CN112988179A - Burning method and system for glucometer code card, electronic equipment and storage medium - Google Patents
Burning method and system for glucometer code card, electronic equipment and storage medium Download PDFInfo
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Abstract
The method comprises the steps of obtaining burning information of a glucometer code card, verifying the burning information based on a preset rule, and reading data information of the code card in response to the fact that the burning information meets the preset rule; and in response to determining that the data information is zero, burning the code card based on the burning information; and reading the data information of the code card again after the burning is finished, and finishing the burning when the data information is determined to be consistent with the burning information, so that the accuracy of the correction code in the code card is ensured through multiple verification and confirmation, and the accuracy of the blood sugar detection result is further ensured.
Description
Technical Field
The present disclosure relates to the field of blood glucose detection technologies, and in particular, to a method and a system for burning a code card of a blood glucose meter, an electronic device, and a storage medium.
Background
Glucose oxidase method is mostly adopted in glucometer detection technology, because the raw materials and production conditions of products are different (air temperature, air temperature and the like during production), the consistency of glucose oxidase test paper is not well controlled in the manufacturing process, so that the reaction activities on test paper of different batches are different, screening is needed before packaging, the biochemical reactions are closely combined into a group through detecting electrical characteristics, the test paper correction codes are corresponding to a correction code, the test paper correction codes produced at different times are different, and only the test paper correction codes produced in the same batch are the same. Each correction code of the blood glucose meter corresponds to different numerical values, and a user can obtain a correct blood glucose result only by corresponding to the correction codes matched with the test strips when using the blood glucose meter.
One way to obtain the calibration code is to manually adjust the value of the calibration code of the blood glucose meter, which may not ensure the correct configuration of the calibration code, and is very prone to error, causing the problem of deviation in the measurement of the blood glucose value. Another way to obtain the correction code is to burn the correction code into a code card of the blood glucose meter, insert the code card into the blood glucose meter when measuring blood glucose, and then read the correction code from the blood glucose meter, which is particularly important in the burning process.
Disclosure of Invention
In view of the above, an object of the present disclosure is to provide a method and an apparatus for burning a code card of a blood glucose meter, an electronic device, and a storage medium.
Based on the above purpose, the present disclosure provides a method for burning a glucometer code card, which includes:
acquiring burning information of a glucometer code card;
verifying the burning information based on a preset rule, and reading the data information of the code card in response to determining that the burning information conforms to the preset rule;
in response to determining that the data information is zero, burning the code card based on the burning information;
and reading the data information of the code card again, responding to the fact that the data information of the code card read again is consistent with the burning information, and ending the burning.
As can be seen from the above, the burning method of the glucometer code card provided by the present disclosure first obtains the burning information of the glucometer code card, then verifies the burning information based on a preset rule, and reads the data information of the code card in response to determining that the burning information conforms to the preset rule; and in response to determining that the data information is zero, burning the code card based on the burning information; and after the burning is finished, reading the data information of the code card again, and finishing the burning when the data information of the code card read again is determined to be consistent with the burning information, so that the accuracy of the correction code in the code card is ensured through multiple verification and confirmation, and the accuracy of the blood sugar detection result is further ensured.
Drawings
In order to more clearly illustrate the technical solutions in the present disclosure or related technologies, the drawings needed to be used in the description of the embodiments or related technologies are briefly introduced below, and it is obvious that the drawings in the following description are only embodiments of the present disclosure, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a schematic flow chart of a method for burning a glucose meter code card according to an embodiment of the present disclosure;
fig. 2 is a schematic flow chart illustrating another method for burning a code card of a blood glucose meter according to an embodiment of the present disclosure;
fig. 3 is a schematic connection diagram of a burning system for a glucometer code card according to an embodiment of the present disclosure;
fig. 4 is a hardware structure schematic diagram of a specific electronic device according to an embodiment of the present disclosure.
Detailed Description
For the purpose of promoting a better understanding of the objects, aspects and advantages of the present disclosure, reference is made to the following detailed description taken in conjunction with the accompanying drawings.
