CN115330420A

CN115330420A - Jade tracing method and system based on standard

Info

Publication number: CN115330420A
Application number: CN202211250557.1A
Authority: CN
Inventors: 陈昱
Original assignee: China Shanghai Baoyushi Trading Center Co ltd
Current assignee: China Shanghai Baoyushi Trading Center Co ltd
Priority date: 2022-10-13
Filing date: 2022-10-13
Publication date: 2022-11-11
Anticipated expiration: 2042-10-13
Also published as: CN115330420B

Abstract

The invention discloses a standard-based gem and jade tracing method and a standard-based gem and jade tracing system, wherein the system comprises a foreground subsystem, a middleware subsystem and a background subsystem, wherein the foreground subsystem is used for generating and sending tracing transaction data and task processing instructions to the middleware subsystem according to the obtained tracing record data of a target gem and jade and transaction node metadata based on tracing standards; the background subsystem is used for managing the acquired transaction node metadata based on the tracing standard and sending background management data to the middleware subsystem; the middleware subsystem is used for starting a tracing transaction processing flow of the target gem and jade according to the task processing instruction, processing the received tracing transaction data and background management data, and outputting the obtained tracing result information through the foreground subsystem. The technical scheme of the invention can realize real-time panoramic monitoring and whole-course gem and jade tracing of the gem and jade trade track by the tracing standard of the gem and jade.

Description

Gem and jade tracing method and system based on standards

Technical Field

The invention relates to the technical field of jewelry information, in particular to a gem and jade tracing method and system based on standards.

Background

With the social development, the trading activities of the jewelry market in China are more frequent, and the truth and the falseness of the gemstones and jades are still the first major matters concerned by jewelry lovers and collectives. In the current jewelry market of China, 90% of precious and jade producing areas are overseas, and the precious and jade jewelry has the characteristics of small volume, high value, easiness in carrying, difficulty in distinguishing true and false, difficulty in wearing, sustainable circulation and the like. This makes jewelry transactions extremely dependent on the ethical qualities of both the buyer and seller, and once one party is fraudulent, the other party is often subject to significant losses and is difficult to recover.

The existing tracing system for the gemstones is incomplete, and a tracing system for tracing the origin and destination of the gemstones based on the standardized requirements according with the characteristics of the gemstones is lacked. The gem and jade has the characteristics of small volume, high value and uniqueness, and the commodity attribute is different from commodities in other fields. For example, in the medical (pharmaceutical) field, the medicine has the characteristics of mass property, reproducibility and incapability of being reused, and represents that the medicine is consumed when the medicine is used, and the medicine has different commodity attributes from those of the gem and jade, so that the tracing method in the medical (pharmaceutical) field is also different from that in the gem and jade field.

Therefore, in the field of gemstones and jades, a method for tracing gemstones and jades based on standards conforming to the characteristics of the gemstones and jades is urgently needed to ensure that the tracing work of the gemstones and jades is compliant, safe, transparent and credible.

Disclosure of Invention

One of the purposes of the invention is to provide a standard-based gem and jade tracing method and system in order to overcome the defects in the prior art and solve the problems that the gem and jade tracing system in the prior art is incomplete and has no unified standard.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

in a first aspect, the invention provides a standard-based gem and jade tracing system, which comprises a foreground subsystem, a middleware subsystem and a background subsystem, wherein the foreground subsystem is in communication connection with the background subsystem through the middleware subsystem, and the standard-based gem and jade tracing system comprises:

the foreground subsystem is used for generating and sending tracing transaction data and task processing instructions to the middleware subsystem according to the obtained tracing record data of the target gem and jade and the transaction node metadata based on the tracing standard;

the background subsystem is used for managing the acquired transaction node metadata based on the tracing standard and sending background management data to the middleware subsystem;

the middleware subsystem is used for starting a tracing transaction processing flow of the target gem and jade according to the task processing instruction, processing the received tracing transaction data and the background management data, and outputting the obtained tracing result information through the foreground subsystem.

In a preferred embodiment of the present application, the middleware subsystem includes a trace back transaction interface, a data background interface and a task manager, and the task manager is respectively in communication connection with the trace back transaction interface and the data background interface;

the tracing transaction interface is connected with the foreground subsystem and used for sending the tracing transaction data and the task processing instruction to the task manager;

the data background interface is connected with the background subsystem and used for sending the background management data to the task manager;

the task manager is used for performing cooperative preprocessing on the tracing transaction data and the task processing instruction, performing metadata preprocessing on the background management data, sending the background management instruction to the background subsystem through the data background interface, and performing tracing transaction processing based on the tracing transaction data and the background management data.

In a preferred embodiment of the present application, the middleware subsystem further comprises a trace back data interface, communicatively connected to the task manager;

the tracing data interface is used for sending received tracing data of the gemstones to the task manager;

the task manager is further used for carrying out data preprocessing on the tracing data and carrying out tracing transaction processing based on the tracing data.

In a preferred embodiment of the present application, the system further includes a trace back database connected to the trace back data interface, and the trace back database sends the trace back data to the task manager through the trace back data interface.

