CN113611402B - POCT personalized data processing method and application - Google Patents

Abstract

The invention provides a POCT (point of care testing) personalized data processing method and application, comprising the steps of setting a processing module into a module comprising a storage unit, a comparison unit and a calculation unit, and setting a database and a timer. The method also comprises the steps of setting triggering standard and execution rule of data processing in the timer. The method also comprises the step of updating project information of the project in the database. The method also comprises the step of giving each user an account number, and the personalized information can be updated by logging in the account number. The method also comprises the step of acquiring a signal for triggering the data processing flow through an interaction module or a detection reagent identification module or a processing module. According to the invention, the personalized information is combined with the standards and rules for synchronizing and cleaning the project information through the personalized processing method, so that the privacy of the patient is protected, the information comparison amount during detection is reduced, the working efficiency is improved, the network communication frequency is reduced, the data processing is more intelligent, and the user experience is improved.

Description

POCT personalized data processing method and application

Technical Field

The invention relates to the field of in-vitro diagnosis intelligent detection equipment Internet of things, in particular to a POCT (point of care testing) personalized data processing method and application.

Background

With the development of detection technology, point-of-care testing (POCT) equipment is widely used in hospitals, physical examination centers, primary medicine, and the like. The POCT detection equipment has the core characteristics of miniaturization, intellectualization and mobility, and can realize the detection of a plurality of items on the same equipment by using specific detection technologies, such as electrochemistry and immunofluorescence. However, due to the characteristics of the detection technology, the items all require a specific calibration curve to convert the original signals generated by the detection so as to obtain the detection result. For each test item, the calibration curve will be different for different lot numbers of the test reagents (or test strips, or test cards, the same below), and the calibration curve will also contain one or more calibration variables, such as temperature, humidity, reaction dilution factor, interferents, etc., which increase the number of calibration curves, so that the test item will have a collection of calibration curves.

When a certain detection item is detected, a corresponding detection reagent batch number and a calibration curve containing one or more of calibration variables such as temperature, humidity, reaction dilution coefficient, interferents and the like are searched and obtained from a set of calibration curves. And after obtaining the calibration curve, substituting the detected information of the detection items into the calibration curve for calculation to obtain a detection result. The calibration curve of the detected item can be stored in the intelligent detection POCT detection equipment, so that the detection reagent can be conveniently used when the same item corresponds to the detection reagent for detection next time. However, due to the limitation of the hardware condition of the intelligent POCT detection device, a large amount of storage space is required when a large amount of calibration curves are stored, which is not beneficial to the miniaturization of the POCT detection device and can not keep the characteristics of small size and beauty of the POCT detection device; meanwhile, with the increase of the use times, the project calibration curve set is increased, so that the time for searching and obtaining the calibration curve at the beginning of detection is prolonged, namely the whole comparison calculation amount is increased more and more, and the aim of rapid detection cannot be fulfilled; meanwhile, if different persons use the POCT detection equipment, the number of detected items is large, and the number of calibration curves is correspondingly increased, so that the time for searching and obtaining the calibration curves by the items detected by each detection person is continuously prolonged, and the detection efficiency is low; moreover, when POCT detection equipment is used by different persons, the patient information is easily known by non-related persons, and the privacy of the patient is not sufficiently protected.

Disclosure of Invention

The meaning of the terms related to the present invention in the present invention will be explained in detail below.

Threshold value

The threshold value of the invention is set according to the needs and the adaptability of the system, or is obtained from the second storage unit. The threshold may be a numerical value or not, may be a time or a text, and both the upper limit value and the lower limit value of a certain object are considered as thresholds.

Project information

The item information described in the present invention generally refers to the sum of the unique identifier of the item, the calibration curve set, and the clock, and when preparing for comparison or performing comparison, the item information refers to specific content or data among the unique identifier, the calibration curve set, and the clock, for example, when comparing the difference between the accessed time and the current time, the item information refers to the accessed time in the clock.

In order to solve the problems in the prior art, the invention provides a POCT personalized data processing method and an application method.

The POCT personalized data processing method comprises the following steps:

step one, the POCT detection equipment is set to be a device comprising an interaction module, a detection reagent identification module and a processing module.

And step two, setting the processing module into a module comprising a storage unit, a comparison unit and a calculation unit, dividing the storage unit of the storage unit into a first storage unit and a second storage unit, setting a database and a timer in the first storage unit, and setting the database in the second storage unit. Furthermore, the database of the first storage unit is divided into a first database and a second database, the first database is used for storing the item information, and the second database is used for storing the personalized information. The personalized information is stored in the second database, the personalized information and the non-personalized information are not interfered with each other, and confusion is avoided.

Step three, presetting a triggering standard and an execution rule of data processing in the timer, wherein the triggering standard is used for starting a data processing flow, the data processing flow is carried out according to the execution rule, the execution rule is started after the preset triggering standard is met, and the execution rule is not started if the triggering standard is not met; furthermore, an execution standard of data processing is set in the timer, the execution standard is used for determining an item needing to start an execution rule, item information corresponding to the determined item is processed according to the execution rule, the determined item can be one or a plurality of items, and the execution standard and the execution rule are in one-to-one correspondence.

And step four, updating the item information of the items in the database of the second storage unit. Furthermore, the timer is divided into a first timer and a second timer, and the second timer is provided with a standard and a rule of communication network connection, wherein the standard is an execution standard and/or a trigger standard, and the rule is an execution rule.

Setting a clock in the item information for recording the accessed trace of the item information, wherein the trace is updated according to the access condition; further, the clock is divided into a first clock and a second clock, or a third clock, or a fourth clock.

Step six, each user is given an account number, after the user logs in the account number, the database of the first storage unit is synchronized with personalized information, the user can be an individual or an organization, when the user is the organization, one account number can be used by each person of the organization, and people except the organization cannot use the account number; furthermore, after the personalized information is updated, a locking mark is added to the updated project information.

And seventhly, acquiring a signal triggering the data processing flow through the interaction module or the detection reagent identification module or the processing module.

The data processing flow comprises a data synchronization flow and a data cleaning flow, the synchronized data and the cleaned data are project information, the data synchronization comprises an automatic synchronization mode and a passive synchronization mode, and the data cleaning comprises an automatic cleaning mode and a passive cleaning mode.

Further, the method comprises the following steps: item information and/or personalization information of the item is updated in the database of the first storage unit. The personalized information can be divided into two layers, one is personal personalized information and the other is organization personalized information, the personalized information of the two layers can exist simultaneously or respectively, when the personalized information exists simultaneously, the organization personalized information can be bound with the equipment, the individual personalized information is bound with the account number for certain distinction, and the organization personalized information and the individual personalized information can also be bound in the account number.

Specifically, the automatic synchronization mode is to set the trigger standard as receiving a device startup signal or an account login signal, and the passive synchronization mode is to set the trigger standard as receiving a signal that a calibration curve is not found, or a signal that a closest calibration curve is not found, or a signal that a user inputs a synchronization request, or a signal that a unique identification code is input.

Specifically, the automatic cleaning mode is to set the trigger criteria to receive a device shutdown signal or an account logout signal, and the passive cleaning mode is to set the trigger criteria to receive a signal that synchronization is being performed, or a signal that synchronization is to be performed, or a signal that scene information is smaller than a threshold, or a signal that scene information is larger than a threshold.

Specifically, the personalized information in the sixth step includes unique identification codes or item information of the admission requisition items, or items commonly used by departments, or items commonly used by the user, or includes information that can be associated with the admission requisition items, or items commonly used by departments, or items commonly used by the user. The personalization information may also include project information for the project.

In particular, the execution rule is set as: and sending an instruction for deleting the corresponding item information, or sending an instruction for initiating a data synchronization request, or sending an instruction for outputting the item information to the second storage unit, or emptying the database. The corresponding item refers to an item meeting the execution standard.

In particular, the execution criteria are set as: the item information is larger than a threshold value, or the item information is smaller than the threshold value, or the scene information of the first storage unit is larger than the threshold value, or the scene information of the first storage unit is smaller than the threshold value, or no calibration curve is found, or no item information is found, or an item corresponding to the unique identification code is an unconventional item, or an item corresponding to the unique identification code is an unbound item, or the item information does not have a locking mark.

In particular, the first storage unit and the second storage unit manage and operate the saved data through a structured query language through a general relational database.

An application method of a POCT personalized data processing method is provided, which comprises the following steps.

S1, the user logs in the exclusive account, the first trigger criterion in the first timer is met, the first execution rule is started, the first storage unit performs data synchronization according to the personalized information of the exclusive account and the execution rule, and the item information bound by the account is synchronized to the first storage unit. After the first trigger standard is met, the first timer judges whether the first execution standard is met, if so, the first execution rule is started, and if not, the first execution rule is not started; the first execution criterion is: items bound by all accounts are not found, or item information is larger than a threshold value, or item information is smaller than the threshold value.

S2, during detection, the first timer receives a signal input by the unique identification code, the second trigger standard is met, the first timer judges whether the second execution standard is met, if yes, the second execution rule is started, and if not, the second execution rule is not started.

And S3, the user logs out the exclusive account, the third trigger standard is met, the first timer judges whether the third execution standard is met, if so, the third execution rule is started, and if not, the third execution rule is not started.

The first trigger criteria are: receiving an account login signal; the first execution rule is: and sending a data synchronization request initiating instruction. The second trigger criteria are: receiving a signal of a user input synchronization request or a signal of a unique identification code input; the second execution criterion is: finding no calibration curve, or finding no closest calibration curve, or finding no item information, or not an account number bound item; the second execution rule is: sending out a command for initiating a data synchronization request; the third trigger criteria are: receiving an account login signal; the third performance criterion was: the item information does not have a locking mark, or the item corresponding to the unique identification code is an unconventional item, or the item corresponding to the unique identification code is an unbound item; the third execution rule is: and sending an instruction for deleting the corresponding item information.

