CN113242501B - Multi-frequency tinnitus matching and masking method, device, medium and program product - Google Patents

Abstract

The application discloses a multi-frequency tinnitus matching and masking method, equipment, medium and program product applied to a mobile terminal, wherein the multi-frequency tinnitus matching and masking method comprises the following steps: if a tinnitus treatment instruction is received, tinnitus matching information of a target user based on tinnitus frequency and loudness is obtained; generating target audio data according to the tinnitus matching information; and sending the target audio data to a hearing aid for the hearing aid to output the target audio data. According to the tinnitus treatment method and device, when a target user has tinnitus treatment requirements, tinnitus matching information formed by tinnitus frequency, loudness and other data of the target user is obtained, then target audio data are generated and sent to the hearing aid according to the tinnitus matching information, so that the trouble of tinnitus can be gradually relieved when the target user listens to the target audio data played by the hearing aid, tinnitus treatment is achieved, and due to the fact that tinnitus treatment can be conducted through the mobile terminal quickly, and convenience in tinnitus treatment is effectively improved.

Description

Multi-frequency tinnitus matching and masking method, device, medium and program product

Technical Field

The present application relates to the field of hearing aid medical devices, and more particularly to a multi-frequency tinnitus matching and masking method, device, medium and program product.

Background

Tinnitus is an illusion of auditory perception, severely affecting the life, sleep, work of a patient, and severely causing anxiety, insomnia, etc. According to foreign data display: tinnitus patients account for 17.0% of the general population in the united states, with an adult tinnitus incidence of approximately 25.3%, and it can be seen that approximately one-quarter of the population suffers from tinnitus.

Currently, tinnitus patients need to go to a hospital for tinnitus treatment, and tinnitus treatment equipment in the hospital is very complicated and difficult in the actual operation process, so that the convenience of currently carrying out tinnitus treatment is low.

Disclosure of Invention

The main objective of the present application is to provide a method, an apparatus, a medium and a program product for matching and masking tinnitus with multiple frequencies, which aim to solve the technical problem of low convenience in tinnitus treatment at present.

In order to achieve the above objective, an embodiment of the present application provides a multi-frequency tinnitus matching and masking method, which is applied to a mobile terminal, and the multi-frequency tinnitus matching and masking method includes:

if a tinnitus treatment instruction is received, tinnitus matching information of a target user based on tinnitus frequency and loudness is obtained;

generating target audio data according to the tinnitus matching information;

and sending the target audio data to a hearing aid for the hearing aid to output the target audio data.

Preferably, the step of generating the target audio data according to the tinnitus matching information comprises:

generating pure tone data based on a preset number of tinnitus frequencies and loudness data in the tinnitus matching information;

and generating target audio data according to the pure tone data and preset background music data.

Preferably, the step of generating the pure tone data based on the preset number of tinnitus frequencies and loudness data in the tinnitus matching information includes:

respectively calculating operation results between each tinnitus frequency and the corresponding loudness in tinnitus frequency and loudness data of a preset number of tinnitus matching information to obtain operation results of the preset number;

and generating pure tone data according to the operation results of the preset quantity.

Preferably, the step of generating the target audio data according to the pure tone data and preset background music data includes:

and carrying out preset operation on the pure tone data and preset background music data to generate target audio data.

Preferably, the step of obtaining tinnitus matching information of the target user based on tinnitus frequency and loudness comprises:

and acquiring tinnitus frequency and loudness data of a preset number of target users, and forming tinnitus matching information by the tinnitus frequency and the loudness data of the preset number.

Preferably, the step of transmitting the target audio data to a hearing aid for the hearing aid to output the target audio data comprises:

and transmitting the target audio data to a hearing aid based on a preset wireless communication mode so that the hearing aid can output the target audio data.

Preferably, the multi-frequency tinnitus matching and masking method further comprises:

if a tinnitus meter self-test instruction is received, acquiring a target option of the target user based on a preset test question;

calculating the self-test score of the target user according to the scores corresponding to the target options and the options of the preset test questions;

and outputting the self-measured score of the target user for viewing by the target user.