In a preferred embodiment of the present application, the foreground subsystem includes a flag processing module and a trace back generation module, which are communicatively connected to each other;

the mark processing module is used for receiving mark data and mark change data of the gem and jade and a mark recommendation format and a coding recommendation rule of the gem and jade based on a tracing standard, processing the mark data and the mark change data based on the mark recommendation format and the coding recommendation rule to form tracing mark data and a data generation instruction, and sending the tracing mark data and the data generation instruction to the tracing generation module;

the tracing generation module is connected with the middleware subsystem and is used for receiving the tracing mark data and the data generation instruction, the tracing record data of the target gem and the transaction node metadata based on the tracing standard and the tracing code recommended format and coding recommended rule of the gem and jade, processing the tracing record data according to the tracing mark data based on the transaction node metadata according to the data generation instruction,

generating the tracing transaction data based on the tracing code recommended format and the coding recommended rule, generating the tracing transaction data and the task processing instruction, and sending the tracing transaction data and the task processing instruction to the middleware subsystem;

the trace back transaction data includes a trace back code and trace back information.

In a preferred embodiment of the present application, the system further comprises a flag database connected to the flag processing module, the flag database being configured to send flag data and flag change data to the flag processing module.

In a preferred embodiment of the present application, the system further includes a standard subsystem, the standard subsystem is in communication connection with the foreground subsystem, the middleware subsystem and the background subsystem, respectively, and the standard subsystem is used for the foreground subsystem, the middleware subsystem and the background subsystem to read transaction node metadata based on a tracing standard.

In a preferred embodiment of the present application, the standard subsystem includes a transaction node database, and is configured to send transaction node metadata based on a trace-back standard to the foreground subsystem, the middleware subsystem, or the background subsystem when receiving a read request of the foreground subsystem, the middleware subsystem, or the background subsystem.

In a preferred embodiment of the present application, the standard subsystem further includes a mark standard module and a traceback code standard module, the mark standard module is configured to send the mark recommended format and the coding recommended rule of the gem and jade to the foreground subsystem, and the traceback code standard module is configured to send the traceback code recommended format and the coding recommended rule of the gem and jade to the foreground subsystem.

In a preferred embodiment of the present application, the standard subsystem may be disposed in the middleware subsystem.

In a preferred embodiment of the present application, the system further includes a flag database connected to the background subsystem, where the flag database is used for the background subsystem to perform metadata processing based on the flag data and the flag change data.

In a preferred embodiment of the present application, the system further includes a trace-back database connected to the background subsystem, where the trace-back database is used for the background subsystem to perform background data management based on the trace-back data.

In a second aspect, the invention provides a standard-based gem and jade tracing method, which comprises the following steps:

obtaining tracing record data of a target gem and jade and transaction node metadata based on tracing standards, processing the tracing record data based on the transaction node metadata, and generating tracing transaction data and a task processing instruction;

managing the transaction node metadata to obtain background management data;

and starting a tracing transaction processing flow of the target gem and jade according to the task processing instruction, processing the received tracing transaction data and the background management data, and outputting the obtained tracing result information.

In a preferred embodiment of the present application, in starting a trace-back transaction processing procedure of a target gemstone according to the task processing instruction, processing the received trace-back transaction data and the background management data, and outputting obtained trace-back result information, the method specifically includes:

performing cooperative preprocessing on the tracing transaction data and the task processing instruction;

performing metadata preprocessing on the background management data;

performing tracing transaction processing based on the tracing transaction data, the task processing instruction and the background management data to obtain tracing result information;

and outputting the tracing result information.

In a preferred embodiment of the present application, in performing trace back transaction processing based on the trace back transaction data, the task processing instruction, and the background management data to obtain trace back result information, the method further includes:

receiving tracing data of the gem and jade;

and performing tracing transaction processing based on the tracing data.

In a preferred embodiment of the present application, in obtaining the tracing record data of the target gemstone and the transaction node metadata based on the tracing standard, processing the tracing record data based on the transaction node metadata, and generating tracing transaction data and a task processing instruction, the method specifically includes:

receiving mark data and mark change data of the gemstones and the mark recommendation format and coding recommendation rules of the gemstones based on the tracing standards;

processing the mark data and the mark change data based on the mark recommended format and the coding recommendation rule to form a tracing mark data and data generation instruction;

receiving tracing record data of the target gem and jade, transaction node metadata based on tracing standards, and a tracing code recommended format and a coding suggestion rule of the gem and jade;

processing the tracing record data according to the tracing mark data based on the transaction node metadata according to the data generation instruction;

and generating the tracing transaction data based on the tracing code recommendation format and the coding recommendation rule, and generating the tracing transaction data and the task processing instruction.

In a third aspect, the present invention provides a computer readable storage medium having stored thereon a computer program which, when run on a computer, causes the computer to perform the criteria-based gemstone tracing method according to the second aspect.

