CN114492491A

CN114492491A - Data management system for NFC label application

Info

Publication number: CN114492491A
Application number: CN202210081793.9A
Authority: CN
Inventors: 季有为; 王胜帅
Original assignee: Xindian Zhilian Beijing Technology Co ltd
Current assignee: Xindian Zhilian Beijing Technology Co ltd
Priority date: 2022-01-24
Filing date: 2022-01-24
Publication date: 2022-05-13
Anticipated expiration: 2042-01-24
Also published as: CN114492491B

Abstract

The embodiment of the invention relates to a data management system for NFC label application, which comprises: a service provider data subsystem, a manufacturer data subsystem, and an application provider data subsystem. By the data management structure of the system, a commodity manufacturer can continue to utilize the existing system structure of the NFC label service provider to complete the butt joint of the NFC label and the specific commodity, and the control of the NFC label service provider is separated after the NFC label is in butt joint with the specific commodity, so that the individualized data of the commodity manufacturer is well protected.

Description

Data management system for NFC label application

Technical Field

The invention relates to the technical field of data processing, in particular to a data management system for NFC label application.

Background

Near Field Communication (NFC) tags are used as anti-counterfeit tags for normal commodities circulating in the market, and therefore good prevention effect can be achieved on fake and counterfeit commodities. However, common goods manufacturers do not have the NFC tag processing capability, and need additional NFC tag service providers and NFC tag manufacturers to cooperate with the common goods manufacturers. The NFC label service provider is an intermediary between a commodity manufacturer and an NFC label manufacturer and is mainly responsible for the following work: the method comprises the steps of collecting the NFC label instead of the commodity, carrying out NFC label production data conversion on each batch of commodity information of a commodity manufacturer, coordinating the NFC label manufacturer to carry out label data filling processing on the NFC label based on NFC label production data, and sending the produced NFC label to the commodity manufacturer to carry out commodity butt joint.

Based on the service structure, some commodity manufacturers can directly utilize the precipitation data of the NFC label service provider as the data source to carry out traceability management when the NFC label traceability system is built by themselves, and the implementation has the advantages that production data do not need to be additionally backed up on the commodity manufacturer side, so that the system construction cost can be reduced, and the system construction period can be shortened. However, this method also has a certain data hidden danger, and it exposes all the tracing records corresponding to each commodity manufacturer to the NFC tag service provider side, and the tracing records can reversely derive the business marketing status of each commodity manufacturer, so even if the service provider signs a relevant security agreement with the manufacturer, the commodity manufacturer is concerned about this hidden danger. Therefore, how to ensure the independence of the traceability information of the commodity manufacturer becomes a technical problem to be solved urgently on the basis of continuously utilizing the existing system structure of the NFC label service provider.

Disclosure of Invention

The object of the present invention is to provide a data management system for NFC tag application, which includes: a service provider data subsystem, a manufacturer data subsystem, and an application provider data subsystem. The service provider data subsystem is connected with the manufacturer data subsystem and the application provider data subsystem in a butt joint mode, corresponding production data conversion is carried out after commodity information is obtained from the application provider data subsystem, production data are sent to the manufacturer data subsystem for label production, corresponding production reports are obtained, and the production data and the production reports corresponding to the commodity information are fed back to the application provider data subsystem. The application business data subsystem backups the production data and the production report corresponding to each batch of commodity information, independently connects all external NFC label verification terminals, independently processes the traceability process of each NFC label verification terminal based on the backup data, and backups and manages the traceability records of each terminal by using a local database. Through the data management structure of the system, a commodity manufacturer can continue to utilize the existing system structure of the NFC label service provider to complete the butt joint of the NFC label and a specific commodity, and the control of the NFC label service provider is separated after the NFC label is in butt joint with the specific commodity.

