CN113792841A - RFID parameter configuration method, device and computer readable storage medium - Google Patents

Abstract

The invention discloses a method, equipment and a computer readable storage medium for configuring RFID parameters, wherein the method comprises the following steps: when a parameter configuration request aiming at a target equipment number is detected, generating an offline instruction corresponding to the target equipment number and the RFID parameter requested to be configured in the parameter configuration request; when the connection with the student card terminal is detected, whether a target offline instruction corresponding to the equipment number of the student card terminal exists is searched; and if so, sending the target RFID parameter corresponding to the target offline instruction to the student card terminal so that the student card terminal can write the target RFID parameter into an RFID chip in the student card terminal. The invention realizes the remote configuration of the RFID parameters in the student card terminal, does not need to return to the factory for reconfiguration, reduces the cost and improves the configuration efficiency of the RFID parameters.

Description

RFID parameter configuration method, device and computer readable storage medium

Technical Field

The present invention relates to the field of RFID technologies, and in particular, to a method and an apparatus for configuring RFID parameters, and a computer-readable storage medium.

Background

At present, an electronic student card (student card) suitable for students to use is released for the two-way return of students at home and school, a Radio Frequency Identification (RFID) chip is arranged in the student card, an RFID card reader is installed at an entrance of a school, and the card reader reads a unique ID value sent by the student card when the students pass through a school gate to realize the functions of arrival and departure of the students. The card readers of all schools are configured with special card reader parameters, and meanwhile, the RFID chip of the student card is also required to be configured with RFID parameters matched with the card reader parameters of the corresponding school, so that the data card readers transmitted by the student card can identify the data card readers.

At present, the RFID parameters of the student cards are written by using a special card writing tool during production, and when the RFID parameters of the student cards need to be changed due to the reasons of change of delivery places of the student cards, change of parameters of card readers in schools and the like, the student cards need to return to a factory and write the RFID parameters again, so that high rework cost is caused.

Disclosure of Invention

The invention mainly aims to provide an RFID parameter configuration method, equipment and a computer readable storage medium, aiming at solving the technical problem that the existing student card has high RFID parameter reconfiguration cost.

In order to achieve the above object, the present invention provides an RFID parameter configuration method, which is applied to a server, and includes the following steps:

when a parameter configuration request aiming at a target equipment number is detected, generating an offline instruction corresponding to the target equipment number and the RFID parameter requested to be configured in the parameter configuration request;

when the connection with the student card terminal is detected, whether a target offline instruction corresponding to the equipment number of the student card terminal exists is searched;

and if so, sending the target RFID parameter corresponding to the target offline instruction to the student card terminal so that the student card terminal can write the target RFID parameter into an RFID chip in the student card terminal.

Optionally, before the step of generating, when a parameter configuration request for a target device number is detected, an offline instruction corresponding to the target device number and an RFID parameter requested to be configured in the parameter configuration request, the method further includes:

when detecting that a target equipment number and a first card reader parameter are selected based on a preset parameter configuration interface, determining an RFID parameter matched with the first card reader parameter;

and generating a parameter configuration request aiming at the target equipment number, and taking the RFID parameter matched with the first card reader parameter as the RFID parameter requesting configuration in the parameter configuration request.

Optionally, the method further comprises the step of:

when a card reader parameter entry request is detected, carrying out associated storage on a to-be-entered card reader name and a to-be-entered card reader parameter in the card reader parameter entry request;

before the step of determining the RFID parameter matched with the first card reader parameter when detecting that the target device number and the first card reader parameter are selected based on the preset parameter configuration interface, the method further includes:

and when detecting that a target card reader is selected based on the preset parameter configuration interface, taking the card reader parameter associated with the target card reader as the selected first card reader parameter.

Optionally, the method further comprises the step of:

when a device number import request is detected, the device number to be imported and the RFID parameter to be imported in the device number import request are stored in an associated manner;

before the step of determining the RFID parameter matched with the first card reader parameter when detecting that the target device number and the first card reader parameter are selected based on the preset parameter configuration interface, the method further includes:

when detecting that a second card reader parameter is selected based on the preset parameter configuration interface, taking the equipment number associated with the RFID parameter matched with the second card reader parameter as an equipment number to be selected;

and displaying the number of the equipment to be selected in the preset parameter configuration interface so as to select the target equipment number from the number of the equipment to be selected.

Optionally, the step of determining the RFID parameter matched with the first card reader parameter includes:

when the first card reader parameter comprises an RFID number segment range, generating an RFID number within the RFID number segment range;

and combining the RFID number and other parameters except the range of the RFID number segment in the first card reader parameters to serve as the RFID parameters matched with the first card reader parameters.

In order to achieve the above object, the present invention further provides an RFID parameter configuration method, which is applied to a student card terminal, wherein an RFID chip is installed in the student card terminal, and the method includes the following steps:

receiving a target RFID parameter sent by a server, wherein when the server detects a parameter configuration request aiming at a target equipment number, the server generates an offline instruction corresponding to the target equipment number and the RFID parameter requested to be configured in the parameter configuration request, and when the server detects that the server establishes connection with the student card terminal and finds that the target offline instruction corresponding to the equipment number of the student card terminal exists, the server sends the target RFID parameter corresponding to the target offline instruction to the student card terminal;

and writing the target RFID parameters into the RFID chip.

