阅读说明：本技术 一种耳机的听力效果校调方法、装置、设备及介质 (Hearing effect correction and adjustment method, device, equipment and medium of earphone ) 是由 童紫薇 刘春燕 黄晨 于 2021-08-30 设计创作，主要内容包括：本申请公开了一种耳机的听力效果校调方法、装置、电子设备及计算机可读存储介质,该方法应用于耳机的调节终端,包括：获取第一用户和第二用户的听阈值；基于听阈值计算第一用户相对于第二用户的听力灵敏程度参数；在第一用户依据自身听觉效果对耳机进行增益调节后,获取第一用户设置的第一增益调节量；将第一增益调节量与听力灵敏程度参数的乘积确定为第二增益调节量；基于第二增益调节量确定耳机对于第二用户的最终增益值。本申请基于两个用户的听力灵敏程度之间的关系,可帮助第二用户代为调整改善耳机的听力效果,省却了不同用户或不同耳机间类似的手动校调过程,极大提高了校调效率和用户体验。(The application discloses a hearing effect correction method and device of an earphone, electronic equipment and a computer readable storage medium, wherein the method is applied to an adjusting terminal of the earphone and comprises the following steps: acquiring hearing threshold values of a first user and a second user; calculating a hearing sensitivity parameter of the first user relative to the second user based on a hearing threshold; after a first user performs gain adjustment on the earphone according to the self auditory effect, acquiring a first gain adjustment amount set by the first user; determining a second gain adjustment by multiplying the first gain adjustment by the hearing sensitivity parameter; a final gain value for the headset for the second user is determined based on the second gain adjustment. According to the method and the device, based on the relation between the hearing sensitivity degrees of the two users, the second user can be helped to improve the hearing effect of the earphone for adjustment instead, similar manual adjustment processes among different users or different earphones are omitted, and adjustment efficiency and user experience are greatly improved.)

1. A hearing effect correction and adjustment method of an earphone is characterized in that the adjustment method is applied to an adjustment terminal of the earphone and comprises the following steps:

acquiring hearing threshold values of a first user and a second user;

calculating a hearing sensitivity parameter of the first user relative to the second user based on a hearing threshold;

after the first user performs gain adjustment on the earphone according to the self auditory effect, acquiring a first gain adjustment amount set by the first user;

determining a second gain adjustment by multiplying the first gain adjustment by the hearing sensitivity parameter;

determining a final gain value for the headset for the second user based on the second gain adjustment amount.

2. The hearing effect adjustment method according to claim 1, wherein the adjustment terminal is connected to the earphone via bluetooth communication; after the determining a final gain value for the headset for the second user based on the second gain adjustment amount, further comprising:

and sending the final gain value to the earphone so that the earphone can adjust the gain.

3. A hearing effect correction method according to claim 2, wherein the obtaining of the hearing thresholds of the first user and the second user comprises:

acquiring minimum audible intensities of the first user and the second user at a plurality of frequency points respectively;

calculating an average value of the minimum audible intensity of the first user at a plurality of frequency points as a hearing threshold value of the first user;

and calculating the average value of the minimum audible intensity of the second user at a plurality of frequency points as the audible threshold value of the second user.

4. The hearing effect correction method according to claim 1, wherein the calculating the hearing sensitivity parameter of the first user relative to the second user based on the hearing threshold value comprises:

according to R ═ HL₂/HL₁Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is the hearing sensitivity level parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

5. The hearing effect correction method according to claim 1, wherein the calculating the hearing sensitivity parameter of the first user relative to the second user based on the hearing threshold value comprises:

according to R ═ lg (HL)₂)/lg(HL₁) Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is the hearing sensitivity level parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

6. The hearing effect correction method according to claim 1, wherein the calculating the hearing sensitivity parameter of the first user relative to the second user based on the hearing threshold value comprises:

according to R ═ 100-HL₁)/(100-HL₂) Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is the hearing sensitivity level parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

7. A hearing ability effect adjustment device of an earphone, applied to an adjustment terminal of the earphone, comprising:

the acquisition module is used for acquiring the hearing threshold values of the first user and the second user;

a calculation module for calculating a hearing sensitivity parameter of the first user relative to the second user based on a hearing threshold;

the receiving module is used for acquiring a first gain adjustment amount set by the first user after the first user performs gain adjustment on the earphone according to the self auditory effect;

a determination module for determining a product of the first gain adjustment and the hearing sensitivity parameter as a second gain adjustment; determining a final gain value for the headset for the second user based on the second gain adjustment amount.

