CN111466919A - Hearing detection method, terminal and storage medium - Google Patents

Abstract

The embodiment of the application provides a hearing detection method, a terminal and a storage medium, wherein the method comprises the following steps: determining a hearing test earphone; the method comprises the steps that detection sounds with a plurality of sound intensities are played on a plurality of frequency points in sequence through an earphone, a plurality of minimum sound intensities corresponding to the frequency points are determined in sequence from the sound intensities according to playing feedback, each frequency point in the frequency points corresponds to the detection sound with the sound intensities, the minimum sound intensity is the minimum sound intensity of the detection sound detected by hearing, and one frequency point corresponds to one minimum sound intensity; determining target sound intensity according to the minimum sound intensities; and determining the hearing impairment degree corresponding to the target sound intensity from the corresponding relation between the hearing impairment and the sound intensity.

Description

Hearing detection method, terminal and storage medium

Technical Field

The present application relates to the field of electronic applications, and in particular, to a hearing test method, a terminal, and a storage medium.

Background

Along with the popularization of smart mobile phones, more and more people utilize the earphone to listen to music with one's own, and the duration of listening to music is also longer and longer in addition, when listening to music through the earphone of long-time high pitch, can cause the influence to the tympanic membrane after the time is long, and then lead to the decay of the different degree of hearing, and the user often can not perceive the slight change that the hearing weakens. Hearing loss can be reduced or prevented through early examination and treatment, and in the prior art, a professional hearing test device is required for hearing test of a user. One of the methods is to purchase professional hearing test equipment, but such equipment is expensive and not suitable for carrying, and is often assisted by others during testing, so that the equipment is inconvenient for users to use; another approach is hospital testing, but this requires the user to go to the hospital and incur a certain testing cost, resulting in less intelligent hearing tests.

Disclosure of Invention

The embodiment of the application provides a hearing detection method, a terminal and a storage medium, which can improve the intelligence of hearing detection.

The technical scheme of the application is realized as follows:

the embodiment of the application provides a hearing detection method, which comprises the following steps:

determining a hearing test earphone;

the method comprises the steps that detection sounds with a plurality of sound intensities are played on a plurality of frequency points in sequence through an earphone, a plurality of minimum sound intensities corresponding to the frequency points are determined in sequence from the sound intensities according to playing feedback, each frequency point in the frequency points corresponds to the detection sound with the sound intensities, the minimum sound intensity is the minimum sound intensity of the detection sound detected by hearing, and one frequency point corresponds to one minimum sound intensity;

determining target sound intensity according to the minimum sound intensities;

and determining the hearing damage degree corresponding to the target sound intensity from the corresponding relation between the hearing damage and the sound intensity.

In the above method, the sequentially playing detection sounds of multiple sound intensities through the earphone at multiple frequency points, and sequentially determining multiple minimum sound intensities corresponding to the multiple frequency points from the multiple sound intensities according to the playing feedback includes:

determining a starting sound intensity from the plurality of sound intensities; determining a first frequency point from the plurality of frequency points, wherein the first frequency point is any one of the plurality of frequency points;

playing the detection sound of the initial sound intensity on the first frequency point through the earphone;

when a play response to the detection sound of the initial sound intensity is received, sequentially playing the detection sounds of the sound intensity adjacent to the initial sound intensity according to the play response until a first minimum sound intensity corresponding to the first frequency point is determined from the sound intensity range;

skipping to a second frequency point for playing the detection sound with the plurality of sound intensities, and determining a second minimum sound intensity corresponding to the second frequency point according to playing feedback, wherein the second frequency point is the frequency point except the first frequency point in the plurality of frequency points;

and when the detection sounds of the sound intensities are played on the frequency points, obtaining the minimum sound intensities corresponding to the frequency points.

In the above method, when receiving a play response to a detection sound of an initial sound intensity, sequentially playing detection sounds of sound intensities adjacent to the initial sound intensity according to the play response until a first minimum sound intensity played at the first frequency point is determined from the plurality of sound intensities, including:

when the play response of the received detection sound to the initial sound intensity is a first response, the detection sound with the first sound intensity, which is adjacent to the initial sound intensity and is smaller than the initial sound intensity, is played, and the play response of the detection sound with the first sound intensity is received;

and determining the sound intensity corresponding to the last playing response of the second response as the first minimum sound intensity until the received playing response is the second response.