Optionally, after the step of writing the target RFID parameter into the RFID chip, the method further includes:

reading the RFFD parameters in the RFID chip and detecting whether the RFFD parameters are consistent with the target RFID parameters;

if the target offline instruction is consistent with the target offline instruction, sending a configuration success message to the server side so that the server side can eliminate the target offline instruction;

and if the target RFID parameters are inconsistent, retrying to write the target RFID parameters into the RFID chip.

In order to achieve the above object, the present invention further provides an RFID parameter configuration method, which is applied to a number writing device, and includes the following steps:

writing the acquired equipment number to be written and the acquired RFID parameter to be written into the student card terminal;

uploading the equipment number to be written and the RFID parameter to be written to a server side so that the server side can store the equipment number to be written and the RFID parameter to be written in a correlation manner, and when detecting that a first RFID parameter is selected based on a preset parameter configuration interface, displaying the equipment number associated with the first RFID parameter as the equipment number to be selected on the preset parameter configuration interface, and when detecting that the target device number and the second RFID parameter are selected based on the device number to be selected, generating an offline instruction corresponding to the target device number and the second RFID parameter, and when detecting that the connection with the target student card terminal is established and finding out that the target offline instruction corresponding to the equipment number of the target student card terminal exists, sending the target RFID parameter corresponding to the target offline instruction to the target student card terminal, and the target student card terminal writes the target RFID parameters into an RFID chip of the target student card terminal.

In order to achieve the above object, the present invention further provides an RFID parameter configuration device, including: the RFID parameter configuration program comprises a memory, a processor and an RFID parameter configuration program which is stored on the memory and can run on the processor, wherein the RFID parameter configuration program realizes the steps of the RFID parameter configuration method when being executed by the processor.

In addition, to achieve the above object, the present invention further provides a computer readable storage medium, which stores an RFID parameter configuration program, and when the RFID parameter configuration program is executed by a processor, the RFID parameter configuration program implements the steps of the RFID parameter configuration method as described above.

In the invention, when the server detects a parameter configuration request aiming at a target equipment number, an off-line instruction corresponding to the target equipment number and the RFID parameter requested to be configured in the parameter configuration request is generated, after the server is connected with a student card terminal, if a target off-line instruction corresponding to the equipment number of the student card terminal is found, the target RFID parameter corresponding to the target off-line instruction is sent to the student card terminal so that the student card terminal writes the target RFID parameter into the RFID chip of the student card terminal, thereby realizing the remote configuration of the RFID parameter in the student card terminal through the server, when the student card terminal needs to be reconfigured due to the reasons of delivery place change, card reader parameter modification and the like, the remote configuration of the RFID parameter in the student card RFID chip can be carried out without factory re-configuration, and a new student card terminal does not need to be produced again, therefore, the cost is reduced, and the RFID parameter configuration efficiency is improved.

Drawings

FIG. 1 is a schematic flow chart of a first embodiment of a RFID parameter configuration method according to the present invention;

fig. 2 is a schematic structural diagram of the RFID parameter configuration apparatus of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 1 is a flowchart illustrating a first embodiment of a method for configuring RFID parameters according to the present invention.

While a logical order is shown in the flow chart, in some cases, the steps shown or described may be performed in an order different than that shown or described herein. In this embodiment, the RFID parameter configuration method is applied to a server, and the server may be deployed in a server or a cloud platform, which is not limited in this embodiment. In this embodiment, the RFID parameter configuration method includes:

step S10, when detecting the parameter configuration request for the target device number, generating the off-line instruction corresponding to the target device number and the RFID parameter requested to be configured in the parameter configuration request;

in this embodiment, a scheme for remotely configuring the RFID parameters for the student card terminal through the server is provided to solve the problem that the RFID parameters need to be returned to the factory for reconfiguration and the cost is high.

Specifically, the server provides a way for configuring the RFID parameters of the student card terminal for the user, and the user can log in the server through the client to set the RFID parameters of the student card terminal. The user may be a student, a school employee, or a technician at the server, and is not limited in this embodiment. The student card terminal is a terminal with a built-in RFID chip and has a communication function, so that remote communication can be established with the server, for example, the student card terminal may be a mobile phone with a built-in RFID chip, or a mobile phone with a built-in RFID chip but without a screen display function (applicable to schools where the mobile phone cannot be used), and is not limited in this embodiment.

The RFID parameters may include one or more items, for example, an RFID number (an ID number unique to each RFID chip), a card reader number, a MAC address (also called a lan address, an ethernet address, a physical address, translated into a MAC address, which is an address for confirming a location of a network device), an IP address, a gateway address, a mask, a port, and other card reader parameters, which are different according to different parameter items that are required to be set by an actual scenario user. It should be noted that, when the student card terminal is produced, an RFID number needs to be written in the RFID chip of the student card terminal to distinguish from other student card terminals. When only one card reader is used, only the RFID number can be written in the RFID chip, when the student card terminal supplies power to the RFID chip, the RFID chip emits the RFID number of the student card at a certain frequency, and when the card reader identifies the RFID number in the received segment number range, the corresponding student is considered to be identified. When a plurality of card readers (arranged in different schools) exist, parameters of the card readers can be written in when RFID numbers are written in the RFID chips, when the student card terminals supply power to the RFID chips, the RFID chips outwards transmit the RFID numbers of the users and the parameters of the card readers at a certain frequency, and the RFID numbers in the received data are analyzed only when the data received by the card readers comprise the parameters of the users, so that whether the data are in the range of the received number segments is judged; at this time, the number segment ranges of the two card readers may be overlapped, and then the RFID numbers written in the two student card terminals may be the same, but the parameters of the written card readers must be different. When the RFID parameters in the student card terminals are reconfigured, all the RFID parameters may be reconfigured, or only some of the RFID parameters may be configured, for example, only the parameters of the card reader are configured, so that the reconfigured student card terminals can be applied to a new school, and only the RFID numbers are configured, so that the reconfigured student card terminals can be used by new students in the same school.

