CN107784433B - Modeling method, system, terminal and storage medium for two parallel processes to interact - Google Patents

Modeling method, system, terminal and storage medium for two parallel processes to interact Download PDF

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CN107784433B
CN107784433B CN201710883863.1A CN201710883863A CN107784433B CN 107784433 B CN107784433 B CN 107784433B CN 201710883863 A CN201710883863 A CN 201710883863A CN 107784433 B CN107784433 B CN 107784433B
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initiator
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CN107784433A (en
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唐岳安
赵淼
张天戈
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Shanghai H Goal Information & Technology Co ltd
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Abstract

The invention provides a modeling method, a system, a terminal and a storage medium for two parallel processes to interact, wherein the modeling method for the two parallel processes to interact comprises the following steps: respectively configuring an initiator proxy and a responder proxy between the initiator and the responder; dividing the interactive flow between the initiator and the responder into an initiator interactive flow between the initiator and the responder agent and a responder interactive flow between the responder and the initiator agent; the initiator interactive flow is embedded into the initiator business flow of the initiator and forms a closed loop with the initiator business flow, and the responder interactive flow is embedded into the responder business flow of the responder and forms a closed loop with the responder business flow. The task initiator or the task responder forms a flow closed loop of respective tasks through interaction with the virtual agent, completes interaction of two parallel flows, and can manage information interaction processes of different states of a user on line and under line.

Description

Modeling method, system, terminal and storage medium for two parallel processes to interact
Technical Field
The invention relates to the technical field of industrial automation, in particular to the technical field of process automation management, and specifically relates to a modeling method, a modeling system, a modeling terminal and a storage medium for interaction of two parallel processes.
Background
When two business processes are in a parallel development process, an interaction process may be generated at some task nodes, that is, one party of the business process needs to make a judgment at a certain task node based on feedback information in the other business process or the task node where the two parties meet, and continues the process. This management Process is called interactive Process management, i.e. ipm (interactive Process management), and the existing Process model is difficult to effectively solve the interactive Process management.
At present, a general method for interactive process management is to model two business processes integrally, and join the two processes at a preset task node under a preset framework, that is, a joining point of the business processes is preset and fixed. The technical method is widely applied to the industrial production field and supply chain management, but the technology lacks interactivity and changes and is not suitable for interactive management among multiple service processes which are dominant by people.
When information changes occur in one process in the process of interaction between the two processes, and the trend or data of the other process can be changed at any time, the existing method for modeling the whole interactive process has many disadvantages. For example, one process may be affected by the other process, and the meeting point of the two process tasks is moving.
If two interactive parties do not manage the processes in the same system, even if one party manages the processes offline, the existing management processes cannot be used for modeling the whole processes of the two parties, and an interactive relationship is established in the same system.
Disclosure of Invention
In view of the above drawbacks of the prior art, an object of the present invention is to provide a modeling method, a modeling system, a terminal and a storage medium for two parallel processes to interact with each other, so as to solve the problems of poor flexibility of process management, and unfavorable interaction and change between two parties in the prior art.
In order to achieve the above and other related objects, the present invention provides a modeling method for two parallel processes, comprising: respectively configuring an initiator proxy and a responder proxy between the initiator and the responder; dividing the interactive flow between the initiator and the responder into an initiator interactive flow between the initiator and the responder agent and a responder interactive flow between the responder and the initiator agent; the initiator interactive flow is embedded into the initiator business flow of the initiator and forms a closed loop with the initiator business flow, and the responder interactive flow is embedded into the responder business flow of the responder and forms a closed loop with the responder business flow.
In an embodiment of the present invention, whether the initiator, the responder, the initiator interaction flow, and the responder interaction flow are attached to the initiator business flow and the responder business flow have the same flow attribute is determined.
In an embodiment of the present invention, when the initiator service flow and the responder service flow have the same online flow attribute, the initiator, the responder, the initiator interaction flow, and the responder interaction flow all exist; the responder agent receives the interactive message sent by the initiator and waits for the feedback instruction of the responder, and the initiator agent receives the interactive instruction sent by the initiator and sends the interactive message to the responder.
