CN111579102A - Body temperature reporting management method based on APP module - Google Patents

Abstract

The invention discloses a body temperature reporting management method based on an APP (application) module, which comprises the following steps of: the APP application module comprises a photographing unit which is provided with a photographing background and a calibration frame, wherein the photographing unit comprises a mercury thermometer photographing unit and an electronic thermometer photographing unit; when the thermometer type is mercury thermometer, corresponding the 35.0 ℃ scale mark of the mercury thermometer to the minimum scale mark of the calibration scale, and corresponding the 42.0 ℃ scale mark to the maximum scale mark of the calibration scale, and acquiring a first target image; when the thermometer type is electronic thermometer, the temperature information is placed in a calibration frame to be photographed to obtain a second target image; and acquiring temperature data corresponding to the tester according to the first target image or the second target image of the tester and sending the temperature data to the server. According to the invention, the accuracy of the reported data of the body temperature can be effectively improved by acquiring the temperature data through the thermometer image, and the monitoring and management of the body temperature of an individual are realized.

Description

Body temperature reporting management method based on APP module

Technical Field

The invention relates to the technical field of temperature management. More specifically, the invention relates to a body temperature reporting management method based on an APP module.

Background

With the rapid development of science and technology, not only the network develops rapidly therewith, but also the application range of the intelligent device is expanded, for example, multiple functions such as payment function, city service, health code and the like are realized through a mobile phone APP, the health code is used for reporting the body temperature and monitoring and managing the health of an individual through the body temperature, the body temperature reporting in the prior art is generally that the individual inputs and stores temperature data in an APP module to display the health condition of the individual, but the temperature reporting mode easily causes the temperature of the individual to be misreported, the accuracy of the temperature data is affected, and the monitoring and managing of the temperature of the individual are not facilitated.

Disclosure of Invention

An object of the present invention is to solve at least the above problems and to provide at least the advantages described later.

The invention also aims to provide a body temperature reporting management method based on the APP module, which can effectively improve the accuracy of body temperature reporting data by acquiring temperature data through a thermometer image and realize the monitoring and management of the body temperature of an individual.

To achieve these objects and other advantages in accordance with the present invention, there is provided a body temperature reporting management method based on an APP application module, comprising:

the APP application module comprises a photographing unit which is provided with a photographing background and a calibration frame, the photographing unit comprises a mercury thermometer photographing unit and an electronic thermometer photographing unit, a calibration scale is arranged on the calibration frame of the mercury thermometer photographing unit, and the calibration scale comprises a minimum scale mark and a maximum scale mark;

when the thermometer type of a tester is mercury thermometer timing, starting a mercury thermometer photographing unit, enabling a 35.0 ℃ scale mark of the mercury thermometer to correspond to the minimum scale mark of the calibration scale, enabling a 42.0 ℃ scale mark of the mercury thermometer to correspond to the maximum scale mark of the calibration scale, and photographing to obtain a first target image;

when the thermometer type of the tester is electronic thermometer timing, the temperature information of the electronic thermometer is placed in a calibration frame to be photographed to obtain a second target image;

and acquiring temperature data corresponding to the tester according to the first target image or the second target image of the tester and sending the temperature data to the server.

Preferably, the APP application module further includes a determination unit connected to the photographing unit, the determination unit is connected to the server, wherein:

the calibration ruler is also provided with a scale mark at 37.0 ℃ and a scale mark at 37.4 ℃;

after the first target image is obtained, the end point of the mercury column in the first target image is identified, and the judging unit judges the position of the end point of the mercury column in the calibration ruler;

when the end point of the mercury column is located between the minimum scale mark and the scale mark at 37.0 ℃ of the calibration scale, outputting the normal mercury column and sending the normal mercury column to a server;

when the end point of the mercury column is located between the scale mark of 37.4 ℃ of the calibration scale and the maximum scale mark, acquiring temperature data and sending the temperature data to a server;

