CN114037386B - Infection prevention and control is with promptly coping system based on artificial intelligence - Google Patents

Abstract

The invention discloses an artificial intelligence-based emergency response system for infection prevention and control, which is used for solving the problems that an isolation worker is totally enclosed during isolation, many workers have article requirements but cannot meet the requirements, and if the required articles are delivered by personnel, infection risks are increased; the reminding area is obtained by marking and analyzing the place where the isolated personnel pass through, and when the user enters the reminding area, a reminding early warning signal is calculated and generated to the mobile phone terminal of the user, so that the user is reminded to pay attention to protection.

Description

Infection prevention and control is with promptly coping system based on artificial intelligence

Technical Field

The invention relates to the technical field of infection prevention and control, in particular to an artificial intelligence-based emergency response system for infection prevention and control.

Background

The infection is divided into two types, and medical infection refers to local tissue and systemic inflammatory reaction caused by invasion of pathogens such as bacteria, viruses, fungi, parasites and the like into a human body. Isolation treatment and infection prevention are adopted for patients with serious infection and easy infection, and isolation observation is generally adopted for people who contact with infected people;

however, since the isolation personnel are totally enclosed during the isolation period, many personnel have article demands but cannot meet the demands, and if the demand articles are delivered by personnel, the probability of infection is undoubtedly increased, and therefore, a system for emergently dealing with the article demands of the isolation personnel is needed so as to realize the contactless delivery of the articles demanded by the isolation personnel.

Disclosure of Invention

The invention aims to provide an artificial intelligence-based emergency response system for infection prevention and control, which aims to solve the problems that an isolated person is totally enclosed during isolation, many persons have article requirements but cannot meet the requirements, and if the required articles are delivered by persons, the infection risk is increased.

The purpose of the invention can be realized by the following technical scheme: an artificial intelligence-based emergency response system for infection prevention and control comprises a data acquisition module, a server and a sensing control analysis module; the data acquisition module is used for acquiring position data of a risk area and article data of an emergency article and sending the position data and the article data of the emergency article to the server; the data input module is used for the sensing and controlling personnel to input the demand information and send the demand information to the server, and the server receives the demand information and then sends the demand information to the sensing and controlling analysis module; the article data comprises the name and the residual quantity of the article, and the name, the position and the communication number of a corresponding merchant; the demand information comprises a communication number, a demand article name and a demand position;

The sensing control analysis module is used for analyzing and processing the demand information, and the specific processing process is as follows;

matching the name of the demand item in the demand information with the item data in the emergency item, acquiring a merchant corresponding to the demand item, marking the merchant as a primary selection merchant, calculating the position of the primary selection merchant and the demand position to obtain an item distance, and marking the primary selection merchant with the minimum item distance as a spare merchant;

acquiring registration information of a registration end, comparing a preset coping area with a demand position in the registration information, marking the registration end containing the demand position in the preset coping area as a preferred end, respectively carrying out distance calculation on the position of the preferred end, the demand position and the position of a stock dealer to obtain a first distance and a second distance, summing the first distance, the second distance and an article distance to obtain a coping total distance, and marking the preferred end with the value obtained by subtracting the coping total distance from the total flying distance of the preferred end and larger than a set threshold value as a reselecting end;

acquiring a corresponding total value and a model of a reselected terminal; setting model preset values corresponding to all models, matching the model of the reselecting end with all models to obtain corresponding model preset values, carrying out normalization processing on the model preset values, the coping total value and the coping total interval, taking the values of the three after normalization processing, and respectively marking the values of the three after normalization processing as AT1, AT2 and AT 3;

Obtaining a stress value AZ of a reselected end by using a formula AZ-0.85 x (AT1 Xdh 1+ AT2 Xdh 2-2.3)/(AT3 Xdh 3); marking the reselected end with the maximum stress value as the corresponding end;

generating an emergency signaling and sending the emergency signaling to a mobile phone terminal of an owner corresponding to an opposite terminal, wherein the emergency signaling comprises a position and a demand position of a stock merchant and an emergency demand instruction; meanwhile, the demand information is sent to a mobile phone terminal corresponding to a standby merchant; after receiving the demand information through the mobile phone terminal, the standby merchant packs the corresponding article to obtain an article package;

and after receiving the emergency signaling through the mobile phone terminal, the owner controls the corresponding end to convey the article package to the required position.