It is to be noted that technical terms or scientific terms used in the embodiments of the present disclosure should have a general meaning as understood by those having ordinary skill in the art to which the present disclosure belongs, unless otherwise defined. The use of "first," "second," and similar terms in the embodiments of the disclosure is not intended to indicate any order, quantity, or importance, but rather to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.
As described in the background section, the existing process of the correction code participating in the blood glucose test is mainly divided into the way of manually adjusting the correction code data of the blood glucose meter by the user and inserting the code card of the blood glucose meter, and considering that the group of users who perform the blood glucose test is mainly the elderly, the obvious operation steps are simpler and better, so the scheme mainly develops further research on the code card inserted into the blood glucose meter, the burning of the code card is undoubtedly performed in large batch by considering the number of the used code cards, and how to ensure the accurate burning of the code card in a large amount is fully considered in the design scheme of the disclosure, specifically, when the burning information is obtained, the burning information is firstly verified, the completeness of the burning information is ensured, then when the code card is burned, whether other data exist in the code card to be burned is firstly judged, and the influence of other data on the burning data is avoided, meanwhile, the requirement on the code card to be burned is reduced, the possibility is provided for the code card to be repeatedly burned, and finally the data information burned by the code card is read again after the code card is burned and compared with the acquired burning information, so that the possibility of errors in each link of the burning process is fully considered, and the probability of errors is further reduced.
In a specific application scenario, the burning method disclosed by the invention can be adopted by a blood glucose test strip manufacturer when burning code cards in batches, and is sold in a matched manner with corresponding blood glucose test strips.
Similarly, in another specific application scenario, the burning method of the present disclosure may also be adopted when a retailer of the blood glucose test strip or the blood glucose meter burns a field code card in a store.
Referring to fig. 1, a schematic flowchart of a burning method for a glucometer code card according to an embodiment of the present disclosure is shown, where the method includes the following steps:
and S101, acquiring burning information of the glucometer code card.
In this step, the acquired burning information of the glucometer code card may be sent by a software terminal device or manually input by an operator, and the software terminal may be a computer, a tablet or a cloud server equipped with a burning system. The acquired burning information comprises code card numbers and correction data, the code card numbers of different glucometer code cards are different, the burning information can be one or more, and the specific data is determined according to the data needing to be burned at the same time. The calibration data includes a value A and a value B used in a blood glucose test calibration process. It should be noted that the correction data corresponding to each code card number may be the same or different, so as to implement the simultaneous burning of the same data or different data for a plurality of code cards.
S102, verifying the burning information based on a preset rule, and reading the data information of the code card in response to the fact that the burning information conforms to the preset rule.
In this step, after the burning information is obtained, the burning information needs to be verified according to a preset rule, where the preset rule includes the data quantity, the included type, the preset threshold of the correction data, and the limit character of the burning information of each code card. For example, if a certain burning information has a limit character or the value a in the correction data exceeds a preset threshold, it indicates that the burning information has an error and cannot be adopted, meanwhile, the burning information of different code cards generally has the same data quantity and type, and if a certain burning information is abnormal, it indicates that the burning information has an error. In the step, after the acquired burning information is determined to be correct, the next process is started, namely the data information of the code card is read.
And S103, in response to the fact that the data information is determined to be zero, burning the code card based on the burning information.
In this step, the conventional code card burning process is performed on the basis of a brand-new code card, so that the data of the code card to be burned is zero by default when the code card is burned. On one hand, the method can not realize the recycling of the code card, namely, the same code card is burnt for two times or N times; on the other hand, when new code cards are burned, certain code cards fail to be burned for the first time to cause the code cards to store missing data, and at this time, if the traditional code card burning method is adopted, not only can the recovered code cards be burned, but also the code cards which fail to be burned can not be used for the second time, so that the factors are fully considered, the accuracy of the burning data is ensured, and the code cards are burned according to the burning information when the data information of the code cards is determined to be zero.