Further, in order to achieve the above object, the present application further provides a multi-frequency tinnitus matching and masking device, which includes a memory, a processor, and a multi-frequency tinnitus matching and masking program stored on the memory and executable on the processor, wherein the multi-frequency tinnitus matching and masking program implements the steps of the multi-frequency tinnitus matching and masking method described above when executed by the processor.

Further, in order to achieve the above object, the present application further provides a medium, which is a computer readable storage medium, and the computer readable storage medium stores a multi-frequency tinnitus matching and masking program, where the multi-frequency tinnitus matching and masking program implements the steps of the multi-frequency tinnitus matching and masking method when executed by a processor.

Further, to achieve the above object, the present application further provides a program product, which is a computer program product, including a computer program, which when executed by a processor, implements the steps of the above-mentioned multi-frequency tinnitus matching and masking method.

The embodiment of the application provides a multi-frequency tinnitus matching and masking method, equipment, medium and program product applied to a mobile terminal, wherein the multi-frequency tinnitus matching and masking method comprises the following steps: if a tinnitus treatment instruction is received, tinnitus matching information of a target user based on tinnitus frequency and loudness is obtained; generating target audio data according to the tinnitus matching information; and sending the target audio data to a hearing aid for the hearing aid to output the target audio data. According to the tinnitus treatment method and device, when a target user has tinnitus treatment requirements, tinnitus matching information formed by tinnitus frequency, loudness and other data of the target user is obtained, then target audio data are generated and sent to the hearing aid according to the tinnitus matching information, so that the trouble of tinnitus can be gradually relieved when the target user listens to the target audio data played by the hearing aid, tinnitus treatment is achieved, and due to the fact that tinnitus treatment can be conducted through the mobile terminal quickly, and convenience in tinnitus treatment is effectively improved.

Drawings

Fig. 1 is a schematic structural diagram of a hardware operating environment related to an embodiment of a multi-frequency tinnitus matching and masking method of the present application;

fig. 2 is a flowchart of a first embodiment of a multi-frequency tinnitus matching and masking method according to the present application;

FIG. 3 is a flow chart of a second embodiment of the multi-frequency tinnitus matching and masking method of the present application;

fig. 4 is a flowchart of a third embodiment of a multi-frequency tinnitus matching and masking method according to the present application;

fig. 5 is a functional block diagram of a preferred embodiment of the multi-frequency tinnitus matching and masking device of the present application.

The realization, functional characteristics and advantages of the present application will be further described with reference to the embodiments, referring to the attached drawings.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

The embodiment of the application provides a multi-frequency tinnitus matching and masking method, equipment, medium and program product applied to a mobile terminal, wherein the multi-frequency tinnitus matching and masking method comprises the following steps: if a tinnitus treatment instruction is received, tinnitus matching information of a target user based on tinnitus frequency and loudness is obtained; generating target audio data according to the tinnitus matching information; and sending the target audio data to a hearing aid for the hearing aid to output the target audio data. According to the tinnitus treatment method and device, when a target user has tinnitus treatment requirements, tinnitus matching information formed by tinnitus frequency, loudness and other data of the target user is obtained, then target audio data are generated and sent to the hearing aid according to the tinnitus matching information, so that the trouble of tinnitus can be gradually relieved when the target user listens to the target audio data played by the hearing aid, tinnitus treatment is achieved, and due to the fact that tinnitus treatment can be conducted through the mobile terminal quickly, and convenience in tinnitus treatment is effectively improved.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a multi-frequency tinnitus matching and masking device of a hardware running environment according to an embodiment of the present application.

In the following description, suffixes such as "module", "component", or "unit" for representing elements are used only for facilitating the description of the present application, and are not of specific significance per se. Thus, "module," "component," or "unit" may be used in combination.

The multi-frequency tinnitus matching and masking device can be a PC or a mobile terminal device such as a tablet computer or a portable computer.

As shown in fig. 1, the multi-frequency tinnitus matching and masking device may comprise: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. Wherein the communication bus 1002 is used to enable connected communication between these components. The user interface 1003 may include a Display, an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may further include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a stable memory (non-volatile memory), such as a disk memory. The memory 1005 may also optionally be a storage device separate from the processor 1001 described above.

