CN116156402B - Hearing-aid equipment intelligent response method, system and medium based on environment state monitoring - Google Patents

Abstract

The embodiment of the application provides a hearing aid device intelligent response method, a hearing aid device intelligent response system and a hearing aid device intelligent response medium based on environment state monitoring. The method comprises the following steps: extracting hearing characteristic representation data according to the hearing characteristic information of a user, matching the hearing characteristic representation data with the weak hearing index number of the user to obtain hearing-aid equipment parameter data, extracting dynamic ring condition data according to the dynamic ring condition characteristic information, processing the hearing characteristic representation data and the hearing-aid equipment parameter data to obtain a ring-change excitation index of the hearing-aid equipment, processing the hearing-aid equipment parameter data by combining the hearing-aid power factor to obtain a hearing-aid equipment power-regulation response parameter, and matching the hearing-aid equipment parameter data to obtain a response output parameter to regulate the hearing-aid equipment; the method comprises the steps of obtaining a response parameter of the hearing condition of a user to function adjustment of the hearing device under the influence of environment change through obtaining the hearing characteristic of the user, matching the hearing device, carrying out annular interference excitation evaluation by combining the dynamic influence of the environment, obtaining a corresponding adjustment index, and realizing an intelligent response technology of the hearing device performance and the function adjustment of the user requirement under the environment condition.

Description

Hearing-aid equipment intelligent response method, system and medium based on environment state monitoring

Technical Field

The application relates to the technical field of big data and hearing-aid equipment, in particular to an intelligent response method, an intelligent response system and an intelligent response medium for hearing-aid equipment based on environmental state monitoring.

Background

The hearing aid device is widely applied to life and production as a commonly used device in weak hearing people, particularly the elderly and special industry, and has different hearing aid demands for different users, and because the hearing aid devices of the users in different complex external environments are matched with hearing aid devices of different performances and different requirements are regulated, and intelligent regulation means for the functional parameters of the hearing aid devices of different hearing aid devices in environmental changes according to the hearing aid demands of different users are lacking, the intelligent regulation technology for the characteristic parameters of the hearing aid devices used by the users in environmental condition changes cannot be obtained, and thus the technical gap of accuracy, effectiveness and intelligence exists in the hearing aid device field.

In view of the above problems, an effective technical solution is currently needed.

Disclosure of Invention

The embodiment of the application aims to provide an intelligent response method, system and medium for hearing-aid equipment based on environmental condition monitoring, which can obtain relevant information of matched hearing-aid equipment from hearing characteristic information of a user through big data, perform ring interference excitation evaluation by combining environmental dynamic influence information, and obtain a demand parameter of the hearing condition of the user for functional regulation response of the hearing-aid equipment under the ring variation influence so as to obtain a corresponding regulation index parameter, thereby realizing intelligent strain response of the performance of the hearing-aid equipment combined with the functional regulation of the user demand under the environmental condition.

The embodiment of the application also provides an intelligent response method of hearing aid equipment based on environmental state monitoring, which comprises the following steps:

acquiring hearing aid power requirement information and hearing characteristic information of a user;

processing and identifying through a preset user weak hearing characteristic identification database according to the hearing aid power requirement information and the hearing characteristic information to obtain hearing aid power requirement factors and user weak hearing index numbers corresponding to the user;

extracting hearing characteristic data according to the hearing characteristic information of the user, inputting the hearing characteristic data into a preset hearing-aid device function matching database in combination with the user weak hearing index number for processing to obtain hearing-aid devices corresponding to hearing-aid power requirements of the user, and obtaining hearing-aid device type parameter data corresponding to the hearing-aid devices;

collecting dynamic ring condition characteristic information of the hearing aid equipment used by the user in a preset time period, and extracting dynamic ring condition data according to the dynamic ring condition characteristic information;

according to the dynamic ring condition data, combining hearing characteristic characterization data of the user and the hearing-aid equipment type parameter data, performing calculation processing through a preset hearing-aid equipment ring-change excitation model to obtain a hearing-aid equipment ring-change excitation index of the hearing-aid equipment in a preset time period;

Processing according to the hearing-aid equipment ring-changing excitation index, the hearing-aid power demand factor and the hearing-aid equipment type parameter data to obtain hearing-aid equipment power modulation response parameters;

and matching and comparing the hearing aid device power adjustment response parameters in a preset hearing aid device function parameter adjustment information base to obtain corresponding hearing aid device response output parameters, and adjusting the hearing aid device according to the hearing aid device response output parameters.

Optionally, in the method for intelligently responding to a hearing device based on environmental condition monitoring according to the embodiment of the present application, the processing and identifying are performed through a preset user weak hearing characteristic identification database according to the hearing power requirement information and hearing characteristic information, so as to obtain a hearing power requirement factor and a user weak hearing index number corresponding to the user, including:

extracting sub-information of hearing aid power requirement information and hearing characteristic information, wherein the hearing aid power requirement information comprises hearing threshold calibration information, resolution compensation information and weak hearing gain information, and the hearing characteristic information comprises weak hearing distortion information, hearing domain deviation information and resolution imbalance information;

and inputting the hearing threshold calibration information, the weak hearing gain information, the hearing domain deviation information and the resolution imbalance information into a preset user weak hearing characteristic identification database for identification processing to obtain hearing aid power factors and user weak hearing index numbers corresponding to the users.

Optionally, in the method for intelligently responding to a hearing device based on environmental condition monitoring according to the embodiment of the present application, extracting hearing characteristic characterization data according to hearing characteristic information of the user, and inputting the hearing characteristic characterization data in a preset hearing device function matching database in combination with the user weak hearing index number for processing, to obtain a hearing device corresponding to a hearing power requirement of the user, and to obtain hearing device type parameter data corresponding to the hearing device, including:

extracting hearing characteristic characterization data including weak audibility data, distortion data, threshold deviation data and resolution imbalance data according to the hearing characteristic information;

inputting the weak hearing degree data, distortion degree data, hearing threshold deviation data and resolution imbalance data into a preset hearing aid device function matching database in combination with the weak hearing index number of the user for processing to obtain hearing aid devices corresponding to hearing aid power requirements of the user;

and extracting corresponding hearing aid device type parameter data including function regulation data and performance parameter data according to the hearing aid device.

Optionally, in the method for intelligently responding to a hearing device based on environmental condition monitoring according to the embodiment of the present application, the collecting dynamic ring condition feature information of the user using the hearing device in a preset time period, and extracting dynamic ring condition data according to the dynamic ring condition feature information includes:

Collecting dynamic ring condition characteristic information of the hearing aid equipment used by the user in a preset time period;

and extracting dynamic ring condition data including noise audio data, electromagnetic interference data and working condition temperature change data according to the dynamic ring condition characteristic information.

