CN108717356B - Metering holographic visual display method and device - Google Patents

Abstract

The invention discloses a metering holographic visual display method and a device, which construct Canvas class library ZRender from source data acquired from a provincial metering automation system and/or a regional scheduling system and/or a production management system and/or a geographic information system and/or a video monitoring system and/or a meteorological environment system and utilize a class DataV data visual tool to visually display, thereby solving the problems that the metering automation system in the prior art can not intervene and guide the calculation process, can only passively wait for the output of the calculation result, a large amount of output data can only be processed in a manual mode, or a plotter is used for outputting a two-dimensional graph or a data table, not only the contrast between data is lacked, but also the data can not be visualized, detailed information behind the data is reflected in an image, so that a supervisor is hard to find abnormal conditions in the face of the data table, bringing great inconvenience to the supervision work.

Description

Metering holographic visual display method and device

Technical Field

The invention belongs to the field of electric power metering, and particularly relates to a metering holographic visual display method and device.

Background

The informatization process of China is deeply advanced into the power industry, the construction of a smart power grid is gradually mature, power metering automation equipment is gradually increased, power metering data is increasingly huge, how to better utilize the metering data and realize the energy saving loss of the power grid, and the method is one of the problems to be solved urgently.

The metering automation system in the prior art cannot intervene and guide the calculation process, only can wait for the output of the calculation result passively, a large amount of output data can be displayed and only can be processed manually, or a plotter is used for outputting two-dimensional graphs or data tables, so that the comparison between data is lacked, the data cannot be visualized, detailed information behind the data is reflected visually, a supervisor faces the data tables, abnormal conditions are difficult to find out from the data tables, and a great deal of inconvenient technical problems are brought to the supervision work.

Disclosure of Invention

The invention provides a metering holographic visual display method and device, which are used for solving the technical problems that a metering automation system in the prior art cannot intervene and guide a computing process, only passively waits for the output of a computing result, a large amount of output data can be processed only in a manual mode, or a two-dimensional graph or a data table is output by using a plotter, so that the comparison between data is lacked, the detailed information behind the data cannot be visually reflected, a supervisor faces the data table, abnormal conditions are difficult to find out from the data table, and much inconvenience is brought to the supervision work.

The invention provides a metering holographic visual display method, which comprises the following steps:

acquiring source data based on an HTML5Canvas from a power grid system, the power grid system comprising: a provincial metering automation system and/or a regional scheduling system and/or a production management system and/or a geographic information system and/or a video monitoring system and/or a meteorological environment system;

constructing a Canvas class library ZRender according to the source data;

and visually displaying the Canvas class library ZRender through a class DataV data visualization tool.

Preferably, the source data specifically includes: metering data corresponding to each region;

the visually displaying the Canvas class library ZRender through a class DataV data visualization tool specifically comprises the following steps:

and constructing a data map for the Canvas class library ZRender through a class DataV data visualization tool, wherein the data map comprises region information and metering data corresponding to each region.

Preferably, the source data specifically includes: a power system flow direction;

the visually displaying the Canvas class library ZRender through a class DataV data visualization tool specifically comprises the following steps:

and constructing a dynamic flow diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the dynamic flow diagram comprises direction information corresponding to the power flow direction of the power system.

Preferably, the source data specifically includes: regional load distribution information and regional voltage distribution information;

the visually displaying the Canvas class library ZRender through a class DataV data visualization tool specifically comprises the following steps:

and constructing a regional load and voltage distribution diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the regional load and voltage distribution diagram comprises regional load distribution information and regional voltage distribution information.

Preferably, the source data specifically includes: an electric power metering data index;

the visually displaying the Canvas class library ZRender through a class DataV data visualization tool specifically comprises the following steps:

and constructing an electric power metering data index qualified graph for the Canvas class library ZRender through a class DataV data visualization tool, wherein the electric power metering data index qualified graph comprises electric power metering data qualified information corresponding to electric power metering data indexes.

The invention provides a metering holographic visual display device, which comprises:

a first obtaining module, configured to obtain source data based on an HTML5Canvas from a power grid system, where the power grid system includes: a provincial metering automation system and/or a regional scheduling system and/or a production management system and/or a geographic information system and/or a video monitoring system and/or a meteorological environment system;

the first construction module is used for constructing a Canvas class library ZRender according to the source data;

and the first display module is used for visually displaying the Canvas class library ZRender through a class DataV data visualization tool.

Preferably, the first obtaining module is specifically configured to:

acquiring source data based on an HTML5Canvas from a power grid system, the power grid system comprising: the system comprises a provincial metering automation system, a regional scheduling system, a production management system, a geographic information system, a video monitoring system and a meteorological environment system, wherein the source data specifically comprise: metering data corresponding to each region;

the first display module is specifically configured to: and constructing a data map for the Canvas class library ZRender through a class DataV data visualization tool, wherein the data map comprises region information and metering data corresponding to each region.

