CN116205587A - Online configurable instant effective general flow management system and method - Google Patents

Abstract

The invention provides a general flow management system and a method capable of being configured on line and taking effect immediately, comprising a flow management tool, a flow engine unit and a front-end engine unit; the flow management tool is used for defining node information of the business flow and configuring the node information on line; defining data source information of associated nodes of each node, and configuring the data source information of the associated nodes on line; the flow engine unit is used for acquiring and analyzing the node information configured by the flow management tool, automatically acquiring the data source configuration information of the associated node based on the node information, and generating a data source; the front-end engine unit is used for generating a front-end operation interface according to the generated data source and controlling the authority of the generated operation and button; the flow engine unit is used for receiving front-end data, judging the state change of the node through a built-in flow state machine model, and driving the operation of the business flow based on the state change of the node.

Description

Online configurable instant effective general flow management system and method

Technical Field

The invention relates to a flow management method, in particular to a general flow management system and method capable of being configured on line and taking effect immediately.

Background

The railway electric business process has heavy and various work and strong process variability, and the work flows of each office and each section have no unified and fixed standard, so that the electric business process work faces the problems of frequent change and the process functions of the same system need to support different institutions, and meanwhile, the process also needs to support the diversity of node handling and support personal, multi-person, department and role handling.

The current flow management tool on the market only aims at background business processing, a foreground is still manually processed, and once the flow is changed, not only is the background business required to be modified, but also the foreground business is required to be modified, and a system is required to be updated to be effective; in addition, the process node is only aimed at certain and unique personnel, and the multi-person transaction or multi-department transaction of the same node cannot be realized, so that a general process management method capable of adapting to online configurable instant effect of complex and variable process work of electric business is urgently required to be provided.

In order to solve the above problems, an ideal technical solution is always sought.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the general flow management method which can be configured and take effect in real time on line based on SOA architecture and by integrating application experience of flow practical cases of nearly 20000, and achieves the standardization, stability and autonomy of flow customization, thereby realizing the standardization management of various flow supporting railway units which can be configured in line, take effect in real time, do not need to modify business and update system, and are convenient and quick to construct.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: an online configurable instant effective general flow management system comprises a flow management tool, a flow engine unit and a front-end engine unit;

the flow management tool is used for defining node information of the business flow and configuring the node information on line; defining data source information of associated nodes of each node, and configuring the data source information of the associated nodes on line;

the flow engine unit is used for acquiring and analyzing the node information configured by the flow management tool, automatically acquiring the data source configuration information of the associated node based on the node information, and generating a data source;

the front-end engine unit is used for generating a front-end operation interface according to the generated data source and controlling the authority of the generated operation and button;

the flow engine unit is used for receiving front-end data, judging the state change of the node through a built-in flow state machine model, and driving the operation of the business flow based on the state change of the node.

The invention also provides a general flow management method capable of being configured on line and taking effect immediately, which comprises the following steps:

step 1, defining node information of a business process and configuring operation information of nodes on line, wherein the node information comprises process numbers, process names, node numbers, node names, node serial numbers, deactivation enabling of nodes, ending or not of the nodes, returning permission of the nodes and custom configuration of the node permissions;

defining data source information of associated nodes of each node, and configuring the data source information of the associated nodes on line, wherein the data source information comprises the number of the associated nodes, data structure authority, organization ID, role number, multi-choice attribute, personnel attribute, default value, next node number and name, filling-in attribute and opinion template;

step 2, acquiring and analyzing node information configured by the flow management tool, automatically acquiring data source configuration information of the associated nodes based on the node information, and generating a data source;

step 3, generating a front-end operation interface according to the data source, and controlling the generated operation and the authority of the button;

and 4, receiving front-end data, judging the state change of the node based on the built-in process state machine model, and driving the operation of the business process based on the state change of the node.

The present invention has outstanding substantial features and significant advances over the prior art, and in particular,

according to a large number of railway flow works, each flow characteristic is analyzed, and a flow management model is designed: the flow management tool, the flow engine unit and the front-end engine unit can perform online maintenance in the flow management tool when the flow nodes are changed; when the node information changes, the code or the flow file does not need to be updated; the flow engine unit and the front-end engine unit can make corresponding adjustment according to the configuration information of the flow management tool to generate a flow, so that the online processing of flow change is realized, and the flow change takes effect in real time. Based on the characteristics, the problems of changeable and variable flow of railway units can be solved, so that the flow change, flow control and flow maintenance become simple and clear and cheap operation.

