CN111489813A - Medical queuing and registering system based on 5G equipment - Google Patents

Abstract

The invention discloses a medical queuing and registering system based on 5G equipment, which is used for solving the problem that a certain user cannot see a doctor in advance because reserved numbers cannot be exchanged in the conventional medical queuing and registering system; the system comprises a registration module, a user calculation module, a server, a data acquisition module and an inquiry display module; the registration login module is used for submitting user information registration by a user and sending the user information which is successfully registered to the server for storage, and the reservation registration module is used for carrying out reservation registration processing by the user; the invention carries out number exchange and forced exchange among the users who have reserved registration, is convenient for the users to reasonably arrange the number sequence according to the self condition, and avoids the problem that the reserved numbers of the existing medical queuing and registration system can not be exchanged, which causes the problem that the users can not see a doctor in advance; through the sequencing display of the hospitals, the user can conveniently and quickly find the corresponding hospital doctor for appointment and doctor-seeing.

Description

Medical queuing and registering system based on 5G equipment

Technical Field

The invention relates to the technical field of queuing and registering systems, in particular to a medical queuing and registering system based on 5G equipment.

Background

As the informationization and intelligent construction of various industries at present is more and more popularized, the requirement of the whole society on the handling efficiency of each industry is higher and higher, particularly the service industry, the service requirement of a served person is met, the service quality is improved, the service efficiency is improved, for example, the hospital outpatient service and the like, the current patient not only requires the hospital to meet the business requirement, but also requires the hospital to improve the hospitalizing environment and the service quality and reduce the waiting time of the patient as much as possible, and the hospital needs to improve the handling efficiency and the service image due to the competition, and the queuing phenomena of the handling windows and outpatient services are difficult to avoid; after the hospital queuing and registration system is used, a patient and family members thereof only need to sit there to wait for the prompt of sound and a display screen without continuous exploration, a quiet and peaceful hospitalizing environment is formed for the hospital, a good working environment can be created for doctors, the working time of workers is reduced during queuing, a good environment is created for the patient to see a doctor, and a client management system in the hospital field is specially created for the hospital;

however, the reserved numbers of the existing medical queuing and registering system cannot be exchanged, some users who are temporarily urgent want to see a doctor in advance, but the reserved numbers cannot be exchanged, so that the users are inconvenient to use when the users have emergencies.

Disclosure of Invention

The invention aims to provide a medical queuing and registering system based on 5G equipment, which is convenient for users to reasonably arrange number sequence according to self conditions by carrying out number exchange and forced exchange on the users who have reserved and registered, and avoids the problem that the existing medical queuing and registering system cannot exchange reserved numbers to cause that a certain user cannot see a doctor in advance; through the sequencing display of the hospitals, the user can conveniently and quickly find the corresponding hospital doctor for appointment visit;

the technical problem to be solved by the invention is as follows:

1. how to process the switching instruction forcing instruction sent by the user and carry out number exchange and forced exchange between the users with reserved registration through the queuing registration value, so that the user can conveniently carry out reasonable number sequence arrangement according to the self condition, and the problem that the reserved numbers of the existing medical queuing registration system can not be exchanged, so that the problem that the users can not see a doctor in advance is solved;

the purpose of the invention can be realized by the following technical scheme: a medical queuing and registering system based on 5G equipment comprises a registration and login module, an appointment registering module, a user calculation module, a server, a data acquisition module and an inquiry display module;

the registration login module is used for submitting user information registration by a user and sending the user information which is successfully registered to the server for storage, and meanwhile, the sending time is the registration time of the user; the reservation registration module is used for a user to perform reservation registration processing, and the specific registration processing steps are as follows:

the method comprises the following steps: the mobile phone terminal of the user is in communication connection with the 5G base station and the reservation registration module through the 5G network;

step two: a user inputs an appointment instruction, patient information, an appointment doctor number and a name through a mobile phone terminal and sends the appointment instruction, the patient information, the appointment doctor number and the name to an appointment registration module;