8. The hearing effect correction device according to claim 7, wherein the adjustment terminal is connected to the earphone via bluetooth communication; the hearing effect correction device further comprises:

and the sending module is used for sending the final gain value to the earphone after the determining module determines the final gain value of the earphone for the second user based on the second gain adjustment amount so that the earphone can adjust the gain.

9. An electronic device, comprising:

a memory for storing a computer program;

a processor for executing the computer program to carry out the steps of the method according to any one of claims 1 to 6.

10. A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, is adapted to carry out the steps of the method according to any one of claims 1 to 6.

Technical Field

The present disclosure relates to the field of earphone technologies, and in particular, to a method and an apparatus for adjusting a hearing ability of an earphone, an electronic device, and a computer-readable storage medium.

Background

With the rapid development and market competition of TWS (True Wireless Stereo) headsets, the new trend of TWS headsets, hearing-assisted headsets, is receiving more and more market and research and development attention.

In general, the auxiliary hearing earphone achieves the auxiliary hearing effect by mapping the dynamic range of the normal sound to the hearing dynamic range of the hearing impaired. The gain value specifically used for amplification is generally determined based on the hearing threshold of the hearing impaired person in combination with an empirical formula. However, the gain value is a calculated theoretical gain value, and in an actual wearing process, a certain amount of environmental noise is often caused by an external environment, and the ear canal volume, the ear canal structure, the ear resistance, and the like of different users may be different (each ear canal has a unique acoustic characteristic), so that the user generally needs to further self-adjust the gain value by combining the self-hearing experience after wearing the earphone on the basis of the theoretical gain value. Especially for children whose ear canals are not fully developed, the ear canals are very different from those of adults, and the self-regulation process of the gains is more important.

However, for children or older people, it is often not easy to operate the related devices to perform gain self-adjustment, which reduces the using effect of the earphone. In view of the above, it is an important need for those skilled in the art to provide a solution to the above technical problems.

Disclosure of Invention

The application aims to provide a hearing effect correction method and device of an earphone, electronic equipment and a computer readable storage medium, so that the gain of the earphone can be adjusted by others instead, and user experience is improved.

In order to solve the above technical problem, on the one hand, the application discloses a hearing effect calibration and adjustment method for an earphone, which is applied to an adjustment terminal for the earphone, and comprises:

acquiring hearing threshold values of a first user and a second user;

calculating a hearing sensitivity parameter of the first user relative to the second user based on a hearing threshold;

after the first user performs gain adjustment on the earphone according to the self auditory effect, acquiring a first gain adjustment amount set by the first user;

determining a second gain adjustment by multiplying the first gain adjustment by the hearing sensitivity parameter;

determining a final gain value for the headset for the second user based on the second gain adjustment amount.

Optionally, the adjusting terminal is in communication connection with the headset through bluetooth; after the determining a final gain value for the headset for the second user based on the second gain adjustment amount, further comprising:

and sending the final gain value to the earphone so that the earphone can adjust the gain.

Optionally, the acquiring the hearing thresholds of the first user and the second user includes:

acquiring minimum audible intensities of the first user and the second user at a plurality of frequency points respectively;

calculating an average value of the minimum audible intensity of the first user at a plurality of frequency points as a hearing threshold value of the first user;

and calculating the average value of the minimum audible intensity of the second user at a plurality of frequency points as the audible threshold value of the second user.