In a fourth aspect, the present invention provides a computer program product comprising a computer program which, when run on a computer, causes the computer to perform the standard-based gemstone retrospective method according to the second aspect.

The standard-based gem and jade tracing method and system disclosed by the invention apply the tracing standard of the gem and jade as metadata to the tracing affair of the gem and jade, have good flexibility and sustainability, can uniformly manage the data of key nodes in the transaction track of the gem and jade, and realize the real-time panoramic monitoring and the whole-course gem and jade tracing of the tracing standard of the gem and jade to the transaction track of the gem and jade through the service of a foreground subsystem and a middleware subsystem and the architectural design of the management of a background subsystem.

Drawings

The invention is described with the aid of the following figures:

FIG. 1 is a schematic diagram showing a construction of a standard-based gem and jade traceability system of example 1 of the present invention;

FIG. 2 is a schematic diagram showing another construction of a standard-based gem and jade traceability system in example 1 of the present invention;

FIG. 3 is a schematic diagram showing another construction of a standard-based gem and jade traceability system in example 1 of the present invention;

FIG. 4 is a schematic view showing another construction of a criteria-based gem and jade traceability system, according to example 1 of the present invention;

FIG. 5 is a schematic view showing another construction of a criteria-based gem and jade traceability system, according to example 1 of the present invention;

FIG. 6 is a schematic view showing another construction of a standard-based gem and jade traceability system in example 1 of the present invention;

FIG. 7 is a schematic view showing another construction of a criteria-based gem and jade traceability system, according to example 1 of the present invention;

FIG. 8 is a schematic view showing another construction of a standard-based gem and jade traceability system in accordance with example 1 of the present invention;

FIG. 9 is a schematic view showing another construction of a criteria-based gem traceability system of embodiment 1 of the present invention;

FIG. 10 is a schematic view showing another construction of a standard-based gem and jade traceability system in accordance with example 1 of the present invention;

FIG. 11 is a schematic view showing another construction of a standard-based gem and jade traceability system in accordance with example 1 of the present invention;

FIG. 12 is a schematic view showing another construction of a criteria-based gem traceability system of embodiment 1 of the present invention;

FIG. 13 is a flowchart of a criteria-based gem and jade tracing method according to example 2 of the present invention;

FIG. 14 is another flowchart of a criteria-based gem tracing method according to example 2 of the present invention;

FIG. 15 is another flowchart of a standard-based gem and jade tracing method according to example 2 of the present invention;

FIG. 16 is another flowchart of the standard-based gem and jade tracing method of example 2 of the present invention.

Detailed Description

For better understanding of the technical solutions of the present application, the following detailed descriptions of the embodiments of the present application are provided with reference to the accompanying drawings.

It should be understood that the embodiments described are only a few embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The invention provides a gem and jade tracing method and system based on standards, which apply national service specifications of a gem and jade tracing system to tracing matters in the actual gem and jade trading process, utilize standard shareability attributes to be combined with patent uniqueness attributes, can solve the problem that the existing gem and jade trading market is lack of standardized management and tracing, aim to provide a firm tracing system and a flexible tracing method for the tracing of gem and jade, meet the aims of realizing state tracing and traceability of the whole process in the gem and jade trading process, provide technical support for the interests of gem and jade consumers, promote the healthy development of the gem and jade industry chain, and improve the international status of the Chinese gem and jade industry.

Example 1

The embodiment 1 of the invention discloses a gem and jade tracing system based on standards, which designs a system architecture of a front end, a middle end and a rear end by introducing the tracing standards of the gem and jade industry, and realizes the monitoring of the whole process of a transaction track of gem and jade in the gem and jade transaction process.

Referring to fig. 1, the system of this embodiment 1 includes a foreground subsystem 100, a middleware subsystem 200, and a background subsystem 300, where the foreground subsystem 100 is in communication connection with the background subsystem 300 through the middleware subsystem 200. The front end subsystem 100, the middle subsystem 200 and the background subsystem 300 are generally distributed in a three-layer hardware server installed with a tracing system.

The foreground subsystem 100 is configured to generate and send tracing transaction data and a task processing instruction to the middleware subsystem 200 according to the obtained tracing record data of the target gem and jade and the transaction node metadata based on the tracing standard. The front subsystem 100 is a front end structure for both sides of gem and jade trading, both sides of the trading can access the tracing system in a mouse or touch screen mode and interact with the front subsystem 100 in a mode of inputting gem and jade information in a voice or keyboard mode, and the front subsystem 100 is provided with a visual interface and can display interactive interfaces such as an access interface, an information input interface and a tracing information interface of the tracing system. The user provides the tracing record data of the target gem and jade, including the initial record data and the supply chain data, to the foreground subsystem 100 in a man-machine interaction mode, and can represent all characteristics and information of the gem and jade in the circulation process. And the user can transmit the mobile data storage device storing the traceability standards acquired from the official agency and the foreground subsystem 100 to the foreground subsystem 100 by means of wired transmission (for example, USB (Universal Serial Bus), etc.) or wireless transmission (for example, cloud disk, bluetooth, etc.). The foreground subsystem 100 obtains transaction node metadata based on a tracing standard, wherein the transaction node metadata is data describing node data of a transaction node, and includes a tracing process and tracing content metadata specified by the tracing standard. And then, generating tracing transaction data and a task processing instruction according to the tracing record data and the transaction node metadata, so that the middleware subsystem 200 can process the tracing transaction data according to the task processing instruction, and monitoring the node data of the target gem and jade at each transaction node is realized. The trace-back transaction data generated and sent by the foreground subsystem 100 is an operation performed by trace-back service of the trace-back system in a transactional manner, and may involve a synchronization change of a plurality of trace-back data, where a transaction refers to what is to be done or what is to be done, i.e., a program execution unit (unit) that accesses and possibly updates various data items in a database, which is caused by execution of a user program written in a high-level database manipulation language or programming language (e.g., SQL, C + +, or Java), and is defined by a form such as begin transaction and end transaction statements (or function calls). A transaction consists of an ensemble of operations performed between a transaction start (begin transaction) and a transaction end (end transaction).