In the above method, when receiving a play response to a detection sound of an initial sound intensity, sequentially playing detection sounds of sound intensities adjacent to the initial sound intensity according to the play response until a first minimum sound intensity played at the first frequency point is determined from the plurality of sound intensities, including:

when the received play response is a second response, playing a detection sound with a second sound intensity which is adjacent to the initial sound intensity and is greater than the initial sound intensity, and receiving the play response of the detection sound with the second sound intensity;

and determining the sound intensity corresponding to the received play response as the first minimum sound intensity until the received play response is the first response.

In the above method, after the detecting sound of the initial sound intensity is played at the first frequency point through the earphone, the method further includes:

and when the playing response to the detection sound of the initial sound intensity is not received, continuously playing the detection sound of the initial sound intensity through the earphone according to a preset playing interval and preset playing time.

In the above method, the method further comprises:

and displaying the minimum sound intensities and/or the hearing impairment degrees on a detection report interface according to a preset display strategy.

In the above method, the determining the earphone for hearing test includes:

a left ear earpiece and/or a right ear earpiece of the hearing test is determined.

An embodiment of the present application provides a terminal, including:

a determination unit for determining an earphone for hearing test; determining target sound intensity according to the minimum sound intensities; determining the hearing damage degree corresponding to the target sound intensity from the corresponding relation between the hearing damage and the sound intensity;

the playing unit is used for sequentially playing the detection sounds of the multiple sound intensities through the earphone on the multiple frequency points and sequentially determining the multiple minimum sound intensities corresponding to the multiple frequency points according to playing feedback, each frequency point in the multiple frequency points corresponds to the detection sound of the multiple sound intensities, the minimum sound intensity is the minimum sound intensity of the detection sound detected by hearing, and one frequency point corresponds to one minimum sound intensity.

An embodiment of the present application provides a terminal, including: the system comprises a processor, a memory and a communication bus, wherein the processor is connected with the memory through the communication bus, and the memory is used for storing program instructions; the processor is configured to execute the program instructions to implement the method as described in any one of the above.

The embodiment of the application provides a storage medium, on which a computer program is stored, and the computer program is applied to a terminal, and when the computer program is executed by a processor, the computer program realizes the method according to any one of the above items.

The embodiment of the application provides a hearing detection method, a terminal and a storage medium, wherein the method comprises the following steps: determining a hearing test earphone; the method comprises the steps that detection sounds with a plurality of sound intensities are played on a plurality of frequency points in sequence through an earphone, a plurality of minimum sound intensities corresponding to the frequency points are determined in sequence from the sound intensities according to playing feedback, each frequency point in the frequency points corresponds to the detection sound with the sound intensities, the minimum sound intensity is the minimum sound intensity of the detection sound detected by hearing, and one frequency point corresponds to one minimum sound intensity; determining target sound intensity according to the minimum sound intensities; and determining the hearing impairment degree corresponding to the target sound intensity from the corresponding relation between the hearing impairment and the sound intensity. By adopting the method, the terminal detects the left ear hearing and the right ear hearing of the user by using the left ear earphone and the right ear earphone respectively, the specific detection sound of a plurality of sound intensities is played through the earphones on a plurality of frequency points, a plurality of minimum sound intensities corresponding to the frequency points are determined in sequence from the sound intensities according to the play feedback, the minimum sound intensities are the minimum sound intensity values which can be heard by the user on the frequency points, the hearing damage and the sound intensity corresponding relation are preset in the terminal, the hearing damage degree is searched from the hearing damage and the sound intensity corresponding relation according to the minimum sound intensities, the process of realizing the hearing detection by using the terminal is further completed, and the intelligence of the hearing detection is further improved.

Drawings

Fig. 1 is a flowchart of a hearing test method according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an exemplary left ear hearing test interface display provided by an embodiment of the present application;

FIG. 3 is a schematic diagram of an exemplary hearing test completion interface display provided by an embodiment of the present application;

FIG. 4 is a schematic diagram of an exemplary hearing test report interface display provided by an embodiment of the present application;

fig. 5 is a first schematic structural diagram of a terminal according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a terminal according to an embodiment of the present application.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the present application. And are not intended to limit the present application.

Example one

An embodiment of the present application provides a hearing test method, as shown in fig. 1, the method may include:

s101, determining an earphone for hearing detection.

The hearing detection method provided by the embodiment of the application is suitable for a scene of detecting the hearing damage degree of a user by using the earphone of the terminal.