The user can log in the server through the client to trigger the parameter configuration request. For example, in one embodiment, a user may log in a server through a client, select or set a device number for which the RFID parameter needs to be configured, and the RFID parameter that needs to be configured; the selected operation of the user triggers a parameter configuration request for requesting to configure the device corresponding to the device number as the RFID parameter, that is, the parameter configuration request is for the device number, and it is the RFID parameter that is requested to be configured. The device number is a number capable of uniquely identifying one device, such as an IMEI (International Mobile Equipment Identity), and is not limited in this embodiment. It should be noted that, a user may select multiple device numbers and request to set the same RFID parameters, and at this time, one parameter configuration request corresponding to multiple device numbers may be triggered in the server, or parameter configuration requests corresponding to multiple device numbers may also be triggered. For example, the user may select an IMEI number segment to batch set the RFID parameters of the devices within this number segment.

When the server detects a parameter configuration request for a target device number, an offline instruction is generated, where the offline instruction corresponds to the target device number and the RFID parameter requested to be configured in the parameter configuration request, that is, the offline instruction corresponds to the target device number and the RFID parameter requested to be configured in the parameter configuration request. It should be noted that, when one parameter configuration request requesting configuration of the same RFID parameter for a plurality of device numbers is detected, one offline instruction corresponding to each device number is generated.

Step S20, when the connection with the student card terminal is detected, whether a target offline instruction corresponding to the device number of the student card terminal exists is searched;

after the server establishes connection with a student card terminal, the server searches whether an offline instruction (hereinafter referred to as a target offline instruction for distinction) corresponding to the device number of the student card terminal exists, or whether the device number of the student card terminal exists in the device numbers corresponding to the offline instructions generated in the server. The offline instruction generated by the server can be stored in an instruction set before being successfully executed or being cancelled, so that the offline instruction is convenient to search. The student card terminal may be set to automatically establish connection with the server when the student card terminal is turned on, or may be set to establish connection with the server when an instruction triggered by the user is detected, which is not limited in this embodiment.

And step S30, if yes, sending the target RFID parameter corresponding to the target offline instruction to the student card terminal, so that the student card terminal can write the target RFID parameter into an RFID chip in the student card terminal.

If the server side finds a target offline instruction (namely, finds an offline instruction corresponding to the device number of the student card terminal), the server side executes the target offline instruction, namely, sends an RFID parameter (hereinafter referred to as a target RFID parameter) corresponding to the target offline instruction to the student card terminal. And after receiving the target RFID parameters, the student card terminal writes the target RFID parameters into an RFID chip of the student card terminal. The student card terminal writes the RFID parameters into the RFID chip through a chip write interface provided in the terminal, for example, through an SPI (serial peripheral interface), which is not particularly limited in this embodiment.

Further, in an embodiment, after the student card terminal successfully writes the target RFID parameter into the RFID chip, the student card terminal may send a configuration success message to the server. The student card terminal can read the RFID parameters in the RDFD chip and compare the RFID parameters with target RFID parameters after writing in the RFID chip, if the RFID parameters are consistent, writing success is determined, and if the RFID parameters are inconsistent, writing failure is determined. After receiving the configuration success message, the server may remove the target offline command, for example, delete the target offline command from the command set, so as to indicate that the target offline command has been successfully executed. Furthermore, the student card terminal can retry after the target RFID is failed to be written into the RFID chip, and if the retry still fails for a certain number of times, a configuration failure message is sent to the server; and the server side reports an error after receiving the configuration failure message, or executes the target offline instruction again when establishing connection with the student card terminal again until the target offline instruction is successfully executed.

In this embodiment, when the server detects a parameter configuration request for a target device number, an offline instruction corresponding to the target device number and an RFID parameter requested to be configured in the parameter configuration request is generated, and after establishing connection with the student card terminal, if a target offline instruction corresponding to the device number of the student card terminal is found, the target RFID parameter corresponding to the target offline instruction is sent to the student card terminal, so that the student card terminal writes the target RFID parameter into the RFID chip of the student card terminal, thereby implementing remote configuration of the RFID parameter in the student card terminal through the server, so that when the student card terminal needs to reconfigure the parameter due to a change in a delivery location, a modification of a card reader parameter, and the like, the RFID parameter in the student card RFID chip can be remotely configured without re-configuration in a factory, or without re-production of a new student card terminal, therefore, the cost is reduced, and the RFID parameter configuration efficiency is improved.

In one embodiment, assuming that the RFID parameters of 100 student card terminals with device numbers 001 to 100 (i.e. 001-; at the moment, a user can log in the service end through the client, enter the equipment number 001-; when the server detects the parameter configuration request, generating an offline instruction corresponding to each equipment number of 001-100; after the 001-plus-100 equipment number student card terminal is started and connected with the server, the server executes an offline instruction corresponding to the equipment number, sends the RFID parameters matched with the card reader of the school B to the student card terminal, and the student card terminal writes the received RFID parameters into an RFID chip of the student card terminal. Thereby completing the remote reconfiguration of the RFID parameters of the 001-plus-100 student card terminal.