In order to save energy and ensure the accuracy of burning data, in some embodiments, after reading the data information of the code card, the method further comprises:
and in response to determining that the data information is not zero, clearing the data information of the code card and burning the code card based on the burning information.
Specifically, in consideration of recycling of the code card, before burning is performed, when it is determined that the data information of the code card is not zero, the data of the code card is cleared first, and then the code card is burned according to the burning information.
And S104, reading the data information of the code card again, responding to the fact that the data information of the code card read again is consistent with the burning information, and ending the burning.
In this step, after the code card is burned, the data information of the code card is read again, and whether the data information is consistent with the acquired burning information is judged, if so, the burning is correct, and the burning is finished.
Considering that most users of blood glucose meters are elderly people, and blood glucose test strips are sold in a whole box and provided with a blood glucose meter code card, the code card is matched with batches of the blood glucose test strips in the box, if the blood glucose test strips are purchased again, matching with an original code card is difficult to guarantee, and the blood glucose detection is inaccurate due to careless continuous use of the code card, therefore, in some embodiments, the burning information further comprises the maximum use times of the code card, and the specific application of the maximum use times of the code card in the blood glucose meter comprises the following steps:
in response to determining that the number of uses of the current code card is greater than the maximum number of uses, the blood glucose meter sends first warning information to the user, the first warning information including whether to continue using the current code card.
Specifically, the maximum number of times of use of the code card is determined by each box of sold blood glucose test strips, for example, 50 blood glucose test strips in a certain box are correspondingly provided with one code card, and then the maximum number of times of use of the code card is set to 50, so that when the code card is used 51 times, under normal conditions, 50 blood glucose test strips corresponding to the code card are already used, and at this time, a new blood glucose is likely to be used, and at this time, the blood glucose meter sends first warning information to the test strips of the user to remind the user to replace the code card, so that errors in blood glucose detection are avoided. The first warning information includes whether to continue using the current code card. Optionally, the first warning message may remind the user through one or more forms of voice, text, light flashing, and the like.
To prevent the user from using the failed blood glucose test strip, in some embodiments, the programming information further includes a life span, the life span includes a test strip expiration and a test strip unsealing expiration, the test strip expiration is a date, optionally, the date may be XX years XX months XX days, and the test strip unsealing expiration is a period of time. For example, the test strip has an effect of 12 months and 12 days in 2021, and the test strip has an unsealing effect of 50 days.
The blood sugar test strip has a service life, namely a quality guarantee period after being produced, but in order to save cost, the blood sugar test strip is generally not marked, most manufacturers mark the quality guarantee period on a packaging box, but considering that most users are old people, even if the user is a young person, the code card blood sugar test strip is sold in a matched mode, therefore, under the condition of not increasing the cost, the blood sugar test strip is added into the code card periodically when the code card of the blood sugar meter is burnt, thus, the blood glucose meter can judge whether the corresponding blood glucose test strip is expired or not by reading the data, but, in the actual use process, the situation that the blood sugar detection precision is not high can be found in a plurality of blood sugar test strips in the guarantee period, to this end, in some embodiments, the specific application of the strip unsealing effect in a blood glucose meter includes:
the blood glucose meter determines the unsealing time of the blood glucose test strip based on the date the code card is inserted into the blood glucose meter for the first time and the current date;
in response to determining that the opening time of the blood glucose test strip is greater than the strip opening validity, the blood glucose meter sends second pre-alarm information to the user, the second pre-alarm information including that the current blood glucose test strip has expired.
