CN109766965B - Implementation method of RFID supply chain data calculation framework - Google Patents
Implementation method of RFID supply chain data calculation framework Download PDFInfo
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Abstract
The invention provides a method for realizing a data calculation framework of an RFID supply chain, which comprises the following steps: the method comprises the following steps: the RFID supply chain data collection is completed through an RFID supply chain data collection module; step two: the RFID supply chain data processing module is used for processing the RFID supply chain data; step three: and the difference calculation of the RFID supply chain data is realized through an RFID supply chain data calculation module. The RFID supply chain data calculation framework has the advantages that reusability of the RFID supply chain data application system function module can be improved, and development efficiency of the RFID supply chain data application system is improved.
Description
Technical Field
The invention relates to an RFID Internet of things, in particular to an implementation method of an RFID supply chain data calculation framework.
Background
With the popularization and popularization of the technology of the internet of things, the RFID technology is rapidly developed, and particularly, the RFID supply chain data application system is widely applied. However, RFID supply chain data application systems are indistinguishable from a business scenario. Service data and service execution flows required by different service scenes are different, and mixed application of service data acquired on line and RFID tag data acquired by off-line service execution is involved, so that the reusability of an RFID supply chain data application system is poor. Therefore, in order to deal with different service scenarios, a set of standardized RFID supply chain data calculation framework is constructed, and the difference between the RFID supply chain data and the scenarios is shielded, so that the reusability is improved, and the method is a key for developing an RFID supply chain data application system.
Disclosure of Invention
In order to solve the problems in the prior art, the invention provides a method for realizing an RFID supply chain data calculation framework with high reusability.
The invention provides a method for realizing a data calculation framework of an RFID supply chain, which comprises the following steps:
the method comprises the following steps: the collection of RFID supply chain data is completed through an RFID supply chain data collection module;
step two: the RFID supply chain data processing module is used for processing the RFID supply chain data;
step three: and the difference calculation of the RFID supply chain data is realized through an RFID supply chain data calculation module.
As a further improvement of the invention, the first step comprises collecting the service operation instruction data sent by the RFID supply chain data processing module; collecting supply chain business data from a third-party business management system; and collecting RFID electronic tag data scanned by the RFID intelligent terminal.
As a further improvement of the invention, the service operation instruction data is a quadruplet model predefined by the RFID supply chain data processing module according to the service requirements of the supply chain, and the quadruplet model abstracts the service tasks executed by the service requester in a certain service scenario; the supply chain service data is service order information which is acquired from a third-party service management system by an RFID supply chain data application system through a standardized interface and is used for meeting service requirements, and the service order information describes various service entity contents of commodities in the circulation process of a supply chain; the RFID electronic tag data is RFID electronic tag data information which is obtained by an RFID reading module based on RFID data acquisition software and according to a service operation instruction and by taking an RFID intelligent terminal as a carrier.
As a further improvement of the invention, the step two comprises defining, checking and updating the business operation instruction data; inquiring and assembling the service data of the supply chain to form service reference data; and filtering and binding the RFID electronic tag data to generate service execution data.
As a further improvement of the invention, the data interaction between the RFID supply chain data collection module and the RFID supply chain data processing module is defined, checked and updated under the service operation instruction data, and on the basis that the RFID supply chain data processing module defines the service operation instruction set, the RFID supply chain data collection module synchronously updates the service operation instruction set in the RFID supply chain data processing module by sending an HTTP request; in addition, when the RFID supply chain data collection module initiates a request for executing the service according to the service operation instruction, the RFID supply chain data processing module checks whether the service operation instruction sets contained in the RFID supply chain data collection module and the RFID supply chain data processing module are the same.
As a further improvement of the invention, the query and assembly of the service data of the supply chain comprises the processing of the service subject data and the query and assembly of the service constraint data, the query method of the service subject data is to query the service object information required by the execution of the service through a database technology by using the unique identifier of the service task in the service operation instruction quadruplet, and the service object information comprises service general information, service detailed information and commodity general information; the query method of the business constraint data is to query all object information meeting the constraint through a database technology according to the constraint parameters, and then to assemble the business reference data according to a business operation instruction four-tuple model on the basis of two query operation result sets; the RFID electronic tag data filtering aims to remove a large amount of repeated RFID electronic tag data by means of RFID data acquisition software according to a service operation instruction; the binding of the RFID electronic tag data aims to complete the binding of the RFID electronic tag data and the visual display content through a service operation instruction.