step three: the appointment register module receives an appointment instruction, patient information, and the appointment doctor number and name and performs register sequencing; acquiring a reserved serial number of the doctor serial number; when the number is equal to a preset value, the reservation cannot be carried out; and when the number is smaller than the preset value, numbering, wherein the specific numbering steps are as follows:

s1: when the reservation registration module receives a reservation instruction of a user, the registration number is the reserved number added by one;

s2: when the reservation registration module receives two or more user reservation instructions at the same time, sequencing to obtain a queuing registration value of the user; sequencing the users according to the queuing registration value from large to small; adding one to the serial number of the registered number of the user in the top sequence, and when the serial number is equal to a preset value, generating a reservation failure instruction and sending the reservation failure instruction to the mobile phone terminal of the user in the sequence and later; when the serial number is smaller than the preset value, adding two to the serial number of the user registration number in the sequence; and so on;

s3: marking the user with the obtained number as a user with successful appointment, and sending the corresponding number to the mobile phone terminal of the user with successful appointment;

step four: after the mobile phone terminal of the user with successful reservation receives the number, the user with successful reservation sends a confirmation instruction, an exchange number, a forced instruction and a forced number to the reservation registration module through the mobile phone terminal;

step five: when the reservation registration module receives the confirmation instruction, the operation is not carried out; when the reservation registration module receives the exchange instruction and the exchange number, acquiring and processing a queuing registration value of the user with successful reservation, wherein the specific processing steps are as follows:

SS 1: marking the users who send the exchange instructions and have successful reservation as the demand users; marking the booking success user with the serial number arranged in front of the user needing to be reserved as a primary selection user; setting initial selection users as Pi, i is 1, … … and 29;

SS 2: subtracting the number of the replacement user from the number of the user needing to be replaced to obtain the number of the people needing to be queued between the user needing to be queued and the user initially selected, and marking the number as G_Pi；

SS 3: using the formula F_Pi＝G_PiB1 obtaining single exchange value F of the user needing to select and the user initially_Pi(ii) a Wherein b1 is a preset exchange scale factor;

SS 4: matching the single exchange value with the queuing registration value of the demand user, and marking the primary user with the single exchange value smaller than the queuing registration value of the demand user as a preferred user;

SS 5: sorting the preferred users from big to small according to the single exchange value; sending a replacement request instruction, the name and the number of a user to be required to the mobile phone terminal of the preferred user with the most front sequence; when the preferred user sends an agreement instruction within a preset time threshold, the exchange is successful, the numbers of the required user and the preferred user are exchanged, and the numbers are sent to the corresponding mobile phone terminal; at the same time, the queuing number value of the preferred user is increased by F_PiThe total number of exchanges for the preferred subscriber is increased once; the queuing registration value of the demand user is reduced by F_Pi(ii) a When the preferred user sends an disapproval instruction within the preset time threshold or does not send an instruction within the preset time threshold, the exchange fails, a replacement request instruction, the name and the number of the user needed are sent to the preferred user mobile phone terminal with the next ranking value, and so on until the preferred user sends the disapproval instruction, the sending is stopped, and when the last ranked preferred user sends the disapproval instruction within the preset time threshold, the preferred user stops sendingIf an disapproved instruction is sent within the time threshold or no instruction is sent within the preset time threshold, the exchange fails, and an instruction which cannot be exchanged is generated and sent to the mobile phone terminal of the user in need;

step six: when the reservation registration module receives the forced instruction and the forced number, the reservation registration module carries out processing, and the specific processing steps are as follows:

SSS 1: marking the reservation successful user corresponding to the forced number as a forced user; calculating the number difference between the demand users and the mandatory users to obtain the number of the demand users and the mandatory users needing to queue, and recording the number as QA;

SSS 2: obtaining a forced replacement value QZ by using a formula QZ QA b 2; wherein b2 is a preset exchange scale factor; and b2> b 1;

SSS 3: when the queuing registration value of the required user is smaller than the forced updating value, generating a forced failure instruction and sending the forced failure instruction to the mobile phone terminal of the required user; when the queuing registration value of the demand user is larger than or equal to the forced replacement value; exchanging the number of the user needing to be exchanged with the number of the compulsory user, and sending the exchanged numbers to the mobile phone terminals of the user needing to be exchanged and the user forcing to be exchanged; meanwhile, the total forcing times of the forcing user are increased once; and the queuing register value of the user is forced to be increased by QZ, and the queuing register value of the user is required to be decreased by QZ.

