CN113616197B - Comprehensive evaluation processing method and system for double-sided listening - Google Patents

Abstract

The invention discloses a comprehensive evaluation processing method and system for double-sided listening, wherein the method comprises the following steps: receiving a double-sided listening evaluation request sent by a terminal, wherein the evaluation request comprises user information and hearing aid equipment use data; analyzing the user information and the hearing aid equipment use data to obtain corresponding input parameters; calling a database according to the input parameters to generate a data acquisition requirement corresponding to the evaluation request, and sending the data acquisition requirement to the terminal; receiving acquisition data uploaded by a terminal; and generating an evaluation report according to the score statistics of the two-sided listening of the acquired data and sending the evaluation report to the terminal. The system can be applied to data acquisition comprehensive evaluation processing in other fields by replacing the question bank of the database, and has good applicability.

Description

Comprehensive evaluation processing method and system for double-sided listening

Technical Field

The invention relates to the technical field of computers, in particular to a double-sided listening comprehensive evaluation processing method and system.

Background

At present, more and more people with hearing impairment have inconsistent partial bilateral hearing, so that the problem of bilateral hearing can be found in time, and the hearing loss of the opposite side ear can be prevented. The advantages of binaural hearing over monaural hearing are reflected in the processing of sound signals by bilateral listening, which is based on the analysis of information provided by brainstem nuclei for the difference of signals of both ears, thus producing a perception of the sound world. This is because binaural hearing has a binaural sum effect (binaural loudness summation), a head shadow effect (head shadow effect), and a binaural squelch effect (binaural release from masking or binaural squelch). The binaural integration effect means that when the same sound signal arrives at both ears at the same time, the size of the input signal is doubled after central integration, the sensitivity of human ears can be improved, the effect is essentially superposition of intensity, and compared with single ears, the hearing threshold is improved by at least 3dB; after loss of binaural integration effect, speech intelligibility of monaural hearing is also reduced by about 2-3dB over binaural. The head shadow effect is essentially a diffraction of sound waves by the skull, and the affected side ear receives the sound waves by bypassing the head to reach the healthy side, causing the sound to attenuate, thereby reducing speech recognition. The head shadow effect causes the acoustic signal arriving at both ears to change in signal-to-noise ratio. In the absence of this effect, speech recognition becomes significantly worse at stimulus sound intensities near the threshold. Binaural squelch is an effect that is selectively presented to the central system through analysis integration by the auditory system after simultaneous input of acoustic signals of different signal-to-noise ratios to both ears. Investigation of the condition of binaural hearing of a patient facilitates clinically hearing assisted intervention debugging. At present, an effective auxiliary intervention and debugging means is lacked, a great deal of time is spent, and the efficiency is low. Meanwhile, the clinical lack is effective hearing intervention basis for infants who cannot be matched with the test.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a double-sided listening comprehensive evaluation processing method and system.

In order to achieve the above object, the present invention provides a dual-sided listening comprehensive evaluation processing method, the method comprising:

receiving a double-sided listening evaluation request sent by a terminal, wherein the evaluation request comprises user information and hearing aid equipment use data;

analyzing the user information and the hearing aid equipment use data to obtain corresponding input parameters;

calling a database according to the input parameters to generate a data acquisition requirement corresponding to the evaluation request, and sending the data acquisition requirement to the terminal;

receiving acquisition data uploaded by a terminal;

and generating an evaluation report according to the score statistics of the two-sided listening of the acquired data and sending the evaluation report to the terminal.

As an improvement of the above method, the evaluation request includes user information and hearing aid device usage data; the method comprises the following steps:

the user information includes a user name, gender, date of birth, or age;

the hearing assistance device usage data includes: whether the left ear uses hearing aid equipment, a hearing aid equipment brand, a hearing aid equipment start-up time and a specific wearing frequency, and whether the right ear uses hearing aid equipment, a hearing aid equipment brand, a hearing aid equipment start-up time and a specific wearing frequency.