Optionally, in an intelligent response method of a hearing device based on environmental condition monitoring according to the embodiment of the present application, the calculating, according to the dynamic ring condition data, by combining hearing characteristic characterization data of the user with the hearing device type parameter data, through a preset hearing device ring-changing excitation model, obtaining a hearing device ring-changing excitation index of the hearing device in a preset time period, includes:

obtaining a dynamic ring condition distortion factor according to the dynamic ring condition data processing;

processing according to the dynamic ring condition distortion factor and the hearing characteristic characterization data of the user to obtain a hearing aid ring disturbance coefficient;

and calculating according to the hearing aid ring disturbance coefficient and the dynamic ring condition distortion factor and combining the hearing aid equipment type parameter data through a preset hearing aid equipment ring-changing excitation model to obtain a hearing aid equipment ring-changing excitation index of the hearing aid equipment in a preset time period.

Optionally, in an intelligent response method of a hearing device based on environmental condition monitoring according to the embodiment of the present application, the processing according to the hearing device ring-changing excitation index, the hearing power requirement factor, and the hearing device type parameter data to obtain a hearing device power adjustment response parameter includes:

combining the hearing aid power factor according to the hearing aid device ring-transition excitation index, and processing the function regulation data and the performance parameter data to obtain a hearing aid device power regulation response parameter;

the program processing formula of the hearing aid power modulation response parameter is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid power-regulating response parameter, +.>For the hearing aid device ring-changing excitation index, +.>、/>Respectively, function regulation data and performance parameter data, < ->Is a hearing aid power factor->、/>Is a preset characteristic coefficient.

Optionally, in the method for intelligently responding to a hearing-aid device based on environmental condition monitoring according to the embodiment of the present application, the matching and matching are performed in a preset hearing-aid device function parameter information base according to the hearing-aid device power adjustment response parameter, so as to obtain a corresponding hearing-aid device response output parameter, and the adjusting the hearing-aid device according to the hearing-aid device response output parameter includes:

According to the hearing-aid device power-tuning response parameters, performing comparison query in a preset hearing-aid device function parameter information base to obtain hearing-aid device response output parameters matched with the hearing-aid device;

and performing functional adjustment on the hearing aid equipment according to the corresponding parameter indexes according to the response output parameters of the hearing aid equipment.

In a second aspect, embodiments of the present application provide an intelligent hearing device response system based on environmental condition monitoring, the system comprising: the hearing aid device intelligent response method based on the environment state monitoring comprises a memory and a processor, wherein the memory comprises a program of the hearing aid device intelligent response method based on the environment state monitoring, and the following steps are realized when the program of the hearing aid device intelligent response method based on the environment state monitoring is executed by the processor:

acquiring hearing aid power requirement information and hearing characteristic information of a user;

processing and identifying through a preset user weak hearing characteristic identification database according to the hearing aid power requirement information and the hearing characteristic information to obtain hearing aid power requirement factors and user weak hearing index numbers corresponding to the user;

extracting hearing characteristic data according to the hearing characteristic information of the user, inputting the hearing characteristic data into a preset hearing-aid device function matching database in combination with the user weak hearing index number for processing to obtain hearing-aid devices corresponding to hearing-aid power requirements of the user, and obtaining hearing-aid device type parameter data corresponding to the hearing-aid devices;

Collecting dynamic ring condition characteristic information of the hearing aid equipment used by the user in a preset time period, and extracting dynamic ring condition data according to the dynamic ring condition characteristic information;

according to the dynamic ring condition data, combining hearing characteristic characterization data of the user and the hearing-aid equipment type parameter data, performing calculation processing through a preset hearing-aid equipment ring-change excitation model to obtain a hearing-aid equipment ring-change excitation index of the hearing-aid equipment in a preset time period;

processing according to the hearing-aid equipment ring-changing excitation index, the hearing-aid power demand factor and the hearing-aid equipment type parameter data to obtain hearing-aid equipment power modulation response parameters;

and matching and comparing the hearing aid device power adjustment response parameters in a preset hearing aid device function parameter adjustment information base to obtain corresponding hearing aid device response output parameters, and adjusting the hearing aid device according to the hearing aid device response output parameters.

Optionally, in the intelligent response system of hearing-aid device based on environmental condition monitoring according to the embodiment of the present application, the processing and identifying are performed according to the hearing-aid power requirement information and hearing characteristic information through a preset user weak hearing characteristic identification database, so as to obtain a hearing-aid power requirement factor and a user weak hearing index number corresponding to the user, where the processing and identifying include:

Extracting sub-information of hearing aid power requirement information and hearing characteristic information, wherein the hearing aid power requirement information comprises hearing threshold calibration information, resolution compensation information and weak hearing gain information, and the hearing characteristic information comprises weak hearing distortion information, hearing domain deviation information and resolution imbalance information;

and inputting the hearing threshold calibration information, the weak hearing gain information, the hearing domain deviation information and the resolution imbalance information into a preset user weak hearing characteristic identification database for identification processing to obtain hearing aid power factors and user weak hearing index numbers corresponding to the users.

In a third aspect, an embodiment of the present application further provides a computer readable storage medium, where the computer readable storage medium includes a hearing device intelligent response method program based on environmental state monitoring, where the hearing device intelligent response method program based on environmental state monitoring is executed by a processor, to implement the steps of the hearing device intelligent response method based on environmental state monitoring as described in any one of the foregoing embodiments.

As can be seen from the foregoing, according to the method, the system and the medium for intelligent response of a hearing-aid device based on environmental condition monitoring provided by the embodiments of the present application, a hearing-aid power factor and a user weak-hearing index number are obtained by identifying hearing-aid power information and hearing-aid feature information of a user, hearing-aid device and hearing-aid device type parameter data required by hearing-aid power are obtained by extracting hearing-aid characteristic data according to the user hearing-aid feature information and matching the user weak-hearing index number, dynamic ring condition data is extracted according to dynamic ring condition feature information of the hearing-aid device, then a hearing-aid device ring-change excitation index is obtained by processing the hearing-aid characteristic data and hearing-aid device type parameter data through a preset hearing-aid device ring-change excitation model, a hearing-aid device power-change response parameter is obtained according to the hearing-aid device ring-change excitation index, the hearing-aid power factor and the hearing-aid device type parameter data, and a response output parameter is obtained by matching in a hearing-aid device function parameter information base; based on big data, relevant information of the hearing-aid equipment is obtained and matched, environmental dynamic influence information is combined to carry out annular interference excitation evaluation, and demand parameters of the hearing-aid equipment for functional regulation response of the hearing-aid equipment under the annular influence of the user hearing condition are obtained, so that corresponding regulation index parameters are obtained, and intelligent strain response of the hearing-aid equipment performance and the functional regulation of the user demand under the environmental condition is realized.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the embodiments of the application. The objectives and other advantages of the application will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flowchart of a hearing device intelligent response method based on environmental condition monitoring according to an embodiment of the present application;

fig. 2 is a flowchart of obtaining hearing aid power factor and user weak hearing index number according to an intelligent response method of hearing aid equipment based on environmental condition monitoring provided in an embodiment of the present application;

fig. 3 is a flowchart of obtaining hearing aid devices and corresponding hearing aid device type parameter data according to the method for intelligent response of hearing aid devices based on environmental condition monitoring provided in the embodiments of the present application;

Fig. 4 is a schematic structural diagram of an intelligent response system of a hearing device based on environmental status monitoring according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only to distinguish the description, and are not to be construed as indicating or implying relative importance.