The user information comprises a name, a mobile phone number, an identity card number and a residence address; the patient information includes name, identification number and age.

The user calculation module is used for calculating a queuing registration value of a user, and comprises the following specific calculation steps:

the method comprises the following steps: setting a user as Rj; j is 1, … …, n;

step two: calculating the registration time length of the user according to the current time and the registration time of the system and marking the registration time length as TRj;

step three: marking the total number of compulsory times of the user as Q_Rj(ii) a The total number of exchanges of the user is marked J_Rj(ii) a Summing all the reduced forced replacement values and the single-time replacement value of the user to obtain a reduced total value and marking the reduced total value as M_Rj(ii) a Adding all usersThe forced swap value and the single swap value are summed to obtain an added total value and are labeled as Z_Rj；

Step four: using formulas

Obtaining the queue registration value PD of the user_Rj(ii) a Wherein b3, b4 and b5 are all preset proportionality coefficients; λ is a correction factor, and its value is 0.96654321;

step five: and the user calculation module sends the queuing registration value of the user to the server for storage.

The data acquisition module is used for acquiring hospital information and sending the hospital information to the server for storage, wherein the hospital information comprises a hospital name, a hospital position, a name of a doctor on duty in a department and the number of unseen registered numbers corresponding to the doctor on duty in the department; the inquiry display module is used for the user to inquire the registration of the hospital, and the specific inquiry steps are as follows:

the method comprises the following steps: the user inputs the department for seeing a doctor and the current mobile phone positioning position to the query display module through the mobile phone terminal, and the query display module receives the department for seeing a doctor; acquiring a queuing registration value of the user;

step two: using the formula r ═ PD_RjB6 obtaining a screening radius r; wherein b6 is a preset proportionality coefficient; taking the current mobile phone positioning position of the user as the center of a circle, drawing a circle by a screening radius r to obtain a screening range, selecting all hospitals with hospital positions in the screening range, and marking the hospitals as primary hospitals;

step three: marking a primary hospital provided with a department for seeing a doctor input by a user as a preferred hospital, and marking the preferred hospital as Yk, wherein k is 1, … … and n; the preferred hospital physician on duty is labeled Ykm, m 1, … …, n;

step four: setting the number of unseen registration numbers corresponding to the doctor on duty as M_Ykm(ii) a Calculating the distance difference between the current mobile phone positioning position of the user and the position of the preferred hospital, and marking the distance difference as G_Yk；

Step five: using formulas

Acquiring the ordering value of the on-duty doctors of the preferred hospital; wherein b7 and b8 are both preset proportionality coefficients;

step six: and sending the name of the doctor on duty in the department, the name and the position of the preferred hospital and the number of the missed registers corresponding to the doctor on duty in the department to a mobile phone terminal of a user, and sequencing and displaying the doctor on duty from top to bottom according to the sequencing value of the doctor on duty.

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

1. the reservation registration module is used for a user to perform reservation registration processing, and after a mobile phone terminal of the user who successfully reserves receives a number, the user who successfully reserves sends a confirmation instruction, an exchange number, a forced instruction and a forced number to the reservation registration module through the mobile phone terminal; when the reservation registration module receives the exchange instruction and the exchange number, acquiring and processing a queuing registration value of a user who succeeds in reservation, matching the single exchange value with the queuing registration value of a user needing to be reserved, and sending a replacement request instruction, the name and the number of the user needing to be reserved to a mobile phone terminal of a preferred user with the highest ranking; when the preferred user sends an agreement instruction within a preset time threshold, the exchange is successful; the number exchange and the forced exchange are carried out among the users who have reserved registration, so that the users can conveniently arrange the number sequence reasonably according to the self condition, and the problem that the reserved numbers of the existing medical queuing and registering system cannot be exchanged, so that the users cannot see a doctor in advance is avoided;

