CN116823181A - Management method, system, storage medium and computing device for whole process of electric power engineering - Google Patents

Abstract

The application discloses a management method of the whole process of electric power engineering, which comprises the following steps: creating a scene library and a function library; creating a flow template library, and constructing the flow template library according to the type of the electric power engineering project and the voltage class requirements; initializing the project, and carrying out project initialization operation according to a process template corresponding to project matching; the project flow is circulated, and after the project is initialized, the circulation of each task is carried out through the matching of personnel and tasks; project handling, namely, a user receiving a notice of to-be-handled or information fills related data and completes node tasks, and the related data automatically flows to the next node; and (3) changing and finishing the project, changing the project according to the requirements and the corresponding templates, and archiving the data after finishing the whole project. The application also provides a system, storage equipment and a computer for realizing the method. The application shortens the service operation period, improves the project management flow and improves the project management efficiency.

Description

Management method, system, storage medium and computing device for whole process of electric power engineering

Technical Field

The application belongs to the technical field of power engineering, and particularly relates to a method, a system, a storage medium and computing equipment for managing the whole process of power engineering.

Background

The whole process of the electric power engineering project generally comprises four stages of project current stage, project earlier stage, project construction and summarizing evaluation, and relates to hundreds of scenes such as lapping, preliminary setting, construction drawing design, progress planning, bidding, starting, construction, completion, acceptance inspection and the like. With the continuous refinement of the granularity of project management of electric power engineering, the traditional informationized project management system has the following defects:

(1) In the existing power engineering project management system, although the workflow technology is used for solving the problem that an application program module needs to be frequently modified when a business process is changed, the approval type business process is separated from the whole project process application to be independently managed under the normal condition, and the application method only solves the problem that a small number of business scenes are connected in series and cannot cover the whole project management process scene; due to the complexity of the engineering project management system, not only are approval type business scenes and a large number of non-approval type business scenes exist, certain business association relations or data association relations exist among the scenes, the business scenes cannot be connected in series by using a workflow technology, and project management flows and business scenes of different voltage levels and different types in different areas have certain differences, so that management of all types of projects cannot be solved by using one set of workflow templates.

(2) Project data generated in the running process of the existing power engineering project is basic data of engineering management and core data of project archiving, the project data are generally distributed in each module of an engineering project management system, so that project data archiving and project dimension data sharing are difficult, data gathering and sharing are required to be realized according to scattered function customization development, the gathering data quality is poor after business changes, on the one hand, the project management business is complex and changeable, business functions for generating the data are distributed in each professional and subsystem, on the other hand, the architecture of the existing engineering project management system is complex, management applications of participating teams such as owners, designs, constructions, supervision and the like in project management are supported, management applications of superior departments such as a construction unit are also supported, and management is complex.

(3) In the existing power engineering project management system, the problem of the scene data integrity rate is usually solved by utilizing a mode of presetting necessary filling and unnecessary filling fields in a form, and the integrity of data and timeliness of data filling cannot be ensured for a business scene which can be skipped to process in a project or a business scene with certain data constraint.

Disclosure of Invention

The application aims to: the application aims to provide a management method of the whole process of the electric power engineering, which has high management efficiency and convenient management; another object of the present application is to provide a management system, a storage medium and a computing device for the whole process of electric power engineering.

The technical scheme is as follows: the application relates to a management method of the whole process of electric power engineering, which comprises the following steps:

step 1, creating a scene library and a function library;

step 2, creating a flow template library, and constructing the flow template library according to the type of the power engineering project and the voltage class requirement;

step 3, initializing the project, namely carrying out project initialization operation according to a process template corresponding to project matching;

step 4, project flow circulation, namely after project initialization, circulation of each task is carried out through matching of personnel and tasks;

step 5, project handling, namely, a user receiving to-be-handled or message notification fills in related data and completes node tasks, and automatically flows to the next node;

and 6, changing and finishing the project, changing the project according to the requirement and the corresponding template, and archiving the data after finishing the whole project.