In particular, the second triggering criterion is: receiving a signal that a calibration curve is not found, or receiving a signal that a user inputs a synchronous request, or receiving a signal that a unique identification code is input; the second execution criterion is: the item information in the first storage unit is less than a threshold value, or the item information in the first storage unit is greater than a threshold value.

Further, the method comprises the following steps:

s0, the POCT detection equipment is started by a user, a fourth trigger standard is met, a fourth execution rule is started, the first storage unit carries out data synchronization according to the department information bound by the equipment and the execution rule, and the item information bound by the equipment is synchronized into the first storage unit; the department refers to an organization, and before the personalized information of the account binding is updated, the personalized information of the organization of the device binding is updated to the first storage unit. The fourth trigger criteria are: receiving a device starting signal; the fourth execution rule is: and sending a data synchronization request initiating instruction. When the same device applies the method, if the execution rules are the same, the execution criteria may be merged to be connected in an "or" manner for judgment.

Further, the method comprises the following steps:

s4, when the computer is started and in a login state, a fifth trigger standard of the first timer is met, a fifth execution standard is started, the first timer judges whether the fifth execution standard is met, if yes, the fifth execution rule is started, and if not, the fifth execution rule is not started; the fifth trigger criterion is: receiving a signal that a user inputs a synchronization request, or receiving synchronization, or receiving a signal to be synchronized, or receiving a signal that a unique identification code is input, or receiving a signal that scene information of a first storage unit is smaller than a threshold, or receiving a signal that scene information of the first storage unit is larger than a threshold, for example, the remaining capacity of the first storage unit is smaller than a set threshold, and the total amount of calibration curves stored in the first storage is larger than a set threshold; the fifth execution criterion is: the project information is greater than the threshold value, and the project information is less than the threshold value, for example, the difference between the version synchronization time in the project information in the first storage unit and the current time is greater than the set threshold value, the current version in the first storage unit is less than the current version in the second storage unit, and the current version in the second storage unit is regarded as the threshold value in the present invention. The fifth execution rule is: and sending an instruction for deleting the corresponding item information.

A POCT personalized data processing method is applied to electrochemical products.

A POCT personalized data processing method is provided and applied to immunofluorescence products.

The invention has the beneficial effects that: 1. the personalized information and the project information synchronization and cleaning standard and rule are combined through the personalized processing method, the privacy of a patient is protected, the information comparison amount during detection is reduced to improve the working efficiency, the space is saved, excessive unused information does not exist, the frequently used information can be fixedly stored and updated, the network communication frequency is reduced, the automatic data processing flow and the passive data processing flow are combined to enable the data processing to be more intelligent, and the user experience is improved. 2. The first database and the second database of the first storage unit are divided, so that the personalized information and the non-personalized information are stored separately, and confusion is avoided. 3. Through the setting of the timer, the project information stored in the database in the first storage unit can be synchronized and/or cleaned according to the personalized information and the real-time condition, the storage burden of the first storage unit is reduced, the first storage unit does not need to be set to be very large in capacity, and the equipment is convenient to carry.

Drawings

FIG. 1 is a schematic diagram of a system in which the present invention is applied.

FIG. 2 is a schematic diagram of a first memory cell of the present invention.

FIG. 3 is a flow chart of embodiment 4 of the present invention.

FIG. 4 is a flow chart of embodiment 5 of the present invention.

FIG. 5 is a flowchart of example 7 of the present invention.

FIG. 6 is a flowchart of embodiment 8 of the present invention.

FIG. 7 is a flowchart of embodiment 6 of the present invention.

FIG. 8 is one of the flow charts of embodiment 9 of the present invention.

FIG. 9 is one of the flow charts of embodiment 9 of the present invention.

FIG. 10 is one of the flow charts of embodiment 9 of the present invention.

FIG. 11 is one of the flow charts of embodiment 9 of the present invention.

Detailed Description

All the embodiments are described with reference to the steps, the occurrence of the steps is not limited by the arrangement order and the description order, and the standards mentioned in all the embodiments can be used interchangeably if necessary.

Example 1

As shown in fig. 1-2, a carrier for a POCT personalized data processing method is provided, which includes a POCT detection device 10 (abbreviated as device) and a detection reagent 20 (or test paper, or test card, the same below).

The detection reagent 20 comprises a sample adding region 203, a reaction region 202 and an information code region 201, wherein the information code is displayed in the form of a two-dimensional code, a bar code, a chip, a resistor and the like, and the information code comprises information such as detection items and/or batch numbers.

The POCT detection device 10 is used for detecting a detection reagent and comprises a detection reagent identification module 101, a detection module 102 and a processing module 103.

The detection reagent identification module 101 is configured to identify an information code of the detection reagent and transmit the decoded information to the processing module.

The detection module 102 is configured to obtain reaction result information and transmit the reaction result information to the processing module 103.

In some cases, the detection module 102 includes a calibration variable detection unit 1002 and a detection reagent detection unit 1012, the calibration variable detection unit 1002 is configured to obtain calibration variable information such as temperature, humidity, reaction dilution factor, and interferents, the detection reagent detection unit 1012 is configured to detect a reaction region of a detection reagent to obtain reaction result information, and the detection module transmits the obtained calibration variable information and the reaction result information to the processing module 103, and may also perform certain preprocessing on the detected information before transmitting the obtained calibration variable information and the reaction result information to the processing module.

The processing module 103 comprises a storage unit 1023, a comparison unit 1003 and a calculation unit 1013, wherein the storage unit 1023 is used for storing project information and/or project association information; the comparison unit is used for collecting information acquired from the detection reagent identification module and/or the detection module and comparing the collected information with the information in the storage unit to obtain the most appropriate calibration curve; the calculation unit substitutes the reaction result information into the calibration curve through the calibration curve obtained by the comparison unit to calculate the detection result.

The storage units include a first storage unit 1033 and a second storage unit 1034, the first storage unit 1033 is fixedly present in the POCT detection device, the second storage unit 1034 is a cloud storage unit or is fixedly present in other devices, and the second storage unit 1034 may be in communication connection with the first storage unit 1033, where the communication connection is short-distance communication connection or long-distance communication connection. The first storage unit 1033 may be a memory, a hard disk, or the like of the POCT detection device; the second storage unit 1034 may be an external hard disk, a usb disk, a cloud server, etc.

The first storage unit 1033 and the second storage unit 1034 use a general relational database, such as MySQL, SQL Server, Access, and the like, for storing data. The stored data is managed and operated through Structured Query Language (SQL), and the process expressed by the technical scheme is realized.

The first storage unit 1033 includes a database and a timer 1040.

The database comprises item information 1041 of n items, wherein n is more than or equal to 1, and the item information 1041 comprises a unique identification code 1039, a calibration curve set 1038 and a clock 1037. The unique identifier 1039 is an identification card of the item, and can uniquely identify the item, and the naming rule of the unique identifier is customized by the manufacturer. The item refers to a specific detection item, or a small item of the specific detection item after the specific detection item is split into several small items. The clock 1037 is used for recording the accessed trace of the item information, including recording the number of times the item is accessed in an accumulated manner, or the time of access, or the current version, or the time of version synchronization (access refers to the action of querying, and/or using, and/or synchronizing the calibration curve, the same below). The number of cumulative accesses means the number of cumulative accesses that the item information 1041 is accessed from the system entering POCT data synchronization, for a certain item, the item information 1041 is stored in the storage unit for the first time and starts to be accumulated, after each access, the number of cumulative accesses is added by 1, if query, use and synchronization occur in the same flow, the number of cumulative accesses is only added by 1, or the occurrence of any access action is recorded as the number of cumulative accesses is added by 1, which is set according to actual requirements; the accessed time refers to a time value of the latest accessed item, and the format of the time value is set according to needs, for example, the time value can be 30 minutes 56 seconds at 08 days of 02, 05 and 2020, if query, use and synchronization occur in the same flow, the time which occurs first is the accessed time of the whole flow, and the record can also be updated according to the time sequence for the occurrence of any one accessed action; the current version refers to a version of the currently owned item information 1041, and each time the manufacturer updates the second storage unit 1034 or directly updates any item information 1041 in the first storage unit 1033, the current version number in the corresponding item information is increased by 1. The version synchronization time is the latest version synchronization time, that is, the latest time when the second storage unit synchronizes the item information to the first storage unit, or the latest time when the first storage unit synchronizes the item information to the second storage unit.

If the accumulated access times, the accessed time, the current version and the version synchronization time are all subjected to clock setting, a first clock is the accumulated access times, a second clock is the accessed time, a third clock is the current version and a fourth clock is the version synchronization time, the incidence relation of the sequence is not uniquely determined, and the first, second, third and fourth sorting is only used for clearer follow-up description. Although the fourth clock is not shown in fig. 2, this does not represent that the fourth clock is not present.

The timer 1040 presets standards and rules, and the timer 1040 determines whether the scene information and the project information of the system meet the preset standards, if so, the preset rules are started, and a command related to the preset rules is issued, wherein the scene information includes non-project information included in the system, such as the remaining storage space, the calibration curve number, the wireless communication information, the wired communication information, the user account and related information, the department account number and related information, and the like.

In some embodiments, the timer 1040 includes a first timer and a second timer, the first timer is preset with data processing standards and rules, and when the scene information and/or the item information reaches the preset standards, the first timer will issue a data processing instruction according to the rules, so as to request the first storage unit 1033 to perform data processing according to the preset rules, where the data processing includes operations of data synchronization, data cleaning, and the like. The second timer is used to determine a communication network connection status, and when the first storage unit 1033 is not in communication connection with the second storage unit 1034, the second timer will issue a communication network connection instruction to enable the first storage unit and the second storage unit to establish a communication network connection.