Optionally, the calculating a hearing sensitivity parameter of the first user relative to the second user based on a hearing threshold comprises:

according to R ═ HL₂/HL₁Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is the hearing sensitivity level parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

Optionally, the calculating a hearing sensitivity parameter of the first user relative to the second user based on a hearing threshold comprises:

according to R ═ lg (HL)₂)/lg(HL₁) Calculate the said firstA hearing sensitivity parameter of a user relative to the second user;

wherein R is the hearing sensitivity level parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

Optionally, the calculating a hearing sensitivity parameter of the first user relative to the second user based on a hearing threshold comprises:

according to R ═ 100-HL₁)/(100-HL₂) Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is the hearing sensitivity level parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

In another aspect, the present application discloses a hearing effect calibration device for an earphone, which is applied to an adjusting terminal of the earphone, and includes:

the acquisition module is used for acquiring the hearing threshold values of the first user and the second user;

a calculation module for calculating a hearing sensitivity parameter of the first user relative to the second user based on a hearing threshold;

the receiving module is used for acquiring a first gain adjustment amount set by the first user after the first user performs gain adjustment on the earphone according to the self auditory effect;

a determination module for determining a product of the first gain adjustment and the hearing sensitivity parameter as a second gain adjustment; determining a final gain value for the headset for the second user based on the second gain adjustment amount.

Optionally, the adjusting terminal is in communication connection with the headset through bluetooth; the hearing effect correction device further comprises:

and the sending module is used for sending the final gain value to the earphone after the determining module determines the final gain value of the earphone for the second user based on the second gain adjustment amount so that the earphone can adjust the gain.

Optionally, when the obtaining module obtains the listening thresholds of the first user and the second user, the obtaining module is specifically configured to:

acquiring minimum audible intensities of the first user and the second user at a plurality of frequency points respectively;

calculating an average value of the minimum audible intensity of the first user at a plurality of frequency points as a hearing threshold value of the first user;

and calculating the average value of the minimum audible intensity of the second user at a plurality of frequency points as the audible threshold value of the second user.

Optionally, the calculating module, when calculating the hearing sensitivity parameter of the first user relative to the second user based on the hearing threshold, is specifically configured to:

according to R ═ HL₂/HL₁Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is the hearing sensitivity level parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

Optionally, the calculating module, when calculating the hearing sensitivity parameter of the first user relative to the second user based on the hearing threshold, is specifically configured to:

according to R ═ lg (HL)₂)/lg(HL₁) Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is the hearing sensitivity level parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

Optionally, the calculating module, when calculating the hearing sensitivity parameter of the first user relative to the second user based on the hearing threshold, is specifically configured to:

according to R ═ 100-HL₁)/(100-HL₂) Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is the hearing sensitivity level parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

In another aspect, the present application also discloses an electronic device, including:

a memory for storing a computer program;

a processor for executing the computer program to implement the steps of any of the hearing effect tuning methods of the ear cups as described above.

In yet another aspect, the present application further discloses a computer readable storage medium having a computer program stored therein, which when executed by a processor, is used to implement the steps of the hearing effect calibration method for an earphone as described above.

The hearing effect correction method and device for the earphone, the electronic equipment and the computer readable storage medium have the advantages that: according to the method and the device, based on the relation between the hearing sensitivity degrees of the two users, the micro-adjustment amount of the gain value in the earphone required by the second user can be calculated based on the micro-adjustment amount of the first user to the gain value in the earphone, the second user is helped to improve the hearing effect of the earphone to the second user instead of adjustment, similar manual adjustment processes among different users or different earphones are omitted, and adjustment efficiency and user experience are greatly improved.

Drawings

In order to more clearly illustrate the technical solutions in the prior art and the embodiments of the present application, the drawings that are needed to be used in the description of the prior art and the embodiments of the present application will be briefly described below. Of course, the following description of the drawings related to the embodiments of the present application is only a part of the embodiments of the present application, and it will be obvious to those skilled in the art that other drawings can be obtained from the provided drawings without any creative effort, and the obtained other drawings also belong to the protection scope of the present application.

Fig. 1 is a flowchart of a hearing effect calibration method for an earphone according to an embodiment of the present disclosure;

fig. 2 is an application scene diagram of a hearing effect calibration method for an earphone disclosed in an embodiment of the present application;

fig. 3 is a block diagram of a hearing ability calibration apparatus for an earphone according to an embodiment of the present disclosure;

fig. 4 is a block diagram of an electronic device according to an embodiment of the present disclosure.

