CN115619169A - Heterogeneous information system integration method and terminal equipment for cross-organization business requirements - Google Patents
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Abstract
The invention discloses a heterogeneous information system integration method and terminal equipment for cross-organization business requirements, which provide a cross-enterprise interconnection platform for enterprise systems of different organizations and enable the different organizations to cooperate to complete the cross-organization business requirements through the cross-enterprise interconnection platform. The method comprises the steps that enterprise systems of different organizations send service requests to cross-enterprise interconnection platforms through service interfaces provided by the cross-enterprise interconnection platforms, the cross-enterprise interconnection platforms receive the service requests and then form data packets and service request processing completion events through calling processing functions, the data packets are sent to corresponding organizations sending the service requests to the cross-enterprise interconnection platforms, the service request processing completion events are sent to event driving engines, the event driving engines react to relevant events to generate relevant messages and push the relevant messages to message queues corresponding to the relevant organizations, and the enterprise systems of the different organizations send the service requests to the cross-enterprise interconnection platforms to obtain the relevant data packets after monitoring changes of the corresponding message queues.
Description
Technical Field
The invention relates to the field of heterogeneous information integration, in particular to a heterogeneous information system integration method and terminal equipment for cross-organization service requirements.
Background
The industrial internet is used as a new infrastructure, a new application mode and a new emerging state of deep integration of a new generation of information technology and advanced manufacturing industry, and rapidly becomes a common choice for major industrial countries to seize the competitive high-point of the international manufacturing industry and seek new economic growth points. And industrial big data can be regarded as the core of the industrial Internet of things. Specifically, industrial big data is a general term of industrial data, and includes data of an industrial internet of things, enterprise information data (e.g., data generated in automation and information systems such as MES, ERP, PLM, etc.), and data crossing outside. From the source, people and machines are the main bodies of the industrial big data, and the proportion occupied by the machine data is getting bigger and bigger.
The industrial internet makes it possible to process data more quickly. Therefore, the industrial internet environment can better support real-time intelligent decision and execution of cross-organization business. Taking supply chain management optimization in an industrial internet environment as an example, supply chain management requires collaborative operation of member enterprises forming a supply chain system, and it is not easy to realize efficient supply chain management, one of the important reasons is that enterprises in a supply chain generate a large amount of information at every moment. For example, after a quality problem of a part is found in an automobile machining process, the quality problem cannot be timely fed back to a manager, so that the manager makes a decision of stopping delivery, and the decision information cannot be timely fed back to a part supplier, so that the delivery of the part with the batch problem continues.
The patent application with the publication number of CN113256302A provides a resource information interaction method based on a cloud manufacturing platform, in the scheme, an optimal resource supplier is matched through an intelligent algorithm according to manufacturing resource description information of the resource supplier through an intelligent decision module of the cloud manufacturing platform, and then information interaction can be carried out between a resource demand side and the resource supplier through the cloud manufacturing platform. The scheme can improve the information interaction efficiency and the cooperative production capacity among multiple parties, realize the resource optimization of industrial production and improve the resource utilization rate. However, the resource information interaction method focuses on solving the technical problems of resource matching and information interaction between the resource supplier and the resource demander, does not consider the uncertainty problem caused by disturbance such as planned orders, process routes, production preparation, execution deviation, equipment faults and the like in the manufacturing process, and does not consider the technical problem of how related enterprises in the supply chain cooperate with each other and respond quickly under the uncertain conditions.
Disclosure of Invention
The technical problem to be solved by the invention is to provide a heterogeneous information system integration method and terminal equipment facing cross-organization business requirements aiming at the defects of the prior art, and the information is transmitted to related enterprises in time through a cross-enterprise interconnection platform, so that mutual cooperation and quick response among the enterprises are realized.
In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a heterogeneous information system integration method oriented to cross-organization business requirements comprises the following steps:
s1, constructing a cross-enterprise interconnection platform;
s2, each organization sends a service request to the cross-enterprise interconnection platform through a service interface provided by the cross-enterprise interconnection platform; after receiving the service request, the cross-enterprise interconnection platform triggers a processing function in a Web service program corresponding to the service request; after the processing function is processed, sending a data packet back to a corresponding organization which sends a service request to the cross-enterprise interconnection platform, and issuing a service request processing completion event;
s3, an event driving engine in the cross-enterprise interconnection platform reacts to the service request processing completion event and pushes the related message to a message queue corresponding to the corresponding organization;
and S4, after monitoring the change of the corresponding message queue, each organization sends a service request to the cross-enterprise interconnection platform to acquire a related data packet.