In an embodiment of the present invention, when the initiator service flow has an online flow attribute and the responder service flow has an offline flow attribute, an interactive flow exists between the initiator and the initiator, wherein the responder agent receives a feedback instruction of an offline responder and sends a feedback message to the initiator; and when the service process of the responder has an online process attribute and the service process of the initiator has an offline process attribute, the interactive process of the responder and the responder exists, wherein the initiator agent receives an interactive instruction of the offline initiator and sends an interactive message to the responder.
In an embodiment of the present invention, when the responding service flow having the offline flow attribute is converted from the offline flow attribute to the online flow attribute, the initiator, the responding party, the initiator interactive flow, and the responding party interactive flow all exist; the responder agent receives a feedback instruction of the responder and sends a feedback message to the initiator; when the initiator business process with the offline process attribute is converted from the offline process attribute to the online process attribute, the initiator, the responder, the initiator interactive process and the responder interactive process all exist; and the initiator agent receives the interaction instruction sent by the initiator and sends the interaction message to the responder.
In an embodiment of the present invention, the access node of the responder interactive process accessing the responder service process is determined according to the node of the initiator interactive process initiated by the initiator service process.
In an embodiment of the present invention, when there is a change in the initiator service flow or the responder service flow, the initiator adjusts the initiator service flow according to a change message sent by the responder agent in the initiator interaction flow; and the responder adjusts the service flow of the responder according to the change message sent by the initiator agent in the interactive flow of the responder.
In an embodiment of the present invention, the responder interactive process is started according to a start declaration signal including a declaration condition sent by the initiator interactive process.
In an embodiment of the present invention, when the responder interactive process meets the declaration condition, the responder interactive process is started; and the initiator interactive process transmits an interactive instruction to the responder interactive process and waits for the responder interactive process to feed back.
In an embodiment of the present invention, if no responder interactive process meeting the declaration condition is started, the start declaration signal is invalidated according to the end of a task in the initiator interactive process.
In an embodiment of the present invention, the initiator interaction process accesses one or more service nodes in the initiator service process as needed; and the responder interactive flow is correspondingly accessed to one or more service nodes in the responder service flow, and the responder service flow is adjusted according to the requirement.
The embodiment of the invention also provides a terminal, which comprises a processor and a memory, wherein the memory stores program instructions, and the processor runs the program instructions to realize the modeling method for the interaction of the two parallel processes.
Embodiments of the present invention also provide a computer-readable storage medium, on which a computer program is stored, which when executed by a processor, implements the modeling method for two parallel processes interaction as described above.
The embodiment of the invention also provides a modeling system for two parallel processes to interact, which comprises an initiator process module and a responder process module which are interactively coupled; the initiator flow module comprises an initiator, an initiator agent, an initiator business flow and an initiator interactive flow between the initiator and a responder agent; the responder flow module comprises a responder, a responder agent, a responder business flow and a responder interaction flow between the responder and the initiator agent; the initiator interactive flow is embedded into the initiator business flow of the initiator and forms a closed loop with the initiator business flow, and the responder interactive flow is embedded into the responder business flow of the responder and forms a closed loop with the responder business flow.
As described above, the modeling method, system, terminal and storage medium for two parallel processes interaction of the present invention have the following advantages:
1. the invention can link the interaction process of two service flows at the same task node, the task initiator or the task responder forms the flow closed loop of each task through the interaction with the virtual agent, then the two independent flow closed loops are connected through the loop, the interaction of two parallel flows is completed, the information interaction process of different states of the user on-line and off-line can be managed, and the user experience is effectively improved.
2. The invention can freely cope with various changes of the task initiator and the task responder, so that the interaction between the task initiator and the task responder is not influenced by the flow of the other party, and only the interaction result needs to be fed back.
3. The invention can be embodied in that one party of the task initiator and the task responder is online, and the other party is not online, so that the information interaction between the two parties can be realized, and the connection of the flows of the two parties is realized.
4. The technical scheme of the invention greatly improves the flexibility of information interaction of two parallel processes of the task initiator and the task responder and improves the efficiency.