The method comprises the steps that step 1, a scene library is created, wherein the scene library is built according to a standardized business scene management specification of electric power engineering, a project overall process scene and attributes thereof are defined, the scene library attribute comprises names, numbers, hierarchical relations, scene users, business targets and function descriptions, and the scene library displays the hierarchical relations among the scenes by using a tree structure; the construction of the function library comprises the following steps: according to the function design of the project management system, defining the service functions of the function library and the attributes thereof, wherein the attributes of the function library comprise function names, function types, application ranges and function page routes, and are associated with scenes, and the functions and the scenes are in one-to-many relation.

The method comprises the steps of creating a flow template library, wherein the flow template library is provided with flow nodes, displaying the hierarchical relationship among the flow nodes in a tree structure, and displaying the series relationship among the flow nodes in a flow chart; the flow nodes are of four types, namely a hierarchical node OPN, a common function node ON, an approval flow node EAF and an approval function node EAN.

The method for creating the flow node comprises a method for creating a reference scene and a method for creating the node in a self-definition way; the former directly refers to scenes in the associated scene library, the creation mode directly multiplexes the hierarchical relationship and the series relationship of the scenes, and the nodes directly multiplex the scene association function; the latter adds nodes and sets front node to quote the function in function library; the data monitoring attribute of the flow node is defined, and the data monitoring attribute comprises a service handling preset time length, a monitoring service field, an event and event triggering rule, an event triggering action and a receiving role.

Wherein, the initializing the item in the step 3 includes: selecting a corresponding flow template in an associated flow template library according to the voltage level and the type of the item, carrying out item initialization operation, automatically creating an overall function application of the whole process of the item, providing a business handling inlet in a menu and micro application mode, and automatically generating a flow chart of the whole process of the item according to a directed acyclic graph algorithm DAG; users with different roles enter the project application through the unified entry, and the function list of the corresponding role permission is displayed.

The whole process flow chart of the project has two presentation forms, one form is layered presentation, the hierarchical drill-down is supported, the connection line between nodes ON the same layer is automatically calculated and drawn according to the common function node ON, namely the front node arranged by the leaf node, the hierarchical drill-down can be always drilled down to the common function node ON and the approval function node EAN, the other form is a full view of project operation, namely the connection line of the actual service handling node is drawn according to the relationship between the common function node ON, namely the leaf node, the actual operation flow chart of the project is constructed, the hierarchical node, namely the father node, only the common function node ON and the approval flow node EAF of the actual service handling are displayed, and the operation sub-flow chart of the approval function node EAN is displayed through the approval flow node EAF.

After the project is started, personnel with different roles enter the nodes with corresponding authorities of project application operation to transact business, and after each functional node is completed, the functional nodes with different types perform subsequent processing according to different logics; the monitoring indexes of the node data in the process comprise node handling timeliness NPT and node data reporting integrity rate NDP; the node handling timeliness NPT is used for indicating whether the current node task is handled on time; the node data filling integrity rate NDP is used for representing the integrity degree of data filling of the current node function field, the accessory and the like.

The model reasoning comprises a configuration unit, a whole process control unit, a data monitoring unit and a whole process flow chart display unit;

the configuration unit comprises a scene library module, a function library module and a flow template module;

the whole process control unit mainly comprises a service handling module, an event monitoring module, an event distribution module, a data monitoring module, a service event processing module, a workflow processing module and a data processing module; the whole process flow operation of the project is realized based on an event driving technology and a workflow technology, and the business circulation is driven in a task mode;

the data monitoring unit comprises a node handling timeliness calculation module, a node data filling integrity rate calculation module, a data collection module and a data storage module;

the whole process flow chart display unit comprises a flow chart template display module, a project whole process flow chart display module and a service node state update module.

A computer-readable storage medium having stored therein a computer program which, when executed by a processor, performs the method of managing an overall process of an electrical power engineering as claimed in any one of claims 1 to 7.

A computing device, comprising: memory, a processor and a computer program stored on the memory and executable on the processor, the processor executing the method of managing the overall process of an electrical power engineering according to any one of claims 1 to 7 when the computer program is executed.

