preliminary speech audio test sound sets as the speech audio test sound set. have.

Here, the selected speech hearing test sound set may mean a test sound bundle to be used for a hearing test of the examinee.

Meanwhile, as described above, the plurality of preliminary speech hearing test sounds may be a bundle of a plurality of speech hearing test sounds, and the speech hearing test sounds may be monosyllables. A monosyllable word may consist of only one syllable including at least one phoneme. A syllable is a term in phonetics and may be a minimum unit of pronunciation. A syllable may consist of a leading-neutral-final (eg, a force composed of "h-l-ㅁ"), or a leading-neutral (eg, a key composed of "h-l"), etc. .

In this case, the processor 110 of the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold may include some of all monosyllabic words of Hangul in the plurality of preliminary speech audiogram sets through the item response theory algorithm.

To this end, the processor 110 may process the item response theory algorithm using a two-parameter logistic model. Here, the 2-parameter logistic model may be an equation defined as follows.

는 학습자의 능력 수준, a는 문항 변별도 모수, b : 문항 난이도 모수이다.here,

is the learner's ability level, a is the item discrimination parameter, and b is the item difficulty parameter.

The test sound output from the output unit 120 may be generated by the processor 110 based on data read from the storage unit 160 . The storage unit 160 includes at least one classified based on the frequency indicated by the phoneme. The above phoneme groups are stored. Also, in the storage unit 160 according to the present embodiment, groups of syllables classified based on the frequency indicated by the phoneme constituting the syllable may be stored.

In this case, the group of phonemes or the group of syllables includes a phoneme or syllables included in each frequency band with respect to a plurality of frequency bands within the audible frequency range. The audible frequency range is a frequency range of sound waves that can be perceived by the human ear as sound, and refers to a frequency band of about 15 Hz or more and 20 KHz or less. That is, the audible frequency range may be classified into a plurality of frequency bands, and syllables composed of phonemes included in the classified frequency band may be grouped.

The storage unit 160 is a conventional storage medium, and if a person skilled in the art related to the speech hearing test sound generating apparatus 100 considering a hearing threshold for testing hearing is a person skilled in the art, the storage unit 160 is a hard disk drive It can be seen that (Hard Disk Drive, HDD), ROM (Read Only Memory), RAM (Random Access Memory), flash memory (Flash Memory) and memory card (Memory Card) are all included.

As described above, 　 syllable refers to the minimum unit of pronunciation, and each 　 syllable is composed of at least one phoneme. A phoneme is the smallest unit of phonology in phonology. In this case, the phoneme refers to a unit of sound that distinguishes the meaning of words. In other words, a phoneme is the smallest unit of sound that distinguishes the meaning of words. In Korean, phonemes are /ah/, /i/, /u/, /o/, /uh/, /ye/, /b/, /ㅁ/, /r/, /a/, /ㄲ/, /ㅋ /, /b/, /ㅃ/, /p/, /heh/, /c/, /ㄸ/, /t/, /c/, /t/, /c/, /o/, /ㅆ/, etc. is composed of

6 is a diagram illustrating frequency characteristics of Korean phonemes. Referring to FIG. 6 , for Korean phonemes, the ranges of frequencies constituting the respective consonants and vowels by classifying the phonemes into consonants and vowels are shown, and the respective consonants and vowels are grouped into a plurality of groups according to the range of the peak frequency. is classified as

Referring to FIG. 6 , a list 201 of consonants indicates a frequency range constituting the consonants, and the consonants are classified into three groups according to the frequency range. Group 1 (2011) means consonants belonging to a frequency range of about 250 Hz to less than 500 Hz, group 2 (2012) means consonants belonging to a frequency range of about 650 Hz to less than 3000 Hz, and group 3 (2013) is about 3000 Hz It means consonants belonging to the frequency range of more than 7000 Hz.