In order to achieve the above object, an embodiment of the present invention provides a data management system for an NFC tag application, where the system includes: the service provider data subsystem, the manufacturer data subsystem and the application provider data subsystem;

the service merchant data subsystem is respectively connected with the application merchant data subsystem and the manufacturer data subsystem;

the server data subsystem comprises a first management end and a first database cluster; the first database cluster is used for storing a plurality of batches of service provider data sets; the first management end is used for performing corresponding service provider data management on all service provider data sets stored in the first database cluster;

the manufacturer data subsystem comprises a second management end and a second database cluster; the manufacturer data subsystem is also connected with a plurality of first issuing devices; the second database cluster is used for storing a plurality of batches of manufacturer data sets; the second management terminal is used for performing corresponding manufacturer data management on all manufacturer data sets stored in the second database cluster;

the application business data subsystem comprises a third management end and a third database cluster; the application business data subsystem is also connected with the multi-class NFC label verification terminal; the third database cluster is used for storing multiple batches of application quotient data sets; and the third management terminal is used for performing corresponding application provider data management on all application provider data sets stored by the third database cluster.

Preferably, the first management terminal is further configured to receive a first commodity information set sent by the application merchant data subsystem; carrying out production data conversion processing on the first commodity information set to generate a corresponding first production data set; and sending the first set of production data to the producer data subsystem; receiving first production report data returned by the manufacturer data subsystem; and sending the first set of production data and the first production report data to the application merchant data subsystem; and merging the first commodity information set, the first production data set and the first production report data into a batch of data sets of the service provider and storing the data sets of the service provider into the first database cluster.

Preferably, the second management end is further configured to receive a first production data set sent by the service provider data subsystem; according to the task states of all first issuing equipment, equipment task allocation processing is carried out on the first production data set to generate corresponding first task data; supervising the task execution process of the specified production equipment according to the first task data, and generating corresponding first production report data according to supervision information when the task is finished; and sending the first production report data to the server data subsystem; and merging the first production data set, the first task data and the first production report data into a batch of production data sets to be stored in the second database cluster.

Preferably, the second management end is further configured to periodically track resource occupation status conditions of all the first sending devices to generate a corresponding device status data set; and storing the first device state data set in the second database cluster.

Further, the second management terminal is further configured to perform corresponding manufacturer device data management on all device state data sets stored in the second database cluster.

Preferably, the third management terminal is further configured to generate a corresponding first commodity information set according to the commodity information of the current batch, which is input by the application business user; sending the first commodity information set to the service provider data subsystem; receiving a first production data set and first production report data returned by the server data subsystem; and merging the first commodity information set, the first production data set and the first production report data into a batch of application data set to be stored in the third database cluster.

Preferably, the third management terminal is further configured to receive a first traceability request instruction initiated by the NFC tag verification terminal; extracting a first terminal identifier, a first NFC label identifier, a first random number and a first dynamic token from the first tracing request instruction; carrying out terminal validity verification on the first terminal identification; when the terminal validity verification is successful, performing tag identifier validity verification on the first NFC tag identifier; when the validity of the tag identification is successfully verified, performing token validity authentication on the first dynamic token according to the first NFC tag identification and the first random number; when the token validity authentication is successful, commodity information corresponding to the first NFC label identification is obtained from the third database cluster and is sent back to the NFC label verification terminal; and collecting the data of the whole process of the current traceability request instruction to generate a corresponding first traceability record and storing the first traceability record in the third database cluster.

Further, the third management terminal is further configured to perform corresponding data management on the traceability records stored in the third database cluster.

An embodiment of the present invention provides a data management system for NFC tag application, where the system includes: a service provider data subsystem, a manufacturer data subsystem, and an application provider data subsystem. The service provider data subsystem is connected with the manufacturer data subsystem and the application provider data subsystem in a butt joint mode, corresponding production data conversion is carried out after commodity information is obtained from the application provider data subsystem, production data are sent to the manufacturer data subsystem for label production, corresponding production reports are obtained, and the production data and the production reports corresponding to the commodity information are fed back to the application provider data subsystem. The application business data subsystem backups the production data and the production report corresponding to each batch of commodity information, independently connects all external NFC label verification terminals, independently processes the traceability process of each NFC label verification terminal based on the backup data, and backups and manages the traceability records of each terminal by using a local database. By the data management structure of the system, a commodity manufacturer can continue to utilize the existing system structure of the NFC label service provider to complete the butt joint of the NFC label and the specific commodity, and the control of the NFC label service provider is separated after the NFC label is in butt joint with the specific commodity, so that the individualized data of the commodity manufacturer is well protected.