2. the inquiry display module is used for the user to carry out hospital registration inquiry, the user inputs a doctor's department and the current mobile phone positioning position to the inquiry display module through the mobile phone terminal, and the inquiry display module receives the doctor's department and then carries out hospital registration inquiry; acquiring a queuing registration value of the user; obtaining a screening radius by using a formula; taking the current mobile phone positioning position of the user as a circle center, drawing a circle by using the screening radius to obtain a screening range, selecting all hospitals of which the hospital positions are within the screening range, marking primary hospitals of departments with which the user inputs to see a doctor as preferred hospitals, and calculating the distance difference according to the current mobile phone positioning position of the user and the positions of the preferred hospitals; acquiring the ordering value of the on-duty doctor of the optimal hospital by using a formula; the name of the doctor on duty in the department, the name and the position of the preferred hospital and the number of the missed registers corresponding to the doctor on duty in the department are sent to the mobile phone terminal of the user, and the sequencing value of the doctor on duty is displayed in a sequencing way from top to bottom; through the sequencing display of the hospitals, the user can conveniently and quickly find the corresponding hospital doctor for appointment and doctor-seeing.

Drawings

In order 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 a schematic block diagram of a medical queuing and registering system based on 5G equipment.

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, a medical queuing and registering system based on 5G equipment comprises a registration and login module, an appointment registration module, a user calculation module, a server, a data acquisition module and an inquiry display module;

the registration login module is used for submitting user information registration by a user and sending the user information which is successfully registered to the server for storage, and meanwhile, the sending time is the registration time of the user; the user information comprises a name, a mobile phone number, an identity card number and a living address; the reservation registration module is used for the user to perform reservation registration processing, and the specific registration processing steps are as follows:

the method comprises the following steps: the mobile phone terminal of the user is in communication connection with the 5G base station and the reservation registration module through the 5G network;

step two: a user inputs an appointment instruction, patient information, an appointment doctor number and a name through a mobile phone terminal and sends the appointment instruction, the patient information, the appointment doctor number and the name to an appointment registration module; the patient information comprises name, identification card number and age;

step three: the appointment register module receives an appointment instruction, patient information, and the appointment doctor number and name and performs register sequencing; acquiring a reserved serial number of the doctor serial number; when the number is equal to a preset value, the reservation cannot be carried out; and when the number is smaller than the preset value, numbering, wherein the specific numbering steps are as follows:

s1: when the reservation registration module receives a reservation instruction of a user, the registration number is the reserved number added by one;

s2: when the reservation registration module receives two or more user reservation instructions at the same time, sequencing to obtain a queuing registration value of the user; sequencing the users according to the queuing registration value from large to small; adding one to the serial number of the registered number of the user in the top sequence, and when the serial number is equal to a preset value, generating a reservation failure instruction and sending the reservation failure instruction to the mobile phone terminal of the user in the sequence and later; when the serial number is smaller than the preset value, adding two to the serial number of the user registration number in the sequence; and so on;

s3: marking the user with the obtained number as a user with successful appointment, and sending the corresponding number to the mobile phone terminal of the user with successful appointment;

step four: after the mobile phone terminal of the user with successful reservation receives the number, the user with successful reservation sends a confirmation instruction, an exchange number, a forced instruction and a forced number to the reservation registration module through the mobile phone terminal;

step five: when the reservation registration module receives the confirmation instruction, the operation is not carried out; when the reservation registration module receives the exchange instruction and the exchange number, acquiring and processing a queuing registration value of the user with successful reservation, wherein the specific processing steps are as follows:

SS 1: marking the users who send the exchange instructions and have successful reservation as the demand users; marking the booking success user with the serial number arranged in front of the user needing to be reserved as a primary selection user; setting initial selection users as Pi, i is 1, … … and 29;

SS 2: subtracting the number of the user to be replaced from the number of the user to be replaced to obtain the row required between the user to be selected and the user to be initially selectedNumber of teams and labeled G_Pi；