Further, based on the first embodiment, a second embodiment of the RFID parameter configuration method according to the present invention is proposed, and in this embodiment, before the step S10, the method further includes:

step S40, when detecting that the target equipment number and the first card reader parameter are selected based on the preset parameter configuration interface, determining the RFID parameter matched with the first card reader parameter;

a parameter configuration interface (namely a preset parameter configuration interface) can be preset in the server, and operations such as inputting or selecting can be carried out in the parameter configuration interface after the client logs in the server so as to select one or more equipment numbers and card reader parameters. It should be noted that, in an embodiment, the user may select the device number and the card reader parameter by entering the device number and the card reader parameter in the parameter configuration interface; in another embodiment, the user may select the device number or the card reader parameter displayed on the parameter configuration interface in a selection and determination manner, and accordingly, the device number of each student card terminal and the card reader parameter of each school card reader may be pre-entered in the server. The card reader parameters may include one or more parameters, for example, the parameters of the card reader may include an RFID number segment range (range of RFID numbers), a number of the card reader, a MAC address, an IP address, a gateway address, a mask, a port, and the like, which are different according to different parameter items that need to be set by a user in an actual scenario. It should be noted that, in each embodiment, the parameters of the card reader and the parameters of the card reader are different concepts, and the RFID number segment range belongs to the parameters of the card reader, but does not belong to the parameters of the card reader.

When the server detects that the device number (hereinafter referred to as a target device number for distinction) and the card reader parameter (hereinafter referred to as a first card reader parameter for distinction) are selected based on the parameter configuration interface, the RFID parameter matched with the first card reader parameter is determined. Specifically, there are various ways to determine the RFID parameters matched with the parameters of the first card reader, which are different according to different parameter items that need to be included in the RFID parameters in the actual application scenario. For example, in one embodiment, when the RFID parameters are reconfigured for the student card terminal, the RFID number in the student card terminal may not be changed, that is, the RFID parameters to be configured may not include the RFID number; then, when the first card reader parameter includes the RFID number segment, other parameters except the RFID number segment in the first card reader parameter, such as the number of the card reader, the MAC address, and the like, may be used as the RFID parameter matched with the first card reader parameter, and if the first card reader parameter does not include the RFID number segment but includes other parameters such as the number of the card reader, the MAC address, and the like, the first card reader parameter may be directly used as the RFID parameter matched with the first card reader parameter; correspondingly, if the RFID number segment range received by the card reader corresponding to the first card reader parameter does not include the RFID number in the student card terminal of the target device number, the student card terminal can be notified to learn to correct the RFID number segment range of the card reader online or offline for changing, so that the number segment range includes the RFID number in the student card terminal of the target device number, and the student card terminal of the target device number can be identified. In other embodiments, when the RFID parameters are reconfigured for the student card terminal, the RFID numbers in the student card terminal may be changed, that is, the RFID parameters to be configured may include RFID numbers, and at this time, when the first card reader parameter includes an RFID number segment range, the RFID numbers in the RFID number segment range may be generated as parameter items in the RFID parameters matched with the first card reader parameter.

Step S50, generating a parameter configuration request for the target device number, and taking the RFID parameter matched with the first card reader parameter as the RFID parameter requested to be configured in the parameter configuration request.

After the server determines the target equipment number and the RFID parameters matched with the first card reader parameters, a parameter configuration request for the target equipment number is generated, and the RFID parameters matched with the first card reader parameters are used as the RFID parameters requested to be configured in the parameter configuration request, namely, the parameter configuration request indicates that the RFID parameters of the student card terminal corresponding to the target equipment number need to be configured into the RFID parameters matched with the first card reader parameters.

Further, in an embodiment, the step of determining the RFID parameter matched with the first card reader parameter in step S40 includes:

step S401, when the first card reader parameter comprises an RFID number segment range, an RFID number in the RFID number segment range is generated;

when the RFID parameters are reconfigured for the student card terminal, the RFID number in the student card terminal needs to be changed to adapt to the RFID number range accepted by the card reader, and the first card reader parameter selected by the user based on the parameter configuration interface can include the RFID number range.

When the first reader parameter includes an RFID number segment range, an RFID number within the RFID number segment range may be generated. Specifically, the number of generated RFID numbers may be the same as the number of target device numbers, or an RFID number corresponding to each target device number is generated, the generated RFID numbers being within the range of RFID numbers.

Step S402, combining the RFID number and other parameters except the range of the RFID number segment in the first card reader parameter as the RFID parameter matched with the first card reader parameter.

And combining the RFID number with other parameters except the range of the RFID number segment in the first card reader parameter to serve as the RFID parameter matched with the first card reader parameter. When a plurality of RFID numbers are generated, each RFID number may be combined with other parameters (other parameters as a whole) to obtain an RFID parameter corresponding to each target device number.

Further, in an embodiment, the method further comprises:

step S60, when a card reader parameter entry request is detected, the to-be-entered card reader name in the card reader parameter entry request and the to-be-entered card reader parameter are stored in an associated manner;

the user can log in the card reader parameters of each school through the client login server, can use the name of the school or the number of the school to represent each card reader, that is, can log in the card reader parameters and the corresponding card reader name, for example, the name of one card reader of Shanxi xx elementary school is set as the card reader 1 of Shanxi xx elementary school. The entry operation of the user triggers a card reader parameter entry request in the server side, wherein the card reader parameter entry request carries a card reader name (namely, the card reader name to be entered) entered by the user and card reader parameters (namely, the card reader parameters to be entered) entered by the user.