It will be appreciated by those skilled in the art that the multi-frequency tinnitus matching and masking device structure shown in fig. 1 is not limiting of the multi-frequency tinnitus matching and masking device and may include more or fewer components than shown, or may be a combination of certain components or a different arrangement of components.

As shown in fig. 1, an operating system, a network communication module, a user interface module, and a multi-frequency tinnitus matching and masking program may be included in the memory 1005 as one medium.

In the device shown in fig. 1, the network interface 1004 is mainly used for connecting to a background server, and performing data communication with the background server; the user interface 1003 is mainly used for connecting a client (user side) and performing data communication with the client; and the processor 1001 may be configured to call the multi-frequency tinnitus matching and masking program stored in the memory 1005 and perform the following operations:

if a tinnitus treatment instruction is received, tinnitus matching information of a target user based on tinnitus frequency and loudness is obtained;

generating target audio data according to the tinnitus matching information;

and sending the target audio data to a hearing aid for the hearing aid to output the target audio data.

Further, the step of generating the target audio data according to the tinnitus matching information includes:

generating pure tone data based on a preset number of tinnitus frequencies and loudness data in the tinnitus matching information;

and generating target audio data according to the pure tone data and preset background music data.

Further, the step of generating pure tone data based on the preset number of tinnitus frequencies and loudness data in the tinnitus matching information includes:

respectively calculating operation results between each tinnitus frequency and the corresponding loudness in tinnitus frequency and loudness data of a preset number of tinnitus matching information to obtain operation results of the preset number;

and generating pure tone data according to the operation results of the preset quantity.

Further, the step of generating target audio data according to the pure tone data and preset background music data includes:

and carrying out preset operation on the pure tone data and preset background music data to generate target audio data.

Further, the step of obtaining tinnitus matching information of the target user based on tinnitus frequency and loudness includes:

and acquiring tinnitus frequency and loudness data of a preset number of target users, and forming tinnitus matching information by the tinnitus frequency and the loudness data of the preset number.

Further, the step of transmitting the target audio data to a hearing aid for the hearing aid to output the target audio data comprises:

and transmitting the target audio data to a hearing aid based on a preset wireless communication mode so that the hearing aid can output the target audio data.

Further, the multi-frequency tinnitus matching and masking method further comprises:

if a tinnitus meter self-test instruction is received, acquiring a target option of the target user based on a preset test question;

calculating the self-test score of the target user according to the scores corresponding to the target options and the options of the preset test questions;

and outputting the self-measured score of the target user for viewing by the target user.

In order that the above-described aspects may be better understood, exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Referring to fig. 2, a flowchart of a multi-frequency tinnitus matching and masking method is provided in a first embodiment of the present application. In this embodiment, the multi-frequency tinnitus matching and masking method comprises the steps of:

step S10, if a tinnitus treatment instruction is received, tinnitus matching information of a target user based on tinnitus frequency and loudness is obtained;

the multi-frequency tinnitus matching and masking method is applied to the mobile terminal, and the mobile terminal is in communication connection with the hearing aid based on a preset wireless communication mode, wherein the preset wireless communication mode can be Bluetooth, WIFI and the like, bluetooth is preferred in the embodiment, the WIFI generally refers to Wi-Fi, the Wi-Fi is also called a 'mobile hotspot' in Chinese, a trademark of a Wi-Fi alliance manufacturer is used as a brand authentication of a product, and the method is a wireless local area network technology established in an IEEE 802.11 standard; in this embodiment, the mobile terminal may be a smart phone, a tablet computer, etc., and an APP (Application program) for performing tinnitus treatment is provided in the mobile terminal; in the embodiment, the hearing aid is divided into a left ear side and a right ear side, the hearing aid structures of the left ear side and the right ear side are basically consistent, a special chip and a Bluetooth module are arranged in the hearing aid besides the existing hearing aid components, the special chip is used for processing data received through Bluetooth, and then the processed digital signals are sent to a loudspeaker end through digital-to-analog conversion; the Bluetooth module is responsible for communicating with the mobile terminal to interact data with the APP in the mobile terminal.