SS 3: using the formula F_Pi＝G_PiB1 obtaining single exchange value F of the user needing to select and the user initially_Pi(ii) a Wherein b1 is a preset exchange scale factor;

SS 4: matching the single exchange value with the queuing registration value of the demand user, and marking the primary user with the single exchange value smaller than the queuing registration value of the demand user as a preferred user;

SS 5: sorting the preferred users from big to small according to the single exchange value; sending a replacement request instruction, the name and the number of a user to be required to the mobile phone terminal of the preferred user with the most front sequence; when the preferred user sends an agreement instruction within a preset time threshold, the exchange is successful, the numbers of the required user and the preferred user are exchanged, and the numbers are sent to the corresponding mobile phone terminal; at the same time, the queuing number value of the preferred user is increased by F_PiThe total number of exchanges for the preferred subscriber is increased once; the queuing registration value of the demand user is reduced by F_Pi(ii) a When the preferred user sends a disagreeable instruction within a preset time threshold or does not send an instruction within the preset time threshold, the exchange fails, a replacement request instruction, the name and the number of a user to be required are sent to the preferred user mobile phone terminal with the next sequencing value, the analogy is repeated, the sending is stopped after the preferred user sends the agree instruction, when the last preferred user sends the disagreeable instruction within the preset time threshold or does not send an instruction within the preset time threshold, the exchange fails, and an instruction which cannot be exchanged is generated and sent to the mobile phone terminal of the user to be required;

step six: when the reservation registration module receives the forced instruction and the forced number, the reservation registration module carries out processing, and the specific processing steps are as follows:

SSS 1: marking the reservation successful user corresponding to the forced number as a forced user; calculating the number difference between the demand users and the mandatory users to obtain the number of the demand users and the mandatory users needing to queue, and recording the number as QA;

SSS 2: obtaining a forced replacement value QZ by using a formula QZ QA b 2; wherein b2 is a preset exchange scale factor; and b2> b 1;

SSS 3: when the queuing registration value of the required user is smaller than the forced updating value, generating a forced failure instruction and sending the forced failure instruction to the mobile phone terminal of the required user; when the queuing registration value of the demand user is larger than or equal to the forced replacement value; exchanging the number of the user needing to be exchanged with the number of the compulsory user, and sending the exchanged numbers to the mobile phone terminals of the user needing to be exchanged and the user forcing to be exchanged; meanwhile, the total forcing times of the forcing user are increased once; the queuing register value of the user is forced to increase QZ, and the queuing register value of the user is required to decrease QZ;

the user calculation module is used for calculating a queuing registration value of a user, and comprises the following specific calculation steps:

the method comprises the following steps: setting a user as Rj; j is 1, … …, n;

step two: calculating the registration time length of the user according to the current time and the registration time of the system and marking the registration time length as T_Rj；

Step three: marking the total number of compulsory times of the user as Q_Rj(ii) a The total number of exchanges of the user is marked J_Rj(ii) a Summing all the reduced forced replacement values and the single-time replacement value of the user to obtain a reduced total value and marking the reduced total value as M_Rj(ii) a Summing all added forced exchange values and single exchange values of the user to obtain an added total value and marking the added total value as Z_Rj；

Step four: using formulas

Obtaining the queue registration value PD of the user_Rj(ii) a Wherein b3, b4 and b5 are all preset proportionality coefficients; λ is a correction factor, and its value is 0.96654321; the more the total forced times of the user are, the larger the queuing registration value of the user is, and the higher the probability of the exchange between the user and other registered users is;

step five: the user calculation module sends the queuing register value of the user to a server for storage;

the data acquisition module is used for acquiring hospital information and sending the hospital information to the server for storage, wherein the hospital information comprises a hospital name, a hospital position, a name of a doctor on duty in a department and the number of unseen registration numbers corresponding to the doctor on duty in the department; the inquiry display module is used for the user to inquire the registration of the hospital, and the specific inquiry steps are as follows:

the method comprises the following steps: the user inputs the department for seeing a doctor and the current mobile phone positioning position to the query display module through the mobile phone terminal, and the query display module receives the department for seeing a doctor; acquiring a queuing registration value of the user;