When the server side detects a card reader parameter entry request, the to-be-entered card reader name and the to-be-entered card reader parameter in the card reader parameter entry request are stored in an associated mode, so that the server side can find the corresponding card reader parameter according to the card reader name. In an embodiment, the card reader parameters of each school can be collected by the user, the card reader parameters of each school are uniformly recorded into the server, and when the subsequent requirements of adding, deleting or modifying the card reader parameters of the school exist, the card reader parameters can be correspondingly added, deleted and modified in the server.

In an embodiment, when the user enters the card reader parameter, the card reader parameter may be encoded according to a format specified in a protocol applicable to the RFID chip, and the encoded card reader parameter may be entered to the server. In another embodiment, the user may also directly enter uncoded card reader parameters in the service end, the service end converts the card reader parameters into a format specified in a protocol according to a preset conversion rule to obtain coded card reader parameters, and then associates and stores the coded card reader parameters with the card reader name.

Before the step S40, the method further includes:

and step S70, when it is detected that a target card reader is selected based on the preset parameter configuration interface, taking the card reader parameter associated with the target card reader as the selected first card reader parameter.

The server side can display each pre-stored card reader name in the parameter configuration interface for the user to select, and the user can select and determine one card reader name from the displayed card reader names. When the server detects that a card reader name (hereinafter referred to as a target card reader name) is selected based on the parameter configuration interface, the server takes the card reader parameter associated with the target card reader name as the selected first card reader parameter. That is, by inputting the card reader parameters and the card reader names of various schools in advance, the user can select the card reader parameters to be configured by selecting the card reader names, so that the user can select the card reader parameters more intuitively and quickly. For example, when the RFID parameters of a batch of student card terminals need to be configured as RFID parameters matched with one card reader in shanxi xx elementary school, a card reader designation "shanxi xx elementary school card reader 1" can be selected in the service end, the service end takes the card reader parameters of the elementary school card reader related to the card reader designation as selected first card reader parameters, and then the RFID parameters of the batch of student card terminals are configured as RFID parameters matched with the first card reader parameters.

Further, in an embodiment, the method further comprises:

step S80, when a device number import request is detected, the device number to be imported in the device number import request and the RFID parameter to be imported are stored in an associated manner;

in an embodiment, the server may store the device number of the student card and the RFID parameter in association in advance according to the device number import request, so as to search for the corresponding device number according to the RFID parameter, or search for the matched RFID parameter according to the card reader parameter, and then search for the corresponding device number through the RFID parameter.

Specifically, the device number import request may be a request triggered by an entry operation of entering a device number and an RFID parameter when a user logs in a server through a client. The user can enter each device number and corresponding RFID parameter recorded in the production order into the server in batches. The equipment number import request can also be a request sent by a number writing equipment or an MES system (a set of production information management system facing to a workshop execution layer of a manufacturing enterprise); specifically, when an equipment number and RFID parameters need to be written into a student card terminal in the production process of the student card terminal, a number writing device scans a paper label through a connected javelin to obtain the equipment number and the RFID parameters which need to be written into the corresponding student card terminal, writes the obtained equipment number and the obtained RFID parameters into the student card terminal, and simultaneously sends the equipment number and the obtained RFID parameters to a service end in a mode of equipment number import request, or synchronizes to an MES (manufacturing execution system) firstly, and the MES sends the equipment number import request to the service end in batch after the batch of student card terminals are generated and completed. The number writing device may be a commonly used number writing device, such as a PC tool, and is not limited in this embodiment. It should be noted that, when the RFID parameters are written in by the number writing device during production, if there is a clear order to specify which school card reader the student card terminal is matched with, the written RFID parameters may be the RFID parameters matched with the card reader; if the order is not specified, a default RFID parameter matched with the card reader can be written in, after the order is placed, if the order is applied to the default card reader, no modification can be made, and if the order is applied to other card readers, the RFID parameter of the student card terminal can be reconfigured into a parameter matched with other card readers in a server-side remote configuration mode.

It should be noted that, in an embodiment, the device number and the RFID number of each student card terminal may be imported in advance in the server, so that when the parameter items except the RFID number in the student card terminal are reconfigured to be suitable for a new card reader, if the RFID number segment range accepted by the new card reader does not include the RFID number of the student card terminal, the RFID number of the student card terminal may be found according to the device number, and the found RFID number is output to the user, so that the user may modify the RFID number segment range of the new card reader according to the RFID number, so that the RFID number segment range of the new card reader includes the RFID number of the student card terminal, and thus the student card terminal can be identified.

Further, in an embodiment, when the device number and the RFID parameter of each student card terminal are imported in advance, before step S40, the method further includes:

step A10, when detecting that a second card reader parameter is selected based on the preset parameter configuration interface, taking the device number associated with the RFID parameter matched with the second card reader parameter as a device number to be selected;

the user can search the corresponding equipment number in the parameter configuration interface by selecting the parameters of the card reader. Specifically, when the server detects that a card reader parameter (hereinafter referred to as a second card reader parameter) is selected based on the parameter configuration interface, the server may use the device number associated with the RFID parameter matched with the second card reader parameter as the device number to be selected. The selection manner of the second card reader parameter is similar to the selection manner of the first card reader parameter in the above embodiments, and details are not repeated here. When the second card reader parameter only comprises the RFID number segment range, each RFID number in the RFID number segment range is each RFID parameter matched with the second card reader parameter; when the second card reader parameters only comprise the parameters of the card reader, the parameters of the card reader are the RFID parameters matched with the parameters of the second card reader; when the second card reader parameters comprise the RFID number range and the card reader parameters, the RFID parameters obtained by respectively combining the RFID numbers in the RFID number range with the card reader parameters are the RFID parameters matched with the second card reader parameters. If the RFID parameters associated with the equipment number recorded in the server side all include one RFID parameter, the RFID parameter is considered to be the RFID parameter associated with the equipment number; for example, the RFID parameter associated with device number 001 is [ RFID number: 01, card reader MAC address: xx ], when the second reader parameter is [ reader MAC address: xx ], the RFID parameters that match the second reader parameters are also [ reader MAC address: xx ], [ reader MAC address: xx ] is encoded by [ RFID number: 01, card reader MAC address: xx ] includes, then device number 001 is taken as the candidate device number.