On the one hand, a target user can trigger a tinnitus treatment instruction through a treatment starting button of an APP in a mobile terminal so as to start a tinnitus treatment flow, then the frequency and the loudness of an initialized sine wave signal in the APP are adjusted through an adjusting button of a sine wave generator in the APP, and after the adjustment is finished, the adjustment can be finished through selection confirmation, wherein the sine wave generator is used for generating three superimposed signals (namely pure tone data) with different frequencies and different loudness (amplitudes) so as to simulate the real tinnitus effect of the target user; the initial frequency of the initialized sine wave signal is 0, the loudness (namely the amplitude) is 1, tinnitus matching information matched with tinnitus degree is set, tinnitus matching information is composed of a plurality of groups of tinnitus frequency and loudness data, namely a target user needs to pass through an adjusting button arranged in the APP for many times, the frequency and the loudness of the initialized sine wave signal in the APP are adjusted to form tinnitus matching information, the APP is convenient to acquire tinnitus matching information set by the user to generate pure tone data and combine preset background music data to synthesize target audio data, and then the target audio data is output through a hearing aid, so that the target user can listen to target audio to gradually alleviate the trouble of tinnitus, and masking treatment of the tinnitus is realized.

On the other hand, after receiving a tinnitus treatment instruction sent by a target user based on the APP, the mobile terminal generates an initialization sine wave signal based on the sine wave generator, specifically, when the mobile terminal generates the initialization sine wave signal based on the sine wave generator, the mobile terminal proceeds through the following formula:

y＝sin(2*π*fs*t)

wherein fs is the sine wave frequency; t=l/FS; l=0, 1,2,3 …; FS is the sampling frequency; pi is the circumference ratio; sin is a sine function in the trigonometric function.

Further, after generating an initialization sine wave signal, the mobile terminal respectively acquires tinnitus frequency and loudness data set by a target user for a plurality of times based on the initialization sine wave signal through a sine wave generator, and tinnitus matching information of the target user is formed by the frequency and loudness data acquired for a plurality of times, and the tinnitus matching information is generated into 32-bit data through an audio generation module preset in the mobile terminal; meanwhile, tinnitus matching information is stored through the detection record storage module so as to be called later, target audio data are generated according to the tinnitus matching information and are sent to the hearing aid for output, so that a target user can gradually alleviate the trouble of tinnitus when listening to the target audio data played by the hearing aid, and masking treatment of tinnitus is realized.

Further, the step of obtaining tinnitus matching information of the target user based on tinnitus frequency and loudness includes:

step S11, tinnitus frequency and loudness data of a preset number of target users are obtained, and tinnitus matching information is formed by the tinnitus frequency and the loudness data of the preset number.

Further, since the tinnitus sound generally includes 3 to 5 dominant frequencies, it is difficult to completely mask the tinnitus for pure tones with a single frequency, so that the mobile terminal obtains a preset number of tinnitus frequencies and loudness data set by the target user through the sine wave generator, and forms the tinnitus matching information of the target user together with the preset number of tinnitus frequencies and loudness data, wherein in order to achieve a better treatment effect, the preset number is preferably 3 in the embodiment, and a treatment method of multi-frequency matching is formed by using tinnitus matching information formed by multiple groups of tinnitus frequencies and loudness data, so that the effectiveness of tinnitus treatment is ensured by adapting to multiple dominant frequencies of the tinnitus sound.

Step S20, generating target audio data according to the tinnitus matching information;

further, after tinnitus matching information of a target user is obtained, the mobile terminal generates pure tone data according to a plurality of groups of tinnitus frequencies and loudness data in the tinnitus matching information, and then the generated pure tone data is combined with preset background music data to generate target audio data for treating tinnitus of the target user, so that the target audio data is sent to a hearing aid to be output, the trouble of tinnitus can be relieved step by step when the target user listens to the target audio data played by the hearing aid, and tinnitus masking treatment is achieved, wherein the preset background music data can be white noise or any music data.

And step S30, the target audio data are sent to a hearing aid, so that the hearing aid outputs the target audio data.