The beneficial effects are that: compared with the prior art, the application has the following remarkable progress:

(1) The application redefines the relations of father, son, front and back and the like among scenes by configuring a whole process flow template based on an event driving technology and a workflow technology, sets a trigger rule after the event occurs, drives the subsequent business scene to circulate in a mode of waiting for an approval, a message and the like, uses the workflow technology to define the template as an approval flow node (EAF) for being connected with the whole process scene in series, and uses a graphical technology to construct a project whole scene flow chart, visually displays the hierarchical relation and the series relation among the project whole process scenes, and visually displays the panoramic progress and the node dynamic of the project by fusing the result data of data monitoring; after initializing the project based on the flow template, the project-level flow can be adjusted according to the actual business flow change, the project operation is driven to circulate in a mode of to-be-handled tasks and the like, the whole process scene series connection of the project is realized, the whole process management of the project is thoroughly realized, the problems of insufficient intuitionistic whole process management, scattered functions, complex system, inconvenient use and the like caused by fragmented application management are avoided, the business operation period is shortened, the project management flow is improved, and the project management efficiency is improved.

(2) The application sets the data configuration of fields, attachments, forms and the like of each service node by configuring the whole process flow template of the project, adopts the data monitoring technology and the event driving technology, builds the project-level data warehouse in real time, realizes the real-time collection of project data, is used for various data application scenes or analysis applications, solves the problems of data archiving and sharing, and is convenient for archiving project data after finishing the project.

(3) According to the application, the real-time data warehouse technology is used for calculating the scene node data report integrity rate (NDP) in real time according to the set scene data monitoring rule, calculating the scene Node Processing Timeliness (NPT) according to the preset service processing time (BPPD) set by the scene, and presenting the real-time scene node processing condition on the whole process flow chart according to a certain rule. Through monitoring service node data, the panoramic presentation project circulation state and service node data reporting conditions provide effective management basis and means for managers, and further improve the quality of project data.

(4) The application configures the whole process flow template by defining the hierarchical relation, front-back relation, association scene, event triggering rule and the like of the whole process nodes, realizes the series connection and service circulation of the whole process service scene of the project by utilizing the workflow technology and the event driving technology, builds a project-level data warehouse in real time by setting data such as the service node data monitoring rule, the service handling preset time period (BPPD) and the like and by utilizing the data monitoring technology and the event driving technology in a data extraction mode and the like, facilitates project data sharing and archiving, calculates the handling timeliness (NPT) of the whole process nodes and the node data filling integrity rate (NDP) in real time according to the preset rule, and assists a manager to realize project data quality improvement; based on the graphical technology, the operation flow data is instantiated in the whole project process, the node data monitoring result is fused, a whole project process flow chart is constructed, the whole project process flow overall view and the node dynamics are displayed in real time, and the project management decision is supported.

Drawings

FIG. 1 is a flow chart of the whole method of the application;

FIG. 2 is a schematic diagram of the overall process flow operation of the present application;

FIG. 3 is a tree-level node relationship diagram of a process template according to the present application;

FIG. 4 is a schematic diagram of the data monitoring of the present application;

fig. 5 is a schematic diagram of the system of the present application.

Detailed Description

The application relates to a management method of the whole process of electric power engineering, which comprises the following steps:

step 1, creating a scene library and a function library;

step 2, creating a flow template library, and constructing the flow template library according to the type of the power engineering project and the voltage class requirement;

step 3, initializing the project, namely carrying out project initialization operation according to a process template corresponding to project matching;

step 4, project flow circulation, namely after project initialization, circulation of each task is carried out through matching of personnel and tasks;

step 5, project handling, namely, a user receiving to-be-handled or message notification fills in related data and completes node tasks, and automatically flows to the next node;

and 6, changing and finishing the project, changing the project according to the requirement and the corresponding template, and archiving the data after finishing the whole project.

The flow of a specific overall power engineering process management method is shown in the figure 1, and comprises the steps of creating a scene library and a function library; and constructing a scene library according to the standardized business scene management specification of the power engineering, defining the whole process scene of the project and the attribute thereof, wherein the scene library comprises names, numbers, hierarchical relations, scene users, business targets, function descriptions and the like, and the scene library displays the hierarchical relations among the scenes by using a tree structure. The scene library is a business base library of the whole project process, and is the source and standard of project management business. And constructing a service function library according to the function design of the project management system, defining service functions and attributes thereof, including function names, function types, application ranges, function page routes and the like, associating the service functions with scenes, wherein the functions and the scenes are in one-to-many relation. The function library is used as a basic library of the project management system application, embodies a decoupling idea, and lays a foundation for flexible assembly of the follow-up whole process flow.