The terminal herein may be any device that has communication and storage capabilities and can be plugged into and out of a headset, such as: the mobile terminal device includes a tablet Computer, a mobile phone, a Personal Computer (PC), a notebook Computer, a vehicle-mounted device, a network television, a wearable device, and the like, which are specifically selected according to actual conditions, and the embodiment of the present application is not particularly limited.

In the embodiment of the application, the terminal determines the left ear earphone and/or the right ear earphone of the hearing test.

In an optional embodiment, the terminal receives a left ear hearing test selected by a user on a hearing test interface, and at this time, the terminal determines that an earphone for performing the hearing test is a left ear earphone; or the terminal receives the right ear hearing test selected by the user on the hearing test interface, and at the moment, the terminal determines that the earphone for performing the hearing test is the right ear earphone.

In another optional embodiment, a hearing test sequence is preset in the terminal, and for example, if the left ear test is performed first and then the right ear test is performed, the terminal may prompt the user to use an earphone for hearing test on a hearing test interface.

S102, sequentially playing detection sounds of a plurality of sound intensities on a plurality of frequency points through an earphone, sequentially determining a plurality of minimum sound intensities corresponding to the plurality of frequency points from the plurality of sound intensities according to playing feedback, wherein each frequency point in the plurality of frequency points corresponds to the detection sound of the plurality of sound intensities, the minimum sound intensity is the minimum value detected by hearing, and one frequency point corresponds to one minimum sound intensity.

After the terminal determines the earphone of audio playing, the terminal plays the detection sounds of a plurality of sound intensities through the earphone on a plurality of frequency points in sequence, and determines a plurality of minimum sound intensities corresponding to the plurality of frequency points in sequence from the plurality of sound intensities according to playing feedback.

In the embodiment of the application, the terminal determines the initial sound intensity from a plurality of sound intensities; the terminal determines a first frequency point from a plurality of frequency points, wherein the first frequency point is any one of the plurality of frequency points; the terminal plays detection sound of initial sound intensity on the first frequency point through an earphone; when the terminal receives a play response to the initial sound intensity, the terminal sequentially plays the detection sounds of the sound intensity adjacent to the initial sound intensity according to the play response until the terminal determines a first minimum sound intensity corresponding to the first frequency point from the sound intensities; the terminal jumps to the second frequency point to play the detection sound with a plurality of sound intensities, and determines the second minimum sound intensity corresponding to the second frequency point according to the play feedback, wherein the second frequency point is the frequency point except the first frequency point in the plurality of frequency points; when the detection sounds with the multiple sound intensities are played on the multiple frequency points, the terminal obtains multiple minimum sound intensities corresponding to the multiple frequency points.

In the embodiment of the present application, the unit of the sound intensity is db.

Optionally, the multiple frequency points include: 1000HZ, 500HZ, 250HZ, 2000HZ, 4000HZ, 8000HZ, etc., which are specifically selected according to the actual situation, and the embodiment of the present application is not specifically limited. In practical application, the hearing impairment level is determined according to the detection of four frequency points, namely 1000HZ, 500HZ, 2000HZ and 4000HZ, so that the hearing detection can be determined according to the four frequency points, namely 1000HZ, 500HZ, 2000HZ and 4000HZ, and in order to improve the detection accuracy, auxiliary frequency points can be added for further hearing detection.

Specifically, taking the first frequency point as an example, the process of determining, by the terminal, the first minimum sound intensity corresponding to the first frequency point from the multiple sound intensities is as follows: when the terminal receives a play response to the initial sound intensity as a first response, the terminal plays a detection sound with the first sound intensity which is adjacent to the initial sound intensity and is smaller than the initial sound intensity, and receives the play response to the detection sound with the first sound intensity; and when the playing response received by the terminal is the second response, the terminal determines the sound intensity corresponding to the last playing response of the second response as the first minimum sound intensity. When the playing response received by the terminal is a second response, the terminal plays a detection sound with a second sound intensity which is adjacent to the initial sound intensity and is greater than the initial sound intensity, and receives the playing response of the detection sound with the second sound intensity; and when the playing response received by the terminal is the first response, the terminal determines the sound intensity corresponding to the received playing response as the first minimum sound intensity.

