CN113616197A - Bilateral listening comprehensive evaluation processing method and system - Google Patents

Abstract

The invention discloses a comprehensive evaluation processing method and a comprehensive evaluation processing system for bilateral listening, wherein the method comprises the following steps: receiving a bilateral 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 collected data uploaded by a terminal; and performing scoring statistics of bilateral listening according to the collected data, generating an evaluation report 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, replacing the judgment mode and the report template, and has good applicability.

Description

Bilateral listening comprehensive evaluation processing method and system

Technical Field

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

Background

At present, hearing impairment crowds are more and more, partial bilateral hearing is inconsistent, the problem of bilateral hearing is found in time, and hearing loss to the lateral ears can be prevented. The advantage of binaural hearing (binaural hearing) over monaural hearing is embodied in the processing of sound signals by bilateral listening, binaural processing being based on the analytical utilization of information provided by the brainstem nuclei for signal differences between the two ears, thereby producing a perception of the sound world. This is because binaural hearing has a binaural sum effect (binaural hearing), a head shadow effect (head shadow effect), and a binaural noise effect (binaural hearing from a masking or binaural squelch). The binaural integration effect means that when the same sound signal reaches both ears simultaneously, the size of the transmitted signal is doubled after central integration, so that the sensitivity of human ears can be improved, and the binaural integration effect is essentially the superposition of intensity, and compared with a single ear, the hearing threshold is improved by at least 3 dB; speech intelligibility of monaural hearing is also reduced by about 2-3dB compared to both ears after loss of the binaural integration effect. The head shadow effect is essentially diffraction of sound waves by the skull, and sound waves received by the affected ear can reach the healthy side by bypassing the head, so that the sound is attenuated, and the speech recognition capability is reduced. The head shadow effect causes the sound signals arriving at both ears to change in signal-to-noise ratio. Absent this effect, speech recognition is markedly impaired at the level of the stimulating sound near the auditory threshold. The binaural squelch effect is an effect that sound signals with different signal-to-noise ratios are selectively presented to the central system after being simultaneously input to the ears through the analysis and integration of the auditory system. The investigation knows the listening condition of the two ears of the patient, and is helpful for the intervention and debugging of clinical hearing assistance. At present, an effective auxiliary intervention and debugging means is lacked, a large amount of time is spent, and the efficiency is not high. Meanwhile, the effective hearing intervention basis for infants which cannot be matched with the test is clinically lacked.

Disclosure of Invention

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

In order to achieve the above object, the present invention provides a bilateral listening comprehensive evaluation processing method, including:

receiving a bilateral 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 collected data uploaded by a terminal;

and performing scoring statistics of bilateral listening according to the collected data, generating an evaluation report and sending the evaluation report to the terminal.

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

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

the hearing assistance device usage data comprises: whether the left ear uses the hearing aid device, the brand of the hearing aid device, the on-time of the hearing aid device and the specific wearing frequency, and whether the right ear uses the hearing aid device, the brand of the hearing aid device, the on-time of the hearing aid device and the 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, when the age is more than 12, extracting 5 titles from a binaural balance sub-library of a database, extracting 4 titles from a quiet environment speech recognition sub-library, extracting 6 titles from a spatial hearing sub-library, and extracting 5 titles from a noise listening sub-library; each topic provides 5 options according to different degrees, and thus a data acquisition requirement of 20 topics is generated and sent to a terminal; when the age is less than or equal to 12, 5 subjects are extracted from a binaural balance sub-library of the database, 5 subjects are extracted from a spatial hearing sub-library, each subject provides 5 options according to different degrees, and therefore a data acquisition requirement of 10 subjects is generated and sent to the terminal.

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

As an improvement of the above method, the method performs double-sided listening scoring statistics according to the collected data, generates an evaluation report and sends the evaluation report to the terminal; the method specifically comprises the following steps:

respectively calculating the score condition of each topic according to the acquired data, and according to the response condition, corresponding scores from 1 to 5;

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

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

generating an evaluation report and sending the evaluation report to a terminal; the evaluation report comprises the score condition and the total score of each dimension.

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

A two-sided listening comprehensive assessment processing system, the system comprising: the system comprises an evaluation request sending module, an analysis module, a data acquisition and generation module, an acquired data receiving module and an evaluation report generation module; wherein the content of the first and second substances,

the evaluation request sending module is used for receiving a bilateral 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 generating module is used for 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 collected data receiving module is used for receiving the collected data uploaded by the terminal;

and the evaluation report generation module is used for performing bilateral listening scoring statistics according to the collected 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, in which a computer program is stored which, when executed by a processor, causes the processor to carry out the above-mentioned method.