The invention solves the problems of high independent customizing difficulty, high maintenance cost and high control difficulty of the prior process technology, can perfectly attach various process works of railways, help railway units to quickly construct own process control platforms, centralize and digitize the process works, enable the process to trace back conveniently and quickly, really achieve one-key tracing, greatly reduce the time cost, personnel cost and material cost of the process works, improve the working efficiency, realize centralization, digitization, graphic representation, automation and intellectualization of the railway works, and provide assistance for orderly and quick development of railways.

Drawings

Fig. 1 is a schematic flow chart of the present invention.

FIG. 2 is a schematic diagram of a configuration interface of a process management tool.

Fig. 3 is a configuration interface of node information and data source information of associated nodes.

Fig. 4 is a front end operation interface generated by the front end engine unit.

Detailed Description

The technical scheme of the invention is further described in detail through the following specific embodiments.

The invention provides a general flow management system capable of being configured on line and taking effect immediately, as shown in figure 1, comprising a flow management tool, a flow engine unit and a front-end engine unit;

the flow management tool is used for defining node information of the business flow and configuring the node information on line; defining data source information of associated nodes of each node, and configuring the data source information of the associated nodes on line;

the flow engine unit is used for acquiring and analyzing the node information configured by the flow management tool, automatically acquiring the data source configuration information of the associated node based on the node information, and generating a data source;

the front-end engine unit is used for generating a front-end operation interface according to the generated data source and controlling the authority of the generated operation and button;

the flow engine unit is used for receiving front-end data, judging the state change of the node through a built-in flow state machine model, and driving the operation of the business flow based on the state change of the node.

In a specific implementation, the process management tool includes a node information definition unit and a data source information definition unit. The node information definition unit is used for defining the flow numbers, the flow names, the node numbers, the node names, the node serial numbers, the deactivation starting of the nodes, the ending or not of the nodes, the return authority of the nodes, the custom configuration of the node authorities and remark information of various business flows; the specific structure is shown in table 1.

TABLE 1

The data source information definition unit is used for defining data source information of associated nodes of each node, wherein the data source information comprises the number of the associated nodes, data structure authority, mechanism ID, role number, multi-choice attribute, personnel attribute, default value, next node number and name, filling-in attribute and opinion template; the specific structure is shown in table 2.

TABLE 2

As shown in fig. 2, a configuration interface diagram of the process management tool includes add, modify and delete buttons.

Clicking the modification button in fig. 2, i.e. entering fig. 3, and fig. 3 is a configuration interface of node information of the receipt management flow and data source information of the associated node.

The flow engine unit automatically acquires the data source configuration information of the associated node after acquiring and analyzing the node information configured by the flow management tool; the data source configuration information is transmitted to the front-end engine unit, and the front-end engine unit automatically matches page layout, format, authority and the like through the information, as shown in fig. 4, for example, a drop-down data source (multiple options/single options, personnel/mechanisms) or a frame information (multiple options/single options, personnel/mechanisms) is generated through the information; that is, the front-end page does not need manual secondary maintenance, the flow can be directly used, and the front-end engine can automatically match and display node operation information.

For example: during auditing, a department length and a director are required to be selected, and corresponding information is only required to be configured on a management interface, for example: roles, institutions, multiple choice marks, personnel and institutions marks, necessary filling marks, default values, default opinion templates and the like, wherein the flow engine unit generates data according to the limiting conditions, and at an auditing interface, the front-end engine unit generates drop-down data (single choice) and pops up a data layer (multiple choice) according to the data.

It will be appreciated that both the state machine and the workflow engine are techniques commonly used in managing business processes, with the main distinction between workflow engine and state machine being the focus. In the workflow engine, upon completion of the previous operation, a switch is made to the next step, and the state machine requires an external event, which will cause branching to the next activity. In other words, the state machine is event driven, and the workflow engine is not. It will be appreciated that the workflow engine supports sequential modes as tasks execute one by one. The next step of the workflow will start before completion. For example, the document will not be signed by a boss until signed by a lawyer. Thus, the workflow engine appears to be rigid and deterministic in nature. In contrast, the operation of the state machine is asynchronous. Since the steps in a machine are triggered by certain events/actions, they should not be strictly performed. From this point of view, the state machine is more flexible.

Therefore, in this embodiment, a state machine is selected to manage the business process. In the prior art, a flow is divided into a state and an action, the state and the action are placed in the state by corresponding one action in a general state, then state transition and transition events are placed in the state transition, and finally the state transition events are driven by a state machine. A state machine model is then developed, state transition, state machine. The relationship between them is: the states are managed and driven by the state machine, and then transitioned by the states and states within the states.