The background subsystem 300 is configured to manage the acquired transaction node metadata based on the tracing criteria, and send background management data to the middleware subsystem 200. The background subsystem 300 is a rear-end structure arranged in the system, when the tracing system runs, the background subsystem 300 manages acquired transaction node metadata all the time, and the node data of each transaction node in the tracing standard is processed by the metadata, so that the metadata management of the background subsystem 300 on the tracing standard is realized, the tracing system can change many functions based on the change of the metadata, the functions have variability based on setting, and the capability of the tracing system for continuously adapting to the change of external requirements is embodied. And no matter whether the middleware subsystem 200 is in a working state or not, the background subsystem 300 sends background management data generated by performing metadata management on the transaction node metadata to the middleware subsystem 200, so that the latest condition of the node data of each transaction node of the gem and jade can be mastered in real time when the middleware subsystem 200 performs tracing data processing.

The middleware subsystem 200 is configured to start a tracing transaction processing flow of the target gem and jade according to the task processing instruction, process the received tracing transaction data and background management data, and output the obtained tracing result information through the foreground subsystem 100. The middleware subsystem 200 is an intermediate layer structure located between the foreground subsystem 100 and the background subsystem 300, and is used for performing calculation, processing and feedback on data and instructions received from the foreground subsystem 100 and the background subsystem 300, and performing tracing transaction processing in a task-oriented manner. The middleware subsystem 200 may be implemented by designing and applying an SOA (Service-Oriented Architecture) middleware Service open source code, and implementing interactive system construction between two transaction parties and a tracing system by designing an interface and designing and deploying a task. Through the tracing transaction processing of the middleware subsystem 200, the node data of the corresponding transaction node can obtain background management data related to the transaction node metadata in the form of metadata aiming at the tracing record data of the target gem and jade, and the tracing result information obtained after the background management data is subjected to the tracing transaction processing is displayed and output to both parties of the transaction from a visual interface of the foreground subsystem 100, so that the real-time panoramic monitoring and the whole-course gem and jade tracing of the gem and jade transaction track by the gem and jade tracing standard can be realized.

Referring to fig. 2, in the trace back system of this embodiment 1, the middleware subsystem 200 includes a trace back transaction interface 210, a data background interface 220, and a task manager 230, where the task manager 230 is communicatively connected to the trace back transaction interface 210 and the data background interface 220, respectively. The trace back transaction interface 210 is connected to the foreground subsystem 100, and is configured to send trace back transaction data and task processing instructions to the task manager 230. The data background interface 220 is connected to the background subsystem 300, and is configured to send background management data to the task manager 230. The task manager 230 is configured to perform collaborative preprocessing on the trace-back transaction data and the task processing instruction, perform metadata preprocessing on the background management data, send the background management instruction to the background subsystem 300 through the data background interface 220, and perform trace-back transaction processing based on the trace-back transaction data and the background management data.

The cooperative preprocessing performed by the task manager 230 on the trace-back transaction data and the task processing instruction refers to a process of converting interface format data of the trace-back transaction interface 210 into bus interface data suitable for the middleware subsystem 200. The metadata preprocessing performed by the task manager 230 on the background management data refers to a process of changing metadata of the data background interface 220 into program judgment data. In the trace-back system of this embodiment 1, by using the characteristics of the SOA application in the middleware subsystem 200, the data interfaces such as the trace-back transaction interface 210 and the data background interface 220 are set to provide loose coupling, so that when the task manager 230 calls the data of each data interface, it is not necessary to know how the data are generated and how the data are changed, and the data of the interfaces can also be called. The task manager 230 receives the retroactive transaction data processed based on the standard through the retroactive transaction interface 210, performs retroactive transaction processing and retroactive data management on records and information of the gemstones and jades input by the user, and feeds back the processed retroactive results to the foreground subsystem 100 through the retroactive transaction interface 210 to be presented to both parties of the transaction or a service unit. The task manager 230 manages and maintains the historical information and data of the gem and jade through the background management data received by the data background interface 220, so that the information and data are classified and managed according to classification modes such as transaction nodes, transaction subjects and the like.