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

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

2. the method can automatically generate different acquisition requirements aiming at the ages below 12 years and above 12 years according to the ages of testees;

3. the method of the invention automatically judges according to the data collected by the testee, judges from four dimensions of double-ear balance, speech recognition in quiet environment, spatial hearing and noise listening, and can analyze the development or degradation condition of double-ear listening ability of the testee in detail by combining the historical data of the testee; the evaluation report can be generated, and a historical analysis report can also be generated, so that the automation level is improved;

4. the evaluation report obtained by the method is used for sample analysis, and data can be provided for a doctor to carry out 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, replacing the judgment mode and the report template, and has good applicability.

Drawings

Fig. 1 is a processing flow chart of the bilateral listening comprehensive evaluation processing method of the present invention.

Detailed Description

The technical solution of the present invention will be 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 two-sided listening comprehensive evaluation process, including:

step 1) receiving a bilateral 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 call.

The hearing assistance device usage data includes: the left ear and the right ear are counted respectively:

left/right ear hearing aid devices cochlear implants, hearing aids, dumb or others; hearing aid equipment brand, boot time; whether the hearing aid equipment is worn constantly every day without wearing time; and selecting and filling: whether the interactive technology of the double-side equipment is adopted or not.

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, if the age of the user is more than 12 years old, calling a database to generate a data acquisition requirement corresponding to the evaluation request, and sending the data acquisition requirement to the terminal; the collection requirement form of the present embodiment is a questionnaire, but is not limited thereto.

Main body Questionnaire for two-sided listening Quality of Life survey (QLBHE): 20 topics, divided into four dimensions: binaural balance (B), quiet ambient speech recognition (Q), spatial hearing (S), noise listening (N).

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

Quiet ambient Speech recognition (Speech recognition in task): the letter Q indicates 4 questions, and the score is 20.

Spatial hearing (Spatial hearing): the letter S indicates 6 questions, 30 points full.

Noise listening (Hearing in noise): the letter N indicates a total of 5 questions and a score of 25.

Two-sided listening questionnaire example of watch over 112

For example, the following steps are carried out:

a) binaural balance (B) type problem: you listen to it on both sides, whether you feel that two tones are different from time to time (e.g. a distortion (like a robot talking), a nature)

Selecting: □ identical (0%) □ slightly different (25%) □ compared to different (50%) □ very different (75%) □ completely different (100%)

b) Quiet ambient speech recognition (Q) type problem:

in a quiet environment, do you hear a short whisper without looking at the other's emotions?

You prefer to listen to a subtle, subtle sound on which side: □ left side/□ right side

Selecting: □ completely does not understand (0%) that □ understands very little (25%) that □ understands half (50%) that □ understands most (75%) that □ can understand (100%)

c) Spatial hearing (S) type problem:

you can hear continuous loud noises such as road construction, car whistling or cannoning in an unfamiliar outdoor place, but cannot see the sound source. Do you say immediately where the sound came from? (ambient sound discrimination direction)

Selecting: □ never (0%) □ occasionally (25%) □ sometimes (50%) □ often (75%) □ always (100%)

d) Noise listening (N) -type problem:

if you are in the room, the background noise in the room (such as a television is on, or a radio or a sound is on). Do you understand someone else's speech without reducing the volume of the television? (indoor noise)

Selecting: □ completely does not understand (0%) that □ understands very little (25%) that □ understands half (50%) that □ understands most (75%) that □ can understand (100%)

In addition, according to the user information, for the testers with experience of music appreciation or tinnitus, the corresponding sub-library of the database is read to generate additional questionnaires for BHEQ, and for the patients who still have tinnitus after removing the cochlear implant and the hearing aid, additional questionnaires related to tinnitus suppression are generated, as shown in Table 2.

TABLE 2 additional questionnaires

Step 4), receiving the collected data uploaded by the terminal;

and 5) performing bilateral listening scoring and hearing rating according to the response data, generating a test report and sending the test report to the terminal. The method specifically comprises the following substeps:

respectively calculating the score condition of each topic, and according to the corresponding score of the response condition, dividing the score from 1 to 5;

respectively counting the scoring conditions of four dimensions of double-ear balance, speech recognition in a quiet environment, 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 scores of the BHEQ subject questionnaires: stage I: 0-20 min; II stage: 21-40 minutes; grade III: 41-60 minutes; stage IV: 61-89 min; and V stage: more than 90 minutes; . In addition, for the users who do not perform evaluation for the first time, previous evaluation reports are called from the database and are compared longitudinally.

For the answer sheet with the BHEQ additional questionnaire, the partial score is counted. The content of the additional questionnaire is not limited to this, and may be further expanded according to actual needs. And the score grade is only an intermediate result, and provides data for the auxiliary intervention and debugging of related personnel.

Example 2

The embodiment 2 of the invention provides a comprehensive evaluation processing method for bilateral listening, which comprises the following steps:

step 1) receiving a bilateral 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 call.

The hearing assistance device usage data includes: the left ear and the right ear are counted respectively:

left/right ear hearing aid devices cochlear implants, hearing aids, dumb or others; hearing aid equipment brand, boot time; whether the hearing aid equipment is worn constantly every day without wearing time; and selecting and filling: whether the interactive technology of the double-side equipment is adopted or not.