Illustratively, the volume range of each frequency point is 10db-70db, the terminal divides each 5db volume range into sound intensities to obtain a plurality of sound intensities of 10db, 15db, 20db, 25db, 30db, 35db, 40db, 45db, 50db, 55db, 60db, 65db and 70db, determines the sound intensity of the initial playing to be 40db from the sound intensities, takes the frequency point of 1000HZ as an example, the terminal plays the detection sound of 40db first, when the user does not hear the detection sound of 40db, the terminal plays the detection sound of 45db according to the playing sequence of 40db-45db-50db-55db-60db-65db, when the user hears the detection sound of 55db, the terminal determines the sound intensity of 55db to be 1000 hddb, when the user hears the detection sound of 55db, the terminal plays the detection sound of 40 db-60db according to the playing sequence of 40db, and determines the sound intensity of × to be an optimum playing sequence of 10db, and determines the sound intensity of 10-30 db, the terminal to detect the maximum playing sequence of 10-15-30 db, and the detection sound intensity of 10-30 db.

It should be noted that, for a plurality of frequency points, a process of determining, by the terminal, the corresponding minimum sound intensity is the same as a process of determining, by the terminal, the first minimum sound intensity corresponding to the first frequency point, and details are not repeated here.

In the embodiment of the application, a currently detected frequency point, the sound intensity of currently played detection sound and two selection keys of yes and no are displayed on a hearing detection interface of a terminal, after the terminal plays the detection sound through an earphone, a user clicks the yes or no key according to whether the detection sound is heard, the terminal records user selection corresponding to the initial sound intensity of each frequency point, when the terminal receives that the selection of the user on the later sound intensity is the same as the selection of the initial sound intensity, the terminal plays the next detection sound of the sound intensity according to the playing sequence, and when the terminal receives that the selection of the user on the later sound intensity is different from the selection of the user on the initial sound intensity, the terminal completes hearing detection of the frequency point and jumps to the next frequency point for a hearing detection process.

Illustratively, for the case that the user selects "yes" for the initial sound intensity, when the user still selects "yes" after the user, the terminal plays the detection sound of the next sound intensity according to the playing sequence until the user selects "no", the terminal records the sound intensity corresponding to the last "yes" option, and jumps to the next frequency point to play the detection sound; and for the condition that the user selects 'no' for the initial sound intensity, when the user still selects 'no' after the user, the terminal plays the detection sound of the next sound intensity according to the playing sequence until the user selects 'yes', the terminal records the sound intensity corresponding to the 'yes' option and jumps to the next frequency point to play the detection sound.

For example, as shown in fig. 2, a left ear is displayed in the upper left corner of the hearing test interface, a left ear representing the current test object is the user's left ear, a sound icon is displayed in the middle of the hearing test interface, the current test frequency point is "250 HZ", prompt information indicating whether you can hear the dripping sound "and two touch keys of yes and no are displayed below the hearing test interface, and the prompt information is used for guiding the user to select whether to hear the dripping sound after the test sound is played.

In the embodiment of the present application, taking the play starting sound intensity as an example, when the terminal does not receive the play response to the detection sound of the starting sound intensity, the terminal continuously plays the detection sound of the starting sound intensity through the earphone according to the preset play interval and the preset play time.

Illustratively, the preset playing interval is 1s, the preset playing time is 1s, and when the user does not click the "yes" or "no" button, the terminal plays the detection sound with the duration of 1s every 1 s.

Illustratively, the preset playing interval is 1s, the preset playing time is 1s, and when the number of playing times is 84, the total playing time length is 84 × 2-168 s.

It should be noted that, for the detection tones with multiple sound intensities, when the terminal does not receive the corresponding play response, the terminal continuously plays the detection tones with multiple sound intensities through the earphone according to the preset play interval and the preset play time.

For example, as shown in fig. 3, when the hearing tests of both the left and right ears are completed, a "test complete" prompt message and a "view hearing test report" touch button are displayed below the hearing test interface. And when the user clicks the touch button for viewing the hearing test report, jumping from the hearing test interface to the test report interface.

And S103, determining the target sound intensity according to the minimum sound intensities.

And after the terminal determines a plurality of minimum sound intensities corresponding to the plurality of frequency points, the terminal determines the target sound intensity according to the plurality of minimum sound intensities.

In the embodiment of the application, the terminal calculates the average value of a plurality of minimum sound intensities, and determines the average value as the target sound intensity.

And S104, determining the hearing impairment degree corresponding to the target sound intensity from the corresponding relation between the hearing impairment and the sound intensity.