when the end point of the mercury column is located between the scale mark at 37.0 ℃ and the scale mark at 37.4 ℃ of the calibration scale, outputting the end point to be determined and sending the end point to the server, wherein the tester needs to measure the body temperature again before reporting the body temperature next time, when the obtained end point of the mercury column is located between the minimum scale mark and the scale mark at 37.4 ℃ of the calibration scale, outputting the end point to be normal and sending the end point to the server to replace the original undetermined point, and when the obtained end point of the mercury column is located between the scale mark at 37.4 ℃ and the maximum scale mark, obtaining temperature data and sending the temperature data to the server to replace the original undetermined point.

Preferably, when the thermometer type is a mercury thermometer, the method of acquiring temperature data from the first target image is:

acquiring the length of the calibration scale, wherein the length of the calibration scale is the distance between the minimum scale mark and the maximum scale mark;

acquiring the length of a mercury column in the thermometer, wherein the length of the mercury column is the distance from the end point of the mercury column to the 35.0 ℃ scale mark of the mercury thermometer;

and calculating the ratio L of the length of the mercury column to the length of the calibration scale, wherein the temperature data is L +35.0, and L keeps one digit after the decimal point according to a rounding principle.

Preferably, when the thermometer type is an electronic thermometer, the method of acquiring the temperature data of the corresponding tester according to the second target image of the tester comprises:

establishing a database, wherein the database comprises a plurality of temperature values, a plurality of digital images and an incidence relation between the temperature values and the digital images in a one-to-one correspondence manner;

and judging the similarity between the second target image and the digital image, and acquiring a temperature value associated with the digital image based on the similarity, wherein the temperature value is temperature data.

Preferably, the calibration frame of the electronic thermometer photographing unit is internally provided with three identification frames, and the three identification frames are respectively used for identifying the number displayed on the electronic thermometer, wherein the digital image does not contain decimal points;

the obtaining of the second target image specifically includes: and (3) placing the temperature information of the electronic thermometer in a calibration frame, respectively identifying the numbers on the electronic thermometer by the three identification frames, blurring the part outside the identification frames, and acquiring a second target image.

Preferably, the method for obtaining the temperature value by determining the similarity between the second target image and the digital image comprises:

matching the second target image with a plurality of digital images one by one and acquiring corresponding similarity;

sorting the similarity according to the descending order to obtain the digital image corresponding to the maximum similarity;

and acquiring and outputting a temperature value associated with the digital image corresponding to the maximum similarity, wherein the temperature value is temperature data.

The invention at least comprises the following beneficial effects:

firstly, the accuracy of the reported data of the body temperature can be effectively improved by acquiring the temperature data through the thermometer image, and the monitoring and management of the body temperature of an individual are realized.

Secondly, the invention can effectively limit the placing position of the mercury thermometer by setting the calibration scale, corresponding the 35.0 ℃ scale mark of the mercury thermometer to the minimum scale mark of the calibration scale and the 42.0 ℃ scale mark to the maximum scale mark of the calibration scale, and discharge interference so as to obtain temperature data through the first target image.

Thirdly, on one hand, the tester with the actual body temperature lower than 37.4 ℃ directly outputs normal temperature and sends the normal temperature to the server, and the tester with the actual body temperature higher than 37.4 ℃ outputs temperature data, the processing invention enables the result to be more visual and clear and is more beneficial to monitoring and managing the personal body temperature, on the other hand, the tester with the mercury column end point positioned between the scale line at 37.1 ℃ and the scale line at 37.4 ℃ carries out measurement again, so that the influence caused by the measurement error of the thermometer can be reduced, namely, if the mercury column end point is positioned between the scale line at 37.1 ℃ and the scale line at 37.4 ℃, the actual temperature of the tester is possibly 37.7 ℃, but the tester with the mercury column end point positioned between the scale line at 37.1 ℃ and the scale line at 37.4 ℃ due to the measurement time and the individual measurement environment can influence the monitoring accuracy, meanwhile, the tester with the mercury column end point positioned between the minimum scale line and the scale line at 37.4 ℃, only the output is normal, the calculation program can be effectively simplified, and the accuracy of reporting the body temperature of the mercury thermometer is improved.