Drawings
FIG. 1 shows two parallel flow interaction diagrams in the modeling method for two parallel flow interactions according to the present invention.
FIG. 2 is a diagram showing the interaction flow relationship between an initiator and a responder in the modeling method for two parallel flows according to the present invention.
FIG. 3 is a schematic diagram of a modeling system for two parallel processes of the present invention.
Detailed Description
The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.
It should be noted that the drawings provided in the following embodiments are only for illustrating the basic idea of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the type, quantity and proportion of the components in actual implementation may be changed freely, and the layout of the components may be more complicated.
The present embodiment aims to provide a modeling method, a system, a terminal and a storage medium for two parallel processes to interact with each other, which can not only link the interaction processes of two business processes at the same task node, but also manage the information interaction processes of different online and offline states of a user, and are used to solve the problems of poor flexibility of process management, adverse interaction and change between two parties in the prior art. The principles and embodiments of the modeling method, system, terminal and storage medium for two parallel processes interaction according to the present invention will be described in detail below, so that those skilled in the art can understand the modeling method, system, terminal and storage medium for two parallel processes interaction without creative efforts.
The present embodiment provides a modeling method for two parallel processes interacting, as shown in fig. 1, the modeling method for two parallel processes interacting includes:
respectively configuring an initiator proxy and a responder proxy between the initiator and the responder; dividing the interactive flow between the initiator and the responder into an initiator interactive flow between the initiator and the responder agent and a responder interactive flow between the responder and the initiator agent; the initiator interactive flow is embedded into the initiator business flow of the initiator and forms a closed loop with the initiator business flow, and the responder interactive flow is embedded into the responder business flow of the responder and forms a closed loop with the responder business flow.
Therefore, the modeling method for two parallel processes in the embodiment can link the interaction processes of two business processes at the same task node, the task initiator or the task responder forms the process closed loops of respective tasks through the interaction with the virtual agent, and then the two independent process closed loops are connected through the buckles, so that the interaction of the two parallel processes is completed.
Specifically, as shown in fig. 2, an initiator-Proxy (AP) and cA responder-Proxy (RP) are respectively configured between an initiator (cA) and cA responder (R), and an interaction process IP (interaction process) is divided into two segments based on the difference between the initiator (operator) and the responder (responder), that is, the initiator interaction process (IP- cA) and the responder interaction process (IP-R) are coupled together in an interaction mode.
The two interactive parties of the IP-A are cA real initiator (Actor-Proxy, abbreviated as RP) and cA virtual responder (responder-Proxy, abbreviated as AP), and the two interactive parties of the IP-R are cA virtual initiator (Actor-Proxy, abbreviated as AP) and cA real responder.
The initiator Interaction Process IP-A is embedded into an initiator service Process BP-A of the initiator Actor and forms cA closed loop with the initiator service Process BP-A, wherein BP-A + IP-A is BIP-A (BIP is Business & Interaction Process); the responder interactive process IP-R is embedded into the responder service process BP-R of the responder and forms a closed loop with the responder service process BP-R: BP-R + IP-R (BIP) is BIP-R (Business & Interaction Process). The BIP-A and BIP-R are coupled together by the interaction pattern of IP-A and IP-R.
The modeling method for two parallel processes in the embodiment can manage the information interaction process of different online and offline states of a user.
Specifically, in this embodiment, whether the initiator, the responder, the initiator interaction flow, and the responder interaction flow are attached to the initiator business flow and the responder business flow have the same flow attributes or not is determined. That is, whether the Actor and the Reactor exist depends on whether the business processes of the two interacting parties are both running in the same system (online system).
When the initiator service flow and the responder service flow have the same online flow attribute, the initiator, the responder, the initiator interaction flow and the responder interaction flow all exist.
That is, if the service flows of both interaction parties operate in the same system, an interaction flow IP- cA of the Actor and the Reactor-Proxy and an interaction flow IP-R of the Actor and the Reactor exist at the same time.
The responder agent receives the interactive message sent by the initiator and waits for the feedback instruction of the responder, and the initiator agent receives the interactive instruction sent by the initiator and sends the interactive message to the responder.