Creating a flow template library; the process template is different from a common workflow template in that the process template is an event-driven process template supporting flexible configuration. The flow template is provided with flow nodes, the hierarchical relationship among the flow nodes is displayed in a tree structure, and the series relationship among the flow nodes is displayed in a flow chart; the flow nodes are of four types, namely a hierarchical node (OPN), a common function node (ON), an approval flow node (EAF) and an approval function node (EAN), wherein the hierarchical node is a father node, only has hierarchical meaning ON business, and can be related to a scene but not related to a specific function; the common function node is a leaf node, and is hung with a node with a service function; the approval flow node is also a father level node and is used for hooking an approval workflow, and the specific implementation is that the approval flow node is interacted with a workflow engine through a template number set by an associated workflow engine in the actual project operation process to realize operations such as approval flow starting, circulation, inquiry, monitoring and the like; the approval functional node is also a leaf node, namely a functional node for realizing specific reporting or auditing operations in the approval process, and is usually associated and corresponding to the node number in the workflow template for subsequent inquiry, monitoring and the like.

The creation of the nodes is realized in two ways, namely, a method for creating the reference scene, namely, directly referencing the scene in the association scene library, wherein the creation method can directly multiplex the hierarchical relationship and the series relationship of the scene, and the nodes directly multiplex the scene association function because the scene has the association function; the other mode is a mode of creating the node in a self-defined way, adding the node and setting a front node, and referring to the functions in the function library.

The data monitoring attribute of the process node is further defined, and the data monitoring attribute comprises a preset service handling duration, a monitoring service field, an event and event triggering rule, an event triggering action (sending to-do, notifying, mail), a receiving role and the like.

Initializing an item; selecting a corresponding flow template in an associated flow template library according to the voltage level and the type of the item, carrying out item initialization operation, automatically creating an overall function application of the whole process of the item, providing a business handling inlet in a menu, micro application and other modes, and automatically generating a flow chart of the whole process of the item according to a Directed Acyclic Graph (DAG); users with different roles enter the project application through the unified entry, and the function list of the corresponding role permission is displayed.

The overall project process flow chart is a flow operation chart which is automatically generated according to the configuration of a flow template based on a directed acyclic graph DAG algorithm, so that the overall view of project operation can be shown, and the operation dynamics of service nodes can be shown in real time by fusing the result of data monitoring; the whole process flow chart has two presentation forms, one form is layered presentation, hierarchical drill-down is supported, the connection line between nodes ON the same layer is automatically calculated and drawn according to a common function node (ON), namely a front node arranged by a leaf node, the hierarchical drill-down can be performed all the way down to the common function node (ON) and an approval function node (EAN), the other form is a full view of project operation, namely, the connection line of an actual service handling node is drawn according to the relationship between the common function node (ON), namely the leaf node, so that the project actual operation flow chart is constructed, the hierarchical node, namely a father node, is not displayed any more, only the common function node (ON) and the approval flow node (EAF) of actual service handling are displayed, and the operation sub-flow chart of the approval function node (EAN) can be displayed by clicking the approval flow node (EAF).

The project flow is circulated; after the project is started, personnel with different roles enter the nodes with the corresponding authorities of project application operation to transact business, and after each functional node is completed, the functional nodes with different types perform subsequent processing according to different logics. After the common function node (ON) operation is finished, saving the service data, updating the node state in the project flow example and recording the node operation log, generating a node completion event, triggering a completion event logic according to a predefined node rule, triggering a to-be-handled notification, a mail or a message to notify corresponding personnel according to the rule if the post node is the common function node (ON), and automatically starting an approval workflow and generating a first node personnel to-be-handled task according to the rule if the post node is an approval flow node (EAF). After the approval function node (EAN) operation is finished, automatically flowing according to workflow rules, automatically creating node finishing events, receiving the node finishing events by an event monitoring module, preprocessing the node finishing events, and forwarding the node finishing events to an event distribution module for distribution processing.