As a preferred embodiment of the present invention, the sensing control analysis module further includes a response acquisition unit and a response analysis unit;

the corresponding acquisition unit is used for acquiring a first moment when an owner corresponding to the corresponding end receives the emergency signaling through the mobile phone terminal and a second moment when the corresponding end conveys the article package to a required position, and sending the first moment and the second moment to the corresponding analysis unit;

the coping analysis unit is used for receiving the first time and the second time and carrying out analysis processing, and the specific processing is as follows: calculating the time difference between the first time and the second time to obtain the single corresponding time length of the corresponding opposite end, dividing the value corresponding to the single corresponding time length by the value corresponding to the total distance to obtain a time distance value, and marking the current time as the recording time of the time distance value; sequencing all time interval values of the processing end according to the sequence of the recording time; taking the recording time as a horizontal coordinate and the numerical value of the time distance value as a vertical coordinate, and establishing a rectangular coordinate system; connecting the numerical values of two adjacent time distance values between points on a rectangular coordinate system to obtain a time distance line, calculating the slope of the time distance line, and marking the numerical value of the slope of the time distance line as an acute slope value if the included angle between the time distance line and the horizontal coordinate is an acute angle; when the included angle between the time distance line and the abscissa is an obtuse angle, marking the numerical value of the slope of the time distance line as an obtuse slope value; summing all the acute values to obtain an acute total value, summing all the obtuse total values to obtain an obtuse total value, dividing the obtuse total value by the acute total value to obtain a corresponding total value, and sending the corresponding total value to a server;

As a preferred embodiment of the invention, the unmanned aerial vehicle registration system further comprises a registration login module, wherein the registration login module is used for submitting the registration information of the unmanned aerial vehicle for registration by an owner of the unmanned aerial vehicle and sending the registration information which is successfully registered to the server for storage, and the server marks the unmanned aerial vehicle which is successfully registered as a registration end; the registration information comprises a mobile phone terminal communication number, the position and the model of the unmanned aerial vehicle, a preset coping area and a total flying distance;

as a preferred embodiment of the invention, the invention also comprises an early warning reminding module; the early warning reminding module is used for early warning and reminding a user and comprises an isolation acquisition unit, a permission acquisition unit, a position acquisition unit and a trigger reminding unit;

the isolation acquisition unit is used for acquiring travel data of an isolated person and sending the travel data to the trigger reminding unit; the trip data comprises places where the isolated personnel pass within fifteen days, corresponding to the initial time to be detected and the ending time to be detected;

the permission acquisition unit is used for acquiring the position permission and the reminding permission of the user; the position acquisition unit is used for acquiring the real-time position of a user granted with position authority and sending the real-time position to the trigger reminding unit;

the trigger reminding unit is used for processing trip data, and the specific processing process is as follows: processing travel data of the isolated personnel, and marking a passing area of the isolated personnel as a reminding area; acquiring the number one of current isolated personnel in a reminding area, the number two of the corresponding isolated personnel passing by and the waiting time; summing the waiting time of all isolated personnel in the reminding area to obtain the total personnel time; extracting numerical values of the first quantity, the second quantity and the total personnel duration; sequencing the time to be finished of the isolation personnel according to the time sequence, and calculating the time difference between the last time to be finished of the sequencing and the current time length to obtain the isolation interval time length; extracting numerical values of the first quantity, the second quantity, the total personnel duration and the isolation interval duration; the four values are labeled as M11 and M1 2. T11 and T12; using a formula

Obtaining a reminding value TX of a preceding area; wherein bm1, bm2, bm3 and bm4 are all preset weight factors; when the reminding value TX is larger than a set reminding threshold TB, calculating the difference between the reminding value TX and the set reminding threshold TB to obtain a threshold-raising difference TS; setting a plurality of reminding distances, wherein each reminding distance corresponds to a value range, comparing the threshold extraction difference with the value ranges of all reminding distances, and marking the reminding distance in the value range as the radius of a reminding area when the threshold extraction difference is in the value range; selecting the center of the reminding area, and drawing a circle reminding area by the radius of the reminding area; when the position of the position authority granted user enters a reminding area, generating a reminding early warning signaling and sending the reminding early warning signaling to the mobile phone terminal of the position authority granted user;

compared with the prior art, the invention has the beneficial effects that:

1. the method comprises the steps that demand information is input to a server by a sensing and controlling person, a sensing and controlling analysis module analyzes and processes the demand information to obtain a corresponding value, a corresponding end is selected through the corresponding value, and an article package corresponding to the demand information is conveyed to a demand position through the corresponding end, so that the sensing and controlling person can provide the demand article during the isolation period, the contact of the person is reduced, and the probability of contact infection is reduced;

2. The trip data are processed by the triggering reminding unit, a reminding area and a reminding value are obtained by marking and analyzing the place where the isolated personnel pass through, the reminding area is obtained through the reminding value, and when the user enters the reminding area, a reminding early warning signal is calculated and generated to the mobile phone terminal of the user so as to remind the user of paying attention to protection.

Drawings

To facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is an overall schematic block diagram of the present invention;

fig. 2 is a schematic block diagram of an early warning module according to the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an artificial intelligence-based emergency response system for infection prevention and control includes a data acquisition module, a server, a sensing and control analysis module, a data input module, a registration and login module, and an early warning and reminding module;

The data acquisition module acquires position data of a risk area and article data of an emergency article and sends the position data and the article data of the emergency article to the server;

the data input module is used for sensing and controlling personnel to input the demand information and sending the demand information to the server; the article data comprises the name and the residual quantity of the article, and the name, the position and the communication number of a corresponding merchant; the demand information comprises a communication number, a demand article name and a demand position; the sensory and control personnel comprise isolation personnel or doctors or nurses in charge of the isolation personnel;

the server receives the demand information and then sends the demand information to the sensing control analysis module, and the sensing control analysis module is used for analyzing and processing the demand information, and the specific processing process is as follows;

matching the name of the required article in the requirement information with the article data in the emergency article, acquiring a merchant corresponding to the required article, marking the merchant as a primary selection merchant, calculating the position of the primary selection merchant and the required position to obtain the article distance, and marking the primary selection merchant with the minimum article distance as a stock merchant;

acquiring registration information of a registration end, comparing a preset coping area in the registration information with a required position, marking the registration end containing the required position in the preset coping area as a preferred end, respectively carrying out distance calculation on the position of the preferred end, the required position and the position of a stock merchant to obtain a first distance and a second distance, summing the first distance, the second distance and an article distance line to obtain a coping total distance, and marking the preferred end with the value of subtracting the coping total distance from the flying total distance of the preferred end and larger than a set threshold value as a reselected end;

Acquiring a corresponding total value and a model of a reselected terminal; setting model preset values corresponding to all models, matching the model of the reselecting end with all models to obtain corresponding model preset values, carrying out normalization processing on the model preset values, the coping total value and the coping total interval, taking the values of the three after normalization processing, and respectively marking the values of the three after normalization processing as AT1, AT2 and AT 3;

obtaining a stress value AZ of the reselected terminal by using a formula AZ ═ 0.85 × (AT1 × dh1+ AT2 × dh2-2.3)/(AT3 × dh 3); dh1, dh2 and dh3 are all preset weight coefficients, and the values can be 1.5, 2.7 and 2.4;

marking the reselected end with the maximum stress value as the corresponding end; the model preset value and the response total value are larger, the stress value is larger, and the probability that the preferred end transports the articles is larger; the smaller the corresponding total distance is, the larger the stress value is;

generating an emergency signaling and sending the emergency signaling to a mobile phone terminal of an owner corresponding to an opposite end, wherein the emergency signaling comprises a position and a demand position of a stock merchant and an emergency demand instruction; meanwhile, the demand information is sent to a mobile phone terminal corresponding to a standby merchant; after receiving the demand information through the mobile phone terminal, the standby merchant packs the corresponding article to obtain an article package;

And after receiving the emergency signaling through the mobile phone terminal, the owner controls the corresponding end to convey the article package to a required position.