Referring to fig. 3, in the trace back system of this embodiment 1, the middleware subsystem 200 further includes a trace back data interface 240, which is communicatively connected to the task manager 230. The tracing data interface 240 is used for sending the received tracing data of the gem and jade to the task manager 230; the task manager 230 is further configured to perform data preprocessing such as database reading and storage on the trace-back data, and perform trace-back transaction processing based on the trace-back data. The task manager 230 receives the tracing data of the gem and jade through the tracing data interface 230, and incorporates the historical tracing data of the gem and jade into the tracing transaction.

Referring to fig. 4, in the trace back system of this embodiment 1, a trace back database 400 is further included, and is connected to the trace back data interface 240, and the trace back database 400 sends the trace back data to the task manager 230 through the trace back data interface 240. The tracing data of the gemstones and jades are stored through the tracing database 400, and can be updated, maintained or integrally replaced at any time.

Referring to fig. 5, in the trace-back system of this embodiment 1, the foreground subsystem 100 includes a flag processing module 110 and a trace-back generation module 120 communicatively connected to each other. The mark processing module 110 is configured to receive mark data and mark change data of the gem and the mark recommendation format and the coding recommendation rule of the gem and jade based on the tracing standard, process the mark data and the mark change data based on the mark recommendation format and the coding recommendation rule to form tracing mark data and a data generation instruction, and send the tracing mark data and the data generation instruction to the tracing generation module 120; the tracing generation module 120 is connected to the middleware subsystem 200, and is configured to receive tracing flag data and a data generation instruction, tracing record data of the target gemstone and transaction node metadata based on a tracing standard and a tracing code recommendation format and a coding recommendation rule of the gemstone, and process the tracing record data according to the data generation instruction, the transaction node metadata and the tracing flag data. Generating tracing transaction data based on the tracing code recommendation format and the coding suggestion rule, generating tracing transaction data and a task processing instruction, and sending the tracing transaction data and the task processing instruction to the middleware subsystem 200; the traceback transaction data includes a traceback code and traceback information.

The mark data and the mark change data refer to relative basic information and data of the gem and jade and change conditions of the information and the data, which are provided by any main body of both trading parties or service units through mark management service of the gem and jade based on a mark recommendation format and a coding recommendation rule specified in the standard based on the standard of a gem and jade tracing system. These flag data and flag change data are converted into trace back flag data capable of being processed internally by the foreground subsystem 100 via the flag processing module 110, and the trace back flag data are converted into trace back transaction data by the trace back generation module 120 through a task processing instruction. The recommended format and the recommended rule of coding of the tracing code based on which the tracing code and the tracing information in the tracing transaction data are generated are specified based on standards.

Referring to fig. 6, in the tracing system of this embodiment 1, a flag database 500 connected to the flag processing module 110 is further included, and the flag database 500 is configured to send the flag data and the flag change data to the flag processing module 110. By storing the flag data and the flag change data in the flag database 500, it is possible to facilitate updating, maintenance, and overall replacement of the flag data and the flag change data by both parties of a transaction or a subject such as a service unit.

Referring to fig. 7, in the tracing system of this embodiment 1, the tracing system further includes a standard subsystem 600, the standard subsystem 600 is respectively in communication connection with the foreground subsystem 100, the middleware subsystem 200, and the background subsystem 300, and the standard subsystem 600 is used for the foreground subsystem 100, the middleware subsystem 200, and the background subsystem 300 to read the transaction node metadata based on the tracing standard.

The standard subsystem 600 is used for storing the standard of the gem and jade tracing system, and when the tracing system of the embodiment 1 is used, standard data can be retrieved from the local without requesting the standard providing unit to transmit the standard data for multiple times, so that the query speed and the transaction efficiency of the tracing information in the gem and jade transaction process are greatly improved.

Referring to fig. 8, in the system of this embodiment 1, the standard subsystem 600 includes a transaction node database 610, which is used to send transaction node metadata based on the tracing standard to the foreground subsystem 100, the middleware subsystem 200, or the background subsystem 300 when receiving a read request from the foreground subsystem 100, the middleware subsystem 200, or the background subsystem 300. The transaction node database 610 is used for storing transaction node metadata, which is the basic information and transaction data of the characterization gem and jade at each transaction node based on the tracing standard. The transaction node metadata is stored in the transaction node database 610, so that the background subsystem 300 can conveniently retrieve the transaction node metadata at any time to facilitate metadata management.

Referring to fig. 9, in the tracing system of this embodiment 1, the standard subsystem 600 further includes a mark standard module 620 and a tracing code standard module 630, the mark standard module 620 is used to send the mark recommended format and the coding recommendation rule of the gem and jade to the foreground subsystem 100, and the tracing code standard module 630 is used to send the tracing code recommended format and the coding recommendation rule of the gem and jade to the foreground subsystem 100. The tag recommendation format and the coding recommendation rule are stored in the tag standard module 620, so that the tag processing module 110 can call the tag at any time, and the processing of the tag data and the tag change data and the generation of the tracing tag data can be completed locally in the tracing system. The recommended format and the recommended coding rule of the tracing code of the gem and jade are stored in the tracing code standard module 630, so that the tracing generation module 120 can be called at any time, and the coding work of the tracing transaction data can be finished locally in the tracing system.