Monitoring node data; the data monitoring indexes of the nodes mainly comprise node handling timeliness (NPT) and node data reporting integrity (NDP). Node transacting timeliness (NPT) is used to indicate whether the current node task is transacted on time. And the data monitoring module receives the node handling completion event distributed by the event distribution module and triggers the node handling timeliness calculation logic. The calculation rule is as follows: npt= (TCT-TAT)/BPPD, NPT is less than or equal to 1 indicating timely transaction; NPT >1 represents a timeout transaction. The TCT is task completion time, the TAT is task arrival time, the task completion time is generated by filling or approving the completion time of the node, the task arrival time is the time when the flow goes down to the node after the last node is completed, and the BPPD is the preset service handling duration. The node data filling integrity rate (NDP) is used for representing the integrity degree of data filling of the current node function field, the attachment and the like. The data processing module receives two events, namely a node completion event distributed by the event distribution module and field data change monitored by the database monitoring device, firstly, after confirming the range of the change data, automatically starting a data collection program, collecting the node change data according to the data monitoring attribute of the node, updating a data warehouse according to the project dimension and the scene dimension, and triggering node data report integrity rate calculation logic of data monitoring after updating is completed. The calculation method mainly divides node data into three types: fields, attachments, lists, wherein the list is composed of list sub-items, which are also composed of fields and attachments, so that the unit of node data statistics is the sum (ND) of the total number of fields and attachments. And counting the sum (CSND) of all the filed and the total number of accessories and the sum (RSND) of the filed and the total number of accessories to be filled, wherein NDP=CSND/RSND is 100%, wherein the sum counting method of the filed and the total number of accessories of the list is that if the list is empty, the filed data is 0, the sum (RLIND) of the filed and the total number of accessories to be filled of one list sub-item is adopted, if the filed and the total number of accessories are not empty, the filed data is the sum (RLIND) of the filed and the total number of accessories to be filled of the actual all list sub-items, and the filed and the total number of accessories to be filled of one list sub-item is the product of the sum (RLIND) of the filed and the total number of accessories to be filled of the list sub-item.

Dynamically displaying nodes of the whole process flow chart of the project; after the calculation of the node handling timeliness (NPT) and the node data filling integrity rate (NDP) is completed, the state of the node in the whole process flow chart is updated. The node states display the corresponding states in different colors, and the display rules are as follows: when NDP is less than 100%, the node is displayed in yellow, and the current node is prompted to not finish data filling. Ndp=100% and NPT >1, the node shows red, suggesting that the current node is not transacted in time. Ndp=100% and npt+.1, node shows green, indicating normal processing of node. When the node is not transacted (i.e., the node task arrival time is not generated), the display is gray. The node is in progress (i.e., the node task arrival time has been generated but the node task completion time has not been generated) and is shown in blue. Wherein, NDP represents node data filling integrity rate, NPT represents node handling timeliness.

Task handling; in the project flow process, a user receiving notification of to-be-handled or information reports related data through a work table handling related service, and the user fills in related data and completes node tasks, and automatically flows to the next node.

Service change; in the process of executing the project, if the actual business changes to cause the business flow or node sequence to change, the project can be applied by adjusting the flow template of the current project and then releasing, wherein the template adjustment is only effective to the current project.

Ending the project; the project is operated and executed according to the flow template, and finally all data of the project operation process including various business processing records, project business data, documents and the like can be formed, and a project-level data warehouse is automatically constructed according to the scene dimension and used for archiving subsequent projects.

The application mainly comprises 4 parts of a configuration unit, a whole process control unit, a data monitoring unit and a whole process flow chart display unit.

The configuration unit mainly comprises a scene library module, a function library module and a flow template module. The scene library module is mainly responsible for configuring standardized business scenes, defining the scene attribute and the hierarchical relationship of the whole process of the project. The function library module is mainly responsible for configuring system functions, defining service function attributes and associating scenes. The flow template module is mainly responsible for configuring a flow template, creating flow nodes, setting node scene attributes, functional attributes and data monitoring attributes, and defining the hierarchical relationship of the nodes and the front-back relationship among the nodes.