In specific implementation, based on a built-in flow state machine model, the specific steps of judging the state change of the node and driving the operation of the business flow based on the state change of the node are as follows:

establishing a flow state machine model by means of a finite state automaton algorithm;

the flow state machine model obtains a fixed flow state set according to the flow management tool, receives state parameters attached to the flow engine unit, judges the respective states, and further judges the state of the current flow, so that the flow enters the next node.

For example, during auditing, the node configures a plurality of operations, such as workshop main subject and department subject, an auditor selects workshop main subject and department subject, after submitting the background, the flow state machine model obtains a fixed flow state set according to the flow management tool, receives state parameters attached to the flow engine unit, judges the respective states, and further judges the state of the current flow, so that the flow enters the next node, wherein the next node may be one or more depending on configuration information.

Further, the front-end operation interface comprises a flow back button, a flow back button and a flow cancel button.

According to a large number of railway flow works, each flow characteristic is analyzed, and a flow management model is designed: the flow management tool, the flow engine unit and the front-end engine unit can perform online maintenance in the flow management tool when the flow nodes are changed, nodes are newly added and deleted or the operation is changed; when node information is added or deleted or a node data source is modified, a code or a flow file does not need to be updated; the flow engine unit and the front-end engine unit can make corresponding adjustment according to the configuration information of the flow management tool to generate a flow, so that the online processing of flow change is realized, and the flow change takes effect in real time. Based on the characteristics, the problems of changeable and variable flow of railway units can be solved, so that the flow change, flow control and flow maintenance become simple and clear and cheap operation.

The invention also provides a general flow management method capable of being configured on line and taking effect immediately, which comprises the following steps:

step 1, defining node information of a business process and configuring operation information of nodes on line, wherein the node information comprises process numbers, process names, node numbers, node names, node serial numbers, deactivation enabling of nodes, ending or not of the nodes, returning permission of the nodes and custom configuration of the node permissions;

defining data source information of associated nodes of each node, and configuring the data source information of the associated nodes on line, wherein the data source information comprises the number of the associated nodes, data structure authority, organization ID, role number, multi-choice attribute, personnel attribute, default value, next node number and name, filling-in attribute and opinion template;

step 2, acquiring and analyzing node information configured by the flow management tool, automatically acquiring data source configuration information of the associated nodes based on the node information, and generating a data source;

step 3, generating a front-end operation interface according to the data source, and controlling the generated operation and the authority of the button;

and 4, receiving front-end data, judging the state change of the node based on the built-in process state machine model, and driving the operation of the business process based on the state change of the node.

Specifically, when the data source configuration information of the associated node is obtained after the step 3, generating drop-down data source or bullet frame information through the information so as to select multiple choices/single choices and personnel/mechanisms; in the process, when the data source information is transmitted to the front-end framework, the front-end framework automatically matches the layout, format, authority and the like of the page through the information, that is, the front-end page does not need manual secondary maintenance, the process can be directly used, and the front-end engine can automatically match and display node operation information.

In specific implementation, based on a built-in flow state machine model, the specific steps of judging the state change of the node and driving the operation of the business flow based on the state change of the node are as follows:

establishing a flow state machine model by means of a finite state automaton algorithm;

the flow state machine model obtains a fixed flow state set according to the flow management tool, receives state parameters attached to the flow engine unit, judges the respective states, and further judges the state of the current flow, so that the flow enters the next node.

The method has the general functions of traditional flow recovery, revocation, deletion and the like, but further upgrades are also carried out, for example, the recovery function can be recovered to a designated node, the traditional recovery only supports the last recovery step or the starting point, and we can designate the recovery to any node which has been circulated; specifically, the steps of returning to any already streamed node are as follows: the front-end engine unit judges whether the current node has the withdrawal authority according to the node configuration information, so that a withdrawal button is displayed or hidden, and the withdrawal button is clicked.

The steps of retrieving the node are as follows: the front-end engine unit judges whether the current node has the recovery permission according to the node configuration information, so that a recovery button is displayed or hidden, and the recovery button is clicked.

The steps of the voiding node are as follows: the front-end engine unit judges whether the current node has the revocation authority according to the node configuration information, so that the revocation button is displayed or hidden, and the revocation button is clicked.