Referring to fig. 10, in the system of this embodiment 1, the standard subsystem 600 may be disposed in the middleware subsystem 200, and may weaken the external nature of the gem and jade tracing system standard, so that the tracing system has the functions of calling, maintaining and managing the tracing standard when it is built.

Referring to fig. 11, in the system of this embodiment 1, the flag database 500 is further connected to the backend subsystem 300, and the flag database 500 is used for the backend subsystem 300 to perform metadata processing based on the flag data and the flag change data.

Referring to fig. 12, in the system of this embodiment 1, the trace-back database 400 is further connected to the background subsystem 300, and the trace-back database 400 is used for the background subsystem 300 to perform background data management based on trace-back data.

Example 2

The embodiment 2 of the invention discloses a standard-based gem and jade tracing method, which is implemented by adopting the tracing system disclosed in the embodiment 1, and realizes the monitoring of the whole process of the transaction track of gem and jade in the gem and jade transaction process by introducing the tracing standard of the gem and jade.

Referring to fig. 13, the tracing method includes:

step100: obtaining the tracing record data of the target gem and jade and transaction node metadata based on the tracing standard, processing the tracing record data based on the transaction node metadata, and generating tracing transaction data and a task processing instruction.

Wherein Step100 is performed by tracing back the foreground subsystem of the system. Through the foreground subsystem, the two parties of the transaction can access the tracing system in a mouse or touch screen mode, input the information of the gemstones and jades in a voice or keyboard mode and the like to interact with the foreground subsystem, and access the interface of the foreground subsystem, the information input interface, the tracing information interface and other interaction interfaces. A user provides tracing record data of the target gems and jades to a foreground subsystem in a man-machine interaction mode, the tracing record data comprise initial record data and supply chain data, and all features and information of the gems and jades in the circulation process can be represented. And the user can transmit the traceability standards to the foreground subsystem by means of wired transmission (such as USB) or wireless transmission (such as cloud disk, bluetooth) between the mobile data memory storing the traceability standards and the foreground subsystem acquired from the official agency. Transaction node metadata based on a tracing standard is obtained through a foreground subsystem, wherein the transaction node metadata is data describing node data of a transaction node and comprises a tracing process and tracing content metadata specified by the tracing standard. And then, generating tracing transaction data and a task processing instruction according to the tracing record data and the transaction node metadata, so that a middleware subsystem in the tracing system can process the tracing transaction data according to the task processing instruction, and monitoring the node data of the target gem and jade at each transaction node is realized. The trace-back transaction data generated and sent by the foreground subsystem is an operation performed by the trace-back service of the trace-back system in a transactional manner, and may involve a synchronization change of a plurality of trace-back data, where a transaction refers to what is to be done or what is to be done, i.e., a program execution unit that accesses and possibly updates various data items in a database, is caused by execution of a user program written in a high-level database manipulation language or programming language (e.g., SQL, C + +, or Java), and is defined by forms such as begin transaction and end transaction statements (or function calls). A transaction consists of the totality of operations performed between the beginning of the transaction and the end of the transaction.

Step200: and managing the metadata of the transaction nodes to obtain background management data.

Wherein Step200 is performed by a background subsystem of the trace-back system. And managing the acquired transaction node metadata based on the tracing standard through the background subsystem, and sending background management data to the middleware subsystem. When the tracing system runs, the obtained transaction node metadata is always managed through the background subsystem 300, and the node data of each transaction node in the tracing standard is processed through the metadata, so that metadata of data management in the tracing standard is realized, the tracing system can achieve the purpose that the change of a plurality of functions changes based on the change of the metadata, the functions have the variability based on setting, and the capability of continuously adapting to the change of external requirements of the tracing system is reflected. And no matter whether the middleware subsystem is in a working state or not, the background management data generated by performing metadata management on the transaction node metadata is sent to the middleware subsystem through the background subsystem, so that the latest condition of the node data of each transaction node of the gem and jade can be mastered in real time by the middleware subsystem when the tracing data is processed.

Step300: and starting a tracing transaction processing flow of the target gem and jade according to the task processing instruction, processing the received tracing transaction data and background management data, and outputting the obtained tracing result information.

Where Step300 is performed by tracing back the middleware subsystem of the system. And starting a tracing transaction processing flow of the target gem and jade according to the task processing instruction through the middleware subsystem, processing the received tracing transaction data and background management data, and outputting the obtained tracing result information through the foreground subsystem. And the middleware subsystem is used for calculating, processing and feeding back the data and the instructions received from the foreground subsystem and the background subsystem, and tracing the transaction processing in a task-oriented mode. Through the tracing transaction processing of the middleware subsystem, the node data of the corresponding transaction node can be used for obtaining background management data related to the transaction node metadata in the form of metadata according to the tracing record data of the target gem and jade, and tracing result information obtained after the background management data are subjected to tracing transaction processing is displayed and output to both transaction parties from a visual interface of the foreground subsystem, so that real-time panoramic monitoring and whole-course gem and jade tracing of gem and jade transaction tracks by the gem and jade tracing standard are realized.