Drawings

Fig. 1 is a schematic structural diagram of a data management system for NFC tag application according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Fig. 1 is a schematic structural diagram of a data management system for NFC tag application according to an embodiment of the present invention, and as shown in fig. 1, the system includes: a facilitator data subsystem 101, a producer data subsystem 102, and an application data subsystem 103.

The service provider data subsystem 101 is connected to the application provider data subsystem 103 and the manufacturer data subsystem 102, respectively.

Service provider data subsystem 101

The facilitator data subsystem 101 includes a first management port 1011 and a first database cluster 1012.

The first database cluster 1012 is used for storing a plurality of batches of service provider data sets; the data set of the service provider consists of a batch number, a commodity information set, a production data set and production report data.

Here, each service provider data set corresponds to a commodity information set of a batch of commodities and a corresponding production data set and production report data; the batch number is a unique identification code distributed by the system for each service provider data set;

the commodity information set comprises a plurality of commodity information records, and each commodity information record at least comprises the following information contents: information of merchants to which the commodities belong, commodity series information to which the commodities belong, commodity basic information and/or commodity multimedia information (pictures and/or videos) and the like;

the production data set comprises a plurality of production data records, and each production data record corresponds to one commodity information record; each production data record at least comprises NFC label identification information, NFC label key information and NFC label commodity information; the NFC label identification information is a unique identification code of each NFC label; the NFC label key information is label key information obtained by using the same batch of unique root keys to perform key dispersion according to the NFC label identification information; the NFC label commodity information comprises a plurality of label formatting data, the label formatting data correspond to information contents in corresponding commodity information records one by one, and the NFC label commodity information comprises the following steps: merchant information formatting data corresponding to merchant information, commodity series information formatting data corresponding to commodity series information, commodity basic information and/or commodity multimedia information formatting data corresponding to commodity basic information and/or commodity multimedia information (pictures and/or videos), and the like;

the production report data is used for counting the production condition of the production data set, and the content of the production report data at least comprises information such as issuing equipment identification, issuing duration, issuing total amount, issuing failure report and the like of the used issuing equipment, wherein the issuing failure report comprises detailed information of all NFC tags with issuing failures.

The first management end 1011 is configured to perform corresponding service provider data management on all service provider data sets stored in the first database cluster 1012.

In a specific implementation manner of the embodiment of the present invention, the first management end 1011 is specifically configured to provide a plurality of data retrieval functions to a management end login user during data management of a service provider, including: and searching the data set of the service provider according to the batch number, the merchant information, the commodity information and other modes, performing data analysis or quantity statistics on the data set of the service provider and specified data in the set according to the merchant information, and performing data analysis or quantity statistics on the data set of the service provider and the specified data in the set according to the commodity information.

The first management terminal 1011 is further configured to receive a first commodity information set sent by the application business data subsystem 103; carrying out production data conversion processing on the first commodity information set to generate a corresponding first production data set; and send the first set of production data to the producer data subsystem 102; and receive first production report data returned by the producer data subsystem 102; and sending the first production data set and the first production report data to the application merchant data subsystem 103; and the first commodity information set, the first production data set and the first production report data are merged into a batch of data sets of the service provider and stored in the first database cluster 1012.

In another specific implementation manner of the embodiment of the present invention, when performing production data conversion processing on a first commodity information set, a first management end 1011 first polls each first commodity information record of the first commodity information set, records the currently polled first commodity information record as a current commodity information record, sequentially converts merchant information, commodity series information, commodity basic information and/or commodity multimedia information in the current commodity information record according to a data format of preset tag formatting data to generate corresponding merchant information formatting data, commodity series information formatting data, commodity basic information and/or commodity multimedia information formatting data, and combines all formatting data obtained after conversion into first NFC tag commodity information corresponding to the current commodity information record; then, distributing a unique root key for the first commodity information set and recording the unique root key as a first root key; allocating a corresponding first NFC label identification range to the first commodity information set, wherein the NFC label identification range comprises a plurality of first NFC label identification information, and each first NFC label identification information corresponds to one first commodity information record; encrypting each piece of first NFC tag identification information by using a first root key based on a preset encryption and decryption algorithm, thereby obtaining a distributed key corresponding to each piece of first NFC tag identification information and marking the distributed key as first NFC tag key information; then, the first NFC tag identification information, the first NFC tag key information and the first NFC tag commodity information corresponding to each first commodity information record are combined into a corresponding first production data record, and a first production data set is formed by all the first production data records.

