CN111881202A - Data resource visualization merging display method and system - Google Patents

Abstract

The invention discloses a combined display method and system for visualization of data resources. The combined display method for visualization of data resources is composed of the following modules, which include comprehensive visualization of resources, business visualization, and comprehensive large-screen monitoring of asset management. The display includes the main distribution network equipment account, power grid topology, material storage, streaming media information, weather information and electricity customers. The business visualization includes equipment status and risks, equipment overload, equipment defects, equipment trips, power outage management, production Comprehensive monitoring of plans and business associations. The comprehensive large-screen monitoring of asset management includes a comprehensive large-screen material management screen, a comprehensive large-screen infrastructure management screen, a comprehensive large-screen plan management screen, a large-screen risk situation awareness screen, a large-screen company profile screen, and a large-screen operation monitoring screen And the cross-business domain business display related to lean management and operation management, improve the efficiency of production management, and ultimately improve the lean management level of the enterprise.

Description

A combined display method and system for data resource visualization

technical field

The invention belongs to the technical field of visualization of production resources, and in particular relates to a combined display method and system for visualization of data resources.

Background technique

The visualization of production resources is mainly based on the geographic information platform to achieve quasi-real-time tracking and situational awareness of enterprise operating resources such as equipment, customers, and personnel. Visual display, production plan execution, power outage, equipment status and risk, equipment overload, equipment defects, power outage management and other business visualization development and implementation.

The existing production resource visualization display methods and technologies have the following problems: with the continuous development of refined production management requirements, the scope of business involved continues to expand, and new visualization needs emerge, and at the same time, further requirements for the original visualization content are also put forward. , With the increased investment in production construction and management, and the further advancement of the practical application of the integrated enterprise management information system, in accordance with the standardized management requirements of distribution network production management, the standardized management application requirements for distribution network production are becoming more and more urgent. Therefore, a new resource visualization display method is urgently needed to solve the current production resource management problems.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide a combined display method and system for visualization of data resources, so as to solve the problem that with the continuous development of refined production management requirements, the scope of business involved continues to expand, and new visualization requirements emerge at the same time. , and also put forward further requirements for the original visual content. With the increased investment in production construction and management, and the further promotion of the practical application of the integrated enterprise management information system, in accordance with the standardized management requirements of distribution network production management, for distribution network production management. The demand for standardized management and application of online production is becoming more and more urgent, so a new resource visualization display method is urgently needed to solve the current production resource management problems.

To achieve the above object, the present invention provides the following technical solutions:

A combined display method for visualization of data resources, the method for combined display of visualization of data resources is composed of the following modules, which include comprehensive visualization of resources, business visualization, and comprehensive large-screen monitoring of asset management, and the comprehensive visualization of resources includes a main distribution network. Equipment ledger, power grid topology, material warehousing, streaming media information, weather information and electricity customers, the business visualization includes equipment status and risk, equipment overload, equipment defects, equipment tripping, power outage management, production planning and business related integration Monitoring, the asset management comprehensive large-screen monitoring includes material management comprehensive large-screen, infrastructure management comprehensive large-screen, plan management comprehensive large-screen, risk situation awareness large-screen, company profile large-screen, operation change monitoring large-screen and lean management, Cross-business domain business presentation related to operation and management.

Preferably, the operation process of the visualized comprehensive display of resources is as follows:

Process 1: Relying on geographic information to display power grid topology, main distribution network equipment ledger, material warehouse resources, marketing customer information and external meteorological information and other resources, to realize the combination of various business resources of the power grid and the realization of data association and integration;

Process 2: Overlay and display on a map, and use different color rendering to achieve a quasi-real-time display effect of single resource, multi-dimensional, multi-resource, and cross-data.

Preferably, the operation process of the business visualization is as follows:

Process 1: Based on the visualization of resources, strengthen the management and control of the business process, and integrate the equipment ledger information, power outage information, defects and loads and other information according to the needs of business monitoring and corresponding business scenarios;

Process 2: Monitor the key factors of business operation in real time, realize business correlation display, and visualize the situational awareness of power grid operation and equipment risks.