As a further improvement of the present invention, the third step includes obtaining the difference between the service reference data and the service execution data through mapping, storing and calculating operations based on the service reference data and the service execution data to form visual display data, and returning the visual display data to the RFID supply chain data processing module.
As a further improvement of the present invention, the RFID supply chain data calculation module calculates the difference between the service reference data and the execution data, and when the service reference data and the execution data of the RFID supply chain data processing module are received synchronously, directly executes a storage operation, and stores the service reference data into the database to form a basic model base or an extended model base; when the service reference data and the execution data of the RFID supply chain data processing module are asynchronously received, executing service reference data and execution data mapping operation according to the unique identification of the service operation instruction, and then executing storage operation; and finally, according to the service target, completing the difference calculation of the service reference data and the execution data, forming visual display data by combining other data, and returning the visual display data to the RFID supply chain data processing module.
As a further improvement of the invention, the RFID supply chain data processing module respectively performs information transmission with the RFID supply chain data collection module and the RFID supply chain data calculation module through a communication protocol; the visualized display data is data content returned by the RFID supply chain data processing module after the RFID supply chain data processing module calculates the difference through the RFID supply chain data calculating module according to the received RFID electronic tag data when the RFID supply chain data collecting module sends a service operation instruction.
As a further improvement of the invention, the communication protocol of the RFID supply chain data processing module includes an HTTP protocol and a Socket protocol, and when the data transmission amount between the RFID supply chain data processing module and the RFID supply chain data collection module, and the RFID supply chain data calculation module is small, and the execution time of the RFID supply chain data processing task is short, the HTTP protocol is used for data transmission; otherwise, the Sokcet protocol is adopted and is realized by adopting a non-blocking asynchronous communication framework.
The invention has the beneficial effects that: by adopting the RFID supply chain data calculation framework provided by the invention, the reusability of the functional module of the RFID supply chain data application system can be improved, and the development efficiency of the RFID supply chain data application system can be improved.
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FIG. 1 is a system architecture block diagram of an implementation method of an RFID supply chain data computation framework of the present invention.
FIG. 2 is an interaction diagram of functional modules of an implementation method of an RFID supply chain data calculation framework according to the present invention.
FIG. 3 is a flow chart of the business execution of a method for implementing the RFID supply chain data computation framework of the present invention.
Detailed Description
The invention is further described with reference to the following description and embodiments in conjunction with the accompanying drawings.
As shown in fig. 1, an implementation method of an RFID supply chain data calculation framework is that the RFID supply chain data calculation framework is shown in fig. 1, and includes three functional modules, namely an RFID supply chain data collection module, an RFID supply chain data processing module, and an RFID supply chain data calculation module, and based on the RFID supply chain data calculation framework, the following interaction processes are performed:
the method comprises the following steps: and the RFID supply chain data collection module is used for collecting RFID supply chain data. Collecting service operation instruction data sent by an RFID supply chain data processing module; supply chain business data from a third party business management system; and scanning the RFID electronic tag data by means of the RFID intelligent terminal.
Step two: and the RFID supply chain data processing module is used for processing the RFID supply chain data. The method mainly defines, checks and updates the business operation instruction data; inquiring and assembling the service data of the supply chain to form service reference data; and filtering and binding the RFID electronic tag data to generate service execution data.
Step three: and the RFID supply chain data calculation module realizes difference calculation of the RFID supply chain data. And on the basis of the service reference data and the execution data, the difference of the two types of data is obtained through mapping, storage and calculation operations, and visual display data is formed by combining other data and is returned to the RFID supply chain data processing module.