And fourthly, matching the digital picture with the thermometer image, and then outputting a temperature value associated with the digital picture.

Fifthly, the digital image is set to be free of decimal points, and the part outside the identification frame is subjected to blurring processing through the selection function of the identification frame when the thermometer image is obtained, so that on one hand, the interference of the background on the thermometer image can be effectively reduced, and the accuracy of similarity judgment is improved, and on the other hand, the influence of some electronic thermometers on the accuracy of similarity judgment due to the fact that the decimal points are hidden can be effectively avoided through blurring of the decimal points, namely, the accuracy of the temperature data of the electronic thermometer can be effectively improved.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

The invention provides a body temperature reporting management method based on an APP (application) module, which comprises the following steps:

the APP application module comprises a photographing unit which is provided with a photographing background and a calibration frame, the photographing unit comprises a mercury thermometer photographing unit and an electronic thermometer photographing unit, a calibration scale is arranged on the calibration frame of the mercury thermometer photographing unit, and the calibration scale comprises a minimum scale mark and a maximum scale mark;

when the thermometer type of a tester is mercury thermometer timing, starting a mercury thermometer photographing unit, enabling a 35.0 ℃ scale mark of the mercury thermometer to correspond to the minimum scale mark of the calibration scale, enabling a 42.0 ℃ scale mark of the mercury thermometer to correspond to the maximum scale mark of the calibration scale, and photographing to obtain a first target image;

when the thermometer type of the tester is electronic thermometer timing, the temperature information of the electronic thermometer is placed in a calibration frame to be photographed to obtain a second target image;

and acquiring temperature data corresponding to the tester according to the first target image or the second target image of the tester and sending the temperature data to the server.

In the technical scheme, the calibration scale is used for limiting the placement of the thermometer, the influence of the placement position, the photographing angle and the photographing distance on temperature data is reduced, when the thermometer is in the mercury thermometer type, the effective length of the mercury column acquired through the calibration frame is the distance between the end point of the mercury column and the 35.0 ℃ scale mark of the mercury thermometer, and when the thermometer is in the electronic thermometer type, the second target image acquired through the calibration frame is the real-time reading of the electronic thermometer.

In the using process, a tester selects a thermometer type (a mercury thermometer or an electronic thermometer) based on a thermometer used by a person, then selects a corresponding photographing unit, selects a placing position capable of displaying a mercury column if the thermometer type is the mercury thermometer, corresponds a 35.0 ℃ scale mark of the mercury thermometer to a minimum scale mark of a calibration scale, corresponds a 42.0 ℃ scale mark of the mercury thermometer to a maximum scale mark of the calibration scale, photographs to obtain a first target image, obtains temperature data according to the first target image and sends the temperature data to a server; and if the thermometer type is an electronic thermometer, the reading displayed on the electronic thermometer is placed in a calibration frame to be photographed to obtain a second target image, and temperature data is obtained according to the second target image and sent to the server.

By adopting the technical scheme, the accuracy of the reported data of the body temperature can be effectively improved by acquiring the temperature data through the thermometer image, and the monitoring and management of the body temperature of an individual are realized; according to the invention, through setting the calibration scale, the 35.0 ℃ scale mark of the mercury thermometer corresponds to the minimum scale mark of the calibration scale, and the 42.0 ℃ scale mark corresponds to the maximum scale mark of the calibration scale, the placing position of the mercury thermometer can be effectively limited, interference is eliminated, and temperature data can be conveniently obtained through the first target image.