The whole process control unit mainly comprises a service handling module, an event monitoring module, an event distribution module, a data monitoring module, a service event processing module, a workflow processing module and a data processing module. The whole process control unit is a core component of the whole device, realizes the whole process flow operation of the project based on an event driving technology and a workflow technology, and drives the business circulation in a task mode. The business handling module is mainly responsible for providing a unified entrance for business handling, unified management of tasks to be handled, information, notification and the like, and receiving processing results of the information, notification and the like from the business event processing module and the workflow processing module; the event monitoring module is responsible for monitoring, receiving and storing each service node event in the whole project process and filtering some invalid events; the event distribution module is responsible for receiving the effective event received by the event monitoring module and carrying out distribution processing such as splitting, combining, packaging and the like according to the event type and the service node rule; the business event processing module and the workflow processing module are mainly responsible for receiving business handling type events, wherein a receiver of the workflow processing module examines and approves business handling events of a functional node (EAN) and business handling events of a front node of an examination and approval flow node (EAF), the receiver is responsible for interacting with a workflow engine to finish business circulation and forwarding handling results to the business handling module in modes of waiting for handling, information, notification and the like, the business event processing module is mainly responsible for receiving business handling events of a common functional node (ON), analyzing and recording the events, generating data of waiting for handling, information and the like according to rules, and sending the data to the business handling module, and the business event processing module needs to record complete life cycle data of the whole task for supporting system audit; the data monitoring module is used for monitoring data transaction in the business handling process based on a database monitoring technology, and the main principle is that a database operation log is captured, screening and assembling are carried out according to preset rules, and a change field is packaged and sent to the data processing module for processing by a business node dimension; the data processing module is mainly responsible for receiving node transaction data, configuring and confirming a transaction field range according to node attributes, interacting with the data monitoring unit, triggering a data collection program, and achieving quasi-real-time extraction and collection of the transaction data.

The data monitoring unit mainly comprises a node handling timeliness calculating module, a node data filling integrity rate calculating module, a data collecting module and a data storage module. The node handling timeliness calculation module and the node data filling complete rate calculation module are mainly responsible for calculating handling timeliness and data filling complete rate of the service node according to calculation rules, and interact with the whole process flow chart display unit to display the result in the flow chart; the data collection module is responsible for extracting and screening the designated project nodes or scene data, assembling the data according to the model specification of the data warehouse and submitting the data to the data storage module; the data storage module is mainly responsible for interacting with the data warehouse, updating the business change data into the data warehouse in time, notifying the data filling complete rate calculation module to calculate the data filling complete rate of the business node after updating, and reading related data from the data warehouse by the data filling complete rate calculation module to carry out summarization calculation.

The whole process flow chart display unit mainly comprises a flow chart template display module, a project whole process flow chart display module and a service node state update module. The flow template diagram display module is mainly responsible for displaying a flow circulation overview of the flow template, and displaying a configuration result of the flow template in real time in a circulation overview mode; the project whole process flow chart display module is mainly responsible for displaying a project whole process flow chart, displaying a flow chart of the project actual operation in two modes of hierarchical penetration and full flow chart, and dynamically displaying the states of nodes including a business handling state and a data reporting state; the service node state updating module is mainly responsible for receiving the service node updating state sent by the data monitoring unit and feeding back the service node updating state on the graph in real time.

The computer readable storage medium for the present embodiment stores a computer program which, when executed by a processor, performs a method of managing the whole process of electric power engineering in a specific implementation process.

A computing device for this embodiment, comprising: the system comprises a memory, a processor and a computer program which is stored in the memory and can be run on the processor, wherein the processor executes a management method of the whole electric power engineering process in the specific implementation process when running the computer program.

It will be appreciated by those skilled in the art that 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 realized by adopting various computer languages, such as object-oriented programming language Java, an transliteration script language JavaScript and the like.

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 flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations 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 stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function 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 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. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present application without departing from the spirit or scope of the application. Thus, it is intended that the present application also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. The method for managing the whole process of the electric power engineering is characterized by comprising the following steps of:

step 1, creating a scene library and a function library;

step 2, creating a flow template library, and constructing the flow template library according to the type of the power engineering project and the voltage class requirement;

step 3, initializing the project, namely carrying out project initialization operation according to a process template corresponding to project matching;

step 4, project flow circulation, namely after project initialization, circulation of each task is carried out through matching of personnel and tasks;

step 5, project handling, namely, a user receiving to-be-handled or message notification fills in related data and completes node tasks, and automatically flows to the next node;

and 6, changing and finishing the project, changing the project according to the requirement and the corresponding template, and archiving the data after finishing the whole project.