Referring to fig. 1, fig. 1 is a flowchart of a hearing device intelligent response method based on environmental condition monitoring in some embodiments of the present application. The intelligent response method of the hearing aid device based on the environment state monitoring is used in terminal devices, such as computers, mobile phone terminals and the like. The intelligent response method of the hearing aid device based on the environmental state monitoring comprises the following steps:

s101, acquiring hearing aid power requirement information and hearing characteristic information of a user;

s102, processing and identifying through a preset user weak hearing characteristic identification database according to the hearing aid power requirement information and the hearing characteristic information to obtain hearing aid power requirement factors and user weak hearing index numbers corresponding to the user;

s103, extracting hearing characteristic representation data according to the hearing characteristic information of the user, inputting the hearing characteristic representation data into a preset hearing aid device function matching database in combination with the user weak hearing index number for processing, obtaining hearing aid devices corresponding to hearing aid power requirements of the user, and obtaining hearing aid device parameter data corresponding to the hearing aid devices;

s104, acquiring dynamic ring condition characteristic information of the hearing aid equipment used by the user in a preset time period, and extracting dynamic ring condition data according to the dynamic ring condition characteristic information;

S105, calculating according to the dynamic ring condition data, the hearing characteristic characterization data of the user and the hearing-aid equipment type parameter data through a preset hearing-aid equipment ring-change excitation model to obtain a hearing-aid equipment ring-change excitation index of the hearing-aid equipment in a preset time period;

s106, processing according to the hearing-aid equipment ring-changing excitation index, the hearing-aid power demand factor and the hearing-aid equipment type parameter data to obtain hearing-aid equipment power regulation response parameters;

and S107, matching and comparing in a preset hearing-aid device function parameter information base according to the hearing-aid device power adjustment response parameters to obtain corresponding hearing-aid device response output parameters, and adjusting the hearing-aid device according to the hearing-aid device response output parameters.

It should be noted that, in order to obtain the intelligent regulation function of the hearing device matched with different user hearing requirements under the influence of environmental change, obtain accurate and quantifiable response regulation effect of the hearing device under the environmental change through big data processing technology, make the hearing device and the user requirements realize accurate adaptation under the state of annular change, firstly obtain hearing requirement information and hearing characteristic information of the user, namely relevant information of hearing requirement and hearing state characteristics of the user, then process and identify through preset user weak hearing characteristic identification database, obtain hearing requirement factors and user weak hearing index numbers corresponding to the user, namely obtain factor and index numbers matched with the user through database identification, then extract hearing characteristic data according to hearing characteristic information of the user and input into preset hearing device function matching database in combination with the user weak hearing index numbers, obtain hearing device corresponding to the user hearing requirement, and hearing device type parameter data, namely by combining characteristic data of the user hearing characteristic data with the user hearing characteristic, namely by means of the user characteristic index numbers in the database, process the acoustic ring-change period, obtain hearing device dynamic state parameters by means of the dynamic state of the hearing device, obtain the dynamic state of the hearing device, and then process the dynamic state of the hearing device is carried out according to obtain the dynamic state of the hearing device, and the dynamic state of the hearing device is combined with the dynamic state of the hearing device, and the dynamic state of the hearing device is obtained by the dynamic state of the hearing device, and the dynamic state of the hearing device is changed, and the hearing device is adjusted by the dynamic state of the hearing device, and matching and comparing the hearing-aid device power-regulation response parameters in a preset hearing-aid device function parameter information base to obtain corresponding hearing-aid device response output parameters, and regulating the hearing-aid device according to the hearing-aid device response output parameters to realize intelligent response of the hearing-aid device performance in combination with the function regulation of the user requirements under the environment condition.

Referring to fig. 2, fig. 2 is a flowchart of a method for obtaining a hearing aid power factor and a user weak hearing index number according to an intelligent response method of a hearing aid device based on environmental condition monitoring in some embodiments of the present application. According to the embodiment of the invention, the hearing aid power requirement factor and the user weak hearing index number corresponding to the user are obtained by processing and identifying the hearing aid power requirement information and the hearing characteristic information through a preset user weak hearing characteristic identification database, specifically:

s201, extracting sub-information of hearing aid power requirement information and hearing characteristic information, wherein the hearing aid power requirement information comprises hearing threshold calibration information, resolution compensation information and weak hearing gain information, and the hearing characteristic information comprises weak hearing distortion information, hearing domain deviation information and resolution imbalance information;

s202, inputting preset user weak hearing characteristic identification databases according to the hearing threshold calibration information, the weak hearing gain information, the hearing domain deviation information and the resolution imbalance information to carry out identification processing, and obtaining hearing aid power factors and user weak hearing index numbers corresponding to the users.

Firstly, obtaining hearing aid requirement condition and weak hearing condition indexes of a user, extracting sub-information including hearing aid requirement hearing threshold deviation calibration, resolution distortion compensation and weak hearing gain enhancement information and hearing characteristic weak hearing distortion, hearing domain deviation and resolution imbalance information by obtaining hearing aid requirement information and hearing characteristic information of the user, inputting the sub-information into a preset user weak hearing characteristic identification database for identification processing to obtain hearing aid requirement factors and user weak hearing index numbers corresponding to the user, wherein the hearing aid requirement factors are factor parameters reflecting hearing aid requirement requirements of the user, the user weak hearing index numbers are indexes for measuring the weak hearing condition of the user, and the user weak hearing characteristic identification database is a database capable of being identified by relevant information of weak hearing characteristics of different users.

Referring to fig. 3, fig. 3 is a flowchart of a method for acquiring hearing assistance device and corresponding hearing assistance device type parameter data according to an intelligent response method of hearing assistance device based on environmental condition monitoring in some embodiments of the present application. According to the embodiment of the invention, the hearing characteristic data is extracted according to the hearing characteristic information of the user, and is input into a preset hearing device function matching database for processing by combining the hearing characteristic data with the user weak hearing index number, so as to obtain hearing devices corresponding to hearing power requirements of the user, and obtain hearing device type parameter data corresponding to the hearing devices, specifically:

s301, extracting hearing characteristic characterization data including weak audibility data, distortion degree data, hearing threshold deviation data and resolution imbalance data according to the hearing characteristic information;

s302, inputting preset hearing aid equipment function matching databases according to the weak hearing degree data, the distortion degree data, the hearing threshold deviation data and the resolution imbalance data and combining the weak hearing index number of the user to process the hearing aid equipment function matching databases to obtain hearing aid equipment corresponding to hearing aid power requirements of the user;

s303, extracting corresponding hearing aid device type parameter data including function regulation data and performance parameter data according to the hearing aid device.

In order to match a hearing device matched with a hearing feature of a user, hearing characteristic characterization data is extracted through hearing characteristic information of the user, the hearing characteristic characterization data is measurement data reflecting the hearing characteristic of the user, the hearing characteristic characterization data is input into a preset hearing device function matching database according to the hearing characteristic characterization data and a weak hearing index number of the user to be processed, the hearing device matched with the hearing function of the user is obtained, the hearing device function matching database is a database used for matching the hearing device according to the hearing characteristics of various users, the hearing device matched with the hearing requirement of the user can be matched, and profile parameter data of the hearing device matched with the user is extracted, wherein the profile parameter data comprises relevant data of function regulation and performance parameters of the hearing device, namely the function regulation and the attribute performance of the hearing device are reflected.