Finally, it should be noted that the above-mentioned embodiments are only for illustrating the technical scheme of the present invention and are not limiting; while the invention has been described in detail with reference to the preferred embodiments, those skilled in the art will appreciate that: modifications may be made to the specific embodiments of the present invention or equivalents may be substituted for part of the technical features thereof; without departing from the spirit of the invention, it is intended to cover the scope of the invention as claimed.

Claims (10)

1. The on-line configurable instant effective general flow management system is characterized by comprising a flow management tool, a flow engine unit and a front-end engine unit;

the flow management tool is used for defining node information of the business flow and configuring the node information on line; defining data source information of associated nodes of each node, and configuring the data source information of the associated nodes on line;

the flow engine unit is used for acquiring and analyzing the node information configured by the flow management tool, automatically acquiring the data source configuration information of the associated node based on the node information, and generating a data source;

the front-end engine unit is used for generating a front-end operation interface according to the generated data source and controlling the authority of the generated operation and button;

the flow engine unit is used for receiving front-end data, judging the state change of the node through a built-in flow state machine model, and driving the operation of the business flow based on the state change of the node.

2. The online configurable instant effective general flow management system of claim 1, wherein the specific steps of determining a change in state of a node by a built-in flow state machine model and driving operation of a business flow based on the change in state of the node are as follows:

establishing a flow state machine model by means of a finite state automaton algorithm;

the flow state machine model obtains a fixed flow state set according to the flow management tool, receives state parameters attached to the flow engine unit, judges the respective states, and further judges the state of the current flow, so that the flow enters the next node.

3. The online configurable instant effective general flow management system according to claim 1, wherein the flow management tool comprises a node information definition unit and a data source information definition unit, wherein the node information definition unit is used for defining flow numbers, flow names, node numbers under various business flows, node names, node serial numbers, deactivation enabling of nodes, termination or non-termination of nodes, return authority of nodes, custom configuration of node authorities and remarking information of the node authorities;

the data source information definition unit is used for defining the data source information of the associated node of each node, wherein the data source information comprises the number of the associated nodes, data structure authority, organization ID, role number, multi-choice attribute, personnel attribute, default value, next node number and name, necessary filling attribute and opinion template.

4. The online configurable instant effective general flow management system of claim 1, wherein the front end operator interface includes a flow back button, and a flow invalidate button.

5. The online configurable instant effective general flow management method is characterized by comprising the following steps of:

step 1, defining node information of a business process and configuring operation information of nodes on line, wherein the node information comprises process numbers, process names, node numbers, node names, node serial numbers, deactivation enabling of nodes, ending or not of the nodes, returning permission of the nodes and custom configuration of the node permissions;

defining data source information of associated nodes of each node, and configuring the data source information of the associated nodes on line, wherein the data source information comprises the number of the associated nodes, data structure authority, organization ID, role number, multi-choice attribute, personnel attribute, default value, next node number and name, filling-in attribute and opinion template;

step 2, acquiring and analyzing node information configured by the flow management tool, automatically acquiring data source configuration information of the associated nodes based on the node information, and generating a data source;

step 3, generating a front-end operation interface according to the data source, and controlling the generated operation and the authority of the button;

and 4, receiving front-end data, judging the state change of the node based on the built-in process state machine model, and driving the operation of the business process based on the state change of the node.

6. The method according to claim 5, wherein in step 3, the drop-down data source or the bullet frame information is generated according to the data source configuration information of the acquired associated node so as to perform multi-selection/single-selection and personnel/organization selection.

7. The method for online configurable instant effective general process management according to claim 5, wherein the specific steps of determining a state change of a node based on a built-in process state machine model, and driving operation of a business process based on the state change of the node are as follows:

establishing a flow state machine model by means of a finite state automaton algorithm;

the flow state machine model obtains a fixed flow state set according to the flow management tool, receives state parameters attached to the flow engine unit, judges the respective states, and further judges the state of the current flow, so that the flow enters the next node.

8. The online configurable, immediate effect generic process management method of claim 5, wherein: the front-end engine unit judges whether the current node has the withdrawal authority according to the node configuration information, so that a withdrawal button is displayed or hidden, and the withdrawal button is clicked.

9. The online configurable, immediate effect generic process management method of claim 5, wherein: the front-end engine unit judges whether the current node has the recovery permission according to the node configuration information, so that a recovery button is displayed or hidden, and the recovery button is clicked.

10. The online configurable, immediate effect generic process management method of claim 5, wherein: the front-end engine unit judges whether the current node has the revocation authority according to the node configuration information, so that the revocation button is displayed or hidden, and the revocation button is clicked.

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