Consonants belonging to group 1 (2011) include /ㄴ/, /ㅁ/, /ㄹ/, etc., and consonants belonging to group 2 (2012) are /a/, /ㄲ/, /ㅋ/, /b/, / There are ㅃ/, /p/, /h/, etc., and the consonants belonging to group 3 (2013) are /c/, /ㄸ/, /t/, /c/, /t/, /c/, /ㅅ/ , /ㅆ/, etc.

Also, the list 202 of vowels indicates the frequency range constituting the vowels. Referring to the list 202 of vowels, one vowel is composed of three formant frequencies. In this case, the formant frequency refers to peak frequencies indicating relatively high energy in a frequency spectrum that is obtained by integrally converting a sound level (dB) versus time representing a vowel on a frequency axis. Referring to the list 202 of vowels, three formant frequencies constituting one vowel may be represented as a first formant, a second formant, and a third formant, respectively, in order from a low frequency band. As shown in the list 202 of vowels, since most vowels are similar in frequency bands of the first and third formants, vowels can be classified into three groups based on the second formant band. have. Group 2-1 (2021) according to these classification criteria means vowels in which the second formant belongs to a frequency range of about 600 Hz or more and less than 800 Hz, and in group 2-2 (2022), the second formant has a frequency range of about 1000 Hz or more and 1300 Hz or more. It means vowels belonging to a frequency range less than or equal to, and group 2-3 2023 means vowels in which the second formant belongs to a frequency range of about 2000 Hz to less than 3000 Hz.

The vowels belonging to group 2-1 (2021) include /u/ and /o/, and the vowels belonging to group 2-2 (2022) include /ah/ and /uh/, and group 2-3 (2023). ) includes /i/ and /yes/.

The input unit 140 receives the response of the examinee to the audibility of the sound reproduced by the signal output by the output unit 120 . The input unit 140 provided in the speech hearing test sound generating apparatus 100 considering the hearing threshold receives an input signal from the examinee and displays output information to the examinee. For example, the input unit 140 provides input/output devices such as a display panel, a mouse, a keyboard, an input button, a touch screen, an LCD screen, a monitor, and a speaker provided in the speech hearing test sound generating device 100 in consideration of the hearing threshold. include all In this case, the display unit 130 may display various information and provide it to the examinee. Accordingly, the input unit 140 may display the test result of the testee according to the auditory characteristics of the examinee, and may receive volume information from the examinee. In addition, the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold recognizes the subject's voice or receives an input signal input by the subject and responds to the sound indicated by the signal output by the output unit 120 . response can be obtained.

The examinee listens to the sound generated by the output unit 120 and inputs a response to the degree of audibility through the input unit 140 . For example, a sound represented by the syllable “power” is reproduced through the speech hearing test sound generating device 100 in consideration of the hearing threshold, and the examinee responds to whether or not the person listened to the sound represented by the syllable as “power” is input through the input unit 140 . In this case, the degree of audibility means the degree to which the examinee can hear the sound well. Accordingly, the degree of audibility according to the present embodiment may mean whether or not the subject listened to the sound as a syllable as a result of listening to the sound representing the 　 syllable generated by the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold. .

As another example, a sound represented by a phoneme “b” is reproduced through the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold, and the examinee determines whether or not the person listened to the sound represented by the phoneme as “b”. A response is input through the input unit 140 . Accordingly, the degree of audibility according to the present embodiment may mean whether or not the subject listened to the sound as a phoneme as a result of listening to the sound representing the phoneme generated by the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold. .

The input unit 140 may obtain a response to the degree of audibility from the examinee using various user interfaces. For example, in order to measure the degree of understanding of a phoneme or 　 syllable, the phoneme or 　 syllable heard by the examinee is directly input, and the input phoneme or 　 syllable is reproduced through the speech hearing test sound generating device 100 in consideration of the hearing threshold. By determining whether a phoneme or 　 syllable is the same, the degree of hearing of the subject can be measured. Alternatively, the examinee selects one phoneme or a syllable corresponding to the phonemes or syllables reproduced through the speech audiometry sound generating apparatus 100 in consideration of the hearing threshold among examples of the plurality of phonemes or syllables, thereby allowing the examinee to hear degree can be measured. Alternatively, the examinee may select whether to listen to a phoneme or a syllable by answering “yes” or “no”.