As an improvement of the method, the database is called according to the input parameters to generate a data acquisition requirement corresponding to the evaluation request, and the data acquisition requirement is sent to the terminal; the method specifically comprises the following steps:

distinguishing according to age items of input parameters, extracting 5 topics from a binaural balance sub-library of a database, extracting 4 topics from a quiet environment speech recognition sub-library, extracting 6 topics from a spatial hearing sub-library, and extracting 5 topics from a noise listening sub-library when the age is greater than 12; providing 5 options according to different degrees for each topic, thereby generating a data acquisition requirement of 20 topics and sending the data acquisition requirement to a terminal; when the age is less than or equal to 12, extracting 5 topics from a binaural balance sub-library of the database, extracting 5 topics from a spatial hearing sub-library, and providing 5 options for each topic according to different degrees, thereby generating a data acquisition requirement of 10 topics and sending the data acquisition requirement to the terminal.

As an improvement of the method, the data acquisition requirement further comprises an additional requirement, and the corresponding question generation is extracted from the additional sub-library of the database according to the evaluation request.

As an improvement of the method, the scoring statistics of double-sided listening is performed according to the collected data, and an evaluation report is generated and sent to the terminal; the method specifically comprises the following steps:

respectively calculating the score condition of each question according to the acquired data, and according to the corresponding score of the answer condition, dividing the score from 1 to 5;

respectively counting scoring conditions of four dimensions of binaural balance, quiet environment speech recognition, spatial hearing and noise listening for collected data of 20 topics; the scores of the four dimensions are weighted and summed according to a preset group weighting coefficient over 12 years old to obtain a total score;

respectively counting scoring conditions of two dimensions of binaural balance and spatial hearing for acquired data of 10 topics; the scores of the two dimensions are weighted and summed according to a preset weighting coefficient group under 12 years old to obtain a total score;

generating an evaluation report and sending the evaluation report to a terminal; the assessment report includes a score case and a total score for each dimension.

As an improvement of the above method, the evaluation report further includes: and searching a historical evaluation report of the user from a database according to the evaluation request, performing score comparison, and giving a comparison result of the double-sided listening ability of the user.

A dual-sided listening integrated assessment processing system, the system comprising: the system comprises an evaluation request sending module, an analysis module, a data acquisition generating module, an acquisition data receiving module and an evaluation report generating module; wherein,

the evaluation request sending module is used for receiving a double-sided listening evaluation request sent by the terminal, wherein the evaluation request comprises user information and hearing aid equipment use data;

the analysis module is used for analyzing the user information and the hearing aid equipment use data to obtain corresponding input parameters;

the data acquisition generation module is used for calling the database according to the input parameters to generate data acquisition requirements corresponding to the evaluation request and sending the data acquisition requirements to the terminal;

the acquisition data receiving module is used for receiving acquisition data uploaded by the terminal;

and the evaluation report generation module is used for carrying out scoring statistics of bilateral listening according to the acquired data, generating an evaluation report and sending the evaluation report to the terminal.

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the above method when executing the computer program.

A computer readable storage medium storing a computer program which, when executed by a processor, causes the processor to perform the method described above.

Compared with the prior art, the invention has the advantages that:

1. according to the method, according to the basic information of the to-be-tested person, the relevant questions in four dimensions of binaural balance, quiet environment speech recognition, space hearing and noise listening are extracted from a pre-constructed database, so that the data acquisition requirement is automatically generated, and the efficiency of screening work is greatly improved;

2. according to the method, different acquisition requirements for the age below 12 years old and the age above 12 years old can be automatically generated according to the age of the to-be-tested person;

3. according to the method, automatic interpretation is carried out according to the data acquired by the to-be-tested person, four dimensions of binaural balance, quiet environment speech recognition, space hearing and noise listening are judged, historical data of the to-be-tested person can be combined, and the development or degradation condition of the binaural hearing ability of the to-be-tested person can be analyzed in detail; not only can the evaluation report be generated, but also a historical analysis report can be generated, so that the automation level is improved;

4. the evaluation report obtained by the method of the invention is subjected to sample analysis, so that data can be provided for doctors to conduct large-area or regional hearing etiology investigation;

5. the system can be applied to data acquisition comprehensive evaluation processing in other fields by replacing the question bank of the database, and has good applicability.

Drawings

Fig. 1 is a process flow diagram of a dual-sided listening integrated assessment process method of the present invention.

Detailed Description

The technical scheme of the invention is described in detail below with reference to the accompanying drawings and examples.

Example 1

As shown in fig. 1, embodiment 1 of the present invention provides a dual-sided listening comprehensive evaluation process, the method comprising:

step 1) receiving a double-sided listening evaluation request sent by a terminal, wherein the evaluation request comprises user information and hearing aid equipment use data;

the user information includes: name, gender, date of birth, phone.