In some embodiments, the second timer is preset with communication network connection standards and rules, and when the scene information reaches the preset standards, the second timer will issue a communication network connection instruction according to the rules, and in some embodiments, the preset standards are: "receive the signal that the communication network signal is abnormal", the rule preserved is: "issue an instruction for communication network connection". In some embodiments, the preset rule is: "check the communication network signal every a minutes", a is determined by the requirement, specifically a = 30.

In some embodiments, the preset criteria in the first timer are a trigger criterion and an execution criterion, and the preset rule is an execution rule. The triggering standard is used for starting the data processing flow, the execution standard is used for determining the items needing to start the execution rule, and the data processing flow is carried out according to the execution rule.

For example, if the triggering criteria are: "receiving a signal that the remaining capacity of the first memory cell is less than XMB", X may be adjusted according to the size of the first memory cell 1033, specifically X =10, that is, when the remaining capacity of the first memory cell 1033 is less than 10MB, the data processing procedure is started; for example, if the triggering criteria are: "receiving a signal that the total number of calibration curves included in the first memory unit is greater than Y", Y may be adjusted according to the size of the first memory unit and the test requirement, for example, Y =50, that is, the data processing procedure is started when the total number of calibration curves representing all entries in the first memory unit 1033 is greater than 50.

For example, if the execution criteria are: "the number of times of cumulative access recorded in the clock is less than Z", Z can be adjusted according to the requirement, specifically Z =3, that is, an item indicating that the number of times of cumulative access in the clock to the item information is less than 3 is started to execute the rule for data processing; if the execution standard is: "the difference between the current time and the version synchronization time in the clock is greater than Z ' weeks", Z ' can be adjusted according to the requirement, specifically Z ' =3, that is, an item indicating that the absolute value of the difference between the version synchronization time and the current time in the clock for the item information is less than 3 weeks, and an execution rule is started to perform data processing.

The above execution rules include, but are not limited to: "issue an instruction to delete corresponding item information" and "issue an instruction to initiate a data synchronization request for corresponding item information".

In some embodiments, the database includes a first database 1036 and a second database 1042, where the database 1036 is used to store item information corresponding to a specific item, and the second database 1042 is used to store other information besides the item information, including item association information, such as an item unique identifier commonly used by a device binding entity. In some embodiments, the first database 1036 is used to store non-regular item information and the second database 1042 is used to store regular item information. In some embodiments, a first database 1036 is used to store unbound item information and a second database 1042 is used to store bound item information.

The second storage unit 1034 includes a database including a unique identifier 1039, a calibration curve set 1038, and a clock 1037. In some embodiments, like the first memory cell 1033, the second memory cell 1034 includes a first clock, a second clock, a third clock, and a fourth clock, and in some embodiments, the second memory cell 1034 includes one, two, or three of the first clock, the second clock, the third clock, and the fourth clock.

In some embodiments, the POCT detection apparatus 10 further includes a user interaction module, where the user interaction module is configured to input information by a user and display the information to the user, the operation of inputting the information includes logging in an account, inputting a data processing command, performing information query, and the like, and the operation of displaying the information includes displaying a detection result, displaying a detection process, and the like.

Example 2

In this embodiment, the detection reagent is a detection card, the POCT detection device is an immunofluorescence analyzer, and in an initial state, the first storage unit database is empty, the second storage unit database includes item information of a plurality of detection items, and each item information includes all calibration curves of the detection items in different temperature and humidity environments. The following are listed:

CRP (C-reactive protein) project information: all calibration curve sets of the project are obtained; the unique identification code CRP 101001101; number of accesses = 0; time visited, -year-month-day; current version, V0001; version synchronization time, -year, -month-day;

PCT (procalcitonin) item information: all calibration curve sets of the project are obtained; a unique identification code PCT 101101001; number of accesses = 0; time visited, -year-month-day; current version, V0001; version synchronization time, -year, -month-day;

SAA (serum amyloid a) project information: all calibration curve sets of the project are obtained; the unique identification code SAA 101001011; number of accesses = 0; time visited, -year-month-day; current version, V0001; version sync time, -year, -month-day.

The term "detecting items" is only a few examples to reduce unnecessary written space, and does not mean that the second storage unit only contains the items.

The first timer is preset with a trigger standard: "receiving a signal that a calibration curve is not found", corresponding to the preset execution rule: "issue an instruction to initiate a data synchronization request".

The second timer is preset with a trigger standard: "receiving the instruction for confirming the network connection state", the execution standard is preset correspondingly: "network unconnected", there are execution rules that are preset correspondingly: "issue an instruction to initiate a communication network connection request".

In 08 days 01 and 2020, POCT detection equipment is used for the first time, the content of C-reactive protein in blood is detected, an immunofluorescence analyzer is started, a user adds a blood sample into a sample adding area of a C-reactive protein detection card, the reaction result is displayed in a reaction area after the blood sample reacts with the detection card, and the detection card is placed in the immunofluorescence analyzer. The detection reagent identification module obtains information by decoding the information code of the detection card: the item to be detected is C-reactive protein, the batch number of the detection card is lot14197, the unique identification code is CRP101001101, the information is transmitted to the comparison unit, the comparison unit compares the unique identification code in the first storage unit database, and as the database is empty, therefore, the comparison unit does not find the item information corresponding to the corresponding unique identification code, the comparison unit sends a signal that the calibration curve is not found to the first timer, the trigger criterion in the first timer is met, the execution rule is started, the first timer sends an instruction for initiating a data synchronization request, the second timer receives an instruction for confirming the network connection state, the trigger condition of the second timer is met, the execution criterion is started, the second timer determines that the network is connected, the execution criterion is not met, the execution rule is not started, and the first storage unit sends the unique identification code "CRP 101001101" to the second storage unit to send the data synchronization request. The second storage unit stores the corresponding item information according to the received unique identification code CRP 101001101: "all calibration curve sets of this project; the unique identification code CRP 101001101; number of accesses = 0; time visited, -year-month-day; current version, V0001; and the version synchronization time, year, month and day are fed back to the first storage unit, and the first storage unit receives the detection item information and synchronizes the detection item information to the database. The detection module obtains that the ambient temperature is 10 ℃ and the ambient humidity is 40% through detection, and transmits the information to the comparison unit. The comparison unit compares the batch number of the detection card and the environmental temperature and humidity obtained by the detection module in the calibration curve set of the project information to obtain the closest calibration curve and transmits the closest calibration curve to the calculation unit. The project information is changed to: "all calibration curve sets of this project; the unique identification code CRP 101001101; number of accesses = 1; time of access, 2020, 01 month, 08 day; current version, V0001; version sync time, 01 month and 08 days 2020 ". The detection module detects that the reaction result is a fluorescence intensity value and transmits the fluorescence intensity value to the calculation unit, the fluorescence intensity value in the calculation unit is substituted into the calibration curve to obtain a detection result, and the detection result is displayed by the user interaction module.

On the same day, the detection of the content of the C-reactive protein in the blood is continued, the user adds the blood sample into the sample adding area of the C-reactive protein detection card, the reaction result is displayed in the reaction area after the blood sample reacts with the detection card, and the detection card is placed into the immunofluorescence analyzer. The detection reagent identification module obtains information by decoding the information code of the detection card: the detection item is C-reactive protein, the batch number of the detection card is lot14197, the unique identification code is CRP101001101, the information is transmitted to the comparison unit, the detection module obtains the environment temperature of 10 ℃ and the environment humidity of 40% through detection, and the information is transmitted to the comparison unit. The comparison unit compares the unique identification code in a first storage unit database, the database has project information with the unique identification code of CRP101001101, and the comparison unit compares the batch number of the detection card and the environmental temperature and humidity obtained by the detection module in a calibration curve set of the project information to obtain a closest calibration curve and transmits the closest calibration curve to the calculation unit. Meanwhile, the project information is changed to: "all calibration curve sets of this project; the unique identification code CRP 101001101; number of accesses = 2; time of access, 2020, 01 month, 08 day; current version, V0001; version sync time, 01 month and 08 days 2020 ". The detection module detects that the reaction result is a fluorescence intensity value and transmits the fluorescence intensity value to the calculation unit, the fluorescence intensity value in the calculation unit is substituted into the calibration curve to obtain a detection result, and the detection result is displayed by the user interaction module.

And in 18 days of 01 and 2020, detecting the content of the C-reactive protein in the blood again, starting the immunofluorescence analyzer, adding a blood sample into a sample adding area of the C-reactive protein detection card by a user, displaying a reaction result in a reaction area after the blood sample reacts with the detection card, and placing the detection card into the immunofluorescence analyzer. The detection reagent identification module obtains information by decoding the information code of the detection card: the detection item is C-reactive protein, the batch number of the detection card is lot14199, the unique identification code is CRP101001101, the information is transmitted to the comparison unit, the detection module obtains that the environmental temperature is 13 ℃ and the environmental humidity is 65% through detection, and the information is transmitted to the comparison unit. The comparison unit compares the unique identification code in a first storage unit database, the database has project information with the unique identification code of CRP101001101, the comparison unit compares the batch number of the detection card and the ambient temperature and humidity obtained by the detection module in a calibration curve set of the project information to obtain a closest calibration curve, the comparison unit sends a signal that the calibration curve is not found to a first timer, a trigger standard in the first timer is met, an execution rule is started, the first timer sends an instruction for initiating a data synchronization request, a second timer receives an instruction for confirming a network connection state, a trigger condition of the second timer is met, the execution standard is started, the second timer determines that the network is not connected, the execution standard is met, the execution rule is started, the second timer sends an instruction for initiating a communication network connection request, the first storage unit sends a network connection request to the second storage unit, the second timer determines that the network connection is successful, and the first storage unit sends a unique identification code "CRP 101001101" to the second storage unit to issue a data synchronization request. The second storage unit stores the corresponding item information according to the received unique identification code CRP 101001101: "all calibration curve sets of this project; the unique identification code CRP 101001101; number of accesses = 2; time of access, 2020, 01 month, 08 day; current version, V0002; and the version synchronization time, namely, the information of 01-08 days in 2020 is fed back to the first storage unit, the first storage unit receives the detection item information and synchronizes the detection item information to the database, and the original same content is covered. The comparison unit compares the batch number of the detection card and the environmental temperature and humidity obtained by the detection module in the calibration curve set of the project information to obtain the closest calibration curve and transmits the closest calibration curve to the calculation unit. The project information is changed to: "all calibration curve sets of this project; the unique identification code CRP 101001101; number of accesses = 3; time of access, 2020, 01 month, 18 days; current version, V0002; version sync time, 01 month 18 day 2020 ". The detection module detects that the reaction result is a fluorescence intensity value and transmits the fluorescence intensity value to the calculation unit, the fluorescence intensity value in the calculation unit is substituted into the calibration curve to obtain a detection result, and the detection result is displayed by the user interaction module.