The invention enables enterprise systems of different organizations to transmit data and transmit messages through the cross-enterprise interconnection platform by constructing the cross-enterprise interconnection platform. The invention considers the uncertainty problem caused by disturbance of planned orders, process routes, production preparation, execution deviation, equipment faults and the like in the manufacturing process, considers the problem of how related enterprises in a supply chain cooperate with each other and respond quickly under uncertain conditions, and enables enterprise systems of different organizations to push the progress of cross-organization business requirements by sending service requests to the cross-enterprise interconnection platform through a service interface and an event driven engine deployed on the cross-enterprise interconnection platform. The invention can provide services related to the cross-organization business requirements for enterprise systems of different organizations through the cross-enterprise interconnection platform, and the cross-enterprise interconnection platform can analyze related events and give real-time information of the current supply chain, so as to reduce the time difference as much as possible to reduce the production loss caused by abnormal conditions, rather than directly carrying out data docking and cross-organization business requirement cooperation among the enterprise systems of different organizations.
The specific implementation process of the step S1 comprises the following steps:
1) Providing service interfaces for different organizations through a Web service program; the different organizations include suppliers, manufacturers, users;
2) And constructing an event driving engine and a message queue in the cross-enterprise interconnection platform, and realizing data communication among different organizations through the event driving engine and the message queue.
The event driven engine includes:
the event control center is used for monitoring relevant events generated in the process that each enterprise system completes the cross-organization business in a cooperative mode, and carrying out event response by calling the message processing module, the event state processing module or the event management module according to the specific situation of the events; after the message processing module, the event state processing module or the event management module finishes the event response, a processing completion event is generated so as to facilitate the subsequent processing of the event control center;
the message processing module is used for processing and packaging specific data in the cross-organization service requirement to form a data packet, and pushing the data packet message to a message queue of a related organization;
the event state processing module is used for analyzing the specific situation of an event and judging whether the execution condition of the ECA rule corresponding to the event is met;
and the event management module analyzes the specific situation of the event and provides an ECA rule corresponding to the event.
The specific implementation process of the step S3 comprises the following steps:
a) After receiving a service request processing completion Event, the cross-enterprise interconnection platform responds to the Event by an Event control center in an Event driving engine, and acquires an ECA rule of the service request Event matched with the Event in ECA rules stored in a database through an Event management module;
b) The event state processing module judges whether the execution condition of the ECA rule of the service request event is met or not according to the relevant data of the ECA rule stored in the database, and if the execution condition is met, the event state processing module responds to the service request sent by enterprise systems of different organizations by executing corresponding actions in the ECA rule;
c) The message processing module processes and packages specific data in the cross-organization service requirement into a message, finds a forwarding destination address corresponding to the message packet, and pushes the related message to a message queue corresponding to the related organization according to the corresponding forwarding destination address.
The specific implementation process of the step S4 comprises the following steps: and (3) monitoring the corresponding message queues of enterprise systems of different organizations in real time, if the message queues are monitored to have related unread messages, sending a service request to the cross-enterprise interconnection platform to obtain related data packets, analyzing the data packets by the enterprise systems, judging the next specific event operation, and repeating the steps S1-S4 until the cross-organization business is completed.
The invention also provides a terminal device, which comprises a memory, a processor and a computer program stored on the memory; the processor executes the computer program to implement the steps of the above-described method of the present invention.