That is, when both business processes of the two interactive parties operate in the same system, the interactive processes IP- cA and IP-R between them are consistent, i.e. two separate physical processes actually operate on one logical process. At the moment, the Reactor-Proxy receives the interaction message sent by the Actor and waits for the feedback instruction of the Reactor; correspondingly, the Actor-Proxy receives the interaction instruction of the Actor and sends the interaction message to the Reactor. In the whole process, the Proxy can filter and shield the business process of the local, and only receives the instruction sent by the local and sends a message to the opposite side.
In this embodiment, when the initiator service flow has an online flow attribute and the responder service flow has an offline flow attribute, the initiator and the initiator interactive flow exist. The responder agent receives a feedback instruction of an offline responder and sends a feedback message to the initiator; and when the service process of the responder has an online process attribute and the service process of the initiator has an offline process attribute, the interactive process of the responder and the responder exists, wherein the initiator agent receives an interactive instruction of the offline initiator and sends an interactive message to the responder.
If only the service flow on the Actor side exists in an online system, only the interaction flow IP-A of the Actor and the Reactor-Proxy is needed for completing the interaction process, and vice verscA. When only one business process of the two interactive parties operates in the system, only the interactive process IP-A or IP-R of the one party exists. In this process, the initiator agent AP and the responder agent RP receive an instruction from the offline party (there is an agent in the system to input the instruction instead), and send a message to the online party to assist the online party in completing the business process in the system.
In this embodiment, when the responder business process having the offline process attribute is converted from the offline process attribute to the online process attribute, the initiator, the responder, the initiator interactive process, and the responder interactive process all exist; the responder agent receives a feedback instruction of the responder and sends a feedback message to the initiator; when the initiator business process with the offline process attribute is converted from the offline process attribute to the online process attribute, the initiator, the responder, the initiator interactive process and the responder interactive process all exist; and the initiator agent receives the interaction instruction sent by the initiator and sends the interaction message to the responder.
That is, if the online-to-offline interaction process is performed, the offline party is registered online, and the service flows of the two parties operate in the same system, the interaction flow IP- cA of the Actor and the Actor-Proxy and the interaction flow IP-R of the Actor-Proxy and the Actor are both consistent, and the Actor starts to receive the online transmitted instruction from the party and transmits cA message to the other party.
Therefore, the modeling method for two parallel processes in the embodiment can realize information interaction between the two parties when one party of the task initiator and the task responder is on line and the other party of the task responder is not on line, so that the connection of the processes of the two parties is realized.
In this embodiment, the access node of the responder interactive flow accessing the responder service flow is determined according to the node of the initiator interactive flow initiated by the initiator service flow.
That is to say, IP-A and IP-R are respectively merged into business processes BP-A and BP-R of both interaction parties, and different business contents can directly influence nodes of the business processes BP merged into the interactive process IP. For example, when cA purchasing party sends cA purchasing interactive process IP-A by cA purchaser in cA purchasing link in cA purchasing process BP-A, cA selling party accesses cA subsequent selling process BP-R only after cA corresponding seller receives the selling interactive process IP-R.
In this embodiment, when the service flow of the initiator or the service flow of the responder changes, the initiator adjusts the service flow of the initiator according to a change message sent by the agent of the responder in the interaction flow of the initiator; and the responder adjusts the service flow of the responder according to the change message sent by the initiator agent in the interactive flow of the responder.
Therefore, the modeling method for two parallel processes in the embodiment can freely cope with various changes of the task initiator and the task responder, so that the interaction between the task initiator and the task responder is not influenced by the processes of the other party, and the interaction result only needs to be fed back, thereby greatly improving the flexibility of information interaction of the two parallel processes of the task initiator and the task responder and improving the efficiency.
Specifically, when cA change occurs in cA business process and the two parties need to be coordinated by introducing an interactive process, the existing IP-A and IP-R information transmission mechanisms can transmit the changed datcA information to each other and effectively isolate the BIP-A and BIP-R processes of the two parties from each other without mutual interference
For example, when two parallel workflows disagree on time balance and need to be rebalanced to complete the next task, the interactive flow coordination mechanism can initiate information transfer and help the business flow make reasonable decisions to meet the relevant constraints of the flow continuing to execute. The Actor and the Reactor only need to adjust the BIP-A and the BIP-R to meet the change of the other party based on the IP-A and the IP-R respectively and obtain the message of the other party from the IP-A and the IP-R.