Particularly, the quality guarantee periods of the blood sugar test strips in different storage environments are different through research, if the quality guarantee periods are obviously different under sealed storage and unsealed storage, and the actual conditions of users are combined, many users, especially the old, can probably forget that the first blood sugar test strip is used from which day after the users use the blood sugar test strips for a period of time, so that the test strip unsealing period effect is marked on the packaging box again, the effect is not ideal, and the consideration is integrated. The test strip unsealing period effect is burnt into the code card, the problem is solved by matching with a blood glucose meter, the influence on the accuracy of blood glucose detection caused by unsealing failure of the blood glucose test strip is avoided, specifically, the date of each code card inserted into the blood glucose meter for the first time is used as the unsealing date of the corresponding blood glucose test strip by the blood glucose meter, optionally, the number of the code card is read by the blood glucose meter when the code card is inserted, and is compared with the number of the code card inserted last time, if the numbers are the same for two times, the insertion is not the first insertion, if not, the insertion is the first insertion, and the number and the date of the code card are recorded as the unsealing date of the blood glucose test strips in the batch. After the unsealing date of the blood glucose test strip is obtained, the unsealing time of the blood glucose test strip is determined by combining the current using date of the same code card, when the unsealing time of the blood glucose test strip is greater than the unsealing time effect of the test strip, the blood glucose meter sends second early warning information to a user, and the second early warning information comprises that the current blood glucose test strip is overdue.
After the correct burning of the data information of the glucometer code card is confirmed, the data information is uploaded to a data center to form a burning log, so that subsequent inquiry and tracing are facilitated. Dozens of burning devices can generate a large amount of data information when working simultaneously. Under the condition, the burning device does not upload data immediately after generating burning records every time, but uploads the burning records to the data center in batch after collecting the burning records to a controllable upper limit of the number by adopting a mode of establishing a temporary data buffer area locally, so that the uploading frequency can be greatly reduced, the uploading efficiency can be improved, and the problem of high computer resource occupancy rate of the burning device caused by frequent data interaction is effectively solved. Thus, in some embodiments, the burning device includes a first local cache and a second local cache, and after responding to determining that the data information is consistent with the burning information, the method further includes:
storing the data information in the first local cache region, uploading the data information stored in the first local cache region to a data center in response to determining that the number of the data information stored in the first local cache region is greater than or equal to a preset upper limit of stored data, and starting to store the data information which needs to be stored currently and the subsequent data information through the second local cache region;
acquiring a storage signal of the data center, and determining whether data uploading is successful or not based on the storage signal and the data information stored in the first local cache region; and in response to the fact that the data uploading is successful, clearing the data information of the first local cache region, and waiting for the data information to be stored in the first local cache region next time.
Specifically, in addition to the above reasons, it is considered that when uploading data information of the local cache area to the data center, in order to ensure that the burning device can continuously burn without influencing the verification of whether the subsequent data uploading is successful, the local cache area comprises a first local cache area and a second local cache area, when the data is cached, the data is firstly stored through one of the areas, for example, the data information is firstly stored in the first local cache area, stopping storing data through the first local cache region after the data stored in the first local cache region reaches the upper limit, starting storing data information through the second local cache region, simultaneously uploading the data information stored in the first local cache region to the data center, the data center is used for inquiring subsequent burning data, and optionally, the data center can be arranged at a cloud end or other hardware terminals. After the data information is uploaded to the data center, the data center sends a storage signal to the burning equipment, after the burning equipment receives the storage signal, the signal is compared with the data information stored in the first local cache area, if the comparison result is consistent, the data is uploaded successfully, when the data is successfully uploaded, the data information in the first local cache area is cleared, and if the data is unsuccessfully uploaded, the data information stored in the first local cache area is uploaded again. And when the second local cache region also needs to upload the data, the data information is stored again through the first local cache region. Optionally, when judging whether the data upload is successful, the storage signal sent by the data center may be the number of the data information, and the number of the data information is compared with the data amount of the data information stored in the first local cache region, so that a cyclic comparison of each data information is not required, the judgment efficiency is further improved, and the number of the data information is judged once when the data upload is performed, and is not required to be obtained at the burning device. It should be noted that, the first local cache area and the second local cache area herein do not have a difference between the priority and the priority, and the data information may be first stored in the second local cache area when being stored for the first time.