The hearing assistance device usage data includes: left and right ear statistics:

left/right ear hearing aid devices, cochlear implants, hearing aids, none or others; the brand of hearing aid equipment and the starting time; whether the hearing aid device is worn continuously every day, and not worn for a period of time; and (3) selecting and filling: whether or not to use the two-sided device interworking technique.

Step 2) analyzing the user information and the hearing aid equipment use data to obtain corresponding input parameters;

step 3) according to the input parameters, the age of the user is more than 12 years old, a database is called to generate a data acquisition requirement corresponding to the evaluation request, and the data acquisition requirement is sent to the terminal; the acquisition requirement of the present embodiment is in the form of a questionnaire, but is not limited thereto.

Double-sided listen to quality of life survey (Questionnaire of Quality of Life for Bilateral Hearing Effect, QLBHE) subject questionnaire: 20 topics, divided into four dimensions: binaural balance (B), quiet ambient speech recognition (Q), spatial hearing (S), noise listening (N).

Binaural balance (Bilateral balance): letter B indicates a total of 5 questions and a full score of 25 minutes.

Quiet ambient speech recognition (Speech discrimination in quiet): letter Q indicates a total of 4 questions and a full score of 20 minutes.

Spatial hearing (Spatial listening): letter S indicates 6 questions, and is divided into 30 minutes.

Noise listening (noise): letter N indicates a total of 5 questions and a full score of 25 minutes.

Table 1 bilateral listening questionnaire example over 12 years old

Illustrating:

a) Binaural balance (B) type problem: you feel at times when listening bilaterally whether or not two sounds are different (e.g., one distorted (like a robot speaking), one natural

Options: the ∈s are identical (0%) ∈s are slightly different (25%) ∈s are different (50%) ∈s are very different (75%) ∈s are completely different (100%)

b) Quiet environment speech recognition (Q) problem:

in a quiet environment, do you hear a brief whisper without looking at the expression of the other party?

You prefer to hear a small and light sound with which side: left side/≡right side

Options: the method is characterized in that the method is not understood at all (0%) and the method is rarely understood (25%) and half of the method is understood (50%) and most of the method is understood (75%) (100%)

c) Spatial hearing (S) type problem:

you can hear continuous loud noise such as road construction, car whistle or blasting, but cannot see the sound source in an unfamiliar outdoor location. Do you immediately say where does you come from? (ambient Sound discrimination direction)

Options: occasionally (25%) from (0%) to (50%) often (75%) to (100%)

d) Noise listening (N) type problem:

if you are in the room, the background noise in the room (e.g. television on, or radio, sound on). Do you can understand someone else's speech without reducing the television volume? (noisy indoor)

Options: the method is characterized in that the method is not understood at all (0%) and the method is rarely understood (25%) and half of the method is understood (50%) and most of the method is understood (75%) (100%)

In addition, according to the user information, for a test person with music appreciation experience or tinnitus, a corresponding sub-library of the database is read to generate a BHEQ additional questionnaire, and for a patient still having tinnitus after removing the artificial cochlea and the hearing aid, a tinnitus suppression related additional questionnaire is generated, as shown in Table 2.

TABLE 2 additional questionnaires

Step 4) receiving the acquired data uploaded by the terminal;

and 5) scoring and hearing grading of double-sided listening according to the reply data, generating an evaluation report and sending the evaluation report to the terminal. The method specifically comprises the following substeps:

respectively calculating the score condition of each question, and according to the corresponding score of the answer condition, dividing 1 to 5;

respectively counting scoring conditions of four dimensions of binaural balance, quiet environment speech recognition, spatial hearing and noise listening;

summing the scores of the four dimensions according to a preset weighting coefficient to obtain a total score, and grading the score of the BHEQ main questionnaire: stage I: 0 to 20 minutes; stage II: 21-40 minutes; class III: 41-60 minutes; grade IV: 61-89 min; v level: more than 90 minutes; . In addition, for users who do not evaluate for the first time, the previous evaluation report is retrieved from the database for longitudinal comparison.

For the answer sheet with BHEQ attached questionnaires, the partial score was counted. It should be noted that the content of the additional questionnaire is not limited thereto, and may be further extended according to actual needs. And the score grade is only an intermediate result, and provides data for related personnel to assist in intervention and debugging.