According to the embodiment of the invention, the method comprises the steps of collecting dynamic ring condition characteristic information of the hearing aid device used by the user in a preset time period, and extracting dynamic ring condition data according to the dynamic ring condition characteristic information, wherein the method comprises the following specific steps:

collecting dynamic ring condition characteristic information of the hearing aid equipment used by the user in a preset time period;

and extracting dynamic ring condition data including noise audio data, electromagnetic interference data and working condition temperature change data according to the dynamic ring condition characteristic information.

It should be noted that, after the matched hearing device is obtained according to the hearing requirement and the hearing characteristic of the user, in order to measure the influence condition of the environment variation condition in the use of the hearing device on the use of the hearing device by the user, so as to reflect the measurement degree of the influence of the environment interference on the use of the hearing device by the personalized user, firstly, the dynamic environment condition of the environment in which the user uses the hearing device needs to be clarified, the dynamic ring condition characteristic information of the matched hearing device is acquired by the user in a certain preset time period, and the dynamic data of the environment variation condition is obtained by extracting the dynamic ring condition characteristic information, wherein the data comprises the data of noise audio, electromagnetic interference and working condition temperature variation.

According to the embodiment of the invention, the hearing-aid device ring-change excitation index of the hearing-aid device in a preset time period is obtained by calculating the dynamic ring-condition data, the hearing-aid characteristic characterization data of the user and the hearing-aid device type parameter data through a preset hearing-aid device ring-change excitation model, specifically:

obtaining a dynamic ring condition distortion factor according to the dynamic ring condition data processing;

processing according to the dynamic ring condition distortion factor and the hearing characteristic characterization data of the user to obtain a hearing aid ring disturbance coefficient;

And calculating according to the hearing aid ring disturbance coefficient and the dynamic ring condition distortion factor and combining the hearing aid equipment type parameter data through a preset hearing aid equipment ring-changing excitation model to obtain a hearing aid equipment ring-changing excitation index of the hearing aid equipment in a preset time period.

It should be noted that, in order to measure the ring-changing interference of the environmental condition to the hearing characteristics of the user and the excitation influence degree of the hearing-aid device, firstly, a dynamic ring-changing distortion factor is obtained through processing according to the collected dynamic ring-changing condition data, then the interference degree of the environmental change factor to the hearing characteristics of the user is obtained through processing with the hearing characteristic characterization data of the user, finally, the excitation influence degree of the ring-changing condition to the hearing-aid device in the hearing characteristic interference state of the user is obtained through calculating according to the hearing-aid ring-changing interference coefficient and the dynamic ring-changing distortion factor in combination with hearing-aid device type parameter data through a preset hearing-aid device ring-changing excitation model, and the excitation influence degree of the hearing-aid device ring-changing excitation index of the hearing-aid device in the preset time period is obtained through processing of the calculation method of the model;

the processing calculation formula of the dynamic ring condition distortion factor is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for dynamic ring distortion factor, +. >、/>、/>Noise audio data, electromagnetic interference data and working condition temperature data respectively, < >>For the preset ring condition distortion threshold, +.>、/>、/>Is a preset characteristic coefficient;

the processing calculation formula of the interference coefficient of the hearing aid ring is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid ring interference factor, +.>、/>、/>、/>Respectively weak audibility data, distortion degree data, threshold deviation data, resolution disorder data, +.>For dynamic ring distortion factor, +.>、/>、/>、/>Is a preset characteristic coefficient;

the calculation formula of the hearing aid device ring-transition excitation index is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid device ring-changing excitation index, +.>、/>Respectively the function regulation data and the performance parameter data,for dynamic ring distortion factor, +.>For the hearing aid ring interference factor, +.>、/>For the preset characteristic coefficient, ++>、/>Is a preset parameter.

According to the embodiment of the invention, the hearing-aid device power-tuning response parameters are obtained by processing the hearing-aid device ring-changing excitation index, the hearing-aid power demand factor and the hearing-aid device parameter data, specifically:

combining the hearing aid power factor according to the hearing aid device ring-transition excitation index, and processing the function regulation data and the performance parameter data to obtain a hearing aid device power regulation response parameter;

The program processing formula of the hearing aid power modulation response parameter is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid power-regulating response parameter, +.>For the hearing aid device ring-changing excitation index, +.>、/>Respectively, function regulation data and performance parameter data, < ->Is a hearing aid power factor->、/>Is a preset characteristic coefficient.

After the ring-change excitation index of the hearing-aid device is obtained by the ring-change excitation, the hearing-aid device function regulation response parameters suitable for the ring-change excitation condition are obtained by processing the hearing-aid power requirement factors of the user and the hearing-aid device type parameter data, namely the strain regulation response parameters of the hearing-aid device suitable for the user use requirement under the environment condition change are obtained, so that the intelligent strain response of the hearing-aid device for the function regulation of the hearing-aid device combined with the user requirement under the environment condition change is realized.

According to the embodiment of the invention, the matching comparison is performed in a preset hearing-aid device function parameter information base according to the hearing-aid device power adjustment response parameters to obtain corresponding hearing-aid device response output parameters, and the hearing-aid device is adjusted according to the hearing-aid device response output parameters, specifically:

according to the hearing-aid device power-tuning response parameters, performing comparison query in a preset hearing-aid device function parameter information base to obtain hearing-aid device response output parameters matched with the hearing-aid device;

And performing functional adjustment on the hearing aid equipment according to the corresponding parameter indexes according to the response output parameters of the hearing aid equipment.

Finally, after obtaining the response parameters of the power adjustment of the hearing aid device, comparing and inquiring in a preset hearing aid device function parameter information base according to the response parameters to obtain response output parameters of the hearing aid device matched with the hearing aid device, namely comparing and inquiring the strain output parameters of the hearing aid device corresponding to the response parameters of the power adjustment through the function parameter database, and functionally adjusting the hearing aid device according to corresponding relevant parameter indexes according to the response output parameters of the hearing aid device to realize the strain adjustment response technology of the hearing aid device based on big data under the environment change condition.