The corresponding relation between the hearing impairment and the sound intensity is preset in the terminal, and after the terminal determines the target sound intensity according to the minimum sound intensities, the terminal determines the hearing impairment degree corresponding to the target sound intensity from the corresponding relation between the hearing impairment and the sound intensity.

Illustratively, moderate to severe injury corresponds to a sound intensity range of 56db to 70 db; the sound intensity range corresponding to the moderate injury is 41db-55 db; the sound intensity range corresponding to mild injury is 26db-40 db; normal hearing corresponds to a sound intensity range of 0db to 39 db.

And the terminal searches a sound intensity range where the target sound intensity is located from the corresponding relation between the hearing loss and the sound intensity, and determines the hearing loss degree corresponding to the sound intensity range as the hearing loss degree corresponding to the target sound intensity.

Illustratively, if the sound intensity obtained by the terminal performing the hearing test is 32db, and the 32db is between 0db and 39db, the terminal determines that the hearing damage degree is normal hearing.

In the embodiment of the application, the terminal displays a plurality of minimum sound intensities and/or hearing impairment degrees on the detection report interface according to a preset display strategy. The preset display strategy can be that a plurality of minimum sound intensities are displayed in a histogram mode, and different degrees of hearing impairment are represented by fonts with different colors, such as a red font for medium-heavy impairment, a pink font for medium impairment, a yellow font for light impairment and a green font for normal hearing.

Illustratively, as shown in fig. 4, the minimum sound intensity corresponding to the frequency points of the left ear and the minimum sound intensity corresponding to the frequency points of the right ear are respectively displayed in the form of a histogram in the detection report, and the four parts of "normal hearing", "light loss", "medium loss" and "heavy loss" are divided on the ordinate of the histogram.

It can be understood that, the terminal utilizes left ear earphone and auris dextra earphone to detect user's left ear hearing and auris dextra hearing respectively, specific detection sound through a plurality of sound intensity of earphone broadcast on a plurality of frequency points, and determine a plurality of minimum sound intensity that a plurality of frequency points correspond in proper order from a plurality of sound intensity according to the broadcast feedback, this a plurality of minimum sound intensity are the sound intensity minimum value that the user can hear on a plurality of frequency points promptly, inside hearing damage and the sound intensity corresponding relation of predetermineeing in the terminal, and according to a plurality of minimum sound intensity from hearing damage and sound intensity corresponding relation seek hearing damage degree, and then accomplish the process that utilizes the terminal to realize hearing detection, and then improved the intelligence that hearing detected.

Example two

The embodiment of the present application provides a terminal 1, as shown in fig. 5, the terminal 1 may include:

a determination unit 10 for determining the earphone of the hearing test; determining target sound intensity according to the minimum sound intensities; determining the hearing damage degree corresponding to the target sound intensity from the corresponding relation between the hearing damage and the sound intensity;

the playing unit 11 is configured to sequentially play detection sounds of a plurality of sound intensities on a plurality of frequency points through the earphone, and sequentially determine a plurality of minimum sound intensities corresponding to the plurality of frequency points according to playing feedback, wherein each frequency point in the plurality of frequency points corresponds to the detection sound of the plurality of sound intensities, the minimum sound intensity is the minimum sound intensity of the detection sound detected by hearing, and one frequency point corresponds to one minimum sound intensity.

Optionally, the terminal includes: a jumping unit;

the determining unit 10 is further configured to determine a starting sound intensity from the plurality of sound intensities; determining a first frequency point from the plurality of frequency points, wherein the first frequency point is any one of the plurality of frequency points; when the detection sounds of the sound intensities are played on the frequency points, the minimum sound intensities corresponding to the frequency points are obtained;

the playing unit 11 is further configured to play the detection sound of the initial sound intensity on the first frequency point through the earphone; when a play response to the detection sound of the initial sound intensity is received, sequentially playing the detection sounds of the sound intensity adjacent to the initial sound intensity according to the play response until a first minimum sound intensity corresponding to the first frequency point is determined from the sound intensity range;

and the skipping unit is used for skipping to the second frequency point for playing the detection sound with the plurality of sound intensities, and determining the second minimum sound intensity corresponding to the second frequency point according to the playing feedback, wherein the second frequency point is the frequency point except the first frequency point in the plurality of frequency points.