As shown in FIG. 1, the RFID supply chain data computation framework may collect different types of RFID supply chain data from different sources; the RFID supply chain data computing framework provides a method for processing RFID supply chain data, and the development efficiency of an RFID supply chain data application system is improved; the RFID supply chain data calculation framework provides an RFID supply chain data mapping, storing and calculating method, and reusability of functional modules of an RFID supply chain data application system is enhanced.
As shown in fig. 1, the RFID supply chain data collection module mainly collects service operation instruction data sent by the RFID supply chain data processing module; supply chain business data from a third party business management system; and scanning the RFID electronic tag data by means of the RFID intelligent terminal. The RFID supply chain data processing module carries out information transmission with other two modules through a communication protocol (HTTP/SOCKET), and mainly realizes definition, check and update under a service operation instruction; inquiring and assembling the service data of the supply chain to form service reference data; and filtering and binding the RFID electronic tag data to generate service execution data. The RFID supply chain data calculation module obtains the difference of the two types of data through mapping, storage and calculation operations on the basis of the service reference data and the execution data, forms visual display data by combining other data, and returns the visual display data to the RFID supply chain data processing module.
The interaction diagram of functional modules of the RFID supply chain data calculation framework is shown in FIG. 2. According to the service requirement of the supply chain service management system, the RFID supply chain data acquisition module is connected with the service single information through the standardized interface and synchronously stored in the RFID supply chain data processing module, and meanwhile, the RFID supply chain data processing module defines the service operation instruction quadruple according to the service single information. When the RFID supply chain data acquisition module needs to acquire RFID electronic tag data through a service operation instruction, a request for updating a service instruction set is sent to the RFID supply chain data processing module in an incremental mode, and the RFID supply chain data processing module returns the latest service operation instruction set. After the RFID supply chain data acquisition module selects to execute a certain service operation, the RFID supply chain data processing module forwards the request to the RFID supply chain data calculation module, and if the service instruction model exists in the model base, the model is directly returned to the RFID supply chain data processing module; if the service instruction model does not exist in the model base, the RFID supply chain data processing module inquires service reference data through a database technology according to the service operation instruction, and analyzes a service theme and constraint. After the RFID supply chain data acquisition module finishes a service task by means of RFID data acquisition software and obtains final RFID electronic tag data, the service execution data is uploaded to the RFID supply chain data processing module in a synchronous or asynchronous mode; the RFID supply chain data processing module assembles the received two types of data, and then sends the two types of data to the RFID supply chain data calculation module in a synchronous or asynchronous mode so that the RFID supply chain data calculation module can map, store and calculate the two types of data, and combines the calculation result with other data to form visual display data to return to the RFID supply chain data processing module.
The service operation instruction data is a quadruplet model predefined by an RFID supply chain data processing module according to the service requirement of a supply chain, and the model abstracts a service task executed by a service requester under a certain service scene; the supply chain service data is service order information which is acquired from a third-party service management system by an RFID supply chain data application system through a standardized interface and is used for meeting service requirements, and the service order information describes various service entity contents of commodities in the circulation process of a supply chain; the RFID electronic tag data is RFID electronic tag data information which is obtained by an RFID reading module based on RFID data acquisition software and according to a service operation instruction and by taking an RFID intelligent terminal as a carrier.
The communication protocol of the RFID supply chain data processing module comprises HTTP (hyper Text Transfer protocol) and Socket protocol. When the data transmission quantity between the RFID supply chain data processing module and other functional modules is small and the execution time of the RFID supply chain data processing task is short, the HTTP protocol is adopted for data transmission; and on the contrary, the Sokcet protocol is adopted and is realized by adopting a non-blocking asynchronous communication framework.
The service operation instruction data processing occurs in data interaction between the RFID supply chain data collection module and the RFID supply chain data processing module. On the basis that the RFID supply chain data processing module defines a service operation instruction set, the RFID supply chain data collection module synchronously updates the service operation instruction set in the RFID supply chain data processing module by sending an HTTP request; in addition, when the RFID supply chain data collection module initiates a request for executing a service according to the service operation instruction, the RFID supply chain data processing module checks whether the service operation instruction sets included in the two functional modules are the same.