Preferably, the operation process of the comprehensive large-screen monitoring of the asset management is as follows:

Process 1: Take the big screen of the monitoring center as the main carrier, expand and improve the business fields of planning, infrastructure, materials and other business fields, as well as the operation management and control of cross-business field business;

Process 2: Improve the support ability of operation-assisted decision-making, and further realize the observable, measurable and controllable lean management requirements.

A data resource visualization system includes a data layer, a service layer, a monitoring layer and a display layer.

Preferably, the construction process of the data layer is as follows:

Process 1: Follow the principle of habit over configuration, and use the SpringBoot lightweight framework;

Process 2: Based on the original excellent features of the Spring framework, simplify the configuration to further simplify the entire construction and development process of the Spring application.

Preferably, the construction process of the service layer is as follows:

Process 1: The servlet container is embedded, which reduces the requirements for the environment, and the project can be executed directly with commands;

Process 2: Provide starter POM, which can be very convenient for package management;

Process 3: Combined with MyBatis, support customized SQL, stored procedures and advanced mapping, decouple SQL from program code, and will not impose any impact on the existing design of the application or database.

Preferably, the construction process of the monitoring layer is as follows:

Process 1: Implement the Action at Struts based on the MVC framework of the J2EE platform;

Process 2: Through the built-in MVC development mode, the model-view-controller is separated to improve the scalability and flexibility of the system.

Preferably, the construction process of the display layer is as follows:

Process 1: Use ArcGIS API for JavaScript to display;

Process 2: Quickly create an interactive map application, and access other resources of the published map service by calling related methods to achieve service aggregation.

Compared with the prior art, the present invention provides a combined display method and system for visualization of data resources, which has the following beneficial effects:

1. Through the construction of the present invention, it further assists and supports key businesses such as marketing, production, infrastructure, and materials, and uses map visualization to intuitively monitor problems and risks in the management process, reminding managers to continuously improve management work, improve production management efficiency, and ultimately improve The lean management level of the enterprise.

2. Through the construction of the present invention, it is helpful to comprehensively monitor the management of each link of the business operation, discover the weak links in the management process in time, clarify the responsible person of each node, quickly locate and solve the problem, and improve the business personnel and management personnel. Work efficiency, effectively reduce communication costs, thereby reducing total management costs.

3. Through the comprehensive use of advanced visual software technology means and corresponding hardware display carriers, the monitoring, early warning and in-depth analysis of the whole process of enterprise operation can be realized, and effective collaboration between businesses can be promoted. Industry leading image.

Detailed ways

Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

The present invention provides a combined display method and system technical scheme for data resource visualization:

A combined display method for visualization of data resources, including comprehensive visualization of resources, business visualization, and comprehensive large-screen monitoring of asset management. And electricity customers, business visualization includes equipment status and risk, equipment overload, equipment defect, equipment trip, power outage management, production plan and business related comprehensive monitoring, asset management comprehensive large-screen monitoring includes material management comprehensive large-screen, infrastructure management comprehensive monitoring Large screen, comprehensive plan management screen, risk situation awareness screen, company profile screen, operation change monitoring screen, and cross-business domain business display related to lean management and operation management.

A combined display method for data resource visualization, including the operation process of resource visualization comprehensive display is as follows:

Process 1: Relying on geographic information to display power grid topology, main distribution network equipment ledger, material warehouse resources, marketing customer information and external meteorological information and other resources, to realize the combination of various business resources of the power grid and the realization of data association and integration;

Process 2: Overlay and display on a map, and use different color rendering to achieve a quasi-real-time display effect of single resource, multi-dimensional, multi-resource, and cross-data.

A combined display method of data resource visualization, including the operation process of business visualization is as follows:

Process 1: Based on the visualization of resources, strengthen the management and control of the business process, and integrate the equipment ledger information, power outage information, defects and loads and other information according to the needs of business monitoring and corresponding business scenarios;

Process 2: Monitor the key factors of business operation in real time, realize business correlation display, and visualize the situational awareness of power grid operation and equipment risks.