Referring to fig. 14, in the method of this embodiment 2, step300 specifically includes:

step301: and performing cooperative preprocessing on the retrospective transaction data and the task processing instruction.

Step302: and carrying out metadata preprocessing on the background management data.

Step303: and performing tracing transaction processing based on the tracing transaction data, the task processing instruction and the background management data to obtain tracing result information.

Step304: and outputting tracing result information.

Wherein, step300 executes the specific work of steps 301-304 through the middleware subsystem. The cooperative preprocessing performed on the trace-back transaction data and the task processing instruction in Step301 refers to a process of converting interface format data of the trace-back transaction interface of the middleware subsystem into bus interface data suitable for the middleware subsystem. The metadata preprocessing performed on the background management data in Step302 refers to a process of converting metadata of a data background interface of the middleware subsystem into program judgment data. And in Step303, based on the retroactive transaction data and the background management data processed by the standard, performing retroactive transaction processing and retroactive data management on records and information of the jades input by the user according to the task processing instruction, and in Step304, feeding back the processed retroactive result to a foreground subsystem through a retroactive transaction interface to be presented to both parties of the transaction or a service unit.

Referring to fig. 15, in the method of this embodiment 2, step300 further includes:

step305: and receiving the tracing data of the gem and jade.

Step306: and performing tracing transaction processing based on the tracing data.

Wherein, step300 executes the specific work of steps 305-306 through the middleware subsystem. In Step305, the tracing data of the gem and jade are received from the tracing database through the tracing data interface of the middleware subsystem. In Step306, the historical retrospective data of the gemstones and jades are incorporated into the retrospective transaction processing.

Referring to fig. 16, in the method of this embodiment 2, step100 specifically includes:

step101: and receiving the mark data and the mark change data of the gem and jade and the mark recommendation format and the coding recommendation rule of the gem and jade based on the tracing standard.

Step102: and processing the mark data and the mark change data based on the mark recommendation format and the coding recommendation rule to form a tracing mark data and data generation instruction.

Step103: and receiving the tracing record data of the target gem and jade, the transaction node metadata based on the tracing standard, and the tracing code recommended format and the coding suggestion rule of the gem and jade.

Step104: and processing the tracing record data according to the tracing mark data based on the transaction node metadata according to the data generation instruction.

Step105: and generating tracing transaction data based on the tracing code recommendation format and the coding suggestion rule, and generating the tracing transaction data and a task processing instruction.

Step100 executes the specific work of steps 101 to 105 through the foreground subsystem. In Step101, the mark processing module of the foreground subsystem receives mark data and mark change data of the gem and jade from the mark standard module of the standard subsystem of the retroactive system, and receives the mark recommendation format and the coding recommendation rule of the gem and jade based on the retroactive standard from the retroactive code standard module of the standard subsystem. In Step102, the flag data and the flag change data are processed based on the flag recommendation format and the coding recommendation rule to form the trace back flag data and the data generation instruction, and the trace back flag data and the data generation instruction are sent to a trace back generation module of the foreground subsystem. In Step103, the tracing generation module receives the tracing record data of the target gem and jade input by the user, the transaction node metadata based on the tracing standard is received from the transaction node database of the standard subsystem, and the tracing code recommendation format and the coding recommendation rule of the gem and jade are received from the tracing code standard module of the standard subsystem. And in Step104, processing the tracing record data according to the tracing mark data based on the transaction node metadata through the tracing generation module according to the data generation instruction. In Step105, the tracing generation module generates tracing transaction data based on the tracing code recommendation format and the coding recommendation rule, generates tracing transaction data and a task processing instruction, and sends the tracing transaction data and the task processing instruction to the middleware subsystem. The tracing transaction data comprises a tracing code and tracing information.

The mark data and the mark change data refer to the relevant basic information and data of the gem and the change condition of the information and the data, which are provided by two trading parties or any main body in a service unit through mark management service of the gem and the jade based on a mark recommendation format and a coding recommendation rule specified in the standard, based on the standard of the gem and jade tracing system. The mark data and the mark change data are converted into tracing mark data which can be processed by the foreground subsystem through the mark processing module, and the tracing mark data are converted into tracing transaction data through the task processing instruction by the tracing generation module. The recommended format and the recommended rule of coding of the tracing code based on which the tracing code and the tracing information in the tracing transaction data are generated are specified based on the standard.

Example 3

The embodiment 3 of the invention discloses a computer-readable storage medium, wherein a computer program is stored in the computer-readable storage medium, and when the computer program runs on a computer, the computer is enabled to execute the standard-based gem and jade tracing method disclosed in the embodiment 2.