Further, after generating the target audio data according to the tinnitus matching information, the mobile terminal sends the target audio data generated through the APP to the hearing aid based on the communication connection relation with the hearing aid, so that after the hearing aid receives the target audio data, the target audio data can be separated through an internal IIS bus (integrated circuit built-in audio bus) and then transmitted to the left-ear hearing aid and the right-ear hearing aid for audio playing, a target user can listen to the target audio, the trouble of tinnitus can be relieved gradually when the target user listens to the target audio data played by the loudspeaker, and tinnitus masking treatment is achieved.

Further, the step of transmitting the target audio data to a hearing aid for the hearing aid to output the target audio data comprises:

and step S31, the target audio data is sent to a hearing aid based on a preset wireless communication mode, so that the hearing aid can output the target audio data.

Further, the mobile terminal sends target audio data generated by the APP to the hearing aid in a preset Bluetooth wireless communication mode based on a wireless communication connection relation between the mobile terminal and the hearing aid, so that after the hearing aid receives the target audio data, the hearing aid can separate the 32-bit target audio data into 16-bit target audio data of left and right channels through an internal IIS bus (Inter-IC Sound), the 16-bit target audio data are respectively transmitted to a left ear hearing aid audio processing chip and a right ear hearing aid audio processing chip, and target audio is played through a left ear test speaker and a right ear speaker respectively, so that a target user can listen to the target audio, and tinnitus trouble can be gradually relieved when the target user listens to the target audio data played by the speakers, and tinnitus masking treatment is realized.

The embodiment provides a multi-frequency tinnitus matching and masking method, equipment, medium and program product applied to a mobile terminal, wherein the multi-frequency tinnitus matching and masking method comprises the following steps: if a tinnitus treatment instruction is received, tinnitus matching information of a target user based on tinnitus frequency and loudness is obtained; generating target audio data according to the tinnitus matching information; and sending the target audio data to a hearing aid for the hearing aid to output the target audio data. According to the tinnitus treatment method and device, when a target user has tinnitus treatment requirements, tinnitus matching information formed by tinnitus frequency, loudness and other data of the target user is obtained, then target audio data are generated and sent to the hearing aid according to the tinnitus matching information, so that the trouble of tinnitus can be gradually relieved when the target user listens to the target audio data played by the hearing aid, tinnitus treatment is achieved, and due to the fact that tinnitus treatment can be conducted through the mobile terminal quickly, and convenience in tinnitus treatment is effectively improved.

Further, referring to fig. 3, based on the first embodiment of the multi-frequency tinnitus matching and masking method of the present application, a second embodiment of the multi-frequency tinnitus matching and masking method of the present application is proposed, in which the step of generating the target audio data according to the tinnitus matching information includes:

step S21, generating pure tone data based on the tinnitus frequency and the loudness data of the preset quantity in the tinnitus matching information;

and S22, generating target audio data according to the pure tone data and preset background music data.

Further, the mobile terminal firstly generates pure tone data based on the tinnitus frequency and the loudness data of the preset number in the tinnitus matching information, specifically, firstly calculates an operation result between each tinnitus frequency and the loudness in the tinnitus frequency and the loudness data of the preset number, and superimposes a plurality of operation results to generate the pure tone data; further, the mobile terminal superimposes the pure tone data and the preset background music data to generate target audio data, so that the target audio data is sent to the hearing aid to be output, and the trouble of tinnitus can be relieved gradually when a target user listens to the target audio data played by the hearing aid, and masking treatment of the tinnitus is realized.

Further, the step of generating pure tone data based on the preset number of tinnitus frequencies and loudness data in the tinnitus matching information includes:

step S211, respectively calculating the operation results between each tinnitus frequency and the corresponding loudness in tinnitus frequency and loudness data of the tinnitus matching information in preset quantity to obtain the operation results of the preset quantity;

step S212, generating pure tone data according to the operation results of the preset quantity.