A combined display method for visualization of data resources, including the operation process of comprehensive large-screen monitoring of asset management is as follows:

Process 1: Take the big screen of the monitoring center as the main carrier, expand and improve the business fields of planning, infrastructure, materials and other business fields, as well as the operation management and control of cross-business field business;

Process 2: Improve the support ability of operation-assisted decision-making, and further realize the observable, measurable and controllable lean management requirements.

A data resource visualization system includes a data layer, a service layer, a monitoring layer and a presentation layer.

A data resource visualization system, including the construction process of the data layer is as follows:

Process 1: Follow the principle of habit over configuration, and use the SpringBoot lightweight framework;

Process 2: Based on the original excellent features of the Spring framework, simplify the configuration to further simplify the entire construction and development process of the Spring application.

A data resource visualization system, including the construction process of a service layer, is as follows:

Process 1: The servlet container is embedded, which reduces the requirements for the environment, and the project can be executed directly with commands;

Process 2: Provide starter POM, which can be very convenient for package management;

Process 3: Combined with MyBatis, support customized SQL, stored procedures and advanced mapping, decouple SQL from program code, and will not impose any impact on the existing design of the application or database.

A data resource visualization system, including the construction process of the monitoring layer is as follows:

Process 1: Implement the Action at Struts based on the MVC framework of the J2EE platform;

Process 2: Through the built-in MVC development mode, the model-view-controller is separated to improve the scalability and flexibility of the system.

A data resource visualization system, including the construction process of the display layer is as follows:

Process 1: Use ArcGIS API for JavaScript to display;

Process 2: Quickly create an interactive map application, and access other resources of the published map service by calling related methods to achieve service aggregation.

The working principle of the present invention and the use flow:

Data resource visualization methods:

1. Relying on geographic information to display power grid topology, main distribution network equipment ledger, material warehouse resources, marketing customer information and external meteorological information and other resources, realize the combination of various business resources of the power grid, realize data association and integration, and then superimpose and display on a map , and use the rendering of different colors to realize the quasi-real-time display effect of single resource, multi-dimensional, multi-resource, and cross-data.

2. Based on the visualization of resources, strengthen the management and control of the business process, and integrate the equipment ledger information, power outage information, defects and loads and other information according to the needs of business monitoring and the corresponding business scenarios, and monitor the key factors of business operation in quasi-real time. Correlation display, visualize the situational awareness of power grid operation and equipment risks.

3. With the large screen of the monitoring center as the main carrier, expand and improve the business domains of planning, infrastructure, materials and other business domains, as well as the operation management and control of cross-business domain business, improve the support ability of operation-assisted decision-making, and further realize the observable, measurable and controllable lean management requirements.

Data resource visualization system:

The visual display system of production resources adopts B/S mode, which is divided into multi-layer structure, including data layer, service layer, monitoring layer and display layer. The system security system runs through each layer.

1. In the selection of the system framework, follow the principle of habit over configuration, and use the SpringBoot lightweight framework. Based on Spring 4.0 design, it not only inherits the original excellent features of the Spring framework, but also further simplifies the entire construction and development process of Spring applications by simplifying the configuration. Using this framework, you can build projects quickly, most of them can use the default configuration, and can automatically integrate third-party frameworks without configuration.

2. The servlet container is embedded in the framework, which reduces the requirements for the environment. The project can be executed directly with commands. It also provides a starter POM, which can be very convenient for package management. Combined with MyBatis, it supports customized SQL, stored procedures and advanced mapping. The coupling of sql to program code and does not impose any impact on the existing design of the application or database.

3. The monitoring layer is implemented by the Action of Struts. Struts is an MVC framework based on the J2EE platform with mature technology and wide application. It separates the model-view-controller through the built-in MVC development mode to improve the system performance. Scalability and flexibility.