The first timer is also preset with a trigger criterion: "receiving a signal that the residual capacity of the first storage unit is less than or equal to a set value of 5 MB", corresponding to the preset execution standard: "the difference between the accessed time and the current time is more than 30 days", corresponding to the preset execution rule: "issue an instruction to delete the corresponding item information".

In 30/04/2020, the first storage unit database includes the following item information:

CRP (C-reactive protein) project information: all calibration curve sets of the project are obtained; the unique identification code CRP 101001101; number of accesses = 3; time of access, 2020, 01 month, 18 days; current version, V0002; version synchronization time, 18/01/2020;

PCT (procalcitonin) item information: all calibration curve sets of the project are obtained; a unique identification code PCT 101101001; number of accesses = 12; time visited, 27/04/2020; current version, V0002; version synchronization time, 03 month 28 in 2020;

the term "detecting" is only a few examples to reduce unnecessary description space, and does not mean that the first storage unit only contains the two terms.

The second storage unit comprises the following item information:

CRP (C-reactive protein) project information: all calibration curve sets of the project are obtained; the unique identification code CRP 101001101; number of accesses = 3; time of access, 2020, 01 month, 18 days; current version, V0002; version synchronization time, 18/01/2020;

PCT (procalcitonin) item information: all calibration curve sets of the project are obtained; a unique identification code PCT 101101001; number of visits =12, time of visit, 27/04/2020; current version, V0002; version synchronization time, 03 month 28 in 2020;

SAA (serum amyloid a) project information: all calibration curve sets of the project are obtained; the unique identification code SAA 101001011; number of accesses = 0; time visited, -year-month-day; current version, V0003; version sync time, -year, -month-day.

The term "detecting items" is only a few examples to reduce unnecessary written space, and does not mean that the second storage unit only contains the items.

The method comprises the following steps of firstly detecting the content of serum amyloid A in blood, starting an immunofluorescence analyzer, adding a blood sample into a sample adding area of a serum amyloid A detection card by a user, displaying a reaction result in a reaction area after the blood sample reacts with the detection card, and placing the detection card into the immunofluorescence analyzer. The detection reagent identification module obtains information by decoding the information code of the detection card: the item to be detected is serum amyloid A, the batch number of the detection card is lot18871, the unique identification code is SAA101001011, information is transmitted to the comparison unit, the comparison unit compares the item information in the first storage unit database by using the unique identification code, the comparison unit does not find the item information corresponding to the corresponding unique identification code due to the fact that the database does not contain the item information, the comparison unit sends a signal that a calibration curve is not found to the first timer, the trigger standard in the first timer is met, the execution rule is started, the first timer sends an instruction for initiating a data synchronization request, and the first storage unit sends the unique identification code SAA101001011 to the second storage unit to send the data synchronization request. In addition, the first timer sends out an instruction for obtaining the residual capacity of the first storage unit, the database feeds back the residual capacity of 4MB to the first timer, the trigger criterion is met, the execution criterion is started, the first timer sends out an instruction for obtaining the accessed time of all items in the first storage unit database, the database feeds back the accessed time of each item to the first timer in a mode of unique identification code plus time, the first timer compares the accessed time of each item with the current time to obtain the item meeting the execution criterion as a CRP item and the like, the execution rule is started, the first timer sends out an instruction for deleting corresponding item information, and the first storage unit deletes the item information of the CRP item and the like. The second storage unit stores the corresponding item information according to the received unique identification code 'SAA 101001011': "all calibration curve sets of this project; the unique identification code SAA 101001011; number of accesses = 0; time visited, -year-month-day; current version, V0003; and the version synchronization time, year, month and day are fed back to the first storage unit, and the first storage unit receives the detection item information and synchronizes the detection item information to the database. The detection module obtains that the ambient temperature is 21 ℃ and the ambient humidity is 60% through detection, and transmits the information to the comparison unit. The comparison unit compares the batch number of the detection card and the environmental temperature and humidity obtained by the detection module in the calibration curve set of the project information to obtain the closest calibration curve and transmits the closest calibration curve to the calculation unit. The project information is changed to: information on "SAA (serum amyloid a) project: all calibration curve sets of the project are obtained; the unique identification code SAA 101001011; number of accesses = 0; time visited, 30/04/2020; current version, V0003; version sync time, 30/04/2020 ". The detection module detects that the reaction result is a fluorescence intensity value and transmits the fluorescence intensity value to the calculation unit, the fluorescence intensity value in the calculation unit is substituted into the calibration curve to obtain a detection result, and the detection result is displayed by the user interaction module.

Example 3

In this embodiment, the detection reagent is an electrochemical test paper, the POCT detection device is an electrochemical detector, and in an initial state, the first storage unit database is empty, the second storage unit database includes item information of a plurality of detection items, and each item information includes all calibration curves of the detection items in different states of the detection sample for detecting the interferent. The following are listed:

blood sugar item information: all calibration curve sets of the project are obtained; a unique identification code GC 1110011001; number of accesses = 0; current version, V0001; version sync time, -year, -month-day.

Blood ketone item information: all calibration curve sets of the project are obtained; the unique identification code KT 1110011001; number of accesses = 0; current version, V0001; version sync time, -year, -month-day.

Lactic acid item information: all calibration curve sets of the project are obtained; the unique identification code LA 1110111001; number of accesses = 0; current version, V0001; version sync time, -year, -month-day.

Uric acid item information: all calibration curve sets of the project are obtained; the unique identification code UA 1110011001; number of accesses = 0; current version, V0001; version sync time, -year, -month-day.

The term "detecting items" is only a few examples to reduce unnecessary written space, and does not mean that the second storage unit only contains the items.

The first timer is preset with a first trigger criterion: "receiving the login signal", corresponding to the preset first execution standard: "the difference between the current time and the common item and/or version synchronization time for which no device binding is found is greater than 5 weeks", the execution rule is preset correspondingly: "issue an instruction to initiate a data synchronization request"; and presetting a second trigger standard: "receiving the signal input by the unique identification code", the second execution standard is preset correspondingly: the second execution rule is preset correspondingly: "issue an instruction to initiate a data synchronization request"; a third trigger criterion is preset: "receiving a login or logout signal" corresponds to a preset third execution standard: the item corresponding to the unique identification code is not a common item bound by the equipment, and a third execution rule is correspondingly preset: "issue an instruction to delete the corresponding item information".

The second counter is preset with a trigger criterion: "receiving the login signal", corresponding to the preset first execution standard: "network unconnected", there is a first execution rule preset correspondingly: "send out the order to initiate the network connection request", preset the second execution standard correspondingly: "network connection is unsuccessful", and the second execution rule is preset correspondingly: "an instruction to issue a start loop instruction".

Every person of medical staff of endocrine administrative department all has an exclusive account number, uses exclusive account number to medical system user, more convenient management and statistical data, and idle equipment also can be used, improves the efficiency that equipment circulation was used, and different medical staff log in with different account numbers, and the information that demonstrates has and only has the information with the relevant patient of this medical staff in the account number, has also guaranteed the privacy of patient's data. Each proprietary account is bound with a unique identification code of its commonly used item.

In 2020, month 01 and 08, user a logs in the electrochemical detector for the first time. The user a inputs an account password to log in the exclusive account, the unique identification codes 'GC 1110011001 and KT 1110011001' of the items commonly used by the exclusive account are synchronized into the second database, the timer receives a log-in signal, and the first triggering standard of the first timer and the triggering standard of the second timer are met. The second timer confirms that the network connection state is abnormal and is in an unconnected state, the first execution standard of the second timer is met, the second timer starts the first execution rule, and the first storage unit sends a network connection request to the second storage unit. The second storage unit does not receive the request, the network connection cannot be successful, the second execution standard of the second timer is met, the second timer starts a second execution rule, a circulation instruction is started, the first storage unit sends the network connection request to the second storage unit every 10 seconds, and after 4 cycles, the second storage unit receives the network connection request, and the network connection is successful.

The first execution rule of the first timer is started, the first timer sends out an instruction for acquiring the unique identification code corresponding to the existing item of the first database and the unique identification code of the commonly used item of the second database, item information corresponding to the unique identification code of the commonly used item in the second database is obtained through comparison, the first execution standard of the first timer is met, the first execution rule is started correspondingly, the first storage unit transmits the unique identification code of the commonly used item in the second database, namely GC1110011001 and KT1110011001 to the second storage unit, the second storage unit feeds back the blood glucose item information and the blood ketone item information corresponding to the unique identification code to the first storage unit after receiving the unique identification code, and the first storage unit stores the information in the first database and changes the corresponding blood glucose item information: "all calibration curve sets of this project; a unique identification code GC 1110011001; number of accesses = 1; current version, V0001; version synchronization time, 2020, 01 month and 08 days ", blood ketone item information is changed to: "all calibration curve sets of this project; the unique identification code KT 1110011001; number of accesses = 1; current version, V0001; version sync time, 01 month and 08 days 2020 ".