The present invention also provides a computer readable storage medium having stored thereon a computer program/instructions; which when executed by a processor implement the steps of the above-described method of the invention
Compared with the prior art, the invention has the beneficial effects that:
(1) By adopting the method, the enterprise systems of different organizations can conveniently carry out data transmission and cooperation of cross-organization business requirements by adopting a cross-enterprise interconnection platform;
(2) By adopting the method, the service interface and the event driving engine which are deployed on the cross-enterprise interconnection platform can process the data transmitted by the enterprise systems of different organizations according to the standard of the cross-organization business requirement, thereby accurately and rapidly promoting the process of the cross-organization business requirement;
(3) According to the method, the cross-enterprise interconnection platform is adopted to process the data and the cross-organization business requirement specific events, and the event driving engine is used for generating the information of the related process of the cross-organization business requirement and pushing the information to the information queue, so that the related organization can master the latest condition of the cross-organization business requirement with the smallest time difference as possible;
(4) The invention is mainly based on the problem that the cross-enterprise interconnection platform perfects the existing supply chain that the message feedback is not timely and the cross-organization business requirement cooperation is complex, and is mainly characterized in that the cross-enterprise interconnection platform provides a cooperation scheme and message feedback, namely: the enterprise systems of different organizations send service requests to service interfaces provided by the cross-enterprise interconnection platform, the service requests contain related data in cross-organization business requirements, the interfaces transfer the processing functions to an event driving engine for processing after the processing is finished, and form messages of the current process of the cross-organization business requirements to be pushed to the related organizations, and the related organizations know the progress of the cross-organization business requirements through the messages in time and provide the next operation.
Drawings
FIG. 1 is a flow chart of a method of an embodiment of the present invention;
FIG. 2 is a relational diagram of enterprise systems of different organizations and a cross-enterprise interconnection platform, according to an embodiment of the invention;
FIG. 3 is a block diagram of an event driven engine according to an embodiment of the present invention;
FIG. 4 is a flow chart of pushing related messages into a message queue corresponding to a corresponding organization according to an embodiment of the present invention;
FIG. 5 is a schematic diagram of an interface service according to an embodiment of the present invention;
FIG. 6 is a flowchart of a method for integrating heterogeneous information systems to cross-organizational business needs in an industrial Internet environment, in accordance with an embodiment of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. 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 invention.
The related concepts and definitions related to the present invention will be described below.
Definition 1 (event driven engine) an event driven engine is composed of an Event Control Center (ECC), an Event Management Module (EMM), an Event State Processing Module (ESPM), and a Message Processing Module (MPM), and a structure diagram of the event driven engine is shown in fig. 3, where the Event Control Center (ECC) monitors events required by integration and cooperation of enterprise systems, calls functions or methods provided by related modules according to event requirements to perform event response, the Event Management Module (EMM) provides functions of an event processing scheme, and queries a database to match the processed events with events in ECA rules, the Event State Processing Module (ESPM) provides a method for judging whether conditions of the events related to the ECA rules stored in the database meet action execution standards, and the Message Processing Module (MPM) processes and encapsulates specific data in cross-organization business requirements to form a data packet and pushes the packet message to a message queue of related organizations.
Definition 2 (Web service program) the Web service program is deployed by a cross-enterprise interconnection platform, and provides an interface and a processing function for interaction between enterprise systems of different organizations such as suppliers, manufacturers, users and the like and the cross-enterprise interconnection platform, wherein the interface is a URL address and is a channel for connecting a request and the processing function, and the service interface can call the related processing function to process the service request.
Define 3 (ECA rules) ECA (Event Condition Action) rules as the internal driving logic, the ECA rules define when a rule is triggered. The Event provides a description of a trigger Event, the trigger Event may be any legal Event defined by a data pattern or language related to the rule language, the Condition may be any logic expression in the rule language, and may include a function or a procedure call, and the operation corresponding to the Action may be any legal operation sequence. And after the rule is triggered, judging the condition, executing corresponding action if the condition is met, and judging whether the condition of the next same event is met if the condition is not met.
Definition 4 (message queue) is used to store message data packets generated by an event-driven engine across message queues provided in an enterprise interconnection platform, where each message data packet has a corresponding organization, and enterprise systems of different organizations, such as a supplier, a manufacturer, and a user, monitor their corresponding message queues to obtain related messages.
On the basis of the basic definition, the embodiment takes the process of ordering the product by the user as an example, and applies the heterogeneous information system integration method oriented to the cross-organization business requirement.