Since the query is completed through the data center when the historical burning records are queried, in order to avoid that some burning devices do not upload data to the data center all the time due to a small burning number, in some embodiments, after the data information is stored in the first local cache region, the method further includes:
and in response to the fact that the number of the data information saved in the first local cache area is smaller than the preset saved data upper limit and the saving time of the data information is larger than or equal to the preset time, uploading the data information saved in the first local cache area to the data center, and starting to save the data information which needs to be saved currently and the subsequent data information through the second local cache area.
Specifically, the preset time may be set as needed, for example, may be set to 1 hour, so that even if the number of the data information stored in the first local cache region is smaller than the preset upper limit of the stored data, after the storage time is greater than or equal to 1 hour, the burning device may also actively upload the data information stored in the first local cache region to the data center, and the subsequent steps are repeated with the above steps, which is not described herein again.
Generally, a large number of repeated burns are required to be conducted on the same batch of blood glucose test strips during burning of the blood glucose meter code cards, and it is considered that after the two data are uploaded to the data center, the code cards corresponding to the blood glucose test strips in the same batch cannot be completely and synchronously uploaded to the data center after the burning is completed, in some embodiments, the burning information includes correction data, and the method further includes:
in response to determining that the number of data information saved in the first local cache area is smaller than the preset saved data upper limit and the saving time is smaller than the preset time and the correction data in the data information which needs to be saved at present is different from the correction data in the data information which needs to be saved at last time, uploading the data information saved in the first local cache area to a data center, and starting to save the data information which needs to be saved at present and the data information which follows through the second local cache area.
Specifically, whether the currently burned code card corresponds to the same batch of blood glucose test strips is determined by comparing the correction data in the data information which needs to be saved currently with the correction data in the data information which is saved last time, if inconsistency is found, the burned data information starts to change at the moment, the data information which is burned last time and saved at the moment needs to be uploaded to a data center together, so that statistics, sorting and query of subsequent data are facilitated, and then the data information which changes the correction data currently is used as first saved data and is saved in a second local cache region, so that the code card data information corresponding to the same batch of blood glucose test strips is independently saved. Correspondingly, after the data information of the first local cache region is uploaded, the subsequent steps are the same as the data uploading verification step, and are not described herein again.
In some embodiments, after verifying the burning information based on a preset rule, the method further includes:
in response to the fact that the burning information does not accord with the preset rule, sending out early warning information and reacquiring the burning information of the glucometer code card;
specifically, after the acquired burning information is verified to be incorrect, early warning information is sent out and the burning information of the glucometer code card is acquired again, the early warning information can be sent out in the forms of voice, light flicker and the like, optionally, the incorrect burning information is deleted before the burning of the code card is acquired again, and the influence on the newly acquired burning information is avoided. Meanwhile, when the burning information does not accord with the preset rule or the data information of the code card is read again and is inconsistent with the burning information, the previous step can be repeated for a plurality of times until the judgment condition is met and the repeated action is finished.
Referring to fig. 2, which is a schematic flow chart of another method for burning a glucometer code card according to an embodiment of the present disclosure, specifically, a computer burning software opens a serial port, optionally, the serial port is a serial communication interface, and then sends an online command to a burning device, the burning device receives the online command, sends an online successful message to a computer after confirming that online is successful, the computer burning software sends a calibration code data, i.e., burning information, to the burning device after receiving successful recovery of online, the burning device performs data verification after receiving the calibration code data, starts burning the calibration code card after verification, sends a data writing successful message to the burning device after receiving the data pushed by the burning device, the burning device sends a writing successful reply message to the computer burning software after receiving a successful writing reply, and after the computer end burning software receives the successful reply, the burning is finished.
The burning method for the glucometer code card comprises the steps of firstly obtaining burning information of the glucometer code card, wherein the burning information comprises a code card number and correction data; then verifying the burning information based on a preset rule, and reading the data information of the code card in response to the fact that the burning information conforms to the preset rule; and in response to determining that the data information is zero, burning the code card based on the burning information; after the burning is finished, the data information of the code card is read again, and when the data information is determined to be consistent with the burning information, the burning is finished, so that the accuracy of a correction code in the code card is ensured through multiple verification and confirmation, the accuracy of a blood sugar detection result is further ensured, meanwhile, the service life is burnt in the code card, and the service life comprises a test strip effectiveness and a test strip unsealing effectiveness, so that the blood sugar test strip is prevented from being used for an overdue period.