In another technical solution, the APP application module further includes a determination unit connected to the photographing unit, the determination unit is connected to the server, wherein:

the calibration ruler is also provided with a scale mark at 37.0 ℃ and a scale mark at 37.4 ℃;

after the first target image is obtained, the end point of the mercury column in the first target image is identified, and the judging unit judges the position of the end point of the mercury column in the calibration ruler;

when the end point of the mercury column is located between the minimum scale mark and the scale mark at 37.0 ℃ of the calibration scale, outputting the normal mercury column and sending the normal mercury column to a server;

when the end point of the mercury column is located between the scale mark of 37.4 ℃ of the calibration scale and the maximum scale mark, acquiring temperature data and sending the temperature data to a server;

when the end point of the mercury column is located between the 37.0 c and 37.4 c scale lines of the scale, the output is to be measured and sent to the server, the tester needs to measure the body temperature again before reporting the body temperature next time, when the end point of the mercury column obtained again is positioned between the minimum scale mark and the scale mark at 37.4 ℃ of the calibration scale, outputting the normal end point and sending the normal end point to a server to replace the original end point to be determined, when the end point of the mercury column obtained again is positioned between the scale mark at the temperature of 37.4 ℃ and the maximum scale mark, temperature data is obtained and sent to the server to replace the original undetermined point, in the technical scheme, after the end point of the mercury column in the first target image is identified, the length between the end point of the mercury column and the 35 ℃ scale mark of the mercury thermometer is obtained, if the length between the end point of the mercury column and the 35 ℃ scale mark of the mercury thermometer is smaller than the length of the minimum scale mark and the 37.0 ℃ scale mark of a calibration scale, the end point of the mercury column is located between the minimum scale mark and the scale mark at 37.0 ℃ of the calibration scale; if the length between the end point of the mercury column and the 35 ℃ scale mark of the mercury thermometer is greater than the length between the minimum scale mark and the 37.4 ℃ scale mark of the calibration scale, the end point of the mercury column is positioned between the 37.4 ℃ scale mark and the maximum scale mark of the calibration scale; if the length between the end point of the mercury column and the 35 ℃ scale mark of the mercury thermometer is greater than the length between the minimum scale mark and the 37.0 ℃ scale mark of the calibration scale and less than the length between the minimum scale mark and the 37.4 ℃ scale mark of the calibration scale, the end point of the mercury column is located between the 37.0 ℃ scale mark and the 37.4 ℃ scale mark of the calibration scale. By adopting the technical scheme, on one hand, a tester with the actual body temperature lower than 37.4 ℃ directly outputs normal data and sends the data to a server, and a tester with the actual body temperature higher than 37.4 ℃ outputs temperature data, the processing invention enables the result to be more visual and clear and is more beneficial to monitoring and managing the personal body temperature, on the other hand, the tester with the mercury column end point positioned between the scale line at 37.1 ℃ and the scale line at 37.4 ℃ carries out measurement again, so that the influence caused by the measurement error of the thermometer can be reduced, namely, if the mercury column end point is positioned between the scale line at 37.1 ℃ and the scale line at 37.4 ℃, the actual temperature of the tester is possibly 37.7 ℃, but the tester with the mercury column end point positioned between the scale line at 37.1 ℃ and the scale line at 37.4 ℃ due to the measurement time and the individual measurement environment does not need to calculate the temperature data, only the output is normal, the calculation program can be effectively simplified, and the accuracy of reporting the body temperature of the mercury thermometer is improved.

In another technical solution, when the thermometer type is a mercury thermometer, the method of acquiring temperature data according to the first target image comprises:

acquiring the length of the calibration scale, wherein the length of the calibration scale is the distance between the minimum scale mark and the maximum scale mark;

acquiring the length of a mercury column in the thermometer, wherein the length of the mercury column is the distance from the end point of the mercury column to the 35.0 ℃ scale mark of the mercury thermometer;

and calculating the ratio L of the length of the mercury column to the length of the calibration scale, wherein the temperature data is L +35.0, and L keeps one digit after the decimal point according to a rounding principle. By adopting the technical scheme, the temperature data of the mercury thermometer can be acquired through the thermometer image, and the accuracy of the temperature data is high.