Example 1
As shown in fig. 1, the present embodiment provides a method for integrating heterogeneous information systems with cross-organization business requirements in an industrial internet environment, which includes the following steps:
step 1, constructing a cross-enterprise interconnection platform. The method is characterized in that a Web service program provides service interfaces for different organizations such as suppliers, manufacturers and users, and the data communication among the different organizations such as the suppliers, the manufacturers and the users is realized through an event driven engine and a message queue;
and 2, providing cross-organization business requirements for enterprise systems of different organizations such as suppliers, manufacturers, users and the like through a cross-enterprise interconnection platform. The method is characterized in that a service request is sent to a cross-enterprise interconnection platform through a service interface provided by the cross-enterprise interconnection platform; after receiving the service request, the cross-enterprise interconnection platform triggers a processing function in a Web service program corresponding to the service request; after the processing function is processed, a data packet is sent back to a corresponding organization which sends a service request to the cross-enterprise interconnection platform, and a service request processing completion event is issued;
step 3, after the service request processing completion event occurs, an event driving engine in the cross-enterprise interconnection platform reacts to the event, and pushes related information to an information queue corresponding to a corresponding organization;
and 4, after monitoring the change of the corresponding message queue by enterprise systems of different organizations such as suppliers, manufacturers, users and the like, sending a service request to the cross-enterprise interconnection platform to acquire a related data packet.
In the step 1, by constructing the cross-enterprise interconnection platform, enterprise systems of different organizations such as suppliers, manufacturers and users can carry out necessary data communication through the cross-enterprise interconnection platform. Fig. 2 shows a relationship diagram between enterprise systems of different organizations such as suppliers, manufacturers, and users and a cross-enterprise interconnection platform, where the enterprise systems of different organizations perform data communication through the cross-enterprise interconnection platform, thereby cooperatively meeting cross-organization business requirements.
The specific implementation process in the step 1 comprises the following steps:
step 1-1, a Web service program is constructed in a cross-enterprise interconnection platform to provide service interfaces for enterprise systems of different organizations such as suppliers, manufacturers and users.
Step 1-2, an event driven engine and a message queue in a cross-enterprise interconnection platform are constructed, data communication among different organizations such as suppliers, manufacturers and users is realized through the event driven engine and the message queue, the structure diagram of the event driven engine is shown in fig. 3, and the event driven engine is composed of an Event Control Center (ECC), an Event Management Module (EMM), an Event State Processing Module (ESPM) and a Message Processing Module (MPM).
The service interface involved in the step 2 can realize data transmission of enterprise systems of different organizations such as suppliers, manufacturers, users and the like so as to cooperate to fulfill corresponding cross-organization business requirements. The interface service schematic is shown in fig. 4. The specific implementation process in the step 2 comprises the following steps:
and 2-1, sending a service request to the cross-enterprise interconnection platform by enterprise systems of different organizations such as suppliers, manufacturers, users and the like through a service interface provided by the cross-enterprise interconnection platform, wherein the service request consists of an enterprise ID and specific transmission data.
And 2-2, when the cross-enterprise interconnection platform receives a plurality of service requests from enterprise systems of different organizations, distinguishing the enterprise systems sending the service requests through enterprise IDs, triggering a processing function in a Web service program according to the service requests, analyzing the received service requests by the processing function, extracting data needing to be transmitted to the cross-enterprise interconnection platform, processing the data into service request processing completion events, and transmitting the service request processing completion events to an event driving engine. And meanwhile, sending a data packet back to a corresponding organization which sends the service request to the cross-enterprise interconnection platform, wherein the data packet is message data and is sent to the related corresponding organization to show that the service request is received by the cross-enterprise interconnection platform.
As shown in fig. 5, the specific implementation process in step 3 includes:
and 3-1, after the cross-enterprise interconnection platform receives the service request processing completion Event, an Event Control Center (ECC) in the Event driven engine calls an Event Management Module (EMM) to analyze the service request, and an Event matched with the service request Event and an Event in an ECA rule stored in the database is obtained.
And 3-2, the event control center calls an Event State Processing Module (ESPM) and refers to conditions in the ECA rules stored in the database and judges whether the conditions meet the action execution standard, and if the conditions meet the action execution standard, actions corresponding to the ECA rules are executed to react to service requests sent by enterprise systems of different organizations.
And 3-3, the event control center calls a Message Processing Module (MPM) to process and pack specific data in the cross-organization business requirements into messages, the event control center searches a database table to find a forwarding destination address corresponding to the message packet according to the event control center, and the message processing module pushes related messages to a message queue corresponding to a related organization according to the corresponding forwarding destination address.