Detailed Description

The core of the application is to provide a method and a device for correcting and adjusting the hearing effect of an earphone, an electronic device and a computer readable storage medium, so that adjustment of others is realized aiming at the gain of the earphone, and the using effect of a product is improved.

In order to more clearly and completely describe the technical solutions in the embodiments of the present application, the technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The auxiliary hearing earphone generally performs the auxiliary hearing function by amplifying and mapping the dynamic range of normal sound into the hearing dynamic range of the hearing impaired, and the amplification factor, i.e. the gain value, can be generally calculated based on an empirical formula to obtain a rough theoretical value. On the basis, when the user uses the auxiliary listening earphone, the user generally needs to perform fine adjustment on the gain value according to the hearing effect of the user wearing the earphone. However, some special users, such as the elderly and children, obviously have some difficulty in fine-tuning the gain value by themselves. In view of this, the present application provides a hearing effect correction scheme for an earphone, which can effectively solve the above problems.

Referring to fig. 1, an embodiment of the present application discloses a method for calibrating a hearing ability of an earphone, which is applied to an adjusting terminal of the earphone, and mainly includes:

s101: and acquiring the hearing threshold values of the first user and the second user.

S102: a hearing sensitivity parameter of the first user relative to the second user is calculated based on the hearing threshold.

S103: after the first user performs gain adjustment on the earphone according to the self auditory effect, a first gain adjustment amount set by the first user is obtained.

S104: the product of the first gain adjustment and the hearing sensitivity parameter is determined as a second gain adjustment.

S105: a final gain value for the headset for the second user is determined based on the second gain adjustment.

Specifically, in the present application, the first user may specifically be a user with self-adjusting gain, and the second user may specifically be a user without self-adjusting gain. The hearing effect adjusting method provided by the application helps the second user to adjust the gain of the earphone according to the gain self-adjustment operation of the first user, so that the adjusted hearing effect of the earphone can be better suitable for the second user.

Since the first user performs the self-adjustment of the gain of the earphone according to the standard that the first user satisfies his own hearing effect but not the second user, the present application compares the hearing sensitivity of the first user and the second user in advance in order to ensure that the adjustment of the present application can actually improve the hearing effect of the second user. It will be appreciated that the relationship between the degree to which the first user requires self-adjustment of the earphone gain value and the degree to which the second user requires self-adjustment of the earphone gain value is related to the relationship between the hearing sensitivity of the two.

In particular, the relationship between the hearing sensitivity of two users may be expressed based on a parameter in particular: a hearing sensitivity parameter R of the first user relative to the second user. It will be readily appreciated that the parameter R is a measure of the hearing sensitivity of the first user, relative to the hearing sensitivity of the second user, and that R can be considered to be a multiple of the hearing sensitivity of the first user, in some mathematical sense, relative to the hearing sensitivity of the second user.

Wherein the hearing sensitivity parameter between two users can be calculated based on the hearing thresholds of the two users. The threshold is the minimum audible intensity, in decibels, that is the minimum sound intensity that the human ear can just hear, or the minimum sound intensity that is required for a person to discern the presence of a sound. The hearing threshold range corresponding to mild hearing impairment is 26-40 dB, the hearing threshold range corresponding to moderate hearing impairment is 41-55 dB, the hearing threshold range corresponding to severe hearing impairment is 56-70 dB, and the hearing threshold range corresponding to noise deafness is 71-90 dB.

It is easy to understand that the hearing sensitivity of a user is inversely related to the magnitude of the gain value of the earphone required by the user, i.e. the higher the hearing sensitivity of the user, the smaller the gain value in the earphone required, and the lower the hearing sensitivity of the user, the larger the gain value in the earphone required. Accordingly, if the hearing sensitivity of the first user is R times the hearing sensitivity of the second user, the second user may correspondingly need the self-adjustment amount of the gain value in the earphone, specifically R times the self-adjustment amount of the gain value in the earphone needed by the first user.