Under the condition of logging, then the blood glucose concentration of the blood of the patient is detected, the user a inserts the blood glucose test paper into the electrochemical detector, the blood sample is added into the blood glucose test paper from the sample adding area, and the blood sample and the test paper react in the reaction area to generate a current signal. The detection reagent identification module obtains information by decoding the information code of the test paper: the item to be detected is 'blood sugar', the batch number of the detection card is 'lot 11697', the unique identification code is 'GC 1110011001', the information is transmitted to the comparison unit, the detection module obtains that the environmental temperature is 10 ℃, the environmental humidity is 40%, the hematocrit of the blood sample is 62% through detection, and the information is transmitted to the comparison unit. The comparison unit compares the test paper batch number, the ambient temperature and humidity obtained by the detection module and the hematocrit of the blood sample in the calibration curve set of the item information to obtain the closest calibration curve and transmits the closest calibration curve to the calculation unit. The blood glucose item information is changed to: "all calibration curve sets of this project; a unique identification code GC 1110011001; number of accesses = 2; current version, V0001; version sync time, 01 month and 08 days 2020 ". The detection module detects that the reaction result is a current intensity value and transmits the current intensity value to the calculation unit, the current intensity value in the calculation unit is substituted into the calibration curve to obtain a detection result, and the detection result is displayed by the user interaction module.

On 17.02/2020, the blood ketone item information version in the second storage unit is updated to: "all calibration curve sets of this project; the unique identification code KT 1110011001; number of accesses = 1; current version, V0002; version sync time, 01 month and 08 days 2020 ". User a logs into the electrochemical meter again. A user a inputs an account password to log in an exclusive account, a first trigger standard of a first timer is met, a first execution standard is started, the first timer sends an instruction for acquiring all project version synchronization time in a second database, the second database feeds back version synchronization time associated unique identification codes of all projects to the first timer, the first timer compares the difference between the synchronization time of all project versions and the current time to obtain a project associated unique identification code 'KT 1110010011001' with a time difference value of more than 5 weeks, the first execution standard of the first timer is met, a first execution rule is started, a first storage unit sends the acquired unique identification code 'KT 1110011001' to a second storage unit to send out a data synchronization request, the second storage unit feeds back project information corresponding to the unique identification code to the first storage unit, the first storage unit updates the project information in the second database by the acquired project information, the blood ketone project information in the second database is changed into: "all calibration curve sets of this project; the unique identification code KT 1110011001; number of accesses = 2; current version, V0002; version sync time, 02 month 17 days 2020 ".

The second timer is the same as the first login of the user a, and is not described in detail.

Under the condition of logging, then the uric acid concentration in the blood of the patient is detected, the user a inserts the uric acid test paper into the electrochemical detector, the blood sample is added into the uric acid test paper from the sample adding area, and the blood sample and the test paper react in the reaction area to generate a current signal. The detection reagent identification module obtains information by decoding the information code of the test paper: the item to be detected is uric acid, the batch number of the detection card is lot10187, the unique identification code is UA1110011001, and the information is transmitted to the comparison unit, the second trigger standard of the first timer is met, the second execution standard of the first timer is started, the comparison unit does not find a calibration curve in the first database, the second execution rule of the first timer is started, the first storage unit sends the unique identification code UA 1110010011001 to the second storage unit to send a data synchronization request, the second storage unit feeds item information corresponding to the unique identification code back to the first storage unit, and the first storage unit synchronizes the item information obtained and fed back to the first database.

The detection module obtains that the ambient temperature is 15 ℃, the ambient humidity is 44%, the hematocrit of the blood sample is 32%, and the content of the interferon vitamin C is 20mg/dL through detection, and transmits the information to the comparison unit. The comparison unit compares the test paper batch number and the environmental temperature and humidity, the hematocrit of the blood sample and the vitamin content obtained by the detection module in the calibration curve set of the project information to obtain the closest calibration curve and transmits the closest calibration curve to the calculation unit. The uric acid item information is changed into: "all calibration curve sets of this project; the unique identification code UA 1110011001; number of accesses = 1; current version, V0001; version sync time, 02 month 17 days 2020 ". The detection module detects that the reaction result is a current intensity value and transmits the current intensity value to the calculation unit, the current intensity value in the calculation unit is substituted into the calibration curve to obtain a detection result, and the detection result is displayed by the user interaction module.

After the detection is finished, the user a logs out of the account, the first timer receives a shutdown signal, the third trigger standard is met, the third execution standard is started, the first timer sends out an instruction for acquiring the unique identification code corresponding to the existing item of the first database and the unique identification code corresponding to the common item of the second database, through comparison, the item information corresponding to the unique identification code UA1110011001 in the first database is obtained as an uncommon item, the third execution standard is met, the third execution rule is started, and the item information corresponding to the unique identification code UA1110011001 is deleted.

And 22 months in 2020, 2, a user b logs in the electrochemical detector, inputs an account password to log in the special account, the unique identification codes 'KT 1110011001 and LA 1110111001' of the common items of the special account are synchronized into the second database, the timer receives a log-in signal, and the first trigger standard and the third trigger standard of the first timer and the trigger standard of the second timer are met. The second timer is the same as the first login of the user a, and is not described in detail. The first execution standard and the third execution standard of the first timer are started, the first timer sends out an instruction for acquiring the unique identification code corresponding to the existing item of the first database and the unique identification code of the commonly used item of the second database, the comparison results show that the item information corresponding to the unique identification code LA1110111001 in the first database is not found, the item information corresponding to the unique identification code GC1110011001 is the non-use information, the first execution standard and the third execution standard of the first timer are met, the first execution rule and the third execution rule are started correspondingly, the unique identification code LA1110111001 of the commonly used item in the first storage unit is transmitted to the second storage unit, the second storage unit feeds the lactic acid item information corresponding to the unique identification code back to the first storage unit after receiving the unique identification code, and the first storage unit stores the information in the first database and corresponds to the lactic acid item information change: "all calibration curve sets of this project; the unique identification code LA 1110111001; number of accesses = 1; current version, V0001; version sync time, 22 months 02 in 2020 ". The item information corresponding to the unique identification code GC1110011001 is deleted.

Example 4

As shown in fig. 3, in the embodiment, the first storage unit 1033 is connected to the second storage unit 1034 via a communication network, and the method for applying the POCT personalized data processing method includes the following steps.

3001, the first memory unit 1033 outputs the obtained unique identification code to the second memory unit to send a data synchronization request, and at this time, the database 1036 of the first memory unit 1033 is empty, or there is no item information of the item corresponding to the unique identification code, and the detection reagent is placed in the POCT detection device to obtain the unique identification code corresponding to the detection reagent, or the user inputs a demand on the POCT detection device to obtain the unique identification code corresponding to the demand.

3002, the second storage unit 1034 feeds back item information corresponding to the unique identifier according to the input unique identifier, where the item information includes the unique identifier, the calibration curve set, and the clock.

3003, adding 1 to the number of accumulated accesses in the project clock corresponding to the unique identifier, and/or updating the accessed time to the current time, i.e. the data +1 in the first clock, and/or updating the time in the second clock to the current time, which may occur after step 3004 without restriction.

3004, the first storage unit 1033 receives the item information fed back by the second storage unit 1034 and synchronizes to the database of the first storage unit 1033, where the database of the first storage unit 1033 contains the item information of the item corresponding to the unique identification code outputted in step 3001, and the item information includes the unique identification code 1039, the calibration curve set 1038, and the clock 1037.

In this embodiment, the triggering criteria are: receiving a signal input by a unique identification code; the execution standard is as follows: a calibration curve is not found; the execution rule is as follows: and sending a data synchronization request initiating instruction.

Example 5

As shown in fig. 4, in the embodiment, the first storage unit 1033 is connected to the second storage unit 1034 via a communication network, and the method for applying the POCT personalized data processing method includes the following steps.

3001, the first storage unit 1033 outputs the obtained unique identifier to the second storage unit 1034 to send a data synchronization request, and at this time, the comparison unit does not compare the closest calibration curve in the calibration curve set of the item corresponding to the unique identifier after comparison, and sends the information to the first timer, and the closest definition is determined according to the actual requirement, for example, the calibration curves with the temperature difference within ± 2 ℃ all meet the requirement. If the triggering criterion in the first timer is that the closest calibration curve is not found in the calibration curve set, the received information meets the triggering criterion, the data synchronization process is started, and the first storage unit sends a synchronization request to the second storage unit. In other cases, the user may directly input the unique identification code in the user interaction module to initiate the synchronization request, and the triggering criteria of the corresponding data synchronization process is "receiving the signal of the user inputting the synchronization request". The triggering criteria for the overall data synchronization process is therefore "receiving a signal that the closest calibration curve in the set of calibration curves is not found or receiving a signal that a user enters a synchronization request".

3002, the first storage unit 1034 obtains the item information corresponding to the unique identifier in the second storage unit according to the input unique identifier, and determines whether the first and second execution criteria are met, where the item information in the second storage unit includes the unique identifier, the calibration curve set, and the clock.

3003, the unique identification code corresponds to the number of accumulated accesses in the project clock increased by 1, and/or the time of access is updated to the current time, i.e. data +1 in the first clock, and/or the time in the second clock is updated to the current time.

3011, the first storage unit database compares the third clock in the item information corresponding to the unique identifier with the third clock in the item information corresponding to the unique identifier fed back by the second storage unit 1034, that is, compares the current version of the clock record of the item information in the first storage unit 1033 of the item corresponding to the unique identifier with the current version of the clock record of the item information in the second storage unit 1034.