4. The presentation layer is implemented with ArcGIS API for JavaScript, which can quickly create interactive map applications, and access other resources of published map services by calling related methods to achieve service aggregation.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, and substitutions can be made in these embodiments without departing from the principle and spirit of the invention and modifications, the scope of the present invention is defined by the appended claims and their equivalents.

Claims (9)

1. A method for merging and displaying data resource visualizations is characterized in that: the data resource visualization merging display method comprises the following modules, and comprises the steps of resource visualization comprehensive display, service visualization and asset management comprehensive large screen monitoring, wherein the resource visualization comprehensive display comprises a main distribution network equipment account, a power grid topology, material storage, streaming media information, meteorological information and electricity utilization customers, the service visualization comprises equipment state and risk, equipment overload, equipment defects, equipment tripping, power failure management, a production plan and service association comprehensive monitoring, and the asset management comprehensive large screen monitoring comprises a material management comprehensive large screen, a infrastructure management comprehensive large screen, a plan management comprehensive large screen, a risk situation perception large screen, a company profile large screen, an operation abnormal monitoring large screen and cross-service domain service display related to lean management and operation management.

2. The merged displaying method of data resource visualization as claimed in claim 1, wherein: the operation flow of the resource visual comprehensive display is as follows:

the first process is as follows: the method comprises the following steps of displaying power grid topology, main and distribution network equipment ledgers, material warehouse resources, marketing customer information, external meteorological information and other resources by means of geographic information, realizing combination of all business resources of a power grid and realizing data association integration;

and a second process: the data are displayed on a map in an overlapped mode, and the effect of quasi-real-time display of single-resource multi-dimension, multi-resource and cross-data is achieved by rendering with different colors.

3. The merged displaying method of data resource visualization as claimed in claim 1, wherein: the operation flow of the business visualization is as follows:

the first process is as follows: based on resource visualization development, business process control is enhanced, and equipment ledger information, power failure information, defects, loads and other information are fused according to business monitoring requirements and corresponding business scenes;

and a second process: and monitoring key factors of service operation in real time, realizing service association display, and visually displaying situation awareness of power grid operation and equipment risk.

4. The merged displaying method of data resource visualization as claimed in claim 1, wherein: the operation flow of the asset management integrated large-screen monitoring is as follows:

the first process is as follows: the large screen of the monitoring center is used as a main carrier, and the operation control of service domains such as plans, capital construction, materials and the like and cross-service domain services is expanded and perfected;

and a second process: the support capability of the operation aid decision is improved, and the requirements of appreciable, measurable and controllable lean management are further met.

5. A data resource visualization system, characterized by: the data resource visualization system comprises a data layer, a service layer, a monitoring layer and a display layer.

6. A data resource visualization system as claimed in claim 5 wherein: the construction flow of the data layer is as follows:

the first process is as follows: following the principle that the habit is superior to the configuration, a SpringBoot lightweight frame is adopted;

and a second process: based on the original excellent characteristics of the Spring framework, the configuration is simplified to further simplify the whole construction and development process of the Spring application.

7. A data resource visualization system as claimed in claim 5 wherein: the construction process of the service layer is as follows:

the first process is as follows: the embedded servlet container reduces the requirement on the environment, and can directly execute the project by using a command;

and a second process: a starter POM is provided, so that package management can be conveniently carried out;

and a third process: in conjunction with MyBatis, customized SQL, stored procedures, and advanced mapping are supported, decoupling SQL from program code, and not imposing any impact on the existing design of the application or database.

8. A data resource visualization system as claimed in claim 5 wherein: the construction process of the monitoring layer is as follows:

the first process is as follows: implementing an Action at Struts based on the MVC framework of the J2EE platform;

and a second process: by means of the built-in MVC development mode, the model, the view and the controller are separated, and the expandability and the flexibility of the system are improved.

9. A data resource visualization system as claimed in claim 5 wherein: the construction process of the display layer is as follows:

the first process is as follows: realizing display by adopting ArcGIS API for JavaScript;

and a second process: and (3) quickly creating an interactive map application, and accessing other resources of the published map service by calling a related method to realize service aggregation.