Since the methods presented above are impossible as an example of obtaining a response from the subject, the method of obtaining a response to the degree of audibility of the subject through the speech hearing test sound generating apparatus 100 considering the hearing threshold is not limited thereto. It can be seen that various methods are possible.

The processor 110 controls the overall function of the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold. The processor 110 controls the output unit 120 , the display unit 130 , the input unit 140 , the communication unit 150 , and the storage unit 160 . The processor 110 tests the subject's hearing ability based on an auditory characteristic indicating the degree of audibility for a frequency band constituting a syllable according to a response received from the examinee.

For example, the processor 110 outputs a signal representing at least one or more phonemes or syllables by the output unit 120 , and the examinee listens to a sound generated by the output signal, and hears the sound. A response to the degree is input through the input unit 140 . The processor 110 determines the auditory characteristic of the examinee with reference to the received response.

As described above, the examinee inputs a response to the degree of audibility for a plurality of phonemes or syllables through the input unit 140, and the processor 110 analyzes the input responses to allow the examinee to respond to the frequency of the sound source. Determining the auditory characteristic of the subject indicating the degree of hearing. That is, the processor 110 determines the auditory characteristic of the examinee in the frequency domain including the frequency indicated by the phoneme or 　 syllable with reference to the response of the examinee. For example, when the subject has low audibility for phonemes or syllables included in a frequency band of about 600 Hz or more and less than 800 Hz, the accuracy of the response to the phonemes or syllables included in the frequency band is low In this case, it can be determined that the subject has difficulty in listening to a frequency band of about 600 Hz or more and less than 800 Hz. By determining the auditory characteristics of the examinee based on the result of this determination, the subject's 　hearing ability can be tested.

The communication unit 150 transmits/receives data between the speech hearing test sound generating apparatus 100 in consideration of the hearing threshold and an external device. Depending on the usage environment of the speech hearing test sound generating apparatus 100 considering the hearing threshold, the communication unit 150 may not exist in the speech hearing test sound generating apparatus 100 considering the hearing threshold.

When the speech hearing test sound generating apparatus 100 considering the hearing threshold is a mobile phone, it is possible to perform overall functions such as a phone call, text message transmission and reception, and the Internet by transmitting and receiving data through the communication unit 150 .

Accordingly, the subject can conveniently perform the hearing test by using the speech hearing test sound generating device 100 in consideration of the hearing threshold, and immediately know the results of the hearing test. In addition, by immediately applying the results of the 　hearing test 　 to the speech hearing test sound generating device 100 taking the hearing threshold into account, the hearing ability of the examinee can be improved by directly using the 　hearing test 　 performance result.

Meanwhile, the processor 110 may include some speech hearing test sounds in the output test sound list based on the initial consonant of the speech hearing test sounds among a plurality of speech hearing test sounds included in the speech hearing test sound set.

In this case, the processor 110 may include the speech hearing test sound in the output test sound list so that the initial sound of the speech hearing test sound included in the output test sound list includes all the initial consonants of Hangul.

Thereafter, the output unit 120 outputs a speech hearing test sound included in the output test sound list, and as shown in FIG. 5 , the input unit 140 may receive hearing information about the speech hearing test sound from the examinee. have. In this case, the display unit 130 may display the input area S2 to which the listening information is input.

Here, the listening information may be information indicating the speech hearing test sound recognized by the examinee who has listened to the speech hearing test sound. For example, the hearing information of the subject without hearing loss may be the same as the speech hearing test sound, but the hearing information of the subject with hearing loss may be different from the speech hearing test sound.