As shown in fig. 4, the invention also discloses a hearing device intelligent response system 4 based on environmental condition monitoring, which comprises a memory 41 and a processor 42, wherein the memory comprises a hearing device intelligent response method program based on environmental condition monitoring, and the following steps are realized when the hearing device intelligent response method program based on environmental condition monitoring is executed by the processor:

acquiring hearing aid power requirement information and hearing characteristic information of a user;

Processing and identifying through a preset user weak hearing characteristic identification database according to the hearing aid power requirement information and the hearing characteristic information to obtain hearing aid power requirement factors and user weak hearing index numbers corresponding to the user;

extracting hearing characteristic data according to the hearing characteristic information of the user, inputting the hearing characteristic data into a preset hearing-aid device function matching database in combination with the user weak hearing index number for processing to obtain hearing-aid devices corresponding to hearing-aid power requirements of the user, and obtaining hearing-aid device type parameter data corresponding to the hearing-aid devices;

collecting dynamic ring condition characteristic information of the hearing aid equipment used by the user in a preset time period, and extracting dynamic ring condition data according to the dynamic ring condition characteristic information;

according to the dynamic ring condition data, combining hearing characteristic characterization data of the user and the hearing-aid equipment type parameter data, performing calculation processing through a preset hearing-aid equipment ring-change excitation model to obtain a hearing-aid equipment ring-change excitation index of the hearing-aid equipment in a preset time period;

processing according to the hearing-aid equipment ring-changing excitation index, the hearing-aid power demand factor and the hearing-aid equipment type parameter data to obtain hearing-aid equipment power modulation response parameters;

And matching and comparing the hearing aid device power adjustment response parameters in a preset hearing aid device function parameter adjustment information base to obtain corresponding hearing aid device response output parameters, and adjusting the hearing aid device according to the hearing aid device response output parameters.

It should be noted that, in order to obtain the intelligent regulation function of the hearing device matched with different user hearing requirements under the influence of environmental change, obtain accurate and quantifiable response regulation effect of the hearing device under the environmental change through big data processing technology, make the hearing device and the user requirements realize accurate adaptation under the state of annular change, firstly obtain hearing requirement information and hearing characteristic information of the user, namely relevant information of hearing requirement and hearing state characteristics of the user, then process and identify through preset user weak hearing characteristic identification database, obtain hearing requirement factors and user weak hearing index numbers corresponding to the user, namely obtain factor and index numbers matched with the user through database identification, then extract hearing characteristic data according to hearing characteristic information of the user and input into preset hearing device function matching database in combination with the user weak hearing index numbers, obtain hearing device corresponding to the user hearing requirement, and hearing device type parameter data, namely by combining characteristic data of the user hearing characteristic data with the user hearing characteristic, namely by means of the user characteristic index numbers in the database, process the acoustic ring-change period, obtain hearing device dynamic state parameters by means of the dynamic state of the hearing device, obtain the dynamic state of the hearing device, and then process the dynamic state of the hearing device is carried out according to obtain the dynamic state of the hearing device, and the dynamic state of the hearing device is combined with the dynamic state of the hearing device, and the dynamic state of the hearing device is obtained by the dynamic state of the hearing device, and the dynamic state of the hearing device is changed, and the hearing device is adjusted by the dynamic state of the hearing device, and matching and comparing the hearing-aid device power-regulation response parameters in a preset hearing-aid device function parameter information base to obtain corresponding hearing-aid device response output parameters, and regulating the hearing-aid device according to the hearing-aid device response output parameters to realize intelligent response of the hearing-aid device performance in combination with the function regulation of the user requirements under the environment condition.

According to the embodiment of the invention, the hearing aid power requirement factor and the user weak hearing index number corresponding to the user are obtained by processing and identifying the hearing aid power requirement information and the hearing characteristic information through a preset user weak hearing characteristic identification database, specifically:

extracting sub-information of hearing aid power requirement information and hearing characteristic information, wherein the hearing aid power requirement information comprises hearing threshold calibration information, resolution compensation information and weak hearing gain information, and the hearing characteristic information comprises weak hearing distortion information, hearing domain deviation information and resolution imbalance information;

and inputting the hearing threshold calibration information, the weak hearing gain information, the hearing domain deviation information and the resolution imbalance information into a preset user weak hearing characteristic identification database for identification processing to obtain hearing aid power factors and user weak hearing index numbers corresponding to the users.

Firstly, obtaining hearing aid requirement condition and weak hearing condition indexes of a user, extracting sub-information including hearing aid requirement hearing threshold deviation calibration, resolution distortion compensation and weak hearing gain enhancement information and hearing characteristic weak hearing distortion, hearing domain deviation and resolution imbalance information by obtaining hearing aid requirement information and hearing characteristic information of the user, inputting the sub-information into a preset user weak hearing characteristic identification database for identification processing to obtain hearing aid requirement factors and user weak hearing index numbers corresponding to the user, wherein the hearing aid requirement factors are factor parameters reflecting hearing aid requirement requirements of the user, the user weak hearing index numbers are indexes for measuring the weak hearing condition of the user, and the user weak hearing characteristic identification database is a database capable of being identified by relevant information of weak hearing characteristics of different users.

According to the embodiment of the invention, the hearing characteristic data is extracted according to the hearing characteristic information of the user, and is input into a preset hearing device function matching database for processing by combining the hearing characteristic data with the user weak hearing index number, so as to obtain hearing devices corresponding to hearing power requirements of the user, and obtain hearing device type parameter data corresponding to the hearing devices, specifically:

extracting hearing characteristic characterization data including weak audibility data, distortion data, threshold deviation data and resolution imbalance data according to the hearing characteristic information;

inputting the weak hearing degree data, distortion degree data, hearing threshold deviation data and resolution imbalance data into a preset hearing aid device function matching database in combination with the weak hearing index number of the user for processing to obtain hearing aid devices corresponding to hearing aid power requirements of the user;

and extracting corresponding hearing aid device type parameter data including function regulation data and performance parameter data according to the hearing aid device.

In order to match a hearing device matched with a hearing feature of a user, hearing characteristic characterization data is extracted through hearing characteristic information of the user, the hearing characteristic characterization data is measurement data reflecting the hearing characteristic of the user, the hearing characteristic characterization data is input into a preset hearing device function matching database according to the hearing characteristic characterization data and a weak hearing index number of the user to be processed, the hearing device matched with the hearing function of the user is obtained, the hearing device function matching database is a database used for matching the hearing device according to the hearing characteristics of various users, the hearing device matched with the hearing requirement of the user can be matched, and profile parameter data of the hearing device matched with the user is extracted, wherein the profile parameter data comprises relevant data of function regulation and performance parameters of the hearing device, namely the function regulation and the attribute performance of the hearing device are reflected.

According to the embodiment of the invention, the method comprises the steps of collecting dynamic ring condition characteristic information of the hearing aid device used by the user in a preset time period, and extracting dynamic ring condition data according to the dynamic ring condition characteristic information, wherein the method comprises the following specific steps:

collecting dynamic ring condition characteristic information of the hearing aid equipment used by the user in a preset time period;

and extracting dynamic ring condition data including noise audio data, electromagnetic interference data and working condition temperature change data according to the dynamic ring condition characteristic information.

It should be noted that, after the matched hearing device is obtained according to the hearing requirement and the hearing characteristic of the user, in order to measure the influence condition of the environment variation condition in the use of the hearing device on the use of the hearing device by the user, so as to reflect the measurement degree of the influence of the environment interference on the use of the hearing device by the personalized user, firstly, the dynamic environment condition of the environment in which the user uses the hearing device needs to be clarified, the dynamic ring condition characteristic information of the matched hearing device is acquired by the user in a certain preset time period, and the dynamic data of the environment variation condition is obtained by extracting the dynamic ring condition characteristic information, wherein the data comprises the data of noise audio, electromagnetic interference and working condition temperature variation.