Optionally, the playing unit 11 is further configured to, when a play response to the detection sound of the initial sound intensity is received as a first response, play a detection sound of a first sound intensity that is adjacent to the initial sound intensity and is smaller than the initial sound intensity, and receive a play response to the detection sound of the first sound intensity;

the determining unit 10 is further configured to determine, until the received play response is a second response, the sound intensity corresponding to the last play response of the second response as the first minimum sound intensity.

Optionally, the playing unit 11 is further configured to play a detection sound with a second sound intensity that is adjacent to the initial sound intensity and is greater than the initial sound intensity when the received playing response is a second response, and receive a playing response to the detection sound with the second sound intensity;

the determining unit 10 is further configured to determine, until the received play response is the first response, the sound intensity corresponding to the received play response as the first minimum sound intensity.

Optionally, the playing unit 11 is further configured to continuously play the detection sound of the initial sound intensity through the earphone according to a preset playing interval and a preset playing time when the playing response to the detection sound of the initial sound intensity is not received.

Optionally, the terminal further includes: a display unit;

the display unit is used for displaying the minimum sound intensities and/or the hearing impairment degrees on a detection report interface according to a preset display strategy.

Optionally, the determining unit 10 is further configured to determine a left ear earphone and/or a right ear earphone of the hearing test.

The terminal provided by the embodiment of the application determines the earphone for hearing detection; the method comprises the steps that detection sounds with a plurality of sound intensities are played on a plurality of frequency points in sequence through an earphone, a plurality of minimum sound intensities corresponding to the frequency points are determined in sequence from the sound intensities according to playing feedback, each frequency point in the frequency points corresponds to the detection sound with the sound intensities, the minimum sound intensity is the minimum sound intensity of the detection sound detected by hearing, and one frequency point corresponds to one minimum sound intensity; determining target sound intensity according to the minimum sound intensities; and determining the hearing impairment degree corresponding to the target sound intensity from the corresponding relation between the hearing impairment and the sound intensity. Therefore, it is visible that this embodiment provides a terminal, the terminal utilizes left ear earphone and right ear earphone to detect user's left ear hearing and right ear hearing respectively, specific detection sound through a plurality of sound intensity of earphone broadcast on a plurality of frequency points, and according to broadcast feedback determine a plurality of minimum sound intensity that a plurality of frequency points correspond in proper order from a plurality of sound intensity, this a plurality of minimum sound intensity is for the sound intensity minimum that the user can hear on a plurality of frequency points, hearing damage and sound intensity corresponding relation are predetermine to terminal inside, and look for hearing damage degree from hearing damage and sound intensity corresponding relation according to a plurality of minimum sound intensity, and then accomplish the process that utilizes the terminal to realize hearing detection, and then the intelligence that has improved hearing detection.

Fig. 6 is a schematic diagram of a composition structure of a terminal according to an embodiment of the present application, and in practical application, based on the same disclosure concept of the foregoing embodiment, as shown in fig. 6, the terminal according to the present embodiment includes: a processor 12, a memory 13, a display 14, and a communication bus 15.

In the process of a Specific embodiment, the determining unit 10, the playing unit 11 and the jumping unit may be implemented by a Processor 12 located on the terminal, the displaying unit may be implemented by a display 14 located on the terminal, and the Processor 12 may be at least one of an Application Specific Integrated Circuit (ASIC), a Digital Signal Processor (DSP), a Digital Signal processing image splitting Device (DSPD), a Programmable logic image splitting Device (P L D, a Programmable L analog Device), a Field Programmable Gate Array (FPGA), a CPU, a controller, a microcontroller and a microprocessor.

In the embodiment of the present application, the communication bus 15 is used for realizing connection communication among the processor 12, the memory 13 and the display 14; the processor 12 executes the running program stored in the memory 13 to implement the hearing test method according to the first embodiment.

The embodiment of the present application provides a storage medium, on which a computer program is stored, where the computer readable storage medium stores one or more programs, where the one or more programs are executable by one or more processors and applied to a terminal, and the computer program implements the hearing test method according to the first embodiment.

The above description is only a preferred embodiment of the present application, and is not intended to limit the scope of the present application.