Meanwhile, the processor 110 may generate speech hearing loss rate information and speech hearing loss type information of the examinee based on the listening information.

In detail, the processor 110 may compare whether the speech hearing test sound and the listening information are the same, and determine whether or not information on whether or not to have hearing loss for the speech hearing test sound based on the comparison result.

The processor 110 controls the output unit 120 to output the speech hearing test sound a plurality of times, and the listening information on the speech hearing test sound output a plurality of times is the same as the speech hearing test sound in succession, or is the same as the speech hearing test sound two or more times In this case, the hearing loss information on the speech hearing test sound may be determined as non-hearing. Conversely, when the hearing information on the speech hearing test sound output a plurality of times is different from the speech audio test sound in succession, or is different from the speech hearing test sound two or more times, the processor 110 may determine the hearing loss information about the speech hearing test sound as hearing loss. have.

Thereafter, the processor 110 generates as speech hearing loss rate information a ratio between the number of output test sounds of the speech hearing test sound output to the output unit 120 and the number of hearing loss test sounds of the speech hearing test sound in which the hearing loss information indicates hearing loss. can do.

In addition, the processor 110 may generate speech hearing loss type information based on the hearing loss information of another speech hearing test sound in which any one of the initial, middle, and final tones of the speech audiogram indicating hearing loss is different from the hearing loss information. .

For example, the processor 110 may generate speech hearing loss type information if the hearing loss information indicates non-hearing ability information of other speech hearing test sounds having different finalities among the initial, middle, and final voices of the speech audiogram indicating hearing loss. It can be created as a type of hearing loss.

In addition, the processor 110 returns the speech hearing loss type information to the neutral hearing loss type information when the hearing loss information of other speech hearing test sounds having different neutrals among the initial, neutral, and final tones of the speech hearing test sound indicating the hearing loss is non-hearing information indicates non-hearing. can be created with

In addition, the processor 110 may generate speech hearing loss type information if the hearing loss information indicates non-hearing ability information of other speech hearing test sounds having different initials among the leading, middle, and final tones of the speech audiogram indicating hearing loss. can be created with

In this case, the processor 110 may generate speech hearing loss type information in the order of the final, middle, and leading voice.

At this time, the processor 110 determines whether the hearing loss information indicates whether the speech hearing test sound representing hearing loss is a monosyllabic word composed of a neutral and a leading voice or a monosyllabic word composed of a final, neutral, and leading voice. Speech hearing loss type information may be generated in the order of the middle and final consonants, and in the case of a monosyllabic word composed of the final, neutral, and leading consonants, speech hearing loss type information may be generated in the order of the final, neutral, and leading consonants.

Meanwhile, when the speech hearing loss type information is generated as the initial hearing loss type, the processor 110 may newly generate a speech hearing test sound based on another initial sound included in the leading frequency range including the frequency of the corresponding leading sound.

Specifically, the processor 110 determines a leading frequency range including a frequency of a leading voice of a speech hearing test sound generated by speech hearing loss type information as a leading voice hearing loss type from among a plurality of preset leading frequency ranges, and the identified leading frequency range A speech hearing test sound may be newly generated by using other initial consonants included in the .

When the processor 110 determines that the hearing loss information for the newly generated speech hearing test sound is deafness, the processor 110 allocates the hearing loss frequency range information to the leading frequency range including the leading frequency of the newly generated speech hearing test sound. can

Through this, the processor 110 may accurately identify the initial frequency range in which the subject's hearing loss occurs.

Meanwhile, the method according to the present invention can be written as a program that can be executed on a computer, and can be implemented in a general-purpose digital computer that operates the program using a computer-readable recording medium. In addition, the structure of the data used in the above-described method may be recorded in a computer-readable recording medium through various means. The computer-readable recording medium includes a storage medium such as a magnetic storage medium (eg, a ROM, a floppy disk, a hard disk, etc.) and an optically readable medium (eg, a CD-ROM, a DVD, etc.).