The RFID supply chain data processing comprises processing of business subject data and query and assembly of business constraint data. The query method of the business theme data is that the unique identification of the business task in the four-tuple of the business operation instruction is used for querying the business object information required by executing the business through the database technology, and the business object information comprises the business total information, the business detailed information and the commodity total information; the query method of the business constraint data is to query all object information meeting the constraint through a database technology according to the constraint parameters. And then, based on the result sets of the two query operations, assembling the service reference data according to the service operation instruction quadruple model.
The RFID electronic tag data filtering aims to remove a large amount of repeated RFID electronic tag data by means of RFID data acquisition software according to a service operation instruction; the binding of the RFID electronic tag data aims to complete the binding of the RFID electronic tag data and the visual display content through a service operation instruction. The visualized display content is data content returned by the RFID supply chain data processing module after the RFID supply chain data processing module calculates the difference through the RFID supply chain data calculating module according to the received RFID electronic tag data when the RFID supply chain data collecting module sends a service operation instruction.
The core of the RFID supply chain data calculation module is to calculate the difference between service reference data and execution data. When the service reference data and the execution data of the RFID supply chain data processing module are synchronously received, directly executing storage operation, and storing the service reference data into a database to form a basic model library or an extended model library; when the service reference data and the execution data of the RFID supply chain data processing module are asynchronously received, executing service reference data and execution data mapping operation according to the unique identification of the service operation instruction, and then executing storage operation; and finally, according to the service target, completing the difference calculation of the service reference data and the execution data, forming visual display data by combining other data, and returning the visual display data to the RFID supply chain data processing module.
Fig. 3 illustrates an implementation of the RFID supply chain data computation framework, taking the apparel supply chain store inventory service function as an example.
The third-party service management system sends inventory service order information to an RFID supply chain data collection module, wherein the information comprises key attribute data required by inventory service, such as service reference information, for example, inventory plan order total data, inventory plan order detailed data, commodity inventory data and the like; and the RFID supply chain data processing module determines that the inventory service operation instruction is a quadruplet of Sm = < service ID, store ID, service single information ID and constraint information ID according to the inventory service reference information. And the RFID supply chain data processing module is assembled to form a corresponding field object according to three contexts of 'people and field', 'people and goods' and 'goods and field' according to the checking service reference information to form a 'people, goods and field' aggregate object, and the aggregate object describes that after the service function is executed, related service data theoretically should be obtained and comprises operator data, store data, service order key data and commodity SKU-level data. The RFID supply chain data collection module executes the checking service operation by means of the RFID terminal, and finally forms service execution information which mainly comprises service operation instruction information, commodity EPC information and service constraint information; the RFID supply chain data collection module sends the checking service execution information to the RFID supply chain data processing module to form a service operation object; and analyzing the business theme and constraint information by the RFID supply chain data calculation module according to the aggregation objects and business operation objects of people, goods and places to obtain commodity inventory data, scene constraint data and RFID commodity label data. And calculating the difference of the commodity stock in the context of the inventory task, and storing the aggregation object of the people, the goods and the places into the basic model library and the extension library. And seventhly, combining the inventory difference data of the checked commodities with the scene constraint data to form visual data, and returning the visual data to the RFID supply chain data collection module for displaying to the operator.
The implementation method of the RFID supply chain data calculation framework provided by the invention simplifies the data processing process of the RFID supply chain data application system and improves the development efficiency of the RFID supply chain data application system.
The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.