According to the embodiment of the invention, the hearing-aid device ring-change excitation index of the hearing-aid device in a preset time period is obtained by calculating the dynamic ring-condition data, the hearing-aid characteristic characterization data of the user and the hearing-aid device type parameter data through a preset hearing-aid device ring-change excitation model, specifically:

obtaining a dynamic ring condition distortion factor according to the dynamic ring condition data processing;

processing according to the dynamic ring condition distortion factor and the hearing characteristic characterization data of the user to obtain a hearing aid ring disturbance coefficient;

and calculating according to the hearing aid ring disturbance coefficient and the dynamic ring condition distortion factor and combining the hearing aid equipment type parameter data through a preset hearing aid equipment ring-changing excitation model to obtain a hearing aid equipment ring-changing excitation index of the hearing aid equipment in a preset time period.

It should be noted that, in order to measure the ring-changing interference of the environmental condition to the hearing characteristics of the user and the excitation influence degree of the hearing-aid device, firstly, a dynamic ring-changing distortion factor is obtained through processing according to the collected dynamic ring-changing condition data, then the interference degree of the environmental change factor to the hearing characteristics of the user is obtained through processing with the hearing characteristic characterization data of the user, finally, the excitation influence degree of the ring-changing condition to the hearing-aid device in the hearing characteristic interference state of the user is obtained through calculating according to the hearing-aid ring-changing interference coefficient and the dynamic ring-changing distortion factor in combination with hearing-aid device type parameter data through a preset hearing-aid device ring-changing excitation model, and the excitation influence degree of the hearing-aid device ring-changing excitation index of the hearing-aid device in the preset time period is obtained through processing of the calculation method of the model;

The processing calculation formula of the dynamic ring condition distortion factor is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for dynamic ring distortion factor, +.>、/>、/>Noise audio data, electromagnetic interference data and working condition temperature data respectively, < >>For the preset ring condition distortion threshold, +.>、/>、/>Is a preset characteristic coefficient;

the processing calculation formula of the interference coefficient of the hearing aid ring is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid ring interference factor, +.>、/>、/>、/>Respectively weak audibility data, distortion degree data, threshold deviation data, resolution disorder data, +.>For dynamic ring distortion factor, +.>、/>、/>、/>Is a preset characteristic coefficient;

the calculation formula of the hearing aid device ring-transition excitation index is as follows:

；/>

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid device ring-changing excitation index, +.>、/>Respectively, function regulation data and performance parameter data, < ->For dynamic ring distortion factor, +.>For the hearing aid ring interference factor, +.>、/>For the preset characteristic coefficient, ++>、/>Is a preset parameter.

According to the embodiment of the invention, the hearing-aid device power-tuning response parameters are obtained by processing the hearing-aid device ring-changing excitation index, the hearing-aid power demand factor and the hearing-aid device parameter data, specifically:

combining the hearing aid power factor according to the hearing aid device ring-transition excitation index, and processing the function regulation data and the performance parameter data to obtain a hearing aid device power regulation response parameter;

The program processing formula of the hearing aid power modulation response parameter is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid power-regulating response parameter, +.>For the hearing aid device ring-changing excitation index, +.>、/>Respectively, function regulation data and performance parameter data, < ->Is a hearing aid power factor->、/>Is a preset characteristic coefficient.

After the ring-change excitation index of the hearing-aid device is obtained by the ring-change excitation, the hearing-aid device function regulation response parameters suitable for the ring-change excitation condition are obtained by processing the hearing-aid power requirement factors of the user and the hearing-aid device type parameter data, namely the strain regulation response parameters of the hearing-aid device suitable for the user use requirement under the environment condition change are obtained, so that the intelligent strain response of the hearing-aid device for the function regulation of the hearing-aid device combined with the user requirement under the environment condition change is realized.

According to the embodiment of the invention, the matching comparison is performed in a preset hearing-aid device function parameter information base according to the hearing-aid device power adjustment response parameters to obtain corresponding hearing-aid device response output parameters, and the hearing-aid device is adjusted according to the hearing-aid device response output parameters, specifically:

according to the hearing-aid device power-tuning response parameters, performing comparison query in a preset hearing-aid device function parameter information base to obtain hearing-aid device response output parameters matched with the hearing-aid device;

And performing functional adjustment on the hearing aid equipment according to the corresponding parameter indexes according to the response output parameters of the hearing aid equipment.

Finally, after obtaining the response parameters of the power adjustment of the hearing aid device, comparing and inquiring in a preset hearing aid device function parameter information base according to the response parameters to obtain response output parameters of the hearing aid device matched with the hearing aid device, namely comparing and inquiring the strain output parameters of the hearing aid device corresponding to the response parameters of the power adjustment through the function parameter database, and functionally adjusting the hearing aid device according to corresponding relevant parameter indexes according to the response output parameters of the hearing aid device to realize the strain adjustment response technology of the hearing aid device based on big data under the environment change condition.

A third aspect of the present invention provides a readable storage medium, where the readable storage medium includes a hearing device intelligent response method program based on environmental state monitoring, where the method program based on environmental state monitoring implements the steps of the hearing device intelligent response method based on environmental state monitoring as described in any one of the above.

The invention discloses an intelligent response method, system and medium of hearing-aid equipment based on environmental condition monitoring, which are characterized in that hearing-aid power factor and user weak hearing index number are obtained by identifying hearing-aid power information and hearing characteristic information of a user, hearing-aid equipment and hearing-aid equipment type parameter data of hearing-aid power requirements are obtained by extracting hearing characteristic characterization data according to the hearing characteristic information of the user and matching the hearing characteristic characterization data with the hearing characteristic information of the user, dynamic ring condition data is extracted according to the dynamic ring condition characteristic information of the hearing-aid equipment, then hearing-aid equipment ring-change excitation index is obtained by processing the hearing characteristic characterization data and the hearing-aid equipment type parameter data through a preset hearing-aid equipment ring-change excitation model, hearing-aid equipment power-change response parameters are obtained according to the hearing-aid equipment ring-change excitation index, hearing-aid power factor and hearing-aid equipment type parameter data, and response output parameters are obtained by matching in a hearing-aid equipment function parameter adjustment information base; based on big data, relevant information of the hearing-aid equipment is obtained and matched, environmental dynamic influence information is combined to carry out annular interference excitation evaluation, and demand parameters of the hearing-aid equipment for functional regulation response of the hearing-aid equipment under the annular influence of the user hearing condition are obtained, so that corresponding regulation index parameters are obtained, and the strain response of the hearing-aid equipment performance and the functional regulation of the user demand under the environmental condition is realized.

In the several embodiments provided in this application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above described device embodiments are only illustrative, e.g. the division of the units is only one logical function division, and there may be other divisions in practice, such as: multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed. In addition, the various components shown or discussed may be coupled or directly coupled or communicatively coupled to each other via some interface, whether indirectly coupled or communicatively coupled to devices or units, whether electrically, mechanically, or otherwise.