In an embodiment, if the server does not find the device number associated with the RFID parameter matching the second card reader parameter, the server may output a prompt message prompting the user that the device number is not found in the parameter configuration interface.

Step A20, displaying the device numbers to be selected in the preset parameter configuration interface, so as to select the target device number from the device numbers to be selected.

After the server determines the device numbers to be selected, the device numbers to be selected are displayed in the parameter configuration interface for the user to select, the user can select one or more device numbers from the device numbers to be selected, and the device number selected by the user is used as the target device number in the above embodiment.

Further, in an embodiment, when the device number and the RFID parameter of each student card terminal are imported in advance, the user may input the RFID parameter in the parameter configuration interface to search for the corresponding device number. Specifically, when the server detects that an RFID parameter is selected based on the parameter configuration interface, the server takes the device number associated with the RFID parameter as a device number to be selected for the user to select.

Further, based on the first and/or second embodiments, a third embodiment of the RFID parameter configuration method of the present invention is provided. In this embodiment, the RFID parameter configuration method is applied to a student card terminal. Referring to fig. 2, fig. 2 is a flowchart illustrating a method for configuring RFID parameters according to a third embodiment of the present invention. In this embodiment, the RFID parameter configuration method includes:

step B10, receiving a target RFID parameter sent by a server, wherein the server generates an offline instruction corresponding to the target device number and the RFID parameter requested to be configured in the parameter configuration request when detecting the parameter configuration request for the target device number, and sends the target RFID parameter corresponding to the target offline instruction to the student card terminal when detecting that the connection with the student card terminal is established and the target offline instruction corresponding to the device number of the student card terminal is found;

and B20, writing the target RFID parameters into the RFID chip.

The specific implementation of steps B10-B20 in this embodiment can refer to the specific implementation of steps S10-S30 in the above embodiment, and will not be repeated herein.

Further, in an embodiment, after the step B20, the method further includes:

step B30, reading the RFFD parameters in the RFID chip and detecting whether the RFFD parameters are consistent with the target RFID parameters;

step B40, if yes, sending a configuration success message to the server, so that the server can eliminate the target offline instruction;

and step B50, if not, retrying to write the target RFID parameter into the RFID chip.

The specific implementation of steps B30-B50 in this embodiment can refer to the specific implementation of steps S10-S30 in the above embodiment, and will not be repeated herein.

The detailed implementation of each step in this embodiment can be referred to in each detailed implementation of the above embodiments, and therefore, the detailed description is not repeated herein.

Further, based on the first, second and/or third embodiments, a fourth embodiment of the RFID parameter configuration method of the present invention is provided. In this embodiment, the RFID parameter configuration method is applied to a number writing device. In this embodiment, the RFID parameter configuration method includes:

step C10, writing the acquired number-to-be-written device number to be written in the student card terminal and the acquired RFID parameter to be written in the student card terminal;

step C20, the device number to be written and the RFID parameter to be written are uploaded to a server, so that the server stores the device number to be written and the RFID parameter to be written in a correlation manner, when a first RFID parameter is selected based on a preset parameter configuration interface is detected, the device number correlated with the first RFID parameter is displayed on the preset parameter configuration interface as a device number to be selected, when a target device number and a second RFID parameter selected based on the device number to be selected are detected, an off-line instruction corresponding to the target device number and the second RFID parameter is generated, when connection with a target student card terminal is detected and a target off-line instruction corresponding to the device number of the target student card terminal is found, the target RFID parameter corresponding to the target off-line instruction is sent to the target student card terminal, wherein, and the target student card terminal writes the target RFID parameters into an RFID chip of the target student card terminal.

The detailed implementation of each step in this embodiment can be referred to in each detailed implementation of the above embodiments, and therefore, the detailed description is not repeated herein. It should be noted that uploading the device number to be written and the RFID parameter to be written to the server is equivalent to importing the device number and the RFID parameter to the server in the above embodiment. The "first" of the first RFID parameter and the "second" of the second RFID parameter are differential names adopted to distinguish the two RFID parameters in this embodiment, and explanations and functions of the two RFID parameters may correspondingly refer to the descriptions in the foregoing embodiments, and are not repeated herein. The equipment number to be written in the student card terminal can be written in a chip of a student card terminal storage equipment number, and the RFID parameter to be written in the student card terminal can be written in an RFID chip of the student card terminal.

In an embodiment, the RFID parameter configuration device of the present invention may be a smart phone, a personal computer, a server, and the like, and is not limited herein. As shown in fig. 2, in this embodiment, the RFID parameter configuration device may include: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the device configuration shown in fig. 2 does not constitute a limitation of the push time prediction device and may include more or fewer components than shown, or some components may be combined, or a different arrangement of components.