Specifically, if G_S1Indicating a first amount of gain adjustment, i.e. the amount of self-adjustment the first user needs to perform on the gain value in the headset, G_S2Representing a second amount of gain adjustment, i.e., the amount of gain adjustment that the second user needs to make to the headset, then there are:

G_S2＝G_S1·R。

thus, after the second gain adjustment amount is determined, the initial gain value G, which is a rough theoretical value calculated based on an empirical formula, is combined₀₂The following final gain value G required by the second user can be obtained₂：

G₂＝G₀₂+G_S2。

Then, at the final gain value G₂Under the amplification effect, the earphone can be well mapped into the hearing dynamic range of the second user, and the requirement of the second user on the hearing effect is met. It is easy to understand that, in order to ensure the accuracy of the adjustment, the first user may be in the same environment as the second user when performing fine adjustment on the gain value of the headphone according to his own auditory effect, so as to reduce the adjustment error caused by different environmental noises.

Therefore, the hearing effect calibration and adjustment method of the earphone provided by the application can calculate the micro-adjustment amount of the gain value of the earphone required by the second user based on the micro-adjustment amount of the first user to the gain value of the earphone based on the relation between the hearing sensitivities of the two users, help the second user to improve the hearing effect of the earphone to the second user instead of adjustment, save different users or similar manual calibration and adjustment processes among different earphones, and greatly improve calibration and adjustment efficiency and user experience.

Referring to fig. 2, fig. 2 is an application scenario diagram of a hearing effect calibration method for an earphone according to an embodiment of the present application. Specifically, the pair of earphones comprises two earphones which can be worn by different users respectively, wherein the user A is a first user, and the user B is a second user. Both the two earphones are in communication connection with the same adjusting terminal through BLE (Bluetooth Low Energy technology). The adjusting terminal can be terminal equipment such as a smart phone. Therefore, after the user A adjusts the hearing effect of the earphone worn by the user A through manual adjustment, the adjusting terminal can adjust the earphone worn by the user B according to the method disclosed by the application, and synchronous adjustment of the two earphones is achieved.

It should be noted that the hearing effect calibration method of the earphone provided by the present application can also be used in another application scenario: the two sets of earphones of the same user need to be subjected to hearing effect correction and adjustment, the adjusting terminal can be in communication connection with the two sets of earphones, the hearing effect adjustment is automatically carried out on the second set of earphones according to the manual correction and adjustment result of the user on the first set of earphones, and the two sets of earphones are synchronously adjusted.

As a specific embodiment, the hearing effect calibration and adjustment method of the earphone provided by the embodiment of the application is based on the above contents, and the adjustment terminal is in communication connection with the earphone through bluetooth; after determining a final gain value of the headphone for the second user based on the second gain adjustment amount, further comprising:

and sending the final gain value to the earphone so that the earphone adjusts the gain.

The mediation terminal may specifically send the final gain value of the second user to the headset of the second user through BLE, and a related program in the headset may adjust the amplification gain of the audio signal using the final gain value as a parameter, so as to achieve a hearing effect suitable for the second user. In the whole adjusting process, the earphone can be finished without any operation of a second user, and the earphone is greatly convenient for the second user without the adjusting operation capability to use the earphone.

As a specific embodiment, the method for adjusting the hearing ability of an earphone according to the embodiment of the present application obtains the hearing thresholds of the first user and the second user based on the above contents, and includes:

acquiring minimum audible intensity of a first user and a second user at a plurality of frequency points respectively;

calculating the average value of the minimum audible intensity of the first user at a plurality of frequency points as the hearing threshold value of the first user;

and calculating the average value of the minimum audible intensity of the second user at a plurality of frequency points as the audible threshold value of the second user.

Specifically, considering that the hearing sensitivities of the same user to different frequency signals are different, the method for measuring the average value by multiple frequency points can be specifically adopted when determining the hearing threshold values of the first user and the second user, so as to further improve the data accuracy.