(II) manufacturer data subsystem 102

The manufacturer data subsystem 102 includes a second management end 1021 and a second database cluster 1022; the manufacturer data subsystem 102 is also coupled to a plurality of first issuing devices.

The second database cluster 1022 is used for storing multiple batches of manufacturer data sets; the producer data set consists of a batch number, a production data set, task data and production report data.

Here, each producer data set corresponds to a production data set of one batch of RFC labels and corresponding task data and production report data; the batch number is a unique identification code distributed by the system for each manufacturer data set; the task data is task allocation information for dynamically allocating tasks to the issuing equipment by the system based on the production data set and in combination with the resource occupation condition of the issuing equipment; the production data set and the production report data are consistent with the above description, and are not further described herein.

The second management end 1021 is configured to perform corresponding manufacturer data management on all manufacturer data sets stored in the second database cluster 1022.

In another specific implementation manner of the embodiment of the present invention, the second management end 1021 is specifically configured to provide a plurality of data retrieval functions to a management end login user when managing manufacturer data, including: the method comprises the steps of retrieving a manufacturer data set according to a batch number, merchant information, commodity information and the like, performing data analysis or quantity statistics on the manufacturer data set and specified data in the set according to the merchant information, performing data analysis or quantity statistics on the manufacturer data set and the specified data in the set according to the commodity information, and retrieving, analyzing or counting the manufacturer data set or task data according to an issuing equipment identifier.

The second management end 1021 is further configured to receive a first production data set sent by the facilitator data subsystem 101; according to the task states of all the first issuing equipment, equipment task allocation processing is carried out on the first production data set to generate corresponding first task data; monitoring the task execution process of the specified production equipment according to the first task data, and generating corresponding first production report data according to the monitoring information when the task is finished; sending the first production report data to the server data subsystem 101; and the first production data set, the first task data, and the first production report data are merged into a batch of production data sets to be stored in the second database cluster 1022.

In another specific implementation manner of the embodiment of the present invention, the second management end 1021 is specifically configured to extract one or more first task records from the first task data when supervising a task execution process of the specified production device according to the first task data, where each first task record corresponds to one issuing device identifier and one device production data set, and a collection of device production data sets of all the first task records is consistent with the first production data set; sending corresponding equipment production data sets to first issuing equipment corresponding to the issuing equipment identifications, and receiving real-time production reports sent back by the first issuing equipment to form corresponding supervision information; the real-time production report comprises information such as issuing equipment identification, issuing duration, issuing quantity, issuing fault report and the like, and the issuing fault report comprises detailed information of all NFC tags with issuing faults.

In another specific implementation manner of the embodiment of the present invention, the second managing end 1021 is specifically configured to fuse and summarize all the supervision information according to the issuing device identifier when the task is finished, so as to obtain the final first production report data.

The second management end 1021 is further configured to periodically track resource occupation states of all the first sending devices to generate a corresponding device state data set; and stores the first set of device state data in the second database cluster 1022. Correspondingly, the second database cluster 1022 is also used to store device state data sets of a plurality of first issuing devices.

The second management end 1021 is further configured to perform corresponding manufacturer device data management on all device status data sets stored in the second database cluster 1022.

In another specific implementation manner of the embodiment of the present invention, the second management end 1021 is specifically configured to provide a plurality of data retrieval functions to a management end login user when managing data of manufacturer equipment, where the functions include: and searching the information records such as the equipment basic information, the work history record, the maintenance history record and the like according to the issued equipment identification.

(III) application quotient data subsystem 103

The application business data subsystem 103 comprises a third management terminal 1031 and a third database cluster 1032; the application business data subsystem 103 is also connected with the multi-class NFC tag verification terminals.