In this embodiment, the responder interactive process is started according to a start declaration signal including a declaration condition sent by the initiator interactive process.
And when the responder interactive flow meets the declaration condition, the responder interactive flow is started, and the initiator interactive flow transmits an interactive instruction to the responder interactive flow and waits for the responder interactive flow to feed back.
That is, when whether the IP-R flow is started or not depends on the starting signal sent by the IP-A flow and the starting signal is issued in cA declaration form, if the IP-R flow exists and accords with the declaration condition of the IP-A starting flow, the IP-R flow is started immediately, and the datcA of the IP-A flow is transmitted to the IP-R and is waiting for the information feedback of the IP-R.
In this embodiment, if there is no responder interactive process that meets the declaration condition, the declaration start signal is invalid according to the end of the task in the initiator interactive process.
That is, if there is no IP-R, the declaration condition of the IP-A startup flow is always on, and the lifecycle of the declaration ends with the end of the IP-A task; the IP-R flow is initiated once a declared-compliant condition occurs.
For example, after the IP-A is started, cA signal for starting the IP-R is sent out, but if the business process of the Reactor does not run in the system and no interactive process of the IP-R can meet the starting condition, the BIP-R on the Reactor side does not exist, and if the Reactor is registered on line later and the IP-R has the capability of receiving the IP-A signal and starting, the BIP-R is started immediately.
In this embodiment, the initiator interactive process flexibly accesses one or more service nodes in the initiator service process as needed; the responder interactive process is correspondingly accessed to one or more service nodes in the responder service process, and the responder service process is flexibly adjusted according to the requirement.
That is, because the nested nodes of BP and IP are different, the combination of BP and IP-A or IP-R is flexible and changeable, IP-A or IP-R is the interactive process of cA plurality of process nodes, RP or AP agent plays the role of agent of different process nodes, therefore IP-A or IP-R is connected with different BP process nodes to form an integral BIP-A or BIP-R self-defined service process.
The following describes an example of a modeling method for two parallel processes in the embodiment, taking an interaction process of two parallel processes in the ship part purchasing as an example.
Starting from a business process that a ship applies for purchasing ship accessories to a management company, the management company firstly approves a purchasing plan, and then a salesman initiates purchasing activities to a supplier; after receiving the purchasing information, the supplier side starts an auditing and approving process of the spare parts of the sales ship, and the auditing and approving process comprises inventory comparison, manager approval and the like to determine purchasing intention.
After the supplier and the buyer reach the purchasing intention, the supplier can enter the business processes of stock, delivery, transportation, supply, invoicing and the like; correspondingly, after the purchasing intention is achieved between the buyer and the supplier, the buyer enters the business processes of receiving goods, warehousing, receiving bills, paying items and the like.
The business process is different from the two dimensions of the buyer and the supplier. The business process of the buyer comprises the processes of applying for, examining and approving by a manager, sending an offer, confirming an order, warehousing goods, paying and the like; the business process of the supplier comprises the processes of comparison, approval, order confirmation, goods delivery, bill issuing, payment settlement and the like. If the two business processes are in one system, the information transmission or the feedback of the change information of each node of the two parallel processes is carried out by the interactive coupling of the agents of the interactive processes, and the business processes of the two parties are not interfered with each other; and the two parallel flows generate interaction processes at different task nodes for many times and finally reach the same, and similarly, the interaction results influence the subsequent processes of the two parallel flows.