step two: using the formula r ═ PD_RjB6 obtaining a screening radius r; wherein b6 is a preset proportionality coefficient; taking the current mobile phone positioning position of the user as the center of a circle, drawing a circle by a screening radius r to obtain a screening range, selecting all hospitals with hospital positions in the screening range, and marking the hospitals as primary hospitals;

step three: marking a primary hospital provided with a department for seeing a doctor input by a user as a preferred hospital, and marking the preferred hospital as Yk, wherein k is 1, … … and n; the preferred hospital physician on duty is labeled Ykm, m 1, … …, n;

step four: setting the number of unseen registration numbers corresponding to the doctor on duty as M_Ykm(ii) a Calculating the distance difference between the current mobile phone positioning position of the user and the position of the preferred hospital, and marking the distance difference as G_Yk；

Step five: using formulas

Acquiring the ordering value of the on-duty doctors of the preferred hospital; wherein b7 and b8 are both preset proportionality coefficients;

step six: and sending the name of the doctor on duty in the department, the name and the position of the preferred hospital and the number of the missed registers corresponding to the doctor on duty in the department to a mobile phone terminal of a user, and sequencing and displaying the doctor on duty from top to bottom according to the sequencing value of the doctor on duty.

The working principle of the invention is as follows: the reservation registration module is used for the user to perform reservation registration processing, and after the mobile phone terminal of the user who succeeds in reservation receives the serial number, the user who succeeds in reservation sends a confirmation instruction, an exchange serial number, a forced instruction and a forced serial number to the reservation registration module through the mobile phone terminal; when appointment register mouldIf the block receives the confirmation instruction, no operation is carried out; when the reservation registration module receives the exchange instruction and the exchange number, acquiring and processing a queuing registration value of the user with successful reservation, and marking the user with successful reservation sending the exchange instruction as a required user; marking the booking success user with the serial number arranged in front of the user needing to be reserved as a primary selection user; subtracting the number of the replacement user from the number of the required user to obtain the number of the people who need to queue between the required user and the primary selection user, and utilizing a formula F_Pi＝G_PiB1 obtaining single exchange value F of the user needing to select and the user initially_Pi(ii) a Matching the single exchange value with the queuing registration value of the demand user, and marking the primary user with the single exchange value smaller than the queuing registration value of the demand user as a preferred user; sorting the preferred users from big to small according to the single exchange value; sending a replacement request instruction, the name and the number of a user to be required to the mobile phone terminal of the preferred user with the most front sequence; when the preferred user sends an agreement instruction within a preset time threshold, the exchange is successful; the number exchange and the forced exchange are carried out among the users who have reserved registration, so that the users can conveniently arrange the number sequence reasonably according to the self condition, and the problem that the reserved numbers of the existing medical queuing and registering system cannot be exchanged, so that the users cannot see a doctor in advance is avoided; the inquiry display module is used for the user to carry out hospital registration inquiry, the user inputs the department for seeing a doctor and the current mobile phone positioning position to the inquiry display module through the mobile phone terminal, and the inquiry display module receives the department for seeing a doctor; acquiring a queuing registration value of the user; using the formula r ═ PD_RjB6 obtaining a screening radius r; taking the current mobile phone positioning position of the user as the center of a circle, drawing a circle by a screening radius r to obtain a screening range, selecting all hospitals with hospital positions in the screening range, and marking the hospitals as primary hospitals; marking a primary hospital provided with a department who enters a doctor for seeing a doctor by a user as a preferred hospital, and calculating the distance difference according to the current mobile phone positioning position of the user and the position of the preferred hospital; using formulas

Acquiring the ordering value of the on-duty doctors of the preferred hospital; general officeThe name of the doctor on duty, the name and the position of the preferred hospital and the number of unseen registration corresponding to the doctor on duty in the department are sent to a mobile phone terminal of a user, and the doctor on duty is sorted and displayed from top to bottom according to the sorting value of the doctor on duty; through the sequencing display of the hospitals, the user can conveniently and quickly find the corresponding hospital for appointment and doctor watching.