The third database cluster 1032 is configured to store multiple batches of application merchant data sets, and is further configured to store source tracing records of various NFC tag verification terminals.

Here, each application data set corresponds to a commodity information set of a batch of commodities and a corresponding production data set and production report data; the batch number is a unique identification code distributed by the system for each service provider data set; the commodity information set, the production data set, and the production report data are consistent with those described above, and further description thereof is omitted here. The data set of the application provider is actually the data backup of the service provider at the commodity manufacturer, that is, the application provider side. Based on the data backup, the control of the service provider on the application provider can be got rid of in the range tracing processing process of the NFC label.

The third management terminal 1031 is configured to perform corresponding application data management on all application data sets stored in the third database cluster 1032.

In another specific implementation manner of the embodiment of the present invention, the third management terminal 1031 is specifically configured to provide a plurality of data retrieval functions to a management terminal login user during data management of an application provider, including: and searching the application data set according to the modes of batch number, merchant information, commodity information and the like, performing data analysis or quantity statistics on the application data set and specified data in the set according to the merchant information, and performing data analysis or quantity statistics on the application data set and the specified data in the set according to the commodity information.

The third management terminal 1031 is further configured to generate a corresponding first commodity information set according to the commodity information of the current batch, which is input by the application business user; sending the first commodity information set to a server data subsystem 101; receiving a first production data set and first production report data returned by the server data subsystem 101; and the first commodity information set, the first production data set and the first production report data are combined into a batch of application merchant data sets to be stored in a third database cluster 1032.

The third management terminal 1031 is further configured to receive a first traceability request instruction initiated by the NFC tag verification terminal; extracting a first terminal identifier, a first NFC label identifier, a first random number and a first dynamic token from the first tracing request instruction; and the terminal validity is verified for the first terminal identification; when the terminal validity verification is successful, performing tag identifier validity verification on the first NFC tag identifier; when the validity of the tag identification is successfully verified, performing token validity authentication on the first dynamic token according to the first NFC tag identification and the first random number; when the token validity authentication is successful, commodity information corresponding to the first NFC tag identification is acquired from a third database cluster 1032 and is sent back to the NFC tag verification terminal; and collecting the whole process data of the current tracing request instruction to generate a corresponding first tracing record, and storing the first tracing record in the third database cluster 1032.

In another specific implementation manner of the embodiment of the present invention, the third management terminal 1031 is specifically configured to query a legal terminal identifier database according to the first terminal identifier when performing terminal validity verification on the first terminal identifier, where the terminal validity verification is successful if the first terminal identifier exists in the legal terminal identifier database, and otherwise, the terminal validity verification is failed.

In another specific implementation manner of the embodiment of the present invention, the third management terminal 1031 is specifically configured to query the production data set in the third database cluster 1032 according to the first NFC tag identifier when performing tag identifier validity verification on the first NFC tag identifier, where if the production data set in the third database cluster 1032 has the first NFC tag identifier, the tag identifier validity verification is successful, and if not, the tag identifier validity verification is failed.

In another specific implementation manner of the embodiment of the present invention, the third management terminal 1031 is specifically configured to, when performing token validity authentication on the first dynamic token according to the first NFC tag identifier and the first random number, obtain an NFC tag key corresponding to the first NFC tag identifier from a production data set in the third database cluster 1032, decrypt the first dynamic token by using the NFC tag key to obtain a decrypted plaintext, compare the decrypted plaintext with the first random number, if the decrypted plaintext matches the first random number, the token validity authentication is successful, and otherwise, the token validity authentication is failed.

In another specific implementation manner of the embodiment of the present invention, the third management terminal 1031 is specifically configured to, when collecting the overall process data of the current tracing request instruction, perform data summarization on the receiving time of the current tracing request instruction, the first terminal identifier, the first NFC tag identifier, the process data and the result of the terminal validity verification, the tag identifier validity verification, and the token validity verification, and generate a corresponding first tracing record, and store the first tracing record in the third database cluster 1032.