3012, it is determined whether the third clock in the item information in the first storage unit 1033 is smaller than the third clock in the item information fed back by the second storage unit 1034. Here, the "third clock in the item information of the first storage unit is smaller than the third clock in the item information fed back by the second storage unit" as the first execution criterion.

3013, if the determination result in the step 3012 is yes, the first storage unit 1033 deletes the item information corresponding to the unique identifier in the database, receives the item information fed back by the second storage unit 1034, and synchronizes with the database. In order to meet the first execution criterion, the first execution rule "issue an instruction to accept feedback information and synchronize to the database" needs to be activated.

3014, if the determination result in step 3012 is no, the first storage unit 1033 does not receive the item information fed back by the second storage unit 1034, and in some embodiments, the process may end here. At this time, the execution rule is not started for the case that the execution standard is not satisfied.

3015, in some embodiments, on the basis of step 3014, it may be further determined whether a third clock in item information of the first storage unit 1033 of the item corresponding to the unique identifier is greater than a third clock in item information fed back by the second storage unit 1034. Here, the "unique identification code corresponds to a third clock of the item in the first storage unit being greater than a third clock in the item information fed back from the second storage unit" in the second execution standard.

3016, if the determination result in the step 3015 is yes, the first storage unit feeds back the item information of the item corresponding to the unique identifier in the database to the second storage unit 1034. In this case, the second execution rule "issue an instruction to output the item information to the second storage unit" needs to be activated in order to satisfy the execution criterion.

3017, the second storage unit deletes the item information corresponding to the unique identifier in the database, receives the item information of the item corresponding to the unique identifier fed back by the first storage unit 1033, and synchronizes to the database;

in some embodiments, after steps 3015 to 3017 occur, or simultaneously, the comparing unit compares the selected calibration curve with the calibration variable closest to the detection reagent in the database of the first storage unit 1033, and the calculating unit calculates the output result.

In some embodiments, step 3015 occurs after step 3011, step 3016, step 3017, and step 3018 occur if the conclusion of step 3015 is yes, and step 3012, step 3013, and step 3014 occur if the conclusion of step 3015 is not.

Example 6

As shown in fig. 7, the application method of the POCT personalized data processing method includes the following steps.

3041 the POCT detection device power-on signal is input to the first timer. When a user starts the POCT detection equipment through the user interaction module, a starting signal is formed and transmitted to the first timer, and the first timer receives the signal.

3042, a first timer issues an instruction to get the time when all items in the first cell database are accessed. The first timer is preset with a triggering standard of ' receiving a starting signal ', the clock of the corresponding item preset with an execution standard ' is larger than a threshold value ', the difference value between the accessed time of the item and the current time is larger than M weeks ', correspondingly, in order to determine whether the execution standard is reached, the first timer sends out an instruction for acquiring the accessed time of all the items in the first memory unit database.

3043 the accessed time at which the first timer received the feedback is compared to the current time. The specific first timer receives the accessed time of all items in the first storage unit, the received accessed time is associated with the unique identification code to prevent confusion, the accessed time and the current time are compared one by one to obtain the difference value between the accessed time and the current time, and the time difference value can be output in any unit of day, week, month and the like as required.

3044, determine whether the difference between the current time and the accessed time of each item fed back by the first timer is greater than M weeks. At this time, it is determined to determine which items have a difference between the accessed time and the current time that meets the execution criterion, and data processing may be performed according to the execution rule.

3045 the first timer extracts the unique identifier of the item whose difference between the current time and the accessed time received and fed back is greater than M weeks, and sends out a connection command to the communication network. At this time, the unique identification code of the item satisfying the execution criterion is extracted, and the execution rule is started, the execution rule being: "issue an initiate data synchronization request instruction".

3046 the second timer receives the command and sends a connection request to the second storage unit. After the first timer sends out an instruction according to an execution rule, the second timer receives an instruction for confirming the network connection state, if the first timer is in the successful connection state, a signal for successfully connecting the communication network is directly output, if the communication network is not in the successful connection state, a communication network connection request needs to be sent to the second storage unit, a preset circulating instruction is further started, the communication network connection request is sent every other time interval U seconds, and the specific U =10 is determined according to specific requirements.

3047 the communication network is successfully connected. In some cases, the loop command ends and the second timer outputs a signal indicating that the communication network connection was successful.

3048 the first storage unit issues a data synchronization request. After receiving the signal that the communication network connection is successful, the first storage unit sends a data synchronization request to the second storage unit according to the unique identification code extracted in step 3045.

3049 the procedure of 3002 and its subsequent steps in example 3 are carried out.

In some embodiments, step 3046 and step 3042 occur simultaneously, the power-on signal in step 3041 is sent to a timer, the first timer and the second timer both obtain the power-on signal, the power-on signal is used as a trigger standard of the second timer, the communication network is not connected to a first execution standard of the second timer, the first execution standard is met, the first storage unit initiates a communication network connection request to the second storage unit, and sends an instruction to initiate the communication network connection request as a first execution rule; if the communication network connection fails, a loop command preset by the second timer is as follows: the method comprises the steps of starting communication network connection request at intervals of U seconds, keeping the sequence of other steps unchanged, enabling the communication network connection to be a second execution standard, and enabling a second execution rule to be an instruction for sending a starting circulation instruction.

Example 7

As shown in fig. 5, in the embodiment, the first storage unit 1033 is already connected to the second storage unit 1034 via a network, and the method for applying the POCT personalized data processing method includes the following steps.

3021 the first timer receives a signal that synchronization is occurring or is about to occur. This step occurs at the same time or before the step 3004 or the step 3013, and a first trigger criterion "receiving a signal that synchronization is in progress or is going to be performed" is preset in the first timer, and the acquisition signal indicates that a second trigger criterion needs to be started.

3022, the first timer issues an instruction to obtain the remaining capacity of the first memory unit. The first timer is preset with a second trigger standard: the residual capacity of the first storage unit is smaller than the threshold value X, and the judgment on whether the residual capacity of the first storage unit reaches the second trigger standard can be carried out only by acquiring the residual capacity of the first storage unit.

3023, the first cell database feeds back the remaining capacity to the first timer.

3024, the first timer determines whether the remaining capacity is less than X. And if the second trigger criterion is not met, the data processing flow is not started. If the remaining capacity of the first storage unit reaches the second trigger criterion, the data processing procedure is started, an execution criterion is preset in the first timer, the execution criterion makes an agreement on a lower limit of the number of cumulative accesses, or an agreement on an upper limit of a difference value between the accessed time and the current time, or an agreement on a lower limit of the current version, and the execution criterion may not make an agreement on a value, such as a minimum number of cumulative accesses, a maximum difference value between the accessed time and the current time, or a minimum current version.

3025, the first timer issues an instruction to clock all items in the first storage location. To determine items that meet the execution criteria, the clocks for all items in the first storage unit database need to be acquired.

3026, the first timer receives a clock for all items in the first cell database. The clock refers to the first clock and/or the second clock and/or the third clock and/or the fourth clock, and corresponds to the number of accumulated accesses, the accessed time, the current version and the version update time.

3027, the first timer determines which of the received clocks and contained data for all items in the first cell database satisfy the execution criteria.

3028, a delete operation is performed on the items that meet the execution criteria. Here, the first timer is preset with an execution rule: "issue the instruction to delete the item information of the corresponding item", and the completion of the execution rule indicates that the data cleaning process is completed.

In some embodiments, the second trigger criteria in steps 3022 to 3034 may be replaced by "the remaining capacity of the first storage unit is less than the threshold value X" by "the total number of calibration curves in the first storage unit database is less than the threshold value Y".

In some embodiments, the clocks in steps 3025 to 3027 may be replaced with the number of calibration curves in the calibration curve set for each item in the first storage unit database, and accordingly, the performance criteria may also be replaced with a convention for an upper limit on the number of calibration curves in the calibration curve set for each item.

In some embodiments, a signal of data processing flow start is sent to a second timer, the data processing flow start serves as a trigger criterion of the second timer, the second timer confirms a network communication connection state, if the data processing flow start is not in the network connection state, a first execution criterion "network unconnected" is met, a first execution rule "connection request is sent to a second storage unit" is started, if the network connection cannot be successful, a second execution criterion "network unconnected successful" is met, and a second execution rule "instruction of initiating a loop instruction of the network connection request every U seconds" is started.

Example 8

As shown in fig. 6, the application method of the POCT personalized data processing method includes the following steps.

3031, a power-off signal of the POCT detection device is input to the first timer. When a user turns off the POCT detection equipment through the user interaction module, a power-off signal is formed and input into the first timer.

3032, the first timer issues an instruction to empty the first storage unit database. The first timer is preset with a triggering standard of 'receiving a shutdown signal', and is correspondingly preset with an execution rule of 'emptying a database', so that when the first timer receives the shutdown signal, the triggering standard is met, and the first timer sends out an execution instruction according to the execution rule;

3033, the database of the first storage unit is emptied. And executing the condition operation after the database receives the emptying instruction, and emptying all the item information in the database.

3034, the POCT detection equipment completes shutdown.

In some embodiments, the data cleansing method includes the following steps.

3031, a power-off signal of the POCT detection device is input to the first timer. When a user turns off the POCT detection equipment through the user interaction module, a power-off signal is formed and input into the first timer.

3035, the first timer issues an instruction to acquire scene information or project information of the first storage unit. The first timer is preset with an execution trigger criterion "receiving a shutdown signal", and the corresponding preset execution criterion, the scene information or the item information of the first storage unit satisfies some conditions, and the conditions are set around directions such as a numerical value, content, and a state of the scene information, for example, specifically: the item corresponding to the unique identification code is a non-home (or home) admission (or department), namely a check item, and in order to determine which items meet the execution standard, the first timer sends out an instruction for acquiring the unique identification code in all item information of the first storage unit.

3036, the first timer receives the scene information or the project information in the first storage unit. After receiving the instruction, the first storage unit database sends the scene information to the first timer, where the scene information is, for example, a unique identifier in all item information in the first storage unit database.