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 forms 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 utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (4)

1. A medical queuing and registering system based on 5G equipment is characterized by comprising a registration and login module, an appointment registering module, a user calculating module, a server, a data acquisition module and an inquiry display module;

the registration login module is used for submitting user information registration by a user and sending the user information which is successfully registered to the server for storage, and meanwhile, the sending time is the registration time of the user; the reservation registration module is used for a user to perform reservation registration processing, and the specific registration processing steps are as follows:

the method comprises the following steps: the mobile phone terminal of the user is in communication connection with the 5G base station and the reservation registration module through the 5G network;

step two: a user inputs an appointment instruction, patient information, an appointment doctor number and a name through a mobile phone terminal and sends the appointment instruction, the patient information, the appointment doctor number and the name to an appointment registration module;

step three: the appointment register module receives an appointment instruction, patient information, and the appointment doctor number and name and performs register sequencing; acquiring a reserved serial number of the doctor serial number; when the number is equal to a preset value, the reservation cannot be carried out; and when the number is smaller than the preset value, numbering, wherein the specific numbering steps are as follows:

s1: when the reservation registration module receives a reservation instruction of a user, the registration number is the reserved number added by one;

s2: when the reservation registration module receives two or more user reservation instructions at the same time, sequencing to obtain a queuing registration value of the user; sequencing the users according to the queuing registration value from large to small; adding one to the serial number of the registered number of the user in the top sequence, and when the serial number is equal to a preset value, generating a reservation failure instruction and sending the reservation failure instruction to the mobile phone terminal of the user in the sequence and later; when the serial number is smaller than the preset value, adding two to the serial number of the user registration number in the sequence; and so on;

s3: marking the user with the obtained number as a user with successful appointment, and sending the corresponding number to the mobile phone terminal of the user with successful appointment;

step four: after the mobile phone terminal of the user with successful reservation receives the number, the user with successful reservation sends a confirmation instruction, an exchange number, a forced instruction and a forced number to the reservation registration module through the mobile phone terminal;

step five: when the reservation registration module receives the confirmation instruction, the operation is not carried out; when the reservation registration module receives the exchange instruction and the exchange number, acquiring and processing a queuing registration value of the user with successful reservation, wherein the specific processing steps are as follows:

SS 1: marking the users who send the exchange instructions and have successful reservation as the demand users; marking the booking success user with the serial number arranged in front of the user needing to be reserved as a primary selection user; setting initial selection users as Pi, i is 1, … … and 29;

SS 2: subtracting the number of the replacement user from the number of the user needing to be replaced to obtain the number of people needing to be queued between the user needing to be queued and the user initially selected, and marking the number as GPi;

SS 3: obtaining a single exchange value FPi of the user needing to be selected and the initial user by using a formula FPi-GPi b 1; wherein b1 is a preset exchange scale factor;

SS 4: matching the single exchange value with the queuing registration value of the demand user, and marking the primary user with the single exchange value smaller than the queuing registration value of the demand user as a preferred user;

SS 5: sorting the preferred users from big to small according to the single exchange value; sending a replacement request instruction, the name and the number of a user to be required to the mobile phone terminal of the preferred user with the most front sequence; when the preferred user sends an agreement instruction within a preset time threshold, the exchange is successful, the numbers of the required user and the preferred user are exchanged, and the numbers are sent to the corresponding mobile phone terminal; meanwhile, the queuing number value of the preferred user is increased FPi, and the total exchange times of the preferred user is increased once; the queuing number of the requesting user is decreased FPi; when the preferred user sends a disagreeable instruction within a preset time threshold or does not send an instruction within the preset time threshold, the exchange fails, a replacement request instruction, the name and the number of a user to be required are sent to the preferred user mobile phone terminal with the next sequencing value, the analogy is repeated, the sending is stopped after the preferred user sends the agree instruction, when the last preferred user sends the disagreeable instruction within the preset time threshold or does not send an instruction within the preset time threshold, the exchange fails, and an instruction which cannot be exchanged is generated and sent to the mobile phone terminal of the user to be required;

step six: when the reservation registration module receives the forced instruction and the forced number, the reservation registration module carries out processing, and the specific processing steps are as follows:

SSS 1: marking the reservation successful user corresponding to the forced number as a forced user; calculating the number difference between the demand users and the mandatory users to obtain the number of the demand users and the mandatory users needing to queue, and recording the number as QA;

SSS 2: obtaining a forced replacement value QZ by using a formula QZ QA b 2; wherein b2 is a preset exchange scale factor; and b2> b 1;

SSS 3: when the queuing registration value of the required user is smaller than the forced updating value, generating a forced failure instruction and sending the forced failure instruction to the mobile phone terminal of the required user; when the queuing registration value of the demand user is larger than or equal to the forced replacement value; exchanging the number of the user needing to be exchanged with the number of the compulsory user, and sending the exchanged numbers to the mobile phone terminals of the user needing to be exchanged and the user forcing to be exchanged; meanwhile, the total forcing times of the forcing user are increased once; and the queuing register value of the user is forced to be increased by QZ, and the queuing register value of the user is required to be decreased by QZ.

2. The medical queuing and registering system based on the 5G equipment as claimed in claim 1, wherein the user information comprises name, mobile phone number, identification number and residence address; the patient information includes name, identification number and age.

3. The medical queuing and registration system based on 5G equipment according to claim 1, wherein the user calculating module is used for calculating the queuing and registration value of the user, and the specific calculating steps are as follows:

the method comprises the following steps: setting a user as Rj; j is 1, … …, n;

step two: calculating the registration time length of the user according to the current time and the registration time of the system and marking the registration time length as TRj;

step three: label QRj the total number of user forces; the total number of exchanges by the user is marked JRj; summing all of the user's reduced forced replacement values and single-exchange values to obtain a reduced total value, labeled MRj; summing all the added forced-exchange values and single-exchange values of the user to obtain an added total value and marking as ZRj;

step four: using formulas

Acquiring a queuing registration value PDRj of a user; wherein b3, b4 and b5 are all preset proportionality coefficients; λ is a correction factor, and its value is 0.96654321;

step five: and the user calculation module sends the queuing registration value of the user to the server for storage.

4. The medical queuing and registering system based on the 5G device as claimed in claim 1, wherein the data acquisition module is used for acquiring hospital information and sending the hospital information to the server for storage, the hospital information includes hospital name, hospital position, name of doctor on duty in department and the number of unseen registers corresponding to doctor on duty in department; the inquiry display module is used for the user to inquire the registration of the hospital, and the specific inquiry steps are as follows:

the method comprises the following steps: the user inputs the department for seeing a doctor and the current mobile phone positioning position to the query display module through the mobile phone terminal, and the query display module receives the department for seeing a doctor; acquiring a queuing registration value of the user;

step two: obtaining a screening radius r by using a formula r ═ PDRj × b 6; wherein b6 is a preset proportionality coefficient; taking the current mobile phone positioning position of the user as the center of a circle, drawing a circle by a screening radius r to obtain a screening range, selecting all hospitals with hospital positions in the screening range, and marking the hospitals as primary hospitals;

step three: marking a primary hospital provided with a department for seeing a doctor input by a user as a preferred hospital, and marking the preferred hospital as Yk, wherein k is 1, … … and n; the preferred hospital physician on duty is labeled Ykm, m 1, … …, n;

step four: setting the number of unseen registration numbers corresponding to the doctor on duty as MYkm; calculating the distance difference between the current mobile phone positioning position of the user and the position of the preferred hospital, and marking the distance difference as GYk;

step five: using formulas

Acquiring the ordering value of the on-duty doctors of the preferred hospital; wherein b7 and b8 are both preset proportionality coefficients;

step six: and sending the name of the doctor on duty in the department, the name and the position of the preferred hospital and the number of the missed registers corresponding to the doctor on duty in the department to a mobile phone terminal of a user, and sequencing and displaying the doctor on duty from top to bottom according to the sequencing value of the doctor on duty.

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