In another technical solution, when the thermometer type is an electronic thermometer, the method for acquiring temperature data of a corresponding tester according to a second target image of the tester comprises:

establishing a database, wherein the database comprises a plurality of temperature values (35.0, 35.1, 35.2, 35.3, 35.4, 35.5 … … 42.0.0), a plurality of digital images and one-to-one association relationship between the temperature values and the digital images;

in the technical scheme, the digital image can be 35.0, 35.1, 35.2, 35.3, 35.4, 35.5 … … 42.0.0 or 350, 351, 352, 353, 354 and 355 … … 420.0, and in the using process, after the similarity is obtained, the temperature value associated with the digital image can be output. By adopting the technical scheme, the digital picture is matched with the thermometer image, and then the temperature value associated with the digital picture is output, so that errors of temperature data caused by incapability of identifying decimal points can be reduced, and the identification accuracy of the electronic thermometer can be effectively improved.

In another technical solution, three recognition frames are provided in a calibration frame of the electronic thermometer photographing unit, and the three recognition frames are respectively used for recognizing numbers displayed on the electronic thermometer, wherein the digital image does not include decimal points (the digital images are 350, 351, 352, 353, 354 and 355 … … 420, respectively);

the obtaining of the second target image specifically includes: and (3) placing the temperature information of the electronic thermometer in a calibration frame, respectively identifying the numbers on the electronic thermometer by the three identification frames, blurring the part outside the identification frames, and acquiring a second target image. By adopting the technical scheme, the digital image is set to contain no decimal point, and the part outside the identification frame is subjected to blurring treatment through the selection action of the identification frame when the thermometer image is obtained, so that on one hand, the interference of the background on the thermometer image can be effectively reduced, and the accuracy of similarity judgment is improved, and on the other hand, the influence on the accuracy of similarity judgment caused by the fact that some electronic thermometers are hidden due to the decimal point can be effectively avoided through blurring the decimal point, namely, the accuracy of the temperature data of the electronic thermometer can be effectively improved.

In another technical scheme, the method for obtaining the temperature value by judging the similarity between the second target image and the digital image comprises the following steps:

matching the second target image with a plurality of digital images one by one and acquiring corresponding similarity;

sorting the similarity according to the descending order to obtain the digital image corresponding to the maximum similarity;

and acquiring and outputting a temperature value associated with the digital image corresponding to the maximum similarity, wherein the temperature value is temperature data. By adopting the technical scheme, the temperature value can be accurately acquired, and the data accuracy of the electronic thermometer is improved.

The number of apparatuses and the scale of the process described herein are intended to simplify the description of the present invention. The application, modification and variation of the body temperature reporting management method based on the APP application module of the present invention will be apparent to those skilled in the art.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable to various fields of endeavor for which the invention may be embodied with additional modifications as would be readily apparent to those skilled in the art, and the invention is therefore not limited to the details given herein and to the embodiments shown and described without departing from the generic concept as defined by the claims and their equivalents.

Claims (6)

1. The body temperature reporting management method based on the APP module is characterized by comprising the following steps:

the APP application module comprises a photographing unit which is provided with a photographing background and a calibration frame, the photographing unit comprises a mercury thermometer photographing unit and an electronic thermometer photographing unit, a calibration scale is arranged on the calibration frame of the mercury thermometer photographing unit, and the calibration scale comprises a minimum scale mark and a maximum scale mark;

when the thermometer type of a tester is mercury thermometer timing, starting a mercury thermometer photographing unit, enabling a 35.0 ℃ scale mark of the mercury thermometer to correspond to the minimum scale mark of the calibration scale, enabling a 42.0 ℃ scale mark of the mercury thermometer to correspond to the maximum scale mark of the calibration scale, and photographing to obtain a first target image;

when the thermometer type of the tester is electronic thermometer timing, the temperature information of the electronic thermometer is placed in a calibration frame to be photographed to obtain a second target image;

and acquiring temperature data corresponding to the tester according to the first target image or the second target image of the tester and sending the temperature data to the server.