Example 4

Embodiment 4 of the present invention discloses a computer program product, which includes a computer program, and when the computer program runs on a computer, the computer executes the standard-based gem and jade tracing method disclosed in embodiment 2.

It should be understood that the above description of specific embodiments of the present invention is only for the purpose of illustrating the technical lines and features of the present invention, and is intended to enable those skilled in the art to understand the contents of the present invention and to implement the present invention, but the present invention is not limited to the above specific embodiments. It is intended that all such changes and modifications as fall within the scope of the appended claims be embraced therein.

Claims

1. The utility model provides a precious jade system of traceing back based on standard, which is characterized in that, the system includes proscenium subsystem, middleware subsystem and backstage subsystem, proscenium subsystem through middleware subsystem with backstage subsystem communication connection, wherein:

2. The system of claim 1, wherein the middleware subsystem comprises a trace back transaction interface, a data background interface and a task manager, and the task manager is in communication connection with the trace back transaction interface and the data background interface respectively;

the tracing transaction interface is connected with the foreground subsystem and is used for sending the tracing transaction data and the task processing instruction to the task manager;

3. The system of claim 2, wherein the middleware subsystem further comprises a trace back data interface communicatively coupled to the task manager;

the task manager is further used for performing data preprocessing on the tracing data and performing tracing transaction processing based on the tracing data.

4. The system of claim 3, further comprising a traceback database coupled to the traceback data interface, wherein the traceback database sends the traceback data to the task manager via the traceback data interface.

5. The system of claim 1, wherein the foreground subsystem comprises a flag processing module and a trace back generation module communicatively coupled to each other;

the tracing generation module is connected with the middleware subsystem and is used for receiving the tracing mark data and the data generation instruction, the tracing record data of the target gem and the transaction node metadata based on the tracing standard and the tracing code recommendation format and coding recommendation rule of the gem and jade, processing the tracing record data according to the tracing mark data based on the transaction node metadata according to the data generation instruction,

generating the tracing transaction data based on the tracing code recommendation format and the coding suggestion rule, generating the tracing transaction data and the task processing instruction, and sending the tracing transaction data and the task processing instruction to the middleware subsystem;

6. The system of claim 5, further comprising a flag database coupled to the flag processing module, the flag database configured to send flag data and flag change data to the flag processing module.

7. The system of claim 1, further comprising a standard subsystem, wherein the standard subsystem is communicatively connected to the foreground subsystem, the middleware subsystem, and the background subsystem, respectively, and the standard subsystem is configured to enable the foreground subsystem, the middleware subsystem, and the background subsystem to read transaction node metadata based on a traceback criterion.

8. The system of claim 7, wherein the standard subsystem comprises a transaction node database configured to send transaction node metadata based on a traceback criterion to the foreground subsystem, the middleware subsystem, or the background subsystem upon receiving a read request from the foreground subsystem, the middleware subsystem, or the background subsystem.

9. The system of claim 8, wherein the standard subsystem further comprises a mark standard module and a traceback code standard module, the mark standard module is configured to send the mark recommended format and the coding recommended rule of the gem and jade to the foreground subsystem, and the traceback code standard module is configured to send the traceback code recommended format and the coding recommended rule of the gem and jade to the foreground subsystem.

10. The system of claim 7, wherein the standard subsystem can be disposed in the middleware subsystem.

11. The system of claim 1, further comprising a flag database coupled to the back-end subsystem, the flag database configured for metadata processing by the back-end subsystem based on the flag data and flag change data.

12. The system of claim 1, further comprising a trace back database connected to the background subsystem, wherein the trace back database is configured to allow the background subsystem to perform background data management based on the trace back data.

13. A gem and jade tracing method based on standards is characterized in that the method comprises the following steps:

managing the transaction node metadata to obtain background management data;

14. The method according to claim 13, wherein, in starting a trace back transaction processing procedure of a target gem and jade according to the task processing instruction, processing the received trace back transaction data and the background management data, and outputting obtained trace back result information, specifically comprises:

performing collaborative preprocessing on the tracing transaction data and the task processing instruction;

performing metadata preprocessing on the background management data;

and outputting the tracing result information.

15. The method according to claim 14, wherein in performing the trace-back transaction processing based on the trace-back transaction data, the task processing instruction, and the background management data to obtain trace-back result information, the method further comprises:

receiving the tracing data of the gemstones and jades;

and performing tracing transaction processing based on the tracing data.

16. The method according to claim 13, wherein the steps of obtaining the tracing record data of the target gem and the transaction node metadata based on the tracing standard, processing the tracing record data based on the transaction node metadata, and generating the tracing transaction data and the task processing instruction specifically comprise:

17. A computer-readable storage medium, having stored thereon a computer program which, when run on a computer, causes the computer to execute the criteria-based gemstone tracing method as recited in any one of claims 13 to 16.

18. A computer program product, characterized in that it comprises a computer program which, when run on a computer, causes the computer to carry out the criteria-based gem tracing method of any one of claims 13 to 16.