For example, in the logistics link, the ship delays the port-in time due to irresistible factors in the process of going on the way, the delivery date originally determined according to the contract is delayed, at the moment, the ship sends a request for changing the delivery date to the supplier, the delayed delivery is approved after the ship interacts with the supplier, and then the supplier delays the delivery; on the contrary, when the ship is in the bank in advance to wait for the goods source, the transportation process is influenced due to the reason of the route to cause delay, at the moment, the supplier sends a request for delayed delivery to the ship, if the ship leaves the next port, the ship informs the address and the date of the next port to the supplier, and the supplier finishes the logistics task by scheduling time and delivering the goods to the next port on time through multiple interactions and final agreement between two business processes of the buyer and the supplier.
On the other hand, if the two parallel business processes of the buyer and the supplier are not in one system, namely one party on line and the other party off line, the party on line can substitute the party on line to virtually input related information, and the process closed loop of the real party on line is realized; once the off-line party registers on-line, the buyer and the supplier are on an on-line system, and the original data is migrated, thereby forming the on-line interaction of two parallel processes of the buyer and the supplier.
The embodiment also provides a terminal, which comprises a processor and a memory, wherein the memory stores program instructions, and the processor runs the program instructions to implement the modeling method for two parallel processes interaction. The above two parallel process interactive modeling methods have been described in detail, and are not described herein again. The terminal is, for example, a mobile phone, a computer, a PAD, and the like.
The present embodiment also provides a computer-readable storage medium, on which a computer program is stored, which when executed by a processor implements the modeling method for two parallel processes interaction as described above. The above two parallel process interactive modeling methods have been described in detail, and are not described herein again. The computer readable storage medium is, for example, a memory, a removable hard disk, or the like.
As shown in fig. 3, the present embodiment further provides a modeling system for two parallel processes interacting, including an initiator process module and a responder process module that are interactively coupled; the initiator flow module comprises an initiator, an initiator agent, an initiator business flow and an initiator interactive flow between the initiator and a responder agent; the responder flow module comprises a responder, a responder agent, a responder business flow and a responder interaction flow between the responder and the initiator agent; the initiator interactive flow is embedded into the initiator business flow of the initiator and forms a closed loop with the initiator business flow, and the responder interactive flow is embedded into the responder business flow of the responder and forms a closed loop with the responder business flow.
That is, the BIP-A and BIP-R are coupled together through the interaction pattern of IP-A and IP-R to form cA system. Two interactive processes (IP-A and IP-R) are respectively embedded into respective service processes (BP-A and BP-R) of two interactive parties to form cA BP-A + IP-A or BP-R + IP-R closed loop, and then the BP-A + IP-A and the BP-R + IP-R are combined together to form cA mixed Process (BIP-A and BIP-R) (BIP & Interaction Process) which is called cA loop-locked workflow system.
The implementation principle of the modeling system with two parallel processes interacting is the same as that of the modeling method with two parallel processes interacting, and the above-mentioned modeling method with two parallel processes interacting has been described in detail and is not repeated herein.
In summary, the invention can link the interaction process of two service flows at the same task node, the task initiator or the task responder forms a flow closed loop of each task through the interaction with the virtual agent, and then the two independent flow closed loops are connected through the loop, so as to complete the interaction of two parallel flows, manage the information interaction process of different states of the user on-line and off-line, and effectively improve the user experience; the invention can freely cope with various changes of the task initiator and the task responder, so that the interaction between the task initiator and the task responder is not influenced by the flow of the other party, and only the interaction result needs to be fed back; the invention can be embodied in that one party of the task initiator and the task responder is online, and the other party is not online, so that the information interaction between the two parties can be realized, and the connection of the flows of the two parties is realized; the technical scheme of the invention greatly improves the flexibility of information interaction of two parallel processes of the task initiator and the task responder and improves the efficiency. Therefore, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.
The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (12)

1. A modeling method for two parallel processes interaction is characterized by comprising the following steps:
respectively configuring an initiator proxy and a responder proxy between the initiator and the responder;
dividing the interactive flow between the initiator and the responder into an initiator interactive flow between the initiator and the responder agent and a responder interactive flow between the responder and the initiator agent;
the initiator interactive flow is embedded into the initiator business flow of the initiator and forms a closed loop with the initiator business flow, and the responder interactive flow is embedded into the responder business flow of the responder and forms a closed loop with the responder business flow; whether the initiator, the responder, the initiator interaction flow and the responder interaction flow have the same flow attribute attached to the initiator business flow and the responder business flow; when the initiator business process and the responder business process have the same online process attribute, the initiator, the responder, the initiator interactive process and the responder interactive process all exist; the responder agent receives the interactive message sent by the initiator and waits for the feedback instruction of the responder, and the initiator agent receives the interactive instruction sent by the initiator and sends the interactive message to the responder; two independent process closed loops are connected through buckles, and interaction of two parallel processes is completed.