Example 2

Embodiment 2 of the present invention provides a method for processing a comprehensive evaluation of double-sided listening, the method comprising:

step 1) receiving a double-sided listening evaluation request sent by a terminal, wherein the evaluation request comprises user information and hearing aid equipment use data;

the user information includes: name, gender, date of birth, phone.

The hearing assistance device usage data includes: left and right ear statistics:

left/right ear hearing aid devices, cochlear implants, hearing aids, none or others; the brand of hearing aid equipment and the starting time; whether the hearing aid device is worn continuously every day, and not worn for a period of time; and (3) selecting and filling: whether or not to use the two-sided device interworking technique.

Step 2) analyzing the user information and the hearing aid equipment use data to obtain corresponding input parameters;

step 3) when the age of the user is less than 12 years old, calling a database according to the input parameters to generate a data acquisition requirement corresponding to the evaluation request, and sending the data acquisition requirement to the terminal; the acquisition requirement of the present embodiment is in the form of a questionnaire, but is not limited thereto.

QLBHE Q subject questionnaire: 10 topics, divided into 2 dimensions: binaural balance (B) spatial hearing (S).

Binaural balance (Bilateral balance): letter B indicates a total of 5 questions and a full score of 25 minutes.

Spatial hearing (Spatial listening): letter S indicates a total of 5 questions and a full score of 25 minutes.

Table 3 bilateral listening questionnaire example under 12 years old

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Step 4) receiving the acquired data uploaded by the terminal;

and 5) carrying out scoring statistics of double-sided listening according to the reply data, generating an evaluation report and sending the evaluation report to the terminal. The method specifically comprises the following substeps:

respectively calculating the score condition of each question, and according to the corresponding score of the answer condition, dividing 1 to 5;

respectively counting scoring conditions of 2 dimensions of binaural balance and spatial hearing;

summing the scores of the two dimensions according to a preset weighting coefficient to obtain a total score, and grading the score of the BHEQ main questionnaire: stage I: 0 to 10 minutes; stage II: 11-20 minutes; class III: 21-30 minutes; grade IV: 31-44 minutes; v level: 45 minutes or more, generating an evaluation report and sending the evaluation report to a terminal; the assessment report comprises the score condition and the total score of each dimension. In addition, for users who do not evaluate for the first time, the previous evaluation report is retrieved from the database for longitudinal comparison.

For the answer sheet with BHEQ attached questionnaires, the partial score was counted. It should be noted that the content of the additional questionnaire is not limited thereto, and may be further extended according to actual needs.

Example 3

Embodiment 3 of the present invention proposes a double-sided listening integrated evaluation processing system including: the system comprises an evaluation request sending module, an analysis module, a data acquisition generating module, an acquisition data receiving module and an evaluation report generating module; implemented by the method of example 1 or example 2, wherein,

the evaluation request sending module is used for receiving a double-sided listening evaluation request sent by the terminal, wherein the evaluation request comprises user information and hearing aid equipment use data;

the analysis module is used for analyzing the user information and the hearing aid equipment use data to obtain corresponding input parameters;

the data acquisition generation module is used for calling the database according to the input parameters to generate data acquisition requirements corresponding to the evaluation request and sending the data acquisition requirements to the terminal;

the acquisition data receiving module is used for receiving acquisition data uploaded by the terminal;

and the evaluation report generation module is used for carrying out scoring statistics of bilateral listening according to the acquired data, generating an evaluation report and sending the evaluation report to the terminal.

Example 4

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the method of embodiment 1 or embodiment 2 when the computer program is executed.

Example 5

A computer readable storage medium storing a computer program which, when executed by a processor, causes the processor to perform the method of embodiment 1 or embodiment 2.

It should be noted that, the data obtained by the method provided by the invention is only an intermediate result, and can provide sample data for doctors to conduct large-area or regional hearing etiology investigation;

the method and the system provided by the invention automatically generate the data acquisition requirements and count the scores according to the needs, thereby improving the degree of automation. The replacement judgment mode and the report template can be applied to comprehensive evaluation processing in other fields by replacing the question bank of the database, and the method has good applicability.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention and are not limiting. Although the present invention has been described in detail with reference to the embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the present invention, which is intended to be covered by the appended claims.