Generally, those skilled in the art can specifically select three frequency points of 500Hz, 1000Hz and 2000 Hz. The minimum audible intensity is the minimum sound intensity that one person needs to be able to discern the presence of a sound. For each frequency point, a tester can give out audio signals with the same frequency and different decibels to be heard by the testee, and the testee can just detect that the decibel number of the audio signal is the minimum audible intensity of the audio signal at the frequency point. After the minimum audible intensity at three frequency points is measured, the average value can be obtained as the audible threshold value of the user. As a specific embodiment, the method for calibrating a hearing ability of an earphone provided in the embodiment of the present application, based on the above contents, calculates a hearing sensitivity parameter of a first user relative to a second user based on a hearing threshold, including:

according to R ═ HL₂/HL₁Calculating a first user relativeA hearing sensitivity parameter for the second user;

wherein R is a hearing sensitivity parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

In particular, the hearing sensitivity parameter of one user relative to another is not a definition with a well-defined quantitative calculation, and in the present embodiment, HL can be specifically defined₂/HL₁As a parameter of the hearing sensitivity of the first user relative to the second user. If R is larger than 1, the hearing sensitivity of the first user is superior to that of the second user; conversely, if R is less than 1, it indicates that the first user has a weaker hearing sensitivity than the second user.

In the following, the present application will describe a hearing effect correction method of the earphone of the present application with reference to a specific example.

Specifically, assume that the listening threshold of the first user is HL₁30dB, the listening threshold for the second user is HL₂50 dB; according to an empirical formula and according to the hearing threshold value of each user, obtaining the initial gain value G of the first user₀₁＝5dB，G₀₂＝25dB。

Therefore, the hearing sensitivity parameter R ═ HL of the first user relative to the second user can be calculated and obtained through the method₂/HL₁＝5/3。

Then, under the current environment, the first user tries to finely adjust the gain value of the earphone on the adjusting terminal by combining the hearing effect of the first user after wearing the earphone, and finally the first gain adjustment quantity is G when the hearing effect is satisfied_S1＝3dB。

From this, a second gain adjustment, G, required by the second user can be calculated_S2＝G_S1·R＝5dB。

And then the final gain value G needed by the second user can be calculated₂＝G₀₂+G_S2＝30dB。

As a specific embodiment, the method for calibrating a hearing ability of an earphone provided in the embodiment of the present application, based on the above contents, calculates a hearing sensitivity parameter of a first user relative to a second user based on a hearing threshold, including:

according to R ═ lg (HL)₂)/lg(HL₁) Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is a hearing sensitivity parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

Specifically, the present embodiment specifically converts lg (HL)₂)/lg(HL₁) As a parameter of the hearing sensitivity of the first user relative to the second user. If the above example is still taken as an example, then the calculation of R would then become lg50/lg 30.

As a specific embodiment, the method for calibrating a hearing ability of an earphone provided in the embodiment of the present application, based on the above contents, calculates a hearing sensitivity parameter of a first user relative to a second user based on a hearing threshold, including:

according to R ═ 100-HL₁)/(100-HL₂) Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is a hearing sensitivity parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

Specifically, since 100dB is already a difficult noise decibel number, the present embodiment will specifically be (100-HL)₁)/(100-HL₂) As a parameter of the hearing sensitivity of the first user relative to the second user. If the above example is still taken as an example, then the calculation of R will become R7/5.

In summary, the hearing sensitivity parameter of the first user relative to the second user in the present application may be calculated in a variety of specific ways, as long as the inverse variation trend between the hearing sensitivity parameter and the hearing threshold is ensured, which is not limited in the present application.

Referring to fig. 3, an embodiment of the present application discloses a hearing effect calibration and adjustment device for an earphone, which is applied to an adjustment terminal of the earphone, and mainly includes:

an obtaining module 201, configured to obtain hearing thresholds of a first user and a second user;

a calculating module 202, configured to calculate a hearing sensitivity parameter of the first user relative to the second user based on a hearing threshold;

the receiving module 203 is configured to obtain a first gain adjustment amount set by a first user after the first user performs gain adjustment on the earphone according to the self auditory effect;

a determining module 204 for determining a second gain adjustment amount as a product of the first gain adjustment amount and the hearing sensitivity parameter; a final gain value for the headset for the second user is determined based on the second gain adjustment.