The sensing control analysis module also comprises a coping acquisition unit and a coping analysis unit;

the corresponding acquisition unit is used for acquiring a first moment when the corresponding owner of the corresponding end receives the emergency signaling through the mobile phone terminal and a second moment when the corresponding end conveys the article package to a required position and sending the article package to the corresponding analysis unit;

the handling analysis unit is used for receiving the first time and the second time and performing analysis processing, and the specific processing includes: calculating the time difference between the first time and the second time to obtain the single corresponding time length of the corresponding opposite end, dividing the value corresponding to the single corresponding time length by the value corresponding to the total distance to obtain a time distance value, and marking the current time as the recording time of the time distance value; sequencing all time interval values of the processing end according to the sequence of the recording time; taking the recording time as a horizontal coordinate and the numerical value of the time distance value as a vertical coordinate, and establishing a rectangular coordinate system; connecting the numerical values of two adjacent time distance values between points on a rectangular coordinate system to obtain a time distance line, calculating the slope of the time distance line, and marking the numerical value of the slope of the time distance line as an acute slope value if the included angle between the time distance line and the horizontal coordinate is an acute angle; when the included angle between the time distance line and the abscissa is an obtuse angle, marking the numerical value of the slope of the time distance line as an obtuse slope value; summing all the acute values to obtain an acute total value, summing all the obtuse total values to obtain an obtuse total value, dividing the obtuse total value by the acute total value to obtain a corresponding total value, and sending the corresponding total value to a server;

The unmanned aerial vehicle registration module is used for submitting registration information of the unmanned aerial vehicle to register and sending the registration information which is successfully registered to the server for storage, and the server marks the unmanned aerial vehicle which is successfully registered as a registration end; the registration information comprises a mobile phone terminal communication number, the position and the model of the unmanned aerial vehicle, a preset coping area and a total flying distance;

referring to fig. 2, the early warning reminding module is used for early warning and reminding a user, and includes an isolation acquisition unit, a permission acquisition unit, a position acquisition unit and a trigger reminding unit;

the isolation acquisition unit acquires travel data of an isolated person and sends the travel data to the trigger reminding unit; the trip data comprises places where the isolated personnel pass within fifteen days, corresponding to the initial time to be detected and the ending time to be detected;

the authority acquisition unit acquires the position authority and the reminding authority of the user; the position acquisition unit is used for acquiring the real-time position of a user granted with position authority and sending the real-time position to the trigger reminding unit;

the trigger reminding unit processes the trip data, and specifically comprises the following steps:

processing travel data of the isolated personnel, and marking a passing area of the isolated personnel as a reminding area; acquiring the number one of current isolated personnel in a reminding area, the number two of the corresponding isolated personnel passing by and the waiting time; summing the waiting time of all isolated personnel in the reminding area to obtain the total personnel time; extracting numerical values of the first quantity, the second quantity and the total personnel duration; sequencing the time to be finished of the isolation personnel according to the time sequence, and calculating the time difference between the last time to be finished of the sequencing and the current time length to obtain the isolation interval time length; extracting numerical values of the first quantity, the second quantity, the total personnel duration and the isolation interval duration; the four values are labeled M11, M12, T11, and T12, respectively;

Using formulas

Obtaining a reminding value TX of a reminding zone; wherein bm1, bm2, bm3 and bm4 are all preset weight factors and take values of 2.1, 0.13, 0.28 and 0.45; the probability that the place corresponds to the reminding user is higher if the values of the quantity I, the quantity II and the total duration of the personnel are higher, and the reminding value is higher;

when the reminding value TX is larger than a set reminding threshold TB, calculating the difference between the reminding value TX and the set reminding threshold TB to obtain a threshold lifting difference TS; setting a plurality of reminding distances, wherein each reminding distance corresponds to a value range, comparing the threshold extraction difference with the value ranges of all reminding distances, and marking the reminding distance in the value range as the radius of a reminding area when the threshold extraction difference is in the value range; selecting the center of the reminding area, and drawing a circle reminding area by the radius of the reminding area; when the position of the position authority granted user enters a reminding area, generating a reminding early warning signaling and sending the reminding early warning signaling to the mobile phone terminal of the position authority granted user; the reminding early warning signaling comprises risk reminding and attention protection reminding characters or voice;

the method comprises the steps that a reminding area and a reminding value are obtained by marking and analyzing the place where an isolated person passes, the reminding area is obtained through the reminding value, and when a user enters the reminding area, a reminding early warning signal is calculated and generated to a mobile phone terminal of the user, so that the user is reminded of taking care of protection, and the method is used for solving the problem that the existing risk area cannot timely remind the user of risks;