The specific implementation process in the step 4 comprises the following steps: enterprise systems of different organizations such as suppliers, manufacturers and users monitor corresponding message queues in real time, if relevant unread messages are monitored in the message queues, service requests are sent to the cross-enterprise interconnection platform to obtain relevant data packets, after the enterprise systems analyze the data packets, specific event operation of the next step is judged, and the steps 1-4 are repeated to promote execution of cross-organization business requirements until the execution is completed.
The following takes a process of ordering a product by a user as an example, and specifically describes a specific implementation process of the embodiment of the present invention. The specific implementation flow is shown in fig. 6, and mainly includes the following steps:
step 1: when a user needs to order a product, a service request is sent to a service interface provided by the Web service program, and the service request comprises the enterprise ID of the user and the demand data of the product.
And 2, step: the cross-enterprise interconnection platform distinguishes the user enterprise system through an enterprise ID sent by a user, a processing function in a Web service program is triggered according to a service request sent by the user, the processing function analyzes required data in the service request sent by the user, extracts data needing to be transmitted to a manufacturer to form a service request processing completion event and transmits the service request processing completion event to an event driving engine, and meanwhile, a data packet is sent to the user corresponding to the enterprise ID to indicate that the service request is received by the cross-enterprise interconnection platform.
And step 3: after receiving a service request processing completion Event formed by a user service request, an Event Control Center (ECC) in an Event-driven engine calls an Event Management Module (EMM) to analyze the service request of the user, and the service request Event of the user obtained by the analysis of the Event management module is matched with an Event in an ECA rule in a database.
And after the matching is successful, the event control center calls an Event State Processing Module (ESPM) and refers to the matched condition in the ECA rule stored in the database and judges whether the condition meets the action execution standard, and if the condition meets the action execution standard, the product demand data sent by the user is processed into the data sent to the manufacturer according to the action execution standard by executing the action corresponding to the ECA rule.
And then the event control center calls a Message Processing Module (MPM) to package the processed product demand data which can be sent to the manufacturer, looks up the database to find a forwarding destination address corresponding to the manufacturer, and pushes the message to a message queue corresponding to the manufacturer according to the forwarding destination address.
And 4, step 4: and (3) monitoring that the corresponding message queue changes by the manufacturer, and timely sending a service request to the cross-enterprise interconnection platform to acquire a related data packet.
And 5: the manufacturer obtains the materials needed by the product by analyzing the received demand data, and sends purchase data to a supplier through the cross-enterprise interconnection platform, the processing logic of the cross-enterprise interconnection platform on the purchase data sent by the manufacturer is shown as steps 1-4, and a data message packet capable of being sent to the supplier is formed, the supplier sends the materials needed by the product to the manufacturer when obtaining the related data packet and sends logistics data to the manufacturer through the cross-enterprise interconnection platform, the manufacturer starts to manufacture the product after obtaining the related data packet and the product materials and sends feedback data to a user through the cross-enterprise interconnection platform, and the user finishes the cross-organization business requirement after receiving the manufactured product and the feedback data sent by the manufacturer through the cross-enterprise interconnection platform.
Example 2
Embodiment 2 of the present invention provides a terminal device corresponding to embodiment 1, where the terminal device may be a processing device for a client, such as a mobile phone, a notebook computer, a tablet computer, a desktop computer, and the like, so as to execute the method of the above embodiment.
The terminal device of the embodiment comprises a memory, a processor and a computer program stored on the memory; the processor executes the computer program on the memory to implement the steps of the method of embodiment 1 described above.
In some implementations, the Memory may be a high-speed Random Access Memory (RAM), and may also include a non-volatile Memory, such as at least one disk Memory.
In other implementations, the processor may be various general-purpose processors such as a Central Processing Unit (CPU), a Digital Signal Processor (DSP), and the like, and is not limited herein.
Example 3
Embodiment 3 of the present invention provides a computer-readable storage medium corresponding to embodiment 1 above, on which a computer program/instructions are stored. The computer program/instructions, when executed by the processor, implement the steps of the method of embodiment 1 described above.