Therefore, the hearing effect calibration and adjustment device of the earphone disclosed by the embodiment of the application can calculate the micro-adjustment amount of the gain value of the earphone required by the second user based on the micro-adjustment amount of the first user to the gain value of the earphone based on the relation between the hearing sensitivities of the two users, help the second user to improve the hearing effect of the earphone to the second user for adjustment instead of adjustment, save different users or similar manual calibration and adjustment processes among different earphones, and greatly improve the calibration and adjustment efficiency and user experience.

For the specific content of the hearing effect calibration device of the earphone, reference may be made to the foregoing detailed description of the hearing effect calibration method of the earphone, and details thereof are not repeated here.

As a specific embodiment, the hearing effect calibration and adjustment device of the earphone disclosed in the embodiment of the present application is based on the above contents, and the adjustment terminal is in communication connection with the earphone through bluetooth; the hearing effect correction device further includes:

and the sending module is used for sending the final gain value to the earphone after the determining module determines the final gain value of the earphone for the second user based on the second gain adjustment amount so that the earphone can adjust the gain.

As a specific embodiment, on the basis of the above content, the obtaining module 201 of the hearing effect calibration apparatus of an earphone disclosed in the embodiment of the present application is specifically configured to, when obtaining the hearing thresholds of the first user and the second user:

acquiring minimum audible intensity of a first user and a second user at a plurality of frequency points respectively;

calculating the average value of the minimum audible intensity of the first user at a plurality of frequency points as the hearing threshold value of the first user;

and calculating the average value of the minimum audible intensity of the second user at a plurality of frequency points as the audible threshold value of the second user.

As a specific embodiment, in the hearing effect calibration apparatus of an earphone disclosed in the embodiment of the present application, on the basis of the above contents, when the calculating module 202 calculates the hearing sensitivity parameter of the first user relative to the second user based on the hearing threshold, the calculating module is specifically configured to:

according to R ═ HL₂/HL₁Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is a hearing sensitivity parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

As a specific embodiment, in the hearing effect calibration apparatus of an earphone disclosed in the embodiment of the present application, on the basis of the above contents, when the calculating module 202 calculates the hearing sensitivity parameter of the first user relative to the second user based on the hearing threshold, the calculating module is specifically configured to:

according to R ═ lg (HL)₂)/lg(HL₁) Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is a hearing sensitivity parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the listening threshold of the second user.

As a specific embodiment, in the hearing effect calibration apparatus of an earphone disclosed in the embodiment of the present application, on the basis of the above contents, when the calculating module 202 calculates the hearing sensitivity parameter of the first user relative to the second user based on the hearing threshold, the calculating module is specifically configured to:

according to R ═ 100-HL₁)/(100-HL₂) Calculating a hearing sensitivity parameter of the first user relative to the second user;

wherein R is a hearing sensitivity parameter, HL₁Is the hearing threshold, HL, of the first user₂Is the hearing threshold of the second userThe value is obtained.

Referring to fig. 4, an embodiment of the present application discloses an electronic device, including:

a memory 301 for storing a computer program;

a processor 302 for executing said computer program for carrying out the steps of any of the hearing effect tuning methods of the ear cups as described above.

Further, the present application discloses a computer-readable storage medium, in which a computer program is stored, and the computer program is used for implementing the steps of any one of the above-mentioned hearing effect calibration methods for an earphone when being executed by a processor.

For the details of the electronic device and the computer-readable storage medium, reference may be made to the foregoing detailed description of the method for adjusting the hearing ability of an earphone, which is not repeated herein.

The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the equipment disclosed by the embodiment, the description is relatively simple because the equipment corresponds to the method disclosed by the embodiment, and the relevant parts can be referred to the method part for description.

It is further noted that, throughout this document, relational terms such as "first" and "second" are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Furthermore, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The technical solutions provided by the present application are described in detail above. The principles and embodiments of the present application are explained herein using specific examples, which are provided only to help understand the method and the core idea of the present application. It should be noted that, for those skilled in the art, without departing from the principle of the present application, several improvements and modifications can be made to the present application, and these improvements and modifications also fall into the protection scope of the present application.