2. The modeling method of two parallel processes interaction of claim 1, wherein when the initiator business process has an online process attribute and the responder business process has an offline process attribute, the initiator and initiator interaction processes exist, wherein the responder agent receives the feedback instruction of the offline responder and sends a feedback message to the initiator; and when the service process of the responder has an online process attribute and the service process of the initiator has an offline process attribute, the interactive process of the responder and the responder exists, wherein the initiator agent receives an interactive instruction of the offline initiator and sends an interactive message to the responder.
3. The method of claim 2, wherein the initiator, responder, initiator-interactive processes, and responder-interactive processes all exist when the responder business process with offline process attributes is converted from offline process attributes to online process attributes; the responder agent receives a feedback instruction of the responder and sends a feedback message to the initiator;
when the initiator business process with the offline process attribute is converted from the offline process attribute to the online process attribute, the initiator, the responder, the initiator interactive process and the responder interactive process all exist; and the initiator agent receives the interaction instruction sent by the initiator and sends the interaction message to the responder.
4. The method of claim 1, wherein the access node of the responder interactive process to the responder business process is determined according to the node of the initiator interactive process initiated by the initiator business process.
5. The modeling method of two parallel processes interaction of claim 1, wherein when there is a change in the initiator business process or the responder business process, the initiator adjusts the initiator business process according to the change message sent by the responder agent on the initiator interaction process; and the responder adjusts the service flow of the responder according to the change message sent by the initiator agent in the interactive flow of the responder.
6. The method of claim 1, wherein the responder interactive process is started according to a start declaration signal containing a declaration condition sent by the initiator interactive process.
7. The method of claim 6, wherein the responder interactive process is initiated when the responder interactive process meets the declaration condition; and the initiator interactive process transmits an interactive instruction to the responder interactive process and waits for the responder interactive process to feed back.
8. The method of claim 6, wherein if no responder interactive process meeting the declaration criteria is started, the declaration signal is invalidated according to the end of a task in the initiator interactive process.
9. The modeling method of two parallel processes interaction of claim 1, wherein the initiator interaction process accesses one or more service nodes in the initiator service process as needed; and the responder interactive flow is correspondingly accessed to one or more service nodes in the responder service flow, and the responder service flow is adjusted according to the requirement.
10. A terminal, comprising a processor and a memory, wherein the memory stores program instructions, and the processor executes the program instructions to implement the modeling method for two parallel processes interaction according to any one of claims 1 to 9.
11. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out a method of modeling two parallel processes interaction according to any one of claims 1 to 9.
12. A modeling system for two parallel processes to interact is characterized by comprising an initiator process module and a responder process module which are interactively coupled; the initiator flow module comprises an initiator, an initiator agent, an initiator business flow and an initiator interactive flow between the initiator and a responder agent; the responder flow module comprises a responder, a responder agent, a responder business flow and a responder interaction flow between the responder and the initiator agent; the initiator interactive flow is embedded into the initiator business flow of the initiator and forms a closed loop with the initiator business flow, and the responder interactive flow is embedded into the responder business flow of the responder and forms a closed loop with the responder business flow; whether the initiator, the responder, the initiator interaction flow and the responder interaction flow have the same flow attribute attached to the initiator business flow and the responder business flow; when the initiator business process and the responder business process have the same online process attribute, the initiator, the responder, the initiator interactive process and the responder interactive process all exist; the responder agent receives the interactive message sent by the initiator and waits for the feedback instruction of the responder, and the initiator agent receives the interactive instruction sent by the initiator and sends the interactive message to the responder; two independent process closed loops are connected through buckles, and interaction of two parallel processes is completed.
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