The computer readable storage medium may be a tangible device that retains and stores instructions for use by an instruction execution device. The computer readable storage medium may be, for example, but not limited to, an electronic memory device, a magnetic memory device, an optical memory device, an electromagnetic memory device, a semiconductor memory device, or any combination of the foregoing.
As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein. The scheme in the embodiment of the application can be implemented by adopting various computer languages, such as object-oriented programming language Java and transliterated scripting language JavaScript.
The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.
Claims (7)
1. A heterogeneous information system integration method oriented to cross-organization service requirements is characterized by comprising the following steps:
s1, constructing a cross-enterprise interconnection platform;
s2, each organization sends a service request to the cross-enterprise interconnection platform through a service interface provided by the cross-enterprise interconnection platform; after receiving the service request, the cross-enterprise interconnection platform triggers a processing function in a Web service program corresponding to the service request; after the processing function is processed, sending a data packet back to a corresponding organization which sends a service request to the cross-enterprise interconnection platform, and issuing a service request processing completion event;
s3, an event driving engine in the cross-enterprise interconnection platform reacts to the service request processing completion event and pushes the related message to a message queue corresponding to the corresponding organization;
and S4, after monitoring the change of the corresponding message queue, each organization sends a service request to the cross-enterprise interconnection platform to acquire a related data packet.
2. The method for integrating heterogeneous information systems based on cross-organization business requirements according to claim 1, wherein the specific implementation process of the step S1 comprises:
1) Providing service interfaces for different organizations through Web service programs; the different organizations include suppliers, manufacturers, users;
2) And constructing an event driving engine and a message queue in the cross-enterprise interconnection platform, and realizing data communication among different organizations through the event driving engine and the message queue.
3. The method for integrating heterogeneous information systems oriented to cross-organizational business needs of claim 2, wherein the event-driven engine comprises:
the event control center is used for monitoring relevant events generated in the process that each enterprise system completes the cross-organization business in a cooperative mode, and carrying out event response by calling the message processing module, the event state processing module or the event management module according to the specific situation of the events; after the message processing module, the event state processing module or the event management module finishes the event response, a processing completion event is generated and fed back to the event control center;
the message processing module is used for processing and encapsulating specific data in the cross-organization service requirement to form a data packet, and pushing the data packet message to a message queue of a related organization;
the event state processing module is used for analyzing the specific situation of the event and judging whether the execution condition of the ECA rule corresponding to the event is met;
and the event management module is used for analyzing the specific situation of the event and providing an ECA rule corresponding to the event.
4. The method for integrating heterogeneous information systems based on cross-organization service requirements according to claim 1 or 3, wherein the specific implementation process of step S3 includes:
a) After receiving a service request processing completion event, the cross-enterprise interconnection platform responds to the event by an event control center in the event-driven engine, and acquires an ECA rule of the service request event matched with the event) in ECA rules stored in the database through an event management module;
b) The event state processing module judges whether the execution condition of the ECA rule of the service request event is met according to the relevant data of the ECA rule stored in the database, and if the execution condition is met, the event state processing module responds to the service request sent by the enterprise systems of different organizations by executing the corresponding action in the ECA rule;
c) The message processing module processes and packages specific data in the cross-organization service requirement into a message, finds a forwarding destination address corresponding to the message package, and pushes the related message to a message queue corresponding to the related organization according to the corresponding forwarding destination address.
5. The method for integrating heterogeneous information systems based on cross-organization business requirements according to claim 1, wherein the specific implementation process of the step S4 comprises: and (3) monitoring the corresponding message queues of enterprise systems of different organizations in real time, if the message queues are monitored to have related unread messages, sending a service request to the cross-enterprise interconnection platform to obtain related data packets, analyzing the data packets by the enterprise systems, judging the next specific event operation, and repeating the steps S1-S4 until the cross-organization business is completed.
6. A terminal device comprising a memory, a processor and a computer program stored on the memory; characterized in that said processor executes said computer program to implement the steps of the method according to one of claims 1 to 5.
7. A computer readable storage medium having stored thereon a computer program/instructions; characterized in that the computer program/instructions, when executed by a processor, implement the steps of the method of one of claims 1 to 5.
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CN116032671B (en) * | 2023-03-30 | 2023-07-21 | 杭州华卓信息科技有限公司 | Communication method and network system based on hybrid cloud |
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