The third management terminal 1031 is further configured to perform corresponding traceability record data management on all traceability records stored in the third database cluster 1032.

An embodiment of the present invention provides a data management system for NFC tag application, where the system includes: a service provider data subsystem, a manufacturer data subsystem, and an application provider data subsystem. The service provider data subsystem is connected with the manufacturer data subsystem and the application provider data subsystem in a butt joint mode, corresponding production data conversion is carried out after commodity information is obtained from the application provider data subsystem, production data are sent to the manufacturer data subsystem for label production, corresponding production reports are obtained, and the production data and the production reports corresponding to the commodity information are fed back to the application provider data subsystem. The application business data subsystem backups the production data and the production report corresponding to each batch of commodity information, independently connects all external NFC label verification terminals, independently processes the traceability process of each NFC label verification terminal based on the backup data, and backups and manages the traceability records of each terminal by using a local database. Through the data management structure of the system, a commodity manufacturer can continue to utilize the existing system structure of the NFC label service provider to complete the butt joint of the NFC label and the specific commodity, and the control of the NFC label service provider is separated after the NFC label is in butt joint with the specific commodity, so that the individualized data of the commodity manufacturer is well protected.

Those of skill would further appreciate that the various illustrative components and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied in hardware, a software module executed by a processor, or a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A data management system for NFC tag applications, the system comprising: the service provider data subsystem, the manufacturer data subsystem and the application provider data subsystem;

2. The data management system for NFC tag applications of claim 1,

the first management terminal is further used for receiving a first commodity information set sent by the application merchant data subsystem; carrying out production data conversion processing on the first commodity information set to generate a corresponding first production data set; and sending the first set of production data to the producer data subsystem; receiving first production report data returned by the manufacturer data subsystem; and sending the first set of production data and the first production report data to the application merchant data subsystem; and merging the first commodity information set, the first production data set and the first production report data into a batch of data sets of the service provider and storing the data sets of the service provider into the first database cluster.

3. The data management system for NFC tag applications of claim 1,

the second management terminal is further used for receiving a first production data set sent by the server data subsystem; according to the task states of all first issuing equipment, equipment task allocation processing is carried out on the first production data set to generate corresponding first task data; supervising the task execution process of the specified production equipment according to the first task data, and generating corresponding first production report data according to supervision information when the task is finished; and sending the first production report data to the server data subsystem; and merging the first production data set, the first task data and the first production report data into a batch of production data sets to be stored in the second database cluster.

4. The data management system for NFC tag applications of claim 1,

the second management terminal is further configured to periodically track resource occupation status conditions of all the first sending devices to generate a corresponding device status data set; and storing the first device state data set in the second database cluster.

5. The data management system for NFC tag applications of claim 4,

and the second management terminal is further used for performing corresponding manufacturer equipment data management on all equipment state data sets stored in the second database cluster.

6. The data management system for NFC tag applications of claim 1,

the third management terminal is further used for generating a corresponding first commodity information set according to the commodity information of the current batch input by the application business user; sending the first commodity information set to the service provider data subsystem; receiving a first production data set and first production report data returned by the server data subsystem; and merging the first commodity information set, the first production data set and the first production report data into a batch of application data set to be stored in the third database cluster.

7. The data management system for NFC tag applications of claim 1,

the third management terminal is further configured to receive a first traceability request instruction initiated by the NFC tag verification terminal; extracting a first terminal identifier, a first NFC label identifier, a first random number and a first dynamic token from the first tracing request instruction; and carrying out terminal validity verification on the first terminal identification; when the terminal validity verification is successful, performing tag identifier validity verification on the first NFC tag identifier; when the validity of the tag identification is successfully verified, performing token validity authentication on the first dynamic token according to the first NFC tag identification and the first random number; when the token validity authentication is successful, commodity information corresponding to the first NFC label identification is acquired from the third database cluster and is sent back to the NFC label verification terminal; and collecting the data of the whole process of the current traceability request instruction to generate a corresponding first traceability record and storing the first traceability record in the third database cluster.

8. The data management system for NFC tag applications of claim 7,

and the third management terminal is also used for performing corresponding tracing record data management on all tracing records stored in the third database cluster.