The server also comprises an acquisition detection module and an analysis processing module, wherein the acquisition detection module is used for acquiring monitoring data of an isolated acquisition end, and the isolated acquisition end is a body temperature monitoring end or an intelligent bracelet and is used for acquiring face information, body temperature information and position information of an isolated person and marking the face information, the body temperature information and the position information as monitoring data;

the analysis processing module is used for analyzing and processing the detection data, processing the body temperature information and the position information, generating an early warning signaling when the body temperature in the body temperature data is greater than a set threshold value or the position in the position information is not in a corresponding isolation area, and sending the early warning signaling to an intelligent terminal of a corresponding responsible person;

when the system is used, a sensing and controlling person inputs demand information to a server, a sensing and controlling analysis module analyzes and processes the demand information, the name of a demand article in the demand information is matched with article data in an emergency article, a merchant corresponding to the demand article is obtained and marked as a primary selected merchant, the position of the primary selected merchant and the demand position are calculated to obtain an article space, and the primary selected merchant with the minimum article space is marked as a stock merchant; acquiring registration information of a registration end, comparing a preset coping area in the registration information with a required position, marking the registration end containing the required position in the preset coping area as a preferred end, respectively carrying out distance calculation on the position of the preferred end, the required position and the position of a stock merchant to obtain a first distance and a second distance, summing the first distance, the second distance and an article distance line to obtain a coping total distance, and marking the preferred end with the value of subtracting the coping total distance from the flying total distance of the preferred end and larger than a set threshold value as a reselected end; acquiring a corresponding total value and a model of a reselecting terminal; setting all models to correspond to model preset values, matching the models of the reselecting end with all the models to obtain corresponding model preset values, performing normalization processing on the model preset values, the corresponding total values and the corresponding total distances to obtain corresponding values, selecting corresponding opposite ends through the corresponding values, and conveying the article packages corresponding to the demand information to demand positions through the corresponding opposite ends, so that the demand articles are provided for the sensing and control personnel during isolation, the contact of the personnel is reduced, and the probability of contact infection is reduced; the trip data are processed by the triggering reminding unit, a reminding area and a reminding value are obtained by marking and analyzing the place where the isolated personnel pass through, the reminding area is obtained through the reminding value, and when the user enters the reminding area, a reminding early warning signal is calculated and generated to a mobile phone terminal of the user so as to remind the user of protection;

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (4)

1. An artificial intelligence-based emergency response system for infection prevention and control comprises a data acquisition module, a server, a data input module and a sensing control analysis module; the system is characterized in that the data acquisition module is used for acquiring position data of a risk area and article data of an emergency article and sending the position data and the article data to the server; the data input module is used for sensing and controlling personnel to input demand information and send the demand information to the server, and the server receives the demand information and then sends the demand information to the sensing and controlling analysis module;

the sensing control analysis module is used for analyzing and processing the demand information, and the specific processing process is as follows;

Matching the name of the demand item in the demand information with the item data in the emergency item, acquiring a merchant corresponding to the demand item, marking the merchant as a primary selection merchant, calculating the position of the primary selection merchant and the demand position to obtain an item distance, and marking the primary selection merchant with the minimum item distance as a spare merchant;

acquiring registration information of a registration end, comparing a preset coping area with a demand position in the registration information, marking the registration end containing the demand position in the preset coping area as a preferred end, respectively carrying out distance calculation on the position of the preferred end, the demand position and the position of a stock dealer to obtain a first distance and a second distance, summing the first distance, the second distance and an article distance to obtain a coping total distance, and marking the preferred end with the value obtained by subtracting the coping total distance from the total flying distance of the preferred end and larger than a set threshold value as a reselecting end;

acquiring a corresponding total value and a model of a reselected terminal; setting model preset values corresponding to all models, matching the models of the reselecting end with all models to obtain corresponding model preset values, and then carrying out normalization processing on the model preset values, the coping total values and the coping total intervals to obtain a tight response value of the reselecting end; marking the reselected end with the maximum stress value as the corresponding end; generating an emergency signaling and sending the emergency signaling to a mobile phone terminal of an owner corresponding to an opposite end, wherein the emergency signaling comprises a position and a demand position of a stock merchant and an emergency demand instruction; meanwhile, the demand information is sent to a mobile phone terminal corresponding to a standby merchant; after receiving the demand information through the mobile phone terminal, the standby merchant packs the corresponding article to obtain an article package;