It should be noted that the method of the embodiments of the present disclosure may be executed by a single device, such as a computer or a server. The method of the embodiment can also be applied to a distributed scene and completed by the mutual cooperation of a plurality of devices. In such a distributed scenario, one of the devices may only perform one or more steps of the method of the embodiments of the present disclosure, and the devices may interact with each other to complete the method.
It should be noted that the above describes some embodiments of the disclosure. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims may be performed in a different order than in the embodiments described above and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing may also be possible or may be advantageous.
Based on the same inventive concept, corresponding to the method of any embodiment, the disclosure also provides a burning system of the glucometer code card.
The burning system comprises a software terminal and burning equipment, wherein the software terminal is used for sending the burning information to the burning equipment, the software terminal is connected with one or more burning equipment, and the burning equipment is used for executing the burning method of the glucometer code card.
In a specific application scenario, the device and a software terminal perform data transmission in a serial communication interface manner, the software terminal is used for sending the burning information to the device, optionally, the software terminal may be a computer, a tablet, a mobile phone, a cloud server or other terminal equipment capable of carrying software, and the software terminal is connected with one or more devices. Referring to fig. 3, the software terminal is simultaneously connected to three burning devices, i.e., burning apparatuses, and each burning device can be simultaneously inserted with a plurality of code cards for burning.
For convenience of description, the above devices are described as being divided into various modules by functions, and are described separately. Of course, the functionality of the various modules may be implemented in the same one or more software and/or hardware implementations of the present disclosure.
The system of the above embodiment is used to implement the corresponding blood glucose meter code card burning method in any of the foregoing embodiments, and has the beneficial effects of the corresponding method embodiment, which are not described herein again.
Based on the same inventive concept, corresponding to the method of any embodiment, the disclosure further provides an electronic device, which includes a memory, a processor, and a computer program stored on the memory and capable of running on the processor, wherein the processor executes the program to implement the method for burning the glucometer code card according to any embodiment.
Fig. 4 is a schematic diagram illustrating a more specific hardware structure of an electronic device according to this embodiment, where the electronic device may include: a processor 1010, a memory 1020, an input/output interface 1030, a communication interface 1040, and a bus 1050. Wherein the processor 1010, memory 1020, input/output interface 1030, and communication interface 1040 are communicatively coupled to each other within the device via bus 1050.
The processor 1010 may be a burning device of the present disclosure, and may specifically be implemented by a general-purpose CPU (Central Processing Unit), a microprocessor, an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits, and configured to execute a relevant program to implement the technical solution provided in the embodiments of the present disclosure.
The Memory 1020 may be a software terminal of the present disclosure, and may specifically be implemented in the form of a ROM (Read Only Memory), a RAM (Random Access Memory), a static storage device, a dynamic storage device, and the like. The memory 1020 may store an operating system and other application programs, and when the technical solution provided by the embodiments of the present specification is implemented by software or firmware, the relevant program codes are stored in the memory 1020 and called to be executed by the processor 1010.
The input/output interface 1030 is used for connecting an input/output module to input and output information. The i/o module may be configured as a component in a device (not shown) or may be external to the device to provide a corresponding function. The input devices may include a keyboard, a mouse, a touch screen, a microphone, various sensors, etc., and the output devices may include a display, a speaker, a vibrator, an indicator light, etc.
The communication interface 1040 is used for connecting a communication module (not shown in the drawings) to implement communication interaction between the present apparatus and other apparatuses. The communication module can realize communication in a wired mode (such as USB, network cable and the like) and also can realize communication in a wireless mode (such as mobile network, WIFI, Bluetooth and the like).