2. The method according to claim 1, wherein the creating a scene library in step 1 includes creating a scene library according to a standardized business scene management specification of the power engineering, defining a project whole process scene and its attributes, creating scene library attributes including names, numbers, hierarchical relationships, scene users, business targets, and functional descriptions, the scene library exhibiting hierarchical relationships between scenes with a tree structure; the construction of the function library comprises the following steps: according to the function design of the project management system, defining the service functions of the function library and the attributes thereof, wherein the service function attributes comprise function names, function types, application ranges and function page routes, and are associated with scenes, and the functions and the scenes are in one-to-many relation.

3. The method for managing the whole process of the electric power engineering according to claim 1, wherein the creating flow template library is provided with flow nodes, the hierarchical relationship among the flow nodes is shown in a tree structure, and the series relationship among the flow nodes is shown in a flow chart; the flow nodes are of four types, namely a hierarchical node OPN, a common function node ON, an approval flow node EAF and an approval function node EAN.

4. The method for managing an overall process of power engineering according to claim 3, wherein the method for creating the flow node includes a method for creating a reference scene and a method for creating a node in a self-defined manner; the former directly refers to scenes in the associated scene library, the creation mode directly multiplexes the hierarchical relationship and the series relationship of the scenes, and the nodes directly multiplex the scene association function; the latter adds nodes and sets front node to quote the function in function library; the data monitoring attribute of the flow node is defined, and the data monitoring attribute comprises a service handling preset time length, a monitoring service field, an event and event triggering rule, an event triggering action and a receiving role.

5. The method according to claim 1, wherein the initializing the project in the step 3 comprises: selecting a corresponding flow template in an associated flow template library according to the voltage level and the type of the item, carrying out item initialization operation, automatically creating an overall function application of the whole process of the item, providing a business handling inlet in a menu and micro application mode, and automatically generating a flow chart of the whole process of the item according to a directed acyclic graph algorithm DAG; users with different roles enter the project application through the unified entry, and the function list of the corresponding role permission is displayed.

6. The method for managing the whole process of the electric power engineering according to claim 5, wherein the whole process flow chart of the project has two presentation forms, one form is layered presentation, the hierarchical drill-down is supported, the connection between the nodes ON the same layer is automatically calculated and drawn according to the front node set by the common function node ON, namely the leaf node, the hierarchical drill-down can be performed all the way to the common function node ON and the approval function node EAN, the other form is a whole project operation chart, namely the connection line of the actual service handling node is drawn according to the relationship between the common function node ON, namely the leaf node, the actual operation flow chart of the project is constructed, the hierarchical node, namely the father node, only the common function node ON and the approval node EAF of the actual service handling are displayed, and the operation sub-flow chart of the approval function node EAN is displayed by clicking the approval node EAF.

7. The method for managing the whole process of the electric power engineering according to claim 1, wherein the project flow in the step 4 includes that after the project is started, personnel with different roles enter the nodes with the corresponding authorities of project application operation to transact business, and after each functional node is completed, the functional nodes with different types perform subsequent processing according to different logics; the detection indexes of the node data in the process comprise node handling timeliness NPT and node data reporting integrity rate NDP; the node handling timeliness NPT is used for indicating whether the current node task is handled on time; the node data filling integrity rate NDP is used for representing the integrity degree of data filling of the current node function field, the accessory and the like.

8. The system for managing the whole process of the electric power engineering is characterized in that the model reasoning comprises a configuration unit, a whole process control unit, a data monitoring unit and a whole process flow chart display unit;

the configuration unit comprises a scene library module, a function library module and a flow template module;

the whole process control unit mainly comprises a service handling module, an event monitoring module, an event distribution module, a data monitoring module, a service event processing module, a workflow processing module and a data processing module; the whole process flow operation of the project is realized based on an event driving technology and a workflow technology, and the business circulation is driven in a task mode;

the data monitoring unit comprises a node handling timeliness calculation module, a node data filling integrity rate calculation module, a data collection module and a data storage module;

the whole process flow chart display unit comprises a flow chart template display module, a project whole process flow chart display module and a service node state update module.

9. Computer readable storage medium, in which a computer program is stored, characterized in that the computer program, when being run by a processor, performs the method of managing the whole process of an electrical power engineering according to any one of claims 1 to 7.

10. A computing device, comprising: a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor executes the method of managing the whole process of the power engineering according to any one of claims 1 to 7 when the computer program is executed by the processor.