Claims (10)

1. A hearing test method, the method comprising:

determining a hearing test earphone;

the method comprises the steps that detection sounds with a plurality of sound intensities are played on a plurality of frequency points in sequence through an earphone, a plurality of minimum sound intensities corresponding to the frequency points are determined in sequence from the sound intensities according to playing feedback, each frequency point in the frequency points corresponds to the detection sound with the sound intensities, the minimum sound intensity is the minimum sound intensity of the detection sound detected by hearing, and one frequency point corresponds to one minimum sound intensity;

determining target sound intensity according to the minimum sound intensities;

and determining the hearing damage degree corresponding to the target sound intensity from the corresponding relation between the hearing damage and the sound intensity.

2. The method of claim 1, wherein the sequentially playing the detection sounds with multiple sound intensities through the earphone at multiple frequency points and sequentially determining multiple minimum sound intensities corresponding to the multiple frequency points from the multiple sound intensities according to the playing feedback comprises:

determining a starting sound intensity from the plurality of sound intensities; determining a first frequency point from the plurality of frequency points, wherein the first frequency point is any one of the plurality of frequency points;

playing the detection sound of the initial sound intensity on the first frequency point through the earphone;

when a play response to the detection sound of the initial sound intensity is received, sequentially playing the detection sounds of the sound intensity adjacent to the initial sound intensity according to the play response until a first minimum sound intensity corresponding to the first frequency point is determined from the sound intensity range;

skipping to a second frequency point for playing the detection sound with the plurality of sound intensities, and determining a second minimum sound intensity corresponding to the second frequency point according to playing feedback, wherein the second frequency point is the frequency point except the first frequency point in the plurality of frequency points;

and when the detection sounds of the sound intensities are played on the frequency points, obtaining the minimum sound intensities corresponding to the frequency points.

3. The method according to claim 2, wherein when receiving a play response to a detection sound of an initial sound intensity, sequentially playing detection sounds of sound intensities adjacent to the initial sound intensity according to the play response until a first minimum sound intensity played at the first frequency point is determined from the plurality of sound intensities, comprises:

when the play response of the received detection sound to the initial sound intensity is a first response, the detection sound with the first sound intensity, which is adjacent to the initial sound intensity and is smaller than the initial sound intensity, is played, and the play response of the detection sound with the first sound intensity is received;

and determining the sound intensity corresponding to the last playing response of the second response as the first minimum sound intensity until the received playing response is the second response.

4. The method according to claim 2, wherein when receiving a play response to a detection sound of an initial sound intensity, sequentially playing detection sounds of sound intensities adjacent to the initial sound intensity according to the play response until a first minimum sound intensity played at the first frequency point is determined from the plurality of sound intensities, comprises:

when the received play response is a second response, playing a detection sound with a second sound intensity which is adjacent to the initial sound intensity and is greater than the initial sound intensity, and receiving the play response of the detection sound with the second sound intensity;

and determining the sound intensity corresponding to the received play response as the first minimum sound intensity until the received play response is the first response.

5. The method as claimed in claim 2, wherein after the playing the detection sound of the initial sound intensity on the first frequency point through the earphone, the method further comprises:

and when the playing response to the detection sound of the initial sound intensity is not received, continuously playing the detection sound of the initial sound intensity through the earphone according to a preset playing interval and preset playing time.

6. The method of claim 1, further comprising:

and displaying the minimum sound intensities and/or the hearing impairment degrees on a detection report interface according to a preset display strategy.

7. The method of claim 1, wherein determining the headset for the hearing test comprises:

a left ear earpiece and/or a right ear earpiece of the hearing test is determined.

8. A terminal, characterized in that the terminal comprises:

a determination unit for determining an earphone for hearing test; determining target sound intensity according to the minimum sound intensities; determining the hearing damage degree corresponding to the target sound intensity from the corresponding relation between the hearing damage and the sound intensity;

the playing unit is used for sequentially playing the detection sounds of the multiple sound intensities through the earphone on the multiple frequency points and sequentially determining the multiple minimum sound intensities corresponding to the multiple frequency points according to playing feedback, each frequency point in the multiple frequency points corresponds to the detection sound of the multiple sound intensities, the minimum sound intensity is the minimum sound intensity of the detection sound detected by hearing, and one frequency point corresponds to one minimum sound intensity.

9. A terminal, characterized in that the terminal comprises: the system comprises a processor, a memory and a communication bus, wherein the processor is connected with the memory through the communication bus, and the memory is used for storing program instructions; the processor is configured to execute the program instructions to implement the method of any one of claims 1-7.

10. A storage medium having stored thereon a computer program for application to a terminal, characterized in that the computer program, when being executed by a processor, is adapted to carry out the method according to any one of claims 1-7.

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