It should be noted that although the above-mentioned device only shows the processor 1010, the memory 1020, the input/output interface 1030, the communication interface 1040 and the bus 1050, in a specific implementation, the device may also include other components necessary for normal operation. In addition, those skilled in the art will appreciate that the above-described apparatus may also include only those components necessary to implement the embodiments of the present description, and not necessarily all of the components shown in the figures.
The electronic device of the above embodiment is used to implement the corresponding blood glucose meter code card burning method in any of the foregoing embodiments, and has the beneficial effects of the corresponding method embodiment, which are not described herein again.
Based on the same inventive concept, corresponding to any of the above embodiments, the present disclosure also provides a non-transitory computer-readable storage medium storing computer instructions for causing the computer to execute the method for burning a code card of a blood glucose meter according to any of the above embodiments.
Computer-readable media of the present embodiments, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device.
The computer instructions stored in the storage medium of the above embodiment are used to enable the computer to execute the blood glucose meter code card burning method according to any one of the above embodiments, and have the beneficial effects of the corresponding method embodiments, which are not described herein again.
It should be noted that the embodiments of the present disclosure can be further described in the following ways:
a burning method of a glucometer code card is applied to burning equipment of the glucometer code card, and comprises the following steps:
acquiring burning information of a glucometer code card;
verifying the burning information based on a preset rule, and reading the data information of the code card in response to determining that the burning information conforms to the preset rule;
in response to determining that the data information is zero, burning the code card based on the burning information;
and reading the data information of the code card again, responding to the fact that the data information of the code card read again is consistent with the burning information, and ending the burning.
Optionally, after reading the data information of the code card, the method further includes:
and in response to determining that the data information is not zero, clearing the data information of the code card and burning the code card based on the burning information.
Optionally, the burning device includes a first local cache area and a second local cache area, and after responding to the determination that the data information is consistent with the burning information, the method further includes:
storing the data information in the first local cache region, uploading the data information stored in the first local cache region to a data center in response to determining that the number of the data information stored in the first local cache region is greater than or equal to a preset upper limit of stored data, and starting to store the data information which needs to be stored currently and the subsequent data information through the second local cache region;
acquiring a storage signal of the data center, and determining whether data uploading is successful or not based on the storage signal and the data information stored in the first local cache region;
and in response to the fact that the data uploading is successful, clearing the data information of the first local cache region, and waiting for the data information to be stored in the first local cache region next time.
Optionally, after the data information is stored in the first local cache region, the method further includes:
and in response to the fact that the number of the data information saved in the first local cache area is smaller than the preset saved data upper limit and the saving time of the data information is larger than or equal to the preset time, uploading the data information saved in the first local cache area to the data center, and starting to save the data information which needs to be saved currently and the subsequent data information through the second local cache area.
Optionally, the burning information includes correction data, and the method further includes:
in response to determining that the number of data information saved in the first local cache area is smaller than the preset saved data upper limit and the saving time is smaller than the preset time and the correction data in the data information which needs to be saved at present is different from the correction data in the data information which needs to be saved at last time, uploading the data information saved in the first local cache area to a data center, and starting to save the data information which needs to be saved at present and the data information which follows through the second local cache area.
Optionally, the burning information includes a service life, the service life includes a test strip expiration and a test strip unsealing expiration, the test strip expiration is a date, and the test strip unsealing expiration is a period of time.
Optionally, after verifying the burning information based on a preset rule, the method further includes:
and sending out early warning information and reacquiring the burning information of the glucometer code card in response to the fact that the burning information does not accord with the preset rule.
Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the idea of the present disclosure, also technical features in the above embodiments or in different embodiments may be combined, steps may be implemented in any order, and there are many other variations of the different aspects of the embodiments of the present disclosure as described above, which are not provided in detail for the sake of brevity.