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 collection requirement form of the present embodiment is 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 (binaural balance): letter B indicates a total of 5 questions and a score of 25.

Spatial hearing (Spatial hearing): the letter S indicates a total of 5, 25 points full.

Table 312 two-sided listening to questionnaire example

Step 4), receiving the collected data uploaded by the terminal;

and 5) performing bilateral listening scoring statistics 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 topic, and according to the corresponding score of the response condition, dividing the score from 1 to 5;

respectively counting the 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 scores of the BHEQ subject questionnaires: stage I: 0-10 min; II stage: 11-20 minutes; grade III: 21-30 minutes; stage IV: 31-44 points; and V stage: generating an evaluation report and sending the evaluation report to a terminal after the score is more than 45; the evaluation report comprises the score condition and the total score of each dimension. In addition, for the users who do not perform evaluation for the first time, previous evaluation reports are called from the database and are compared longitudinally.

For the answer sheet with the BHEQ additional questionnaire, the partial score is counted. The content of the additional questionnaire is not limited to this, and may be further expanded according to actual needs.

Example 3

Embodiment 3 of the present invention provides a bilateral listening comprehensive evaluation processing system, including: the system comprises an evaluation request sending module, an analysis module, a data acquisition and generation module, an acquired data receiving module and an evaluation report generation module; the method of embodiment 1 or embodiment 2 is used for realizing, wherein,

the evaluation request sending module is used for receiving a bilateral 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 generating module is used for 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 collected data receiving module is used for receiving the collected data uploaded by the terminal;

and the evaluation report generation module is used for performing bilateral listening scoring statistics according to the collected 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 executing the computer program.

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.

The data obtained by the method provided by the invention is only an intermediate result, and can provide sample data for a doctor to carry out large-area or regional hearing etiology investigation;

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

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and are not limited. Although the present invention has been described in detail with reference to the embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (9)

1. A two-sided listening comprehensive assessment processing method, the method comprising:

receiving a bilateral 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 collected data uploaded by a terminal;

and performing scoring statistics of bilateral listening according to the collected data, generating an evaluation report and sending the evaluation report to the terminal.

2. The two-sided listening comprehension evaluation processing method of claim 1, wherein the evaluation request includes user information and hearing assistance device usage data; the method specifically comprises the following steps:

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

the hearing assistance device usage data comprises: whether the left ear uses the hearing aid device, the brand of the hearing aid device, the on-time of the hearing aid device and the specific wearing frequency, and whether the right ear uses the hearing aid device, the brand of the hearing aid device, the on-time of the hearing aid device and the specific wearing frequency.

3. The bilateral listening comprehensive evaluation processing method according to claim 1 or 2, wherein 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, when the age is more than 12, extracting 5 titles from a binaural balance sub-library of a database, extracting 4 titles from a quiet environment speech recognition sub-library, extracting 6 titles from a spatial hearing sub-library, and extracting 5 titles from a noise listening sub-library; each topic provides 5 options according to different degrees, and thus a data acquisition requirement of 20 topics is generated and sent to a terminal; when the age is less than or equal to 12, 5 subjects are extracted from a binaural balance sub-library of the database, 5 subjects are extracted from a spatial hearing sub-library, each subject provides 5 options according to different degrees, and therefore a data acquisition requirement of 10 subjects is generated and sent to the terminal.

4. The two-sided listening comprehension evaluation processing method of claim 3, wherein the data collection requirements further comprise additional requirements, and corresponding questions are extracted from additional sub-libraries of the database to generate the additional requirements according to the evaluation request.

5. The bilateral listening comprehensive evaluation processing method according to claim 1, wherein the bilateral listening scoring statistics is performed according to the collected data, an evaluation report is generated and sent to the terminal; the method specifically comprises the following steps:

respectively calculating the score condition of each topic according to the acquired data, and according to the response condition, corresponding scores from 1 to 5;

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

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

generating an evaluation report and sending the evaluation report to a terminal; the evaluation report comprises the score condition and the total score of each dimension.

6. The two-sided listening comprehension evaluation processing method of claim 5, wherein the evaluation report further comprises: and searching the historical evaluation report of the user from the database according to the evaluation request, performing score comparison, and giving a comparison result of the bilateral listening capacity of the user.

7. A two-sided listening comprehension evaluation processing system, the system comprising: the system comprises an evaluation request sending module, an analysis module, a data acquisition and generation module, an acquired data receiving module and an evaluation report generation module; wherein the content of the first and second substances,

the evaluation request sending module is used for receiving a bilateral 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 generating module is used for 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 collected data receiving module is used for receiving the collected data uploaded by the terminal;

and the evaluation report generation module is used for performing bilateral listening scoring statistics according to the collected data, generating an evaluation report and sending the evaluation report to the terminal.

8. 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 6 when executing the computer program.

9. 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 carry out the method of any one of claims 1 to 6.

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