2. The APP application module-based body temperature reporting management method of claim 1, wherein the APP application module further comprises a determination unit connected to the photographing unit, the determination unit being connected to the server, wherein:

the calibration ruler is also provided with a scale mark at 37.0 ℃ and a scale mark at 37.4 ℃;

after the first target image is obtained, the end point of the mercury column in the first target image is identified, and the judging unit judges the position of the end point of the mercury column in the calibration ruler;

when the end point of the mercury column is located between the minimum scale mark and the scale mark at 37.0 ℃ of the calibration scale, outputting the normal mercury column and sending the normal mercury column to a server;

when the end point of the mercury column is located between the scale mark of 37.4 ℃ of the calibration scale and the maximum scale mark, acquiring temperature data and sending the temperature data to a server;

when the end point of the mercury column is located between the scale mark at 37.0 ℃ and the scale mark at 37.4 ℃ of the calibration scale, outputting the end point to be determined and sending the end point to the server, wherein the tester needs to measure the body temperature again before reporting the body temperature next time, when the obtained end point of the mercury column is located between the minimum scale mark and the scale mark at 37.4 ℃ of the calibration scale, outputting the end point to be normal and sending the end point to the server to replace the original undetermined point, and when the obtained end point of the mercury column is located between the scale mark at 37.4 ℃ and the maximum scale mark, obtaining temperature data and sending the temperature data to the server to replace the original undetermined point.

3. The APP application module-based body temperature reporting management method of claim 2, wherein when the thermometer type is a mercury thermometer, the method for acquiring temperature data according to the first target image comprises:

acquiring the length of the calibration scale, wherein the length of the calibration scale is the distance between the minimum scale mark and the maximum scale mark;

acquiring the length of a mercury column in the thermometer, wherein the length of the mercury column is the distance from the end point of the mercury column to the 35.0 ℃ scale mark of the mercury thermometer;

and calculating the ratio L of the length of the mercury column to the length of the calibration scale, wherein the temperature data is L +35.0, and L keeps one digit after the decimal point according to a rounding principle.

4. The APP application module-based body temperature reporting management method of claim 1, wherein when the thermometer type is an electronic thermometer, the method of obtaining the temperature data of the corresponding tester according to the second target image of the tester comprises:

establishing a database, wherein the database comprises a plurality of temperature values, a plurality of digital images and an incidence relation between the temperature values and the digital images in a one-to-one correspondence manner;

and judging the similarity between the second target image and the digital image, and acquiring a temperature value associated with the digital image based on the similarity, wherein the temperature value is temperature data.

5. The APP-based application module body temperature reporting management method of claim 4, wherein a calibration frame of the electronic thermometer photographing unit has three identification frames, and the three identification frames are respectively used for identifying numbers displayed on the electronic thermometer, wherein the digital image does not include decimal points;

the obtaining of the second target image specifically includes: and (3) placing the temperature information of the electronic thermometer in a calibration frame, respectively identifying the numbers on the electronic thermometer by the three identification frames, blurring the part outside the identification frames, and acquiring a second target image.

6. The APP-application-module-based body temperature reporting management method of claim 4, wherein the method for obtaining the temperature value by judging the similarity between the second target image and the digital image comprises the following steps:

matching the second target image with a plurality of digital images one by one and acquiring corresponding similarity;

sorting the similarity according to the descending order to obtain the digital image corresponding to the maximum similarity;

and acquiring and outputting a temperature value associated with the digital image corresponding to the maximum similarity, wherein the temperature value is temperature data.