Further, the mobile terminal calculates the operation result of the tinnitus frequency and the loudness in each tinnitus frequency and the loudness data respectively according to the preset number of tinnitus frequencies and the preset number of loudness data in the tinnitus matching information, specifically, obtains the numerical value of the tinnitus frequency and the loudness in each tinnitus frequency and the loudness data, and performs product operation on the numerical value of the tinnitus frequency and the loudness, namely, multiplies the numerical value of the tinnitus frequency and the loudness to obtain the operation result of the tinnitus frequency and the loudness in the current tinnitus frequency and the loudness data; and the mobile terminal repeatedly executes the step of calculating the tinnitus frequency and the operation result of the loudness of the tinnitus frequency in the loudness data until the tinnitus frequency and the loudness data of the preset quantity in the tinnitus matching information are calculated to obtain the tinnitus frequency and the operation result of the loudness, and the preset quantity of operation results are obtained. Further, the mobile terminal performs addition operation on the preset number of operation results, and generates pure tone data with the same tinnitus effect as the target user after the addition operation calculation of the preset number of operation results is completed, so that target audio data favorable for the target user can be generated according to the pure tone data and the preset background music data, and the target user can gradually alleviate the trouble of tinnitus when listening to the target audio data played by the hearing aid, and realize masking treatment of tinnitus.

Further, the step of generating target audio data according to the pure tone data and preset background music data includes:

step S221, performing preset operation on the pure tone data and preset background music data to generate target audio data.

Further, the mobile terminal reads preset background music data from an internal memory of the mobile terminal or downloads the preset background music data on line through a network, performs preset summation operation on the pure tone data and the acquired preset background music data, and generates target audio data favorable for tinnitus treatment of the target user after the summation operation is completed. It can be understood that after the preset background music data is obtained, the target user can adjust the loudness of the obtained preset background music data, so that the target audio data can be more accurately generated according to the adjusted preset background music data and the pure tone data, and the trouble of tinnitus can be gradually relieved when the target user listens to the target audio data played by the hearing aid, and the masking treatment of the tinnitus is realized.

In this embodiment, the mobile terminal generates pure tone data with the same tinnitus effect as the target user based on the tinnitus frequency and loudness data of the preset number in the tinnitus matching information, and generates target audio data favorable for tinnitus treatment of the target user according to the pure tone data and the preset background music data, so that the target user can gradually alleviate the trouble of tinnitus when listening to the target audio data played by the hearing aid, and realize masking treatment of tinnitus.

Further, referring to fig. 4, based on the first embodiment of the multi-frequency tinnitus matching and masking method of the present application, a third embodiment of the multi-frequency tinnitus matching and masking method of the present application is proposed, in which the multi-frequency tinnitus matching and masking method further comprises:

a1, if a tinnitus meter self-test instruction is received, acquiring a target option of the target user based on a preset test question;

a2, calculating a self-test score of the target user according to the scores corresponding to the target options and the options of the preset test questions;

and step A3, outputting the self-test score of the target user for the target user to check.

Further, a tinnitus meter self-test mode is further provided in the APP of the mobile terminal, a user target user can trigger a tinnitus meter self-test instruction for starting the tinnitus meter self-test mode through a starting button of the tinnitus meter self-test mode in the APP, after the tinnitus meter self-test mode is started, a target option is selected from a plurality of options according to real conditions among test questions given by the APP until all the test questions are completed, the tinnitus meter self-test flow is finished, the self-test score calculated by the APP based on the target options of all the test questions can be checked, the current tinnitus condition of the target user is known according to the self-test score, wherein each test question corresponds to a plurality of options, preferably 3 options in the embodiment, and each option corresponds to different scores, for example, the first option is 4 minutes, the second option is 7 minutes, the third option is 10 minutes, and the test questions are preferably 10 tracks in the embodiment.