In addition, well-known power/ground connections to Integrated Circuit (IC) chips and other components may or may not be shown in the provided figures for simplicity of illustration and discussion, and so as not to obscure the embodiments of the disclosure. Furthermore, devices may be shown in block diagram form in order to avoid obscuring embodiments of the present disclosure, and this also takes into account the fact that specifics with respect to implementation of such block diagram devices are highly dependent upon the platform within which the embodiments of the present disclosure are to be implemented (i.e., specifics should be well within purview of one skilled in the art). Where specific details (e.g., circuits) are set forth in order to describe example embodiments of the disclosure, it should be apparent to one skilled in the art that the embodiments of the disclosure can be practiced without, or with variation of, these specific details. Accordingly, the description is to be regarded as illustrative instead of restrictive.
While the present disclosure has been described in conjunction with specific embodiments thereof, many alternatives, modifications, and variations of these embodiments will be apparent to those of ordinary skill in the art in light of the foregoing description. For example, other memory architectures (e.g., dynamic ram (dram)) may use the discussed embodiments.
The disclosed embodiments are intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omissions, modifications, equivalents, improvements, and the like that may be made within the spirit and principles of the embodiments of the disclosure are intended to be included within the scope of the disclosure.
Claims (10)
1. A burning method of a glucometer code card is applied to burning equipment of the glucometer code card, and comprises the following steps:
acquiring burning information of a glucometer code card;
verifying the burning information based on a preset rule, and reading the data information of the code card in response to determining that the burning information conforms to the preset rule;
in response to determining that the data information is zero, burning the code card based on the burning information;
and reading the data information of the code card again, responding to the fact that the data information of the code card read again is consistent with the burning information, and ending the burning.
2. The burning method of claim 1, wherein after reading the data information of the code card, the method further comprises:
and in response to determining that the data information is not zero, clearing the data information of the code card and burning the code card based on the burning information.
3. The burning method of claim 1, wherein the burning device includes a first local cache and a second local cache, and after responding to determining that the data information is consistent with the burning information, the method further comprises:
storing the data information in the first local cache region, uploading the data information stored in the first local cache region to a data center in response to determining that the number of the data information stored in the first local cache region is greater than or equal to a preset upper limit of stored data, and starting to store the data information which needs to be stored currently and the subsequent data information through the second local cache region;
acquiring a storage signal of the data center, and determining whether data uploading is successful or not based on the storage signal and the data information stored in the first local cache region;
and in response to the fact that the data uploading is successful, clearing the data information of the first local cache region, and waiting for the data information to be stored in the first local cache region next time.
4. The burning method of claim 3, wherein after saving the data information in the first local cache area, the method further comprises:
and in response to the fact that the number of the data information saved in the first local cache area is smaller than the preset saved data upper limit and the saving time of the data information is larger than or equal to the preset time, uploading the data information saved in the first local cache area to the data center, and starting to save the data information which needs to be saved currently and the subsequent data information through the second local cache area.
5. The burning method of claim 4, wherein the burning information includes correction data, the method further comprising:
in response to determining that the number of data information saved in the first local cache area is smaller than the preset saved data upper limit and the saving time is smaller than the preset time and the correction data in the data information which needs to be saved at present is different from the correction data in the data information which needs to be saved at last time, uploading the data information saved in the first local cache area to a data center, and starting to save the data information which needs to be saved at present and the data information which follows through the second local cache area.
6. The burning method of claim 1, wherein the burning information comprises a service life, the service life comprises a test strip expiration and a test strip unsealing expiration, the test strip expiration is a date, and the test strip unsealing expiration is a period of time.
7. The burning method of claim 1, wherein after verifying the burning information based on a preset rule, the method further comprises:
and sending out early warning information and reacquiring the burning information of the glucometer code card in response to the fact that the burning information does not accord with the preset rule.
8. A burning system of a glucometer code card, wherein the burning system comprises: a software terminal and a burning device, wherein the software terminal is used for sending the burning information to the burning device, the software terminal is connected with one or more burning devices, and the burning device is used for executing the method as claimed in any one of claims 1 to 7.
9. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the method of any one of claims 1 to 7 when executing the program.
10. A non-transitory computer readable storage medium storing computer instructions for causing a computer to perform the method of any of claims 1 to 7.
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