Claims (6)

1. A dual-sided listening integrated assessment processing method, the method comprising:

receiving a double-sided listening evaluation request sent by a terminal, wherein the evaluation request comprises user information and hearing aid equipment use data;

analyzing the user information and the hearing aid equipment use data to obtain corresponding input parameters;

calling a database according to the input parameters to generate a data acquisition requirement corresponding to the evaluation request, and sending the data acquisition requirement to the terminal;

receiving acquisition data uploaded by a terminal;

according to the collected data, scoring statistics of bilateral listening is carried out, and an evaluation report is generated and sent to the terminal;

the database comprises a binaural balance sub-database, a quiet environment speech recognition sub-database, a spatial hearing sub-database, a noise listening sub-database and an additional sub-database;

the database is called according to the input parameters to generate a data acquisition requirement corresponding to the evaluation request, and the data acquisition requirement is sent to the terminal; the method specifically comprises the following steps:

distinguishing according to age items of input parameters, extracting 5 topics from a binaural balance sub-library of a database, extracting 4 topics from a quiet environment speech recognition sub-library, extracting 6 topics from a spatial hearing sub-library, and extracting 5 topics from a noise listening sub-library when the age is greater than 12; providing 5 options according to different degrees for each topic, thereby generating a data acquisition requirement of 20 topics and sending the data acquisition requirement to a terminal; when the age is less than or equal to 12, extracting 5 topics from a binaural balance sub-library of the database, extracting 5 topics from a spatial hearing sub-library, and providing 5 options according to different degrees for each topic, thereby generating a data acquisition requirement of 10 topics and sending the data acquisition requirement to a terminal;

the data acquisition requirements further comprise additional requirements, and corresponding topic generation is extracted from additional sub-libraries of the database according to the evaluation request;

the scoring statistics of double-sided listening is carried out according to the acquired data, and an evaluation report is generated and sent to the terminal; the method specifically comprises the following steps:

respectively calculating the score condition of each question according to the acquired data, and according to the corresponding score of the answer condition, dividing the score from 1 to 5;

respectively counting scoring conditions of four dimensions of binaural balance, quiet environment speech recognition, spatial hearing and noise listening for collected data of 20 topics; the scores of the four dimensions are weighted and summed according to a preset group weighting coefficient over 12 years old to obtain a total score;

respectively counting scoring conditions of two dimensions of binaural balance and spatial hearing for acquired data of 10 topics; the scores of the two dimensions are weighted and summed according to a preset weighting coefficient group under 12 years old to obtain a total score;

generating an evaluation report and sending the evaluation report to a terminal; the assessment report includes a score case and a total score for each dimension.

2. The dual-sided listening integrated evaluation processing method according to claim 1, wherein the evaluation request includes user information and hearing aid device usage data; the method comprises the following steps:

the user information includes a user name, gender, date of birth, or age;

the hearing assistance device usage data includes: whether the left ear uses hearing aid equipment, a hearing aid equipment brand, a hearing aid equipment start-up time and a specific wearing frequency, and whether the right ear uses hearing aid equipment, a hearing aid equipment brand, a hearing aid equipment start-up time and a specific wearing frequency.

3. The dual-sided listening integrated assessment processing method according to claim 1, wherein the assessment report further comprises: and searching a historical evaluation report of the user from a database according to the evaluation request, performing score comparison, and giving a comparison result of the double-sided listening ability of the user.

4. A processing system based on a two-sided listening integrated assessment processing method, the system comprising: the system comprises an evaluation request sending module, an analysis module, a data acquisition generating module, an acquisition data receiving module and an evaluation report generating module; wherein,

the evaluation request sending module is used for receiving a double-sided listening evaluation request sent by the terminal, wherein the evaluation request comprises user information and hearing aid equipment use data;

the analysis module is used for analyzing the user information and the hearing aid equipment use data to obtain corresponding input parameters;

the data acquisition generation module is used for calling the database according to the input parameters to generate data acquisition requirements corresponding to the evaluation request and sending the data acquisition requirements to the terminal;

the acquisition data receiving module is used for receiving acquisition data uploaded by the terminal;

and the evaluation report generation module is used for carrying out scoring statistics of bilateral listening according to the acquired data, generating an evaluation report and sending the evaluation report to the terminal.

5. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the method of any of claims 1 to 3 when executing the computer program.

6. A computer readable storage medium, characterized in that the computer readable storage medium stores a computer program which, when executed by a processor, causes the processor to perform the method of any one of claims 1 to 3.