The units described above as separate components may or may not be physically separate, and components shown as units may or may not be physical units; can be located in one place or distributed to a plurality of network units; some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present invention may be integrated in one processing unit, or each unit may be separately used as one unit, or two or more units may be integrated in one unit; the integrated units may be implemented in hardware or in hardware plus software functional units.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the above method embodiments may be implemented by hardware related to program instructions, and the foregoing program may be stored in a readable storage medium, where the program, when executed, performs steps including the above method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk or an optical disk, or the like, which can store program codes.

Alternatively, the above-described integrated units of the present invention may be stored in a readable storage medium if implemented in the form of software functional modules and sold or used as separate products. Based on such understanding, the technical solution of the embodiments of the present invention may be embodied in essence or a part contributing to the prior art in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, ROM, RAM, magnetic or optical disk, or other medium capable of storing program code.

Claims (4)

1. The intelligent hearing-aid equipment response method based on environment state monitoring is characterized by comprising the following steps of:

acquiring hearing aid power requirement information and hearing characteristic information of a user;

processing and identifying through a preset user weak hearing characteristic identification database according to the hearing aid power requirement information and the hearing characteristic information to obtain hearing aid power requirement factors and user weak hearing index numbers corresponding to the user;

extracting hearing characteristic data according to the hearing characteristic information of the user, inputting the hearing characteristic data into a preset hearing-aid device function matching database in combination with the user weak hearing index number for processing to obtain hearing-aid devices corresponding to hearing-aid power requirements of the user, and obtaining hearing-aid device type parameter data corresponding to the hearing-aid devices;

collecting dynamic ring condition characteristic information of the hearing aid equipment used by the user in a preset time period, and extracting dynamic ring condition data according to the dynamic ring condition characteristic information;

according to the dynamic ring condition data, combining hearing characteristic characterization data of the user and the hearing-aid equipment type parameter data, performing calculation processing through a preset hearing-aid equipment ring-change excitation model to obtain a hearing-aid equipment ring-change excitation index of the hearing-aid equipment in a preset time period;

Processing according to the hearing-aid equipment ring-changing excitation index, the hearing-aid power demand factor and the hearing-aid equipment type parameter data to obtain hearing-aid equipment power modulation response parameters;

matching and comparing in a preset hearing-aid device function parameter information base according to the hearing-aid device power adjustment response parameters to obtain corresponding hearing-aid device response output parameters, and adjusting the hearing-aid device according to the hearing-aid device response output parameters;

processing and identifying the hearing-aid power requirement information and the hearing characteristic information through a preset user weak hearing characteristic identification database to obtain hearing-aid power requirement factors and user weak hearing index numbers corresponding to the user, wherein the processing and identifying comprises the following steps:

extracting sub-information of hearing aid power requirement information and hearing characteristic information, wherein the hearing aid power requirement information comprises hearing threshold calibration information, resolution compensation information and weak hearing gain information, and the hearing characteristic information comprises weak hearing distortion information, hearing threshold deviation information and resolution imbalance information;

inputting preset user weak hearing characteristic identification databases according to the hearing threshold calibration information, the weak hearing gain information, the hearing threshold deviation information and the resolution imbalance information to carry out identification processing, and obtaining hearing aid power requirement factors and user weak hearing index numbers corresponding to the users;

The extracting hearing characteristic characterization data according to the hearing characteristic information of the user, and inputting the hearing characteristic characterization data into a preset hearing-aid device function matching database in combination with the user weak hearing index number for processing to obtain hearing-aid devices corresponding to hearing-aid power requirements of the user, and obtaining hearing-aid device type parameter data corresponding to the hearing-aid devices, including:

extracting hearing characteristic characterization data including weak audibility data, distortion data, threshold deviation data and resolution imbalance data according to the hearing characteristic information;

inputting the weak hearing degree data, distortion degree data, hearing threshold deviation data and resolution imbalance data into a preset hearing aid device function matching database in combination with the weak hearing index number of the user for processing to obtain hearing aid devices corresponding to hearing aid power requirements of the user;

extracting corresponding hearing aid device type parameter data including function regulation data and performance parameter data according to the hearing aid device;

the collecting the dynamic ring condition characteristic information of the hearing-aid device used by the user in a preset time period, and extracting dynamic ring condition data according to the dynamic ring condition characteristic information comprises the following steps:

collecting dynamic ring condition characteristic information of the hearing aid equipment used by the user in a preset time period;

Extracting dynamic ring condition data including noise audio data, electromagnetic interference data and working condition temperature variable data according to the dynamic ring condition characteristic information;

the calculating process is performed according to the dynamic ring condition data in combination with the hearing characteristic characterization data of the user and the hearing-aid device parameter data through a preset hearing-aid device ring-change excitation model, so as to obtain a hearing-aid device ring-change excitation index of the hearing-aid device in a preset time period, including:

obtaining a dynamic ring condition distortion factor according to the dynamic ring condition data processing;

processing according to the dynamic ring condition distortion factor and the hearing characteristic characterization data of the user to obtain a hearing aid ring disturbance coefficient;

calculating according to the hearing aid ring disturbance coefficient and the dynamic ring distortion factor in combination with the hearing aid equipment type parameter data through a preset hearing aid equipment ring-changing excitation model to obtain a hearing aid equipment ring-changing excitation index of the hearing aid equipment in a preset time period;

the processing calculation formula of the dynamic ring condition distortion factor is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for dynamic ring distortion factor, +.>、/>、/>Noise audio data, electromagnetic interference data and working condition temperature data respectively, < > >For the preset ring condition distortion threshold, +.>、/>、/>Is a preset characteristic coefficient;

the processing calculation formula of the interference coefficient of the hearing aid ring is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid ring interference factor, +.>、/>、/>、/>Respectively weak audibility data, distortion degree data, threshold deviation data, resolution disorder data, +.>For dynamic ring distortion factor, +.>、/>、/>、/>Is a preset characteristic coefficient;

the calculation formula of the hearing aid device ring-transition excitation index is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid device ring-changing excitation index, +.>、/>Respectively, function regulation data and performance parameter data, < ->For dynamic ring distortion factor, +.>For the hearing aid ring interference factor, +.>、/>For the preset characteristic coefficient, ++>、/>Is a preset parameter;

the processing is performed according to the hearing-aid device ring-changing excitation index, the hearing-aid power demand factor and the hearing-aid device type parameter data to obtain hearing-aid device power modulation response parameters, and the processing comprises the following steps:

combining the hearing aid power factor according to the hearing aid device ring-transition excitation index, and processing the function regulation data and the performance parameter data to obtain a hearing aid device power regulation response parameter;

the program processing formula of the hearing aid power modulation response parameter is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,work for hearing aid devicesTuning response parameters- >For the hearing aid device ring-changing excitation index, +.>、/>Respectively, function regulation data and performance parameter data, < ->Is a hearing aid power factor->、/>Is a preset characteristic coefficient.