Further, if a tinnitus meter self-test instruction triggered by a starting button of a target user based on a tinnitus meter self-test mode is received, the mobile terminal respectively acquires a plurality of target options selected by the target user based on a preset multi-channel test question, simultaneously acquires the score set by each option in the test question, searches the score corresponding to each target option, and then performs addition operation on the score of each target option to obtain the total score corresponding to the multi-channel test question as the self-test score of the target user; the mobile terminal displays the calculated self-test score in the APP so that the target user can check the self-test score and know the current tinnitus condition of the target user in time, wherein the higher the score of the self-test score is, the smaller the tinnitus influence of the target user is, namely the lower the tinnitus degree is. For example, the number of the cells to be processed, if the scores corresponding to the 10 target options selected by the target user are respectively 10 10, the self-test score is 100 points, which indicates that the target user is free from the trouble of tinnitus; if the scores corresponding to the 10 target options selected by the target user are 4, 7, 4, 7 and 4 respectively, the self-test score is 49, which indicates that the target user is seriously afflicted with tinnitus currently, and the target user cannot be treated by combining the APP of the mobile terminal with the hearing aid, so that the user needs to seek medical attention in time to avoid delaying the illness state.

In the embodiment, the target user can perform tinnitus meter self-test through the tinnitus meter self-test mode, and the current tinnitus condition of the target user can be known through the self-test score obtained by tinnitus meter self-test, so that the target user can timely know the tinnitus treatment effect, and the convenience of tinnitus treatment is improved.

Further, the present application may also provide a multi-frequency tinnitus matching and masking device.

Referring to fig. 5, fig. 5 is a schematic functional block diagram of a first embodiment of the multi-frequency tinnitus matching and masking device of the present application.

The multi-frequency tinnitus matching and masking device comprises:

the acquisition module 10 is configured to acquire tinnitus matching information of the target user based on tinnitus frequency and loudness if a tinnitus treatment instruction is received;

a generating module 20, configured to generate target audio data according to the tinnitus matching information;

a transmitting module 30 for transmitting the target audio data to a hearing aid for the hearing aid to output the target audio data.

Further, the acquisition module 10 includes:

the acquisition unit is used for acquiring tinnitus frequency and loudness data of a preset number of target users, and tinnitus matching information is formed by the tinnitus frequency and the loudness data of the preset number.

Further, the generating module 20 includes:

the first generation unit is used for generating pure tone data based on the tinnitus frequency and the loudness data of the preset quantity in the tinnitus matching information;

and the second generation unit is used for generating target audio data according to the pure tone data and preset background music data.

Further, the generating module 20 further includes:

the calculation unit is used for respectively calculating the operation results between each tinnitus frequency and the corresponding loudness in tinnitus frequency and loudness data of the tinnitus matching information in preset quantity to obtain operation results of the preset quantity;

and the third generation unit is used for generating pure tone data according to the operation results of the preset quantity.

Further, the generating module 20 further includes:

and the operation unit is used for carrying out preset operation on the pure tone data and preset background music data to generate target audio data.

Further, the transmission module 30 includes:

and the sending unit is used for sending the target audio data to the hearing aid based on a preset wireless communication mode so as to enable the hearing aid to output the target audio data.

Further, the multi-frequency tinnitus matching and masking device further comprises:

the second obtaining module 40 is configured to obtain a target option of the target user based on a preset test question if a tinnitus meter self-test instruction is received;

the calculating module 50 is configured to calculate a self-test score of the target user according to the scores corresponding to the target options and the options of the preset test questions;

and the output module 60 is configured to output the self-test score of the target user for viewing by the target user.

In addition, the application further provides a medium, preferably a computer readable storage medium, on which a multi-frequency tinnitus matching and masking program is stored, which when executed by a processor, implements the steps of the embodiments of the multi-frequency tinnitus matching and masking method described above.

Furthermore, the present application provides a program product, preferably a computer program product, comprising a computer program which, when executed by a processor, implements the steps of the embodiments of the multi-frequency tinnitus matching and masking method described above.

Embodiments of the multi-frequency tinnitus matching and masking device, computer readable storage medium and computer program product of the present application include all technical features of each embodiment of the multi-frequency tinnitus matching and masking method, and the description and explanation contents are substantially the same as each embodiment of the multi-frequency tinnitus matching and masking method, and are not repeated herein.

It should be noted that, in this document, 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 one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing embodiment numbers of the present application are merely for describing, and do not represent advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), comprising several instructions for causing a terminal device (which may be a fixed terminal, such as an intelligent device for internet of things, including intelligent home such as an intelligent air conditioner, an intelligent electric lamp, an intelligent power supply, an intelligent router, or a mobile terminal, including a smart phone, a wearable internet AR/VR device, an intelligent sound box, an automatic driving car, or many other internet devices) to perform the method described in the embodiments of the present application.