Those of ordinary skill in the art of the speech hearing test sound generating device 100 in consideration of the hearing threshold for testing hearing ability can understand that it can be implemented in a modified form within a range that does not deviate from the essential characteristics of the above description. There will be. Therefore, the disclosed methods are to be considered in an illustrative rather than a restrictive sense. The range of the speech audiometry sound generation apparatus 100 considering the hearing threshold is indicated in the claims rather than the above description, and all differences within the equivalent range are the speech audiometry sound generation apparatus 100 considering the hearing threshold. should be construed as included in

According to the present invention, there is provided a method for generating a speech hearing test sound in consideration of a hearing threshold, the method comprising: setting, by a processor, pure tone frequency information and pure tone size information of a pure tone hearing test sound; outputting, by an output unit, the pure tone hearing test sound based on the pure tone frequency information and the pure tone size information; receiving, by an input unit, audible information about the pure tone hearing test sound from the examinee; and the processor generates the hearing threshold average information of the examinee based on the pure tone frequency information and the pure tone magnitude information of the pure tone hearing test sound corresponding to the audible information indicating audible hearing, and based on the hearing threshold average information and selecting any one preliminary speech hearing test sound set from among the plurality of preliminary speech hearing test sound sets as the speech hearing test sound set to be applied to the subject.

In the speech hearing test sound generation method in consideration of the hearing threshold according to the present invention, the processor sequentially sets the pure tone frequency information to any one reference pure tone frequency among a plurality of preset reference pure tone frequencies, and when the pure tone frequency information is set, audible The method may further include setting the pure tone size information by increasing the pure tone size information by unit units from a minimum standard pure tone level until a point in time at which the audible information indicating .

According to the method for generating a speech hearing test sound in consideration of a hearing threshold according to the present invention, the plurality of reference pure tones based on the pure tone level information of the pure tone hearing test sound output when the audible information indicating audible is input by the processor Check the audible pure tone level for each frequency, calculate a pure tone size deviation between the audible pure tone levels, and based on whether the pure tone level deviation is included in a preset deviation range, some of the audible pure tone sizes for each of the plurality of reference pure tone frequencies are audible The method may further include calculating an average of pure tone levels as the hearing threshold average information.

In the speech hearing test sound generation method in consideration of the hearing threshold according to the present invention, the processor performs a preliminary speech hearing in a hearing threshold range including the hearing threshold average information from among the hearing threshold ranges corresponding to each of the plurality of preliminary speech audio test sound sets. The method may further include selecting a test sound set as the speech hearing test sound set.

On the other hand, the computer program according to an embodiment of the present invention is combined with a computer that is hardware, and is stored on a computer-readable recording medium to perform the speech hearing test sound generation method in consideration of the hearing threshold according to an embodiment of the present invention. can be saved.

The steps of a method or algorithm described in relation to an embodiment of the present invention may be implemented directly in hardware, as a software module executed by hardware, or by a combination thereof. A software module may contain random access memory (RAM), read only memory (ROM), erasable programmable ROM (EPROM), electrically erasable programmable ROM (EEPROM), flash memory, hard disk, removable disk, CD-ROM, or It may reside in any type of computer-readable recording medium well known in the art to which the present invention pertains.