The memory 1005, which is a type of computer storage medium, may include an operating system, a network communication module, a user interface module, and an RFID parameter configuration program therein. The operating system is a program that manages and controls the hardware and software resources of the device, supporting the operation of the RFID parameter configuration program, as well as other software or programs. The user interface 1003 is mainly used for data communication with the client; the network interface 1004 is mainly used for the server to establish communication connection.

When the parameter configuration device is a server, the processor 1001 may be configured to call the RFID parameter configuration program stored in the memory 1005 and perform the following operations:

when a parameter configuration request aiming at a target equipment number is detected, generating an offline instruction corresponding to the target equipment number and the RFID parameter requested to be configured in the parameter configuration request;

when the connection with the student card terminal is detected, whether a target offline instruction corresponding to the equipment number of the student card terminal exists is searched;

and if so, sending the target RFID parameter corresponding to the target offline instruction to the student card terminal so that the student card terminal can write the target RFID parameter into an RFID chip in the student card terminal.

Further, before generating an offline instruction corresponding to the target device number and the RFID parameter requested to be configured in the parameter configuration request when the parameter configuration request for the target device number is detected, the processor 1001 may be further configured to call the RFID parameter configuration program stored in the memory 1005, and perform the following operations:

when detecting that a target equipment number and a first card reader parameter are selected based on a preset parameter configuration interface, determining an RFID parameter matched with the first card reader parameter;

and generating a parameter configuration request aiming at the target equipment number, and taking the RFID parameter matched with the first card reader parameter as the RFID parameter requesting configuration in the parameter configuration request.

Further, the processor 1001 may be further configured to call the RFID parameter configuration program stored in the memory 1005, and perform the following operations:

when a card reader parameter entry request is detected, carrying out associated storage on a to-be-entered card reader name and a to-be-entered card reader parameter in the card reader parameter entry request;

before determining the RFID parameter matched with the first card reader parameter when detecting that the target device number and the first card reader parameter are selected based on the preset parameter configuration interface, the processor 1001 may be further configured to invoke an RFID parameter configuration program stored in the memory 1005, and perform the following operations:

and when detecting that a target card reader is selected based on the preset parameter configuration interface, taking the card reader parameter associated with the target card reader as the selected first card reader parameter.

Further, the processor 1001 may be further configured to call the RFID parameter configuration program stored in the memory 1005, and perform the following operations:

when a device number import request is detected, the device number to be imported and the RFID parameter to be imported in the device number import request are stored in an associated manner;

before determining the RFID parameter matched with the first card reader parameter when detecting that the target device number and the first card reader parameter are selected based on the preset parameter configuration interface, the processor 1001 may be further configured to invoke an RFID parameter configuration program stored in the memory 1005, and perform the following operations:

when detecting that a second card reader parameter is selected based on the preset parameter configuration interface, taking the equipment number associated with the RFID parameter matched with the second card reader parameter as an equipment number to be selected;

and displaying the number of the equipment to be selected in the preset parameter configuration interface so as to select the target equipment number from the number of the equipment to be selected.

Further, the determining the RFID parameters matched by the first reader parameters comprises:

when the first card reader parameter comprises an RFID number segment range, generating an RFID number within the RFID number segment range;

and combining the RFID number and other parameters except the range of the RFID number segment in the first card reader parameters to serve as the RFID parameters matched with the first card reader parameters.

When the parameter configuration device is a student card terminal, the processor 1001 may be configured to invoke the RFID parameter configuration program stored in the memory 1005 and perform the following operations:

receiving a target RFID parameter sent by a server, wherein when the server detects a parameter configuration request aiming at a target equipment number, the server generates an offline instruction corresponding to the target equipment number and the RFID parameter requested to be configured in the parameter configuration request, and when the server detects that the server establishes connection with the student card terminal and finds that the target offline instruction corresponding to the equipment number of the student card terminal exists, the server sends the target RFID parameter corresponding to the target offline instruction to the student card terminal;

and writing the target RFID parameters into the RFID chip.

Further, after the target RFID parameter is written into the RFID chip, the processor 1001 may be further configured to call an RFID parameter configuration program stored in the memory 1005, and perform the following operations:

reading the RFFD parameters in the RFID chip and detecting whether the RFFD parameters are consistent with the target RFID parameters;

if the target offline instruction is consistent with the target offline instruction, sending a configuration success message to the server side so that the server side can eliminate the target offline instruction;

and if the target RFID parameters are inconsistent, retrying to write the target RFID parameters into the RFID chip.

When the parameter configuration device is a number writing device, the processor 1001 may be configured to call the RFID parameter configuration program stored in the memory 1005 and perform the following operations:

writing the acquired equipment number to be written and the acquired RFID parameter to be written into the student card terminal;

uploading the equipment number to be written and the RFID parameter to be written to a server side so that the server side can store the equipment number to be written and the RFID parameter to be written in a correlation manner, and when detecting that a first RFID parameter is selected based on a preset parameter configuration interface, displaying the equipment number associated with the first RFID parameter as the equipment number to be selected on the preset parameter configuration interface, and when detecting that the target device number and the second RFID parameter are selected based on the device number to be selected, generating an offline instruction corresponding to the target device number and the second RFID parameter, and when detecting that the connection with the target student card terminal is established and finding out that the target offline instruction corresponding to the equipment number of the target student card terminal exists, sending the target RFID parameter corresponding to the target offline instruction to the target student card terminal, and the target student card terminal writes the target RFID parameters into an RFID chip of the target student card terminal.