After receiving the emergency signaling through the mobile phone terminal, the owner controls the corresponding end to convey the article package to a required position;

the sensing control analysis module also comprises a coping acquisition unit and a coping analysis unit;

the corresponding acquisition unit is used for acquiring a first moment when an owner corresponding to the corresponding end receives the emergency signaling through the mobile phone terminal and a second moment when the corresponding end conveys the article package to a required position, and sending the first moment and the second moment to the corresponding analysis unit;

the coping analysis unit is used for receiving the first time and the second time and carrying out analysis processing, and the specific processing is as follows: calculating the time difference between the first time and the second time to obtain the single corresponding time length of the corresponding opposite end, dividing the value corresponding to the single corresponding time length by the value corresponding to the total distance to obtain a time distance value, and marking the current time as the recording time of the time distance value; sequencing all time interval values of the processing end according to the sequence of the recording time; taking the recording time as a horizontal coordinate and the numerical value of the time distance value as a vertical coordinate, and establishing a rectangular coordinate system; connecting the numerical values of two adjacent time distance values between points on a rectangular coordinate system to obtain a time distance line, calculating the slope of the time distance line, and marking the numerical value of the slope of the time distance line as an acute slope value if the included angle between the time distance line and the horizontal coordinate is an acute angle; when the included angle between the time distance line and the abscissa is an obtuse angle, marking the numerical value of the slope of the time distance line as an obtuse slope value; and summing all the acute values to obtain an acute total value, summing all the obtuse total values to obtain an obtuse total value, dividing the obtuse total value by the acute total value to obtain a corresponding total value, and sending the corresponding total value to the server.

2. The artificial intelligence based emergency response system for infection prevention and control according to claim 1, further comprising a registration login module, wherein the registration login module is used for an owner of the unmanned aerial vehicle to submit registration information of the unmanned aerial vehicle for registration and send the registration information of successful registration to the server for storage, and the server marks the unmanned aerial vehicle of successful registration as a registration end; the registration information comprises a mobile phone terminal communication number, the position and the model of the unmanned aerial vehicle, a preset coping area and a total flying distance.

3. The artificial intelligence based emergency response system for infection prevention and control according to claim 1, further comprising an early warning module; the early warning reminding module is used for early warning and reminding a user and comprises an isolation acquisition unit, a permission acquisition unit, a position acquisition unit and a trigger reminding unit;

the isolation acquisition unit is used for acquiring the travel data of the isolated personnel and sending the travel data to the trigger reminding unit;

the permission acquisition unit is used for acquiring the position permission and the reminding permission of the user; the position acquisition unit is used for acquiring the real-time position of a user granted with position authority and sending the real-time position to the trigger reminding unit;

The triggering reminding unit is used for processing travel data, and the specific processing process is as follows: processing travel data of the isolated personnel, and marking a passing area of the isolated personnel as a reminding area; acquiring the number one of the current isolations in the reminding area, the number two of the corresponding isolations and the waiting time; summing the waiting time of all isolated personnel in the reminding area to obtain the total personnel time; extracting numerical values of the first quantity, the second quantity and the total personnel duration; sequencing the time to be finished of the isolation personnel according to the time sequence, and calculating the time difference between the last time to be finished of the sequencing and the current time length to obtain the isolation interval time length; extracting the numerical values of the first quantity, the second quantity, the total personnel time length and the isolation interval time length, analyzing the numerical values to obtain a reminding value of the reminding area, and calculating the difference value between the first quantity and the second quantity to obtain a threshold extracting difference when the reminding value is greater than a set reminding threshold value; setting a plurality of reminding distances, wherein each reminding distance corresponds to a value range, comparing the threshold extraction difference with the value ranges of all reminding distances, and marking the reminding distance in the value range as the radius of a reminding area when the threshold extraction difference is in the value range; selecting the center of the reminding area, and drawing a circle reminding area by the radius of the reminding area; and when the position of the position authority granting user enters the reminding area, generating a reminding early warning signaling and sending the reminding early warning signaling to the mobile phone terminal of the position authority granting user.

4. The artificial intelligence based emergency response system for infection prevention and control according to claim 3, wherein the item data includes a name of the item, a remaining quantity, and a corresponding merchant name, location, and communication number; the demand information comprises a communication number, a demand article name and a demand position; the travel data comprise places where the isolated personnel pass within fifteen days, corresponding to the initial time to be determined and the end time to be determined.

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