So far, the present invention has been focused on preferred embodiments. Those of ordinary skill in the art to which the present invention pertains will understand that the present invention can be implemented in modified forms without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is indicated in the claims rather than the foregoing description, and all differences within the scope equivalent thereto should be construed as being included in the present invention.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

100: Speech audiometry sound generation device in consideration of the hearing threshold
110: processor
120: output unit
130: display unit
140: input unit
150: communication department
160: storage

Claims (9)

a processor configured to set pure tone frequency information and pure tone size information of a pure tone hearing test sound;
an output unit for outputting the pure tone hearing test sound based on the pure tone frequency information and the pure tone size information; and
Including a;
the processor is
generate hearing threshold average information of the examinee based on the pure tone frequency information and the pure tone magnitude information of the pure tone audiometry corresponding to the audible information indicating audible hearing, and a plurality of preliminary information based on the hearing threshold average information A speech hearing test sound set to be applied to the subject is characterized in that any one preliminary speech hearing test sound set is selected from among the speech audio test sound sets.
Speech audiometry sound generator taking into account the hearing threshold.
According to claim 1,
the processor is
The pure tone frequency information is sequentially set as a reference pure tone frequency of any one of a plurality of preset reference pure tone frequencies, and when the pure tone frequency information is set, the pure tone level information is set as a minimum standard until a point in time when the audible information indicating audibility is input. characterized in that it is set by increasing the size of the pure tone in units of the size of the pure tone
Speech audiometry sound generator taking into account the hearing threshold.
3. The method of claim 2,
the processor is
Based on the pure tone size information of the pure tone hearing test sound output when the audible information indicating audibility is input, the audible pure tone level for each of the plurality of reference pure tone frequencies is checked, and the pure tone level deviation between the audible pure tone levels is determined and calculating an average of some audible pure tone levels among the plurality of audible pure tone sizes for each reference pure tone frequency as the hearing threshold average information based on whether the pure tone level deviation is included in a preset deviation range
Speech audiometry sound generator taking into account the hearing threshold.
According to claim 1,
the processor is
Selecting a preliminary speech hearing test sound set of a hearing threshold range including the hearing threshold average information from among the hearing threshold ranges corresponding to each of the plurality of preliminary speech hearing test sound sets as the speech hearing test sound set, characterized in that
Speech audiometry sound generator taking into account the hearing threshold.
setting, by the processor, pure tone frequency information and pure tone size information of the pure tone hearing test sound;
outputting, by an output unit, the pure tone hearing test sound based on the pure tone frequency information and the pure tone size information;
receiving, by an input unit, audible information about the pure tone hearing test sound from the examinee; and
The processor generates the hearing threshold average information of the examinee based on the pure tone frequency information and the pure tone magnitude information of the pure tone hearing test sound corresponding to the audible information indicating audible hearing, and based on the hearing threshold average information selecting one of a plurality of preliminary speech hearing test sound sets as a speech audio test sound set to be applied to the subject;
A method of generating speech audiometry tones taking into account hearing thresholds.
6. The method of claim 5,
The processor sequentially sets the pure tone frequency information to any one reference pure tone frequency among a plurality of preset reference pure tone frequencies, and when the pure tone frequency information is set, the pure tone level information Setting by increasing by unit pure tone size from the minimum standard pure tone size; characterized in that it further comprises
A method of generating speech audiometry tones taking into account hearing thresholds.
7. The method of claim 6,
The processor determines an audible pure tone level for each of the plurality of reference pure tone frequencies based on the pure tone level information of the pure tone hearing test sound output at a time when the audible information indicating audibility is input, and a pure tone between the audible pure tone levels calculating a size deviation and calculating an average of some audible pure tone levels among the audible pure tone sizes for each of the plurality of reference pure tone frequencies as the hearing threshold average information based on whether the pure tone level deviation is included in a preset deviation range; characterized in that it further comprises
A method of generating speech audiometry tones taking into account hearing thresholds.
6. The method of claim 5,
selecting, by the processor, a preliminary speech hearing test sound set of a hearing threshold range including the hearing threshold average information from among the hearing threshold ranges corresponding to each of the plurality of preliminary speech audiometry sound sets as the speech audiometry sound set; characterized in that it further comprises
A method of generating speech audiometry tones taking into account hearing thresholds.
A computer program stored in a computer-readable recording medium in combination with a computer, which is hardware, to perform the method of claim 5.

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