In addition, an embodiment of the present invention further provides a computer-readable storage medium, where an RFID parameter configuration program is stored on the storage medium, and when the RFID parameter configuration program is executed by a processor, the steps of the RFID parameter configuration method are implemented as follows.

The embodiments of the RFID parameter configuration device and the computer-readable storage medium of the present invention can refer to the embodiments of the RFID parameter configuration method of the present invention, and are not described herein again.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. An RFID parameter configuration method is applied to a server side, and the method comprises the following steps:

when a parameter configuration request aiming at a target equipment number is detected, generating an offline instruction corresponding to the target equipment number and the RFID parameter requested to be configured in the parameter configuration request;

when the connection with the student card terminal is detected, whether a target offline instruction corresponding to the equipment number of the student card terminal exists is searched;

and if so, sending the target RFID parameter corresponding to the target offline instruction to the student card terminal so that the student card terminal can write the target RFID parameter into an RFID chip in the student card terminal.

2. The RFID parameter configuration method according to claim 1, wherein, before the step of generating an offline instruction corresponding to the target device number and the RFID parameter requested to be configured in the parameter configuration request when the parameter configuration request for the target device number is detected, the method further comprises:

when detecting that a target equipment number and a first card reader parameter are selected based on a preset parameter configuration interface, determining an RFID parameter matched with the first card reader parameter;

and generating a parameter configuration request aiming at the target equipment number, and taking the RFID parameter matched with the first card reader parameter as the RFID parameter requesting configuration in the parameter configuration request.

3. The RFID parameter configuration method according to claim 2, wherein the method further comprises the steps of:

when a card reader parameter entry request is detected, carrying out associated storage on a to-be-entered card reader name and a to-be-entered card reader parameter in the card reader parameter entry request;

before the step of determining the RFID parameter matched with the first card reader parameter when detecting that the target device number and the first card reader parameter are selected based on the preset parameter configuration interface, the method further includes:

and when detecting that a target card reader is selected based on the preset parameter configuration interface, taking the card reader parameter associated with the target card reader as the selected first card reader parameter.

4. The RFID parameter configuration method according to claim 2, wherein the method further comprises the steps of:

when a device number import request is detected, the device number to be imported and the RFID parameter to be imported in the device number import request are stored in an associated manner;

before the step of determining the RFID parameter matched with the first card reader parameter when detecting that the target device number and the first card reader parameter are selected based on the preset parameter configuration interface, the method further includes:

when detecting that a second card reader parameter is selected based on the preset parameter configuration interface, taking the equipment number associated with the RFID parameter matched with the second card reader parameter as an equipment number to be selected;

and displaying the number of the equipment to be selected in the preset parameter configuration interface so as to select the target equipment number from the number of the equipment to be selected.

5. The RFID parameter configuration method according to any of claims 2 to 4, wherein the step of determining the RFID parameter to which the first reader parameter matches comprises:

when the first card reader parameter comprises an RFID number segment range, generating an RFID number within the RFID number segment range;

and combining the RFID number and other parameters except the range of the RFID number segment in the first card reader parameters to serve as the RFID parameters matched with the first card reader parameters.

6. An RFID parameter configuration method is applied to a student card terminal, an RFID chip is installed in the student card terminal, and the method comprises the following steps:

receiving a target RFID parameter sent by a server, wherein when the server detects a parameter configuration request aiming at a target equipment number, the server generates an offline instruction corresponding to the target equipment number and the RFID parameter requested to be configured in the parameter configuration request, and when the server detects that the server establishes connection with the student card terminal and finds that the target offline instruction corresponding to the equipment number of the student card terminal exists, the server sends the target RFID parameter corresponding to the target offline instruction to the student card terminal;

and writing the target RFID parameters into the RFID chip.

7. The RFID parameter configuration method of claim 6, wherein after the step of writing the target RFID parameter to the RFID chip, further comprising:

reading the RFFD parameters in the RFID chip and detecting whether the RFFD parameters are consistent with the target RFID parameters;

if the target offline instruction is consistent with the target offline instruction, sending a configuration success message to the server side so that the server side can eliminate the target offline instruction;

and if the target RFID parameters are inconsistent, retrying to write the target RFID parameters into the RFID chip.

8. An RFID parameter configuration method is applied to a number writing device, and comprises the following steps:

writing the acquired equipment number to be written and the acquired RFID parameter to be written into the student card terminal;

uploading the equipment number to be written and the RFID parameter to be written to a server side so that the server side can store the equipment number to be written and the RFID parameter to be written in a correlation manner, and when detecting that a first RFID parameter is selected based on a preset parameter configuration interface, displaying the equipment number associated with the first RFID parameter as the equipment number to be selected on the preset parameter configuration interface, and when detecting that the target device number and the second RFID parameter are selected based on the device number to be selected, generating an offline instruction corresponding to the target device number and the second RFID parameter, and when detecting that the connection with the target student card terminal is established and finding out that the target offline instruction corresponding to the equipment number of the target student card terminal exists, sending the target RFID parameter corresponding to the target offline instruction to the target student card terminal, and the target student card terminal writes the target RFID parameters into an RFID chip of the target student card terminal.

9. An RFID parameter configuration device, characterized in that the RFID parameter configuration device comprises: memory, a processor and an RFID parameter configuration program stored on the memory and executable on the processor, the RFID parameter configuration program when executed by the processor implementing the steps of the RFID parameter configuration method according to any of claims 1 to 8.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon an RFID parameter configuration program, which when executed by a processor implements the steps of the RFID parameter configuration method according to any one of claims 1 to 8.

Images