3037, the first timer determines whether the received scene information or project information in the first storage unit meets an execution standard, for example, the received unique identifier in all the project information in the first storage unit database is compared with a unique identifier corresponding to a project to be checked in the home (or home) hospital (or department), which is stored in the second database, the project to be checked in the home (or department) may be single or multiple, the received unique identifier may be one or multiple, the unique identifier determined to be different from the unique identifier corresponding to the project to be checked in the home (or home) hospital (or department) is determined, and the first timer corresponding to the execution standard is preset with an execution rule "to issue an instruction to delete the corresponding project information".

3032', the first timer issues an instruction to delete the item information of the item corresponding to the scene information meeting the execution standard or an instruction to delete the item information meeting the execution standard, for example, for a unique identification code different from a unique identification code corresponding to a preset item to be checked in the admission (or department) of the home (or home), the first storage unit issues an instruction to delete the item information of the item corresponding to the different unique identification codes.

3033' the item information in the first storage unit that meets the execution criteria is deleted. And after receiving the deletion instruction, the database executes deletion operation on the items meeting the execution standard.

3034, the POCT detection equipment is shut down.

Example 9

As shown in fig. 8-11, the application method of the POCT personalized data processing method includes the following contents.

As shown in fig. 8, the POCT test apparatus is used for the first time:

4001, opening POCT detection device by user, wherein the memory unit stores one or more unique identification codes of common items of the POCT detection device; in some embodiments, the POCT detection device is bound to a department where the POCT detection device is located, the second database of the POCT detection device stores the department information, the department information is associated with a unique identification code of a commonly used item, and the item can be one or more.

4002, the first timer sends a data synchronization request according to the power-on signal. After the first timer receives the starting signal, the triggering standard of 'receiving the starting signal' is met, the execution rule 'sending a command for initiating a data synchronization request' is started, the first timer sends a command for sending the data synchronization request from the second storage unit, and the first storage unit sends the department information to the second storage unit to initiate the synchronization request.

4003, the second storage unit receives and decodes the department information to obtain one or more unique identification codes associated with the department information. The second storage unit receives department information and the data synchronization request transmitted by the first storage unit, decodes the account information, and obtains a unique identification code corresponding to the department common item or obtains a unique identification code corresponding to one or more department common items bound to the department. The decoding process can also be completed by the first storage unit, that is, after the first storage unit completes the account information decoding, all the unique identification codes are transmitted to the second storage unit after decoding, and a data synchronization request is sent out. Or the second database stores the unique identification codes of the common items without decoding. In some cases, the second database stores project information for commonly used projects without a synchronization request.

4004, the second storage unit feeds back item information corresponding to all unique identification codes.

4005, the first storage unit receives the item information fed back from the second storage unit and synchronizes to the database. Thus, the database of the first storage unit stores the item information of the items to be commonly used by the POCT detection equipment. In particular, the first storage unit is used for locking and marking the item information of the common items.

In some cases, in a process that needs to be performed, a starting signal is received as a trigger standard of a second timer, a communication network is not connected as a first execution standard of the second timer, after the first execution standard is met, a first storage unit initiates a communication network connection request to a second storage unit according to an instruction of the second timer, and the instruction for initiating the connection request is a first execution rule; if the communication network connection fails, a loop command preset by the second timer is as follows: the "initiate communication network connection request every other time interval of U seconds" is started according to the instruction of the second execution rule, the sequence of other steps is unchanged, the communication network connection cannot be successfully the second execution standard, and the instruction of sending the start cycle instruction is the second execution rule.

As shown in fig. 10, the POCT test apparatus daily tests:

4031 and the detection reagent is connected with POCT detection equipment. The user puts the detection reagent into the POCT detection equipment, the putting action can be inserting, and the detection reagent is connected with the POCT detection equipment to form a system.

4032, the detection reagent identification module identifies the information code on the detection reagent. A detection reagent identification module of the POCT detection equipment identifies and decodes an information code of a detection reagent, and acquires information such as a unique identification code, and/or a detection item, and/or a reagent batch number, and/or an environmental condition required by a test.

4033, the detection reagent identification module transmits the decoded information to the processing module. The detection reagent identification module transmits the decoded information, e.g., the unique identification code, to the processing module, and more particularly to a first memory cell database of a memory cell in the processing module. The unique identification code is transmitted to the database as a triggering standard of the data processing flow.

4034, the first storage unit in the processing module determines whether the item information corresponding to the unique identification code exists in the database according to the received information. The first storage unit receives the unique identification code sent by the detection reagent identification module, and determines whether item information corresponding to the unique identification code exists in a database of the first storage unit. The database of the first storage unit does not have the item information corresponding to the unique identification code, and the item information is an execution standard preset in the first timer.

4035, if the determination result in 4034 is negative, the first storage unit sends a data synchronization request according to the input unique identification code. If the item information corresponding to the unique identification code does not exist in the first storage unit, the detected item is not an item frequently detected by the user, the execution standard is met, the execution rule needs to be started, an instruction for initiating the synchronization request is sent, and the first storage unit sends a data synchronization request to the second storage unit according to the unique identification code.

4036, the second storage unit feeds back the item information corresponding to the unique identification code to the first storage unit according to the received unique identification code.

4037, data +1 in the first clock, and/or time in the second clock is updated to the current time. The unique identification code corresponds to data +1 in the first clock, and/or the time in the second clock, in some embodiments, the time of the fourth clock, in the item information, being updated to the current time.

4038, the first storage unit receives the item information fed back by the second storage unit and synchronizes to the database, and the first storage unit contains the item information corresponding to the unique identification code.

4041, the sample to be tested is mixed with a reagent. The user applies the sample to be tested to the reaction reagent, and the sample to be tested is mixed with the components contained in the reaction reagent and reacts.

4042, before 4034, the detecting module detects the calibration variable and the reaction result, the result of the calibration variable is transmitted to the comparing unit, and the reaction result is transmitted to the calculating unit. The calibration variables are used for comparing the calibration curves, so that the calibration curves compared by the comparison unit are more in line with the actual situation, and the result calculated by the calibration curves can reflect the actual situation.

4043, the comparison unit compares the calibration curve that completely matches the calibration variable or the closest calibration curve in the first storage unit according to the calibration variable and transmits the comparison result to the calculation unit. If the determination result in the 4034 step is yes, the present step and the following steps are also executed. In some embodiments, some or all of the calibration variables are substituted into the calibration curve and transmitted to the computing unit.

4044, the reaction result is substituted in the calibration curve in the calculation unit.

4045 and calculating to obtain the detection result.

As shown in fig. 11, the POCT detection device is in data clearing condition when it is powered off:

3031', a device shutdown signal is transmitted to the first timer. The user generates an equipment shutdown signal after executing shutdown operation, the shutdown signal is output to the first timer, and the first timer receives the shutdown signal. At this point the trigger criteria "shutdown signal received" is met.

3035, the first timer issues an instruction to acquire scene information or project information of the first storage unit. The instruction occurs after the first timer receives the shutdown signal, specifically, for example, the first storage unit database feeds back the unique identifier of the item information without the lock flag to the first timer, and if the item information without the lock flag does not exist, feeds back a null value to the first timer.

3036, the first timer receives the scene information or the project information in the first storage unit. Specifically, the first timer receives a fed-back unique identification code or a null value. At this time, the preset execution criterion is that "the item information does not have the locking mark", and to obtain the items meeting the execution criterion, the item information in the first storage unit needs to be acquired to determine which items do not have the locking marks.

3037, the first timer judges whether the received scene information in the first storage unit meets the execution standard. Specifically, after receiving the fed-back unique identification code, the execution rule "issue an instruction to delete the corresponding item information" is started, and after receiving the fed-back null value, the execution rule is not started.

3032', if the execution rule is started, the first timer issues an instruction to delete the item information corresponding to the scene information meeting the execution standard or issues an instruction to delete the item information meeting the execution standard. If the execution rule is not started, the process is ended.

3033', the item information in the first storage unit that meets the execution criteria is deleted. Specifically, the item information in the first storage unit without the lock flag is deleted.

3034', the POCT detection equipment completes shutdown.

As in fig. 9, daily updating of common project information:

4011, the user turns on the POCT detection equipment, and the power-on signal is transmitted to the first timer. Or the user can log in the account number of the POCT detection equipment, and the log-in signal of the equipment is transmitted to the first timer.

4012, the first timer issues an instruction to obtain the synchronization time of all items in the first storage unit database. Here, the triggering condition "receiving a power-on signal" or "receiving a login signal" is satisfied, the execution criterion "whether a difference between the current time and the synchronization time fed back by the first timer is greater than H weeks" is started, and in order to determine which items satisfy the execution criterion, the first timer needs to issue an instruction to acquire the synchronization time of the items in the first storage unit.

4013, the synchronized time of all items is transmitted to the first timer. And after the first storage unit database receives the instruction, transmitting the fourth clock, namely the synchronous time of all the items to the first timer, wherein the fourth clock is associated with the unique identification code during transmission to prevent confusion.

4014, the first timer receives all item synchronization time and compares it with the current time. The synchronous time of all the items is compared with the current time one by one to calculate the time difference value, and the time difference value is output in a week unit, and of course, the time difference value can also be output in any other time measurement unit.

4015, determine whether the difference between the current time and the synchronization time fed back by the first timer is greater than H weeks. And determining whether the comparison result output by the 4014 meets a preset execution standard, if the comparison result meets the execution standard, starting an execution rule, and if the comparison result does not meet the execution standard, not starting the execution rule, wherein the preset execution rule is 'sending an instruction for initiating a corresponding project synchronization request'.