2. The intelligent response method of hearing-aid device based on environmental condition monitoring according to claim 1, wherein the matching and comparing the hearing-aid device power modulation response parameters in a preset hearing-aid device function parameter information base to obtain corresponding hearing-aid device response output parameters, and adjusting the hearing-aid device according to the hearing-aid device response output parameters comprises:

according to the hearing-aid device power-tuning response parameters, performing comparison query in a preset hearing-aid device function parameter information base to obtain hearing-aid device response output parameters matched with the hearing-aid device;

and performing functional adjustment on the hearing aid equipment according to the corresponding parameter indexes according to the response output parameters of the hearing aid equipment.

3. Hearing-aid device intelligent response system based on environmental condition monitoring, which is characterized by comprising: the hearing aid device intelligent response method based on the environment state monitoring comprises a memory and a processor, wherein the memory comprises a program of the hearing aid device intelligent response method based on the environment state monitoring, and the following steps are realized when the program of the hearing aid device intelligent response method based on the environment state monitoring is executed by the processor:

Acquiring hearing aid power requirement information and hearing characteristic information of a user;

processing and identifying through a preset user weak hearing characteristic identification database according to the hearing aid power requirement information and the hearing characteristic information to obtain hearing aid power requirement factors and user weak hearing index numbers corresponding to the user;

extracting hearing characteristic data according to the hearing characteristic information of the user, inputting the hearing characteristic data into a preset hearing-aid device function matching database in combination with the user weak hearing index number for processing to obtain hearing-aid devices corresponding to hearing-aid power requirements of the user, and obtaining hearing-aid device type parameter data corresponding to the hearing-aid devices;

collecting dynamic ring condition characteristic information of the hearing aid equipment used by the user in a preset time period, and extracting dynamic ring condition data according to the dynamic ring condition characteristic information;

according to the dynamic ring condition data, combining hearing characteristic characterization data of the user and the hearing-aid equipment type parameter data, performing calculation processing through a preset hearing-aid equipment ring-change excitation model to obtain a hearing-aid equipment ring-change excitation index of the hearing-aid equipment in a preset time period;

processing according to the hearing-aid equipment ring-changing excitation index, the hearing-aid power demand factor and the hearing-aid equipment type parameter data to obtain hearing-aid equipment power modulation response parameters;

Matching and comparing in a preset hearing-aid device function parameter information base according to the hearing-aid device power adjustment response parameters to obtain corresponding hearing-aid device response output parameters, and adjusting the hearing-aid device according to the hearing-aid device response output parameters;

processing and identifying the hearing-aid power requirement information and the hearing characteristic information through a preset user weak hearing characteristic identification database to obtain hearing-aid power requirement factors and user weak hearing index numbers corresponding to the user, wherein the processing and identifying comprises the following steps:

extracting sub-information of hearing aid power requirement information and hearing characteristic information, wherein the hearing aid power requirement information comprises hearing threshold calibration information, resolution compensation information and weak hearing gain information, and the hearing characteristic information comprises weak hearing distortion information, hearing threshold deviation information and resolution imbalance information;

inputting preset user weak hearing characteristic identification databases according to the hearing threshold calibration information, the weak hearing gain information, the hearing threshold deviation information and the resolution imbalance information to carry out identification processing, and obtaining hearing aid power requirement factors and user weak hearing index numbers corresponding to the users;

the extracting hearing characteristic characterization data according to the hearing characteristic information of the user, and inputting the hearing characteristic characterization data into a preset hearing-aid device function matching database in combination with the user weak hearing index number for processing to obtain hearing-aid devices corresponding to hearing-aid power requirements of the user, and obtaining hearing-aid device type parameter data corresponding to the hearing-aid devices, including:

Extracting hearing characteristic characterization data including weak audibility data, distortion data, threshold deviation data and resolution imbalance data according to the hearing characteristic information;

inputting the weak hearing degree data, distortion degree data, hearing threshold deviation data and resolution imbalance data into a preset hearing aid device function matching database in combination with the weak hearing index number of the user for processing to obtain hearing aid devices corresponding to hearing aid power requirements of the user;

extracting corresponding hearing aid device type parameter data including function regulation data and performance parameter data according to the hearing aid device;

the collecting the dynamic ring condition characteristic information of the hearing-aid device used by the user in a preset time period, and extracting dynamic ring condition data according to the dynamic ring condition characteristic information comprises the following steps:

collecting dynamic ring condition characteristic information of the hearing aid equipment used by the user in a preset time period;

extracting dynamic ring condition data including noise audio data, electromagnetic interference data and working condition temperature variable data according to the dynamic ring condition characteristic information;

the calculating process is performed according to the dynamic ring condition data in combination with the hearing characteristic characterization data of the user and the hearing-aid device parameter data through a preset hearing-aid device ring-change excitation model, so as to obtain a hearing-aid device ring-change excitation index of the hearing-aid device in a preset time period, including:

Obtaining a dynamic ring condition distortion factor according to the dynamic ring condition data processing;

processing according to the dynamic ring condition distortion factor and the hearing characteristic characterization data of the user to obtain a hearing aid ring disturbance coefficient;

calculating according to the hearing aid ring disturbance coefficient and the dynamic ring distortion factor in combination with the hearing aid equipment type parameter data through a preset hearing aid equipment ring-changing excitation model to obtain a hearing aid equipment ring-changing excitation index of the hearing aid equipment in a preset time period;

the processing calculation formula of the dynamic ring condition distortion factor is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for dynamic ring distortion factor, +.>、/>、/>Noise audio data, electromagnetic interference data and working condition temperature data respectively, < >>For the preset ring condition distortion threshold, +.>、/>、/>Is a preset characteristic coefficient;

the processing calculation formula of the interference coefficient of the hearing aid ring is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid ring interference factor, +.>、/>、/>、/>Respectively weak audibility data, distortion degree data, threshold deviation data, resolution disorder data, +.>For dynamic ring distortion factor, +.>、/>、/>、/>Is a preset characteristic coefficient;

the calculation formula of the hearing aid device ring-transition excitation index is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid device ring-changing excitation index, +. >、/>Respectively, function regulation data and performance parameter data, < ->For dynamic ring distortion factor, +.>For the hearing aid ring interference factor, +.>、/>For the preset characteristic coefficient, ++>、/>Is a preset parameter;

the processing is performed according to the hearing-aid device ring-changing excitation index, the hearing-aid power demand factor and the hearing-aid device type parameter data to obtain hearing-aid device power modulation response parameters, and the processing comprises the following steps:

combining the hearing aid power factor according to the hearing aid device ring-transition excitation index, and processing the function regulation data and the performance parameter data to obtain a hearing aid device power regulation response parameter;

the program processing formula of the hearing aid power modulation response parameter is as follows:

；

wherein, the liquid crystal display device comprises a liquid crystal display device,for the hearing aid power-regulating response parameter, +.>For the hearing aid device ring-changing excitation index, +.>、/>Respectively, function regulation data and performance parameter data, < ->Is a hearing aid power factor->、/>Is a preset characteristic coefficient.

4. A computer readable storage medium, wherein the computer readable storage medium includes a hearing device intelligent response method program based on environmental condition monitoring, and the hearing device intelligent response method program based on environmental condition monitoring realizes the steps of the hearing device intelligent response method based on environmental condition monitoring according to any one of claims 1 to 2 when being executed by a processor.