Claims (5)
1. An implementation method of an RFID supply chain data calculation framework is characterized by comprising the following steps:
the method comprises the following steps: the RFID supply chain data collection is completed through an RFID supply chain data collection module;
step two: the RFID supply chain data processing module is used for processing the RFID supply chain data;
step three: the difference calculation of the RFID supply chain data is realized through an RFID supply chain data calculation module;
step one, collecting service operation instruction data sent by an RFID supply chain data processing module; collecting supply chain business data from a third-party business management system; collecting RFID electronic tag data scanned by an RFID intelligent terminal;
the service operation instruction data is a quadruplet model predefined by the RFID supply chain data processing module according to the service requirement of the supply chain, and the quadruplet model abstracts the service task executed by a service requester under a certain service scene; the supply chain service data is service order information which is acquired from a third-party service management system by an RFID supply chain data application system through a standardized interface and is used for meeting service requirements, and the service order information describes various service entity contents of commodities in the circulation process of the supply chain; the RFID electronic tag data is RFID electronic tag data information which is obtained by an RFID reading module based on RFID data acquisition software and according to a service operation instruction by taking an RFID intelligent terminal as a carrier;
step two, defining, checking and updating the service operation instruction data; inquiring and assembling the service data of the supply chain to form service reference data; filtering and binding RFID electronic tag data to generate service execution data;
defining, checking and updating data interaction between an RFID supply chain data collection module and an RFID supply chain data processing module under service operation instruction data, wherein the RFID supply chain data collection module synchronously updates a service operation instruction set in the RFID supply chain data processing module by sending an HTTP request on the basis that the RFID supply chain data processing module defines the service operation instruction set; in addition, when the RFID supply chain data collection module initiates a request for executing the service according to the service operation instruction, the RFID supply chain data processing module checks whether the service operation instruction sets contained in the RFID supply chain data collection module and the RFID supply chain data processing module are the same;
the method for inquiring and assembling the service data of the supply chain comprises the steps of processing the service subject data and inquiring and assembling the service constraint data, wherein the method for inquiring the service subject data is to inquire the service object information required by executing the service through a database technology by using the unique identifier of the service task in the service operation instruction quadruple, and the service object information comprises service general information, service detailed information and commodity general information; the query method of the business constraint data is to query all object information meeting the constraint through a database technology according to the constraint parameters, and then to assemble the business reference data according to a business operation instruction four-tuple model on the basis of two query operation result sets; the RFID electronic tag data filtering aims to remove a large amount of repeated RFID electronic tag data by means of RFID data acquisition software according to a service operation instruction; the binding of the RFID electronic tag data aims to complete the binding of the RFID electronic tag data and the visual display content through a service operation instruction.
2. The method of claim 1, wherein the RFID supply chain data computation framework is implemented as: and step three, based on the service reference data and the service execution data, obtaining the difference between the service reference data and the service execution data through mapping, storage and calculation operations to form visual display data, and returning the visual display data to the RFID supply chain data processing module.
3. The method of claim 2, wherein the RFID supply chain data computation framework is implemented as: the RFID supply chain data calculation module is used for calculating the difference between service reference data and execution data, when the service reference data and the execution data of the RFID supply chain data processing module are synchronously received, the storage operation is directly executed, and the service reference data is stored in a database to form a basic model base or an extended model base; when the service reference data and the execution data of the RFID supply chain data processing module are asynchronously received, executing service reference data and execution data mapping operation according to the unique identification of the service operation instruction, and then executing storage operation; and finally, according to the service target, completing the difference calculation of the service reference data and the execution data, forming visual display data by combining other data, and returning the visual display data to the RFID supply chain data processing module.
4. The method of claim 3, wherein the RFID supply chain data computation framework is implemented as: the RFID supply chain data processing module is respectively in information transmission with the RFID supply chain data collection module and the RFID supply chain data calculation module through a communication protocol; the visualized display data is data content returned by the RFID supply chain data processing module after the RFID supply chain data processing module calculates the difference through the RFID supply chain data calculating module according to the received RFID electronic tag data when the RFID supply chain data collecting module sends a service operation instruction.
5. The method of claim 4, wherein the RFID supply chain data computation framework is implemented as: the communication protocol of the RFID supply chain data processing module comprises an HTTP protocol and a Socket protocol, and when the data transmission quantity between the RFID supply chain data processing module and the RFID supply chain data collection module and between the RFID supply chain data processing module and the RFID supply chain data calculation module is small, and the execution time of the RFID supply chain data processing task is short, the HTTP protocol is adopted for data transmission; otherwise, the Sokcet protocol is adopted and is realized by adopting a non-blocking asynchronous communication framework.
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