4016, the first timer extracts the unique identification code of the item whose difference between the current time and the synchronization time received from the feedback is greater than H weeks, and sends out an instruction for initiating a synchronization request of the corresponding item. After the 4015 determines that the time difference compared in the 4014 is greater than the items in the H week, the first timer extracts the unique identification codes of the items, and the execution rule is started.

4017, the second timer receives a command for confirming the connection status of the communication network. And if the second timer confirms that the communication network is not connected, the first storage unit initiates a communication network connection request to the second storage unit, and if the communication network is connected, the step is not needed. The second timer is preset with a triggering standard of 'receiving an instruction for confirming the connection state of the communication network', an execution standard of 'no connection of the communication network', and an execution rule of 'sending an instruction for initiating the connection of the communication network'.

4018, the communication network is successfully connected. The second storage unit is successfully connected with the first storage unit through the communication network, and the second timer sends a signal of successful connection to the first timer.

4019, the first storage unit issues a data synchronization request. The first storage unit sends the extracted unique identification code to the second storage unit to make a data synchronization request.

4020, the second storage unit feeds back the corresponding item information according to the received unique identification code. And the second storage unit feeds the item information corresponding to the unique identification code back to the first storage unit after receiving the data synchronization request signal.

4021, the first storage unit receives the item information fed back by the second storage unit and synchronizes to the database. At this time, the number of times of access of the first clock in the first storage unit is accumulated to be +1, the time when the second clock is accessed is updated to the current time, the current version of the third clock is updated to be the same as that in the second storage unit, and the fourth clock is updated to the current time.

The 4020 step and the 4021 step inevitably occur if and only if the item information in the second storage unit is updated every day, otherwise the 4019 step is followed by the 3002 step and the following steps in embodiment 3.

The foregoing detailed description is intended to illustrate and not limit the invention, which is intended to be within the spirit and scope of the appended claims, and any changes and modifications that fall within the true spirit and scope of the invention are intended to be covered by the following claims.

Claims (20)

1. A POCT personalized data processing method is characterized in that,

the personalized data processing method comprises the following steps:

step one, POCT detection equipment is set to be a device comprising an interaction module, a detection reagent identification module and a processing module;

step two, setting the processing module into a module comprising a storage unit, a comparison unit and a calculation unit, dividing the storage unit of the storage unit into a first storage unit and a second storage unit, setting a database and a timer in the first storage unit, and setting the database in the second storage unit;

step three, presetting a triggering standard and an execution rule of data processing in the timer, wherein the triggering standard is used for starting a data processing flow, the data processing flow is carried out according to the execution rule, the execution rule is started after the preset triggering standard is met, and the execution rule is not started if the triggering standard is not met;

step four, updating project information of the project in a database of the second storage unit;

setting a clock in the item information for recording the accessed trace of the item information, wherein the trace is updated according to the access condition;

step six, each user is given an account, and after the user logs in the account, the database of the first storage unit is synchronized with personalized information;

acquiring a signal triggering the data processing flow through the interaction module or the detection reagent identification module or the processing module;

the data processing flow comprises a data synchronization flow and a data cleaning flow, the synchronized data and the cleaned data are project information, the data synchronization comprises an automatic synchronization mode and a passive synchronization mode, and the data cleaning comprises an automatic cleaning mode and a passive cleaning mode.

2. The POCT personalized data processing method as claimed in claim 1, wherein the personalized information in the sixth step comprises unique identification codes or item information of admission necessaries, or items commonly used by departments, or items commonly used by users, or information capable of being associated with the admission necessaries, or items commonly used by departments, or items commonly used by users.

3. The POCT personalized data processing method as claimed in claim 1 or 2, wherein in the sixth step, after the personalized information is updated, a locking mark is added to the updated item information.

4. The POCT personalized data processing method of claim 1, wherein the POCT personalized data processing method is characterized in that

In the third step, an execution standard of data processing is further set in the timer, the execution standard is used for determining an item requiring the start of an execution rule, item information corresponding to the determined item is processed according to the execution rule, and the execution standard and the execution rule are in one-to-one correspondence.

5. The POCT personalized data processing method as claimed in claim 1 or 4, wherein the automatic synchronization mode is to set the trigger criteria as receiving a device power-on signal or receiving an account login signal, and the passive synchronization mode is to set the trigger criteria as receiving a signal that a calibration curve is not found, or receiving a signal that a closest calibration curve is not found, or receiving a signal that a user inputs a synchronization request, or receiving a signal that a unique identification code is input.

6. The POCT personalized data processing method as claimed in claim 1 or 4, wherein the automatic cleaning mode is to set the trigger criteria to receive a device shutdown signal or an account sign-out signal, and the passive cleaning mode is to set the trigger criteria to receive a signal that synchronization is in progress, a signal that synchronization is about to be performed, a signal that scene information is smaller than a threshold, or a signal that scene information is greater than a threshold.

7. The POCT personalized data processing method as claimed in claim 1 or 4, wherein the execution rule is set as: and sending an instruction for deleting the corresponding item information, or sending an instruction for initiating a data synchronization request, or sending an instruction for outputting the item information to the second storage unit, or emptying the database.

8. The POCT personalized data processing method according to claim 4, wherein the execution standard is set to be that item information is greater than a threshold value, or the item information is less than the threshold value, or the scene information of the first storage unit is greater than the threshold value, or the scene information of the first storage unit is less than the threshold value, or a calibration curve is not found, or no item information is found, or an item corresponding to the unique identification code is an irregular item, or an item corresponding to the unique identification code is an unbound item, or the item information does not have a locking mark.

9. The POCT personalized data processing method of claim 1, wherein the POCT personalized data processing method is characterized in that

In the fifth step, the clock is divided into a first clock and a second clock, or a third clock is divided, or a fourth clock is divided.

10. The POCT personalized data processing method as recited in claim 1, further comprising the steps of: item information and/or personalization information of the item is updated in the database of the first storage unit.

11. The POCT personalized data processing method according to claim 1, wherein in the second step, the database of the first storage unit is divided into a first database and a second database, the first database is used for storing the project information, and the second database is used for storing the personalized information.

12. The POCT personalized data processing method as claimed in claim 1, wherein the first storage unit and the second storage unit manage and operate the stored data through a structured query language through a general relational database.

13. The POCT personalized data processing method as claimed in claim 1, wherein in the third step, the timer is divided into a first timer and a second timer, and the second timer is configured with the standard and the rule of the communication network connection, wherein the standard is an execution standard and/or a trigger standard, and the rule is an execution rule.

14. The method for applying the POCT personalized data processing method according to any one of claims 1-13, characterized by comprising the following steps:

s1, the user logs in the exclusive account, a first trigger criterion in the first timer is met, a first execution rule is started, the first storage unit carries out data synchronization according to the personalized information of the exclusive account and the execution rule, and the item information bound by the account is synchronized into the first storage unit;

s2, during detection, the first timer receives a signal input by the unique identification code, the second trigger standard is met, the first timer judges whether the second execution standard is met, if yes, the second execution rule is started, and if not, the second execution rule is not started;

s3, the user logs out the exclusive account, the third trigger standard is met, the first timer judges whether the third execution standard is met, if yes, the third execution rule is started, and if not, the third execution rule is not started;

the first trigger criteria are: receiving an account login signal; the first execution rule is: sending out a command for initiating a data synchronization request;

the second trigger criteria are: receiving a signal of a user input synchronization request or a signal of a unique identification code input; the second execution criterion is: finding no calibration curve, or finding no closest calibration curve, or finding no item information, or not an account number bound item; the second execution rule is: sending out a command for initiating a data synchronization request;

the third trigger criteria are: receiving an account login signal; the third performance criterion was: the item information does not have a locking mark, or the item corresponding to the unique identification code is an unconventional item, or the item corresponding to the unique identification code is an unbound item; the third execution rule is: and sending an instruction for deleting the corresponding item information.

15. The method as claimed in claim 14, wherein the second triggering criteria is: receiving a signal that a calibration curve is not found, or receiving a signal that a user inputs a synchronous request, or receiving a signal that a unique identification code is input; the second execution criterion is: the item information in the first storage unit is less than a threshold value, or the item information in the first storage unit is greater than a threshold value.

16. The method as claimed in claim 14, wherein the step S1 further comprises the steps of determining whether the first execution criterion is satisfied by a first timer after the first trigger criterion is satisfied, if so, starting the first execution rule, and if not, not starting the first execution rule; the first execution criterion is: items bound by all accounts are not found, or item information is larger than a threshold value, or item information is smaller than the threshold value.

17. The method for applying the POCT personalized data processing method according to claim 14, further comprising the steps of:

s0, the POCT detection equipment is started by a user, a fourth trigger standard is met, a fourth execution rule is started, the first storage unit carries out data synchronization according to the department information bound by the equipment and the execution rule, and the item information bound by the equipment is synchronized into the first storage unit;

the fourth trigger criteria are: receiving a device starting signal; the fourth execution rule is: and sending a data synchronization request initiating instruction.

18. The method for applying the POCT personalized data processing method according to claim 14, further comprising the steps of:

s4, when the computer is started and in a login state, a fifth trigger standard of the first timer is met, a fifth execution standard is started, the first timer judges whether the fifth execution standard is met, if yes, the fifth execution rule is started, and if not, the fifth execution rule is not started;

the fifth trigger criterion is: receiving a signal of a user input synchronization request, or receiving synchronization, or receiving a signal to be synchronized, or receiving a signal of unique identification code input, or receiving a signal that the scene information of the first storage unit is smaller than a threshold value, or receiving a signal that the scene information of the first storage unit is larger than the threshold value;

the fifth execution criterion is: the project information is greater than a threshold value and less than the threshold value;

the fifth execution rule is: and sending an instruction for deleting the corresponding item information.

19. The POCT personalized data processing method of any one of claims 1-13 applied to electrochemical products.

20. The POCT personalized data processing method of any one of claims 1-13 applied to immunofluorescence products.

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