The foregoing description is only of the preferred embodiments of the present application, and is not intended to limit the scope of the claims, and all equivalent structures or equivalent processes using the descriptions and drawings of the present application, or direct or indirect application in other related technical fields are included in the scope of the claims of the present application.

Claims (7)

1. A multi-frequency tinnitus matching and masking method for a mobile terminal, the multi-frequency tinnitus matching and masking method comprising:

if a tinnitus treatment instruction is received, tinnitus matching information of a target user based on tinnitus frequency and loudness is obtained;

generating target audio data of preset digits according to the tinnitus matching information;

transmitting the target audio data to a hearing aid for the hearing aid to separate and output the target audio data based on the preset digits;

the step of generating target audio data of a preset digit according to the tinnitus matching information comprises the following steps:

generating pure tone data based on a preset number of tinnitus frequencies and loudness data in the tinnitus matching information;

generating target audio data of the preset digits according to the pure tone data and preset background music data;

the step of generating pure tone data based on the preset number of tinnitus frequencies and loudness data in the tinnitus matching information comprises the steps of:

respectively calculating operation results between each tinnitus frequency and the corresponding loudness in tinnitus frequency and loudness data of a preset number of tinnitus matching information to obtain operation results of the preset number;

generating pure tone data according to the operation results of the preset quantity;

the step of calculating the operation result between each tinnitus frequency and the corresponding loudness in the tinnitus frequency and the loudness data of the tinnitus matching information preset quantity respectively to obtain the operation result of the preset quantity comprises the following steps:

acquiring the tinnitus frequency and the loudness value in the tinnitus frequency and the loudness data, and multiplying the tinnitus frequency and the loudness value to obtain the operation result of the tinnitus frequency and the loudness in the current tinnitus frequency and the loudness data;

and repeatedly executing the steps of multiplying the tinnitus frequency and the value of the loudness to obtain the operation result of the tinnitus frequency and the loudness in the current tinnitus frequency and the loudness data until the operation result of the tinnitus frequency and the loudness is obtained by calculating the preset number of tinnitus frequencies and the preset number of loudness data in the tinnitus matching information, so as to obtain the operation result of the preset number of tinnitus frequencies and the preset number of loudness data.

2. The multi-frequency tinnitus matching and masking method of claim 1 wherein the step of generating the preset digital target audio data from the pure tone data and preset background music data comprises:

and carrying out preset operation on the pure tone data and preset background music data to generate target audio data of the preset digits.

3. The multi-frequency tinnitus matching and masking method of claim 1 wherein the step of obtaining tinnitus matching information for a target user based on tinnitus frequency and loudness comprises:

and acquiring tinnitus frequency and loudness data of a preset number of target users, and forming tinnitus matching information by the tinnitus frequency and the loudness data of the preset number.

4. The multi-frequency tinnitus matching and masking method of claim 1 wherein said step of transmitting said target audio data to a hearing aid for said hearing aid to separate and output said target audio data based on said preset digits comprises:

and transmitting the target audio data to a hearing aid based on a preset wireless communication mode, so that the hearing aid can separate and output the target audio data based on the preset digits.

5. The multi-frequency tinnitus matching and masking method of claim 1, further comprising:

if a tinnitus meter self-test instruction is received, acquiring a target option of the target user based on a preset test question;

calculating the self-test score of the target user according to the scores corresponding to the target options and the options of the preset test questions;

and outputting the self-measured score of the target user for viewing by the target user.

6. A multi-frequency tinnitus matching and masking device comprising a memory, a processor and a multi-frequency tinnitus matching and masking program stored on the memory and executable on the processor, which when executed by the processor, implements the steps of the multi-frequency tinnitus matching and masking method according to any one of claims 1-5.

7. A computer readable storage medium, wherein a multi-frequency tinnitus matching and masking program is stored on the computer readable storage medium, which when executed by a processor, implements the steps of the multi-frequency tinnitus matching and masking method according to any one of claims 1-5.

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