Preferably, the first obtaining module is specifically configured to:

acquiring source data based on an HTML5Canvas from a power grid system, the power grid system comprising: the system comprises a provincial metering automation system, a regional scheduling system, a production management system, a geographic information system, a video monitoring system and a meteorological environment system, wherein the source data specifically comprise: a power system flow direction;

the first display module is specifically configured to: and constructing a dynamic flow diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the dynamic flow diagram comprises direction information corresponding to the power flow direction of the power system.

Preferably, the first obtaining module is specifically configured to:

acquiring source data based on an HTML5Canvas from a power grid system, the power grid system comprising: the system comprises a provincial metering automation system, a regional scheduling system, a production management system, a geographic information system, a video monitoring system and a meteorological environment system, wherein the source data specifically comprise: regional load distribution information and regional voltage distribution information;

the first display module is specifically configured to: and constructing a regional load and voltage distribution diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the regional load and voltage distribution diagram comprises regional load distribution information and regional voltage distribution information.

Preferably, the first obtaining module is specifically configured to:

acquiring source data based on an HTML5Canvas from a power grid system, the power grid system comprising: the system comprises a provincial metering automation system, a regional scheduling system, a production management system, a geographic information system, a video monitoring system and a meteorological environment system, wherein the source data specifically comprise: an electric power metering data index;

the first display module is specifically configured to: and constructing an electric power metering data index qualified graph for the Canvas class library ZRender through a class DataV data visualization tool, wherein the electric power metering data index qualified graph comprises electric power metering data qualified information corresponding to electric power metering data indexes.

According to the technical scheme, the invention has the following advantages:

the invention provides a metering holographic visual display method, which comprises the following steps:

acquiring source data based on an HTML5Canvas from a power grid system, the power grid system comprising: a provincial metering automation system and/or a regional scheduling system and/or a production management system and/or a geographic information system and/or a video monitoring system and/or a meteorological environment system; constructing a Canvas class library ZRender according to the source data; and visually displaying the Canvas class library ZRender through a class DataV data visualization tool.

In the invention, a Canvas class library ZRender is constructed by the source data acquired from a provincial metering automation system and/or a regional scheduling system and/or a production management system and/or a geographic information system and/or a video monitoring system and/or a meteorological environment system, and utilizes a dataV-like data visualization tool to perform visualization display, solves the problems that the metering automation system in the prior art can not intervene and guide the calculation process, can only passively wait for the output of the calculation result, can only manually process a large amount of output data display, or the two-dimensional graph or the data table is output by using the plotter, so that the comparison between data is lacked, the detailed information behind the data cannot be visually reflected, and the technical problems that the supervision personnel faces the data table, the abnormal condition is difficult to find out from the data table, and the supervision work is inconvenient are caused are solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic flow chart diagram illustrating an embodiment of a metrology holographic visualization method provided by the present invention;

FIG. 2 is a schematic flow chart diagram illustrating another embodiment of a metrology holographic visualization presentation method provided by the present invention;

fig. 3 is a schematic structural diagram of an embodiment of a metering holographic visualization presentation device provided by the present invention.

Detailed Description

The embodiment of the invention provides a metering holographic visual display method and device, which are used for solving the technical problems that a metering automatic system in the prior art cannot intervene and guide a calculation process, only passively waits for the output of a calculation result, a large amount of output data can be processed only in a manual mode, or a two-dimensional graph or a data table is output by using a plotter, so that the comparison between data is lacked, the detail information behind the data cannot be visually reflected, a supervisor faces the data table, abnormal conditions are difficult to find out from the data table, and much inconvenience is brought to the supervision work.

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the embodiments described below are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of a metrology holographic visualization presentation method provided by the present invention includes:

101: acquiring source data based on an HTML5Canvas from a power grid system, wherein the power grid system comprises: a provincial metering automation system and/or a regional scheduling system and/or a production management system and/or a geographic information system and/or a video monitoring system and/or a meteorological environment system;

the method comprises the steps of obtaining source data (adjusted according to actual conditions) from each system of a power grid, wherein the source data comprise a provincial metering automation system and/or a regional scheduling system and/or a production management system and/or a geographic information system and/or a video monitoring system and/or a meteorological environment system, optionally, the source data can be logically divided into business data and real-time data according to data characteristics, and meanwhile, the data are screened and converted and intelligently fused by using an intelligent data quality fusion technology.

102: constructing a Canvas class library ZRender according to the source data;

optionally, after various source data based on the HTML5Canvas are sorted and fused (including ECharts, highhards, and the like), a Canvas class library ZRender special for the metering visualization system is formed;

103: carrying out visual display on the Canvas class library ZRender through a class DataV data visualization tool;

it should be noted that the DataV-like data visualization tool is a draggable visualization tool, and can be used for visualizing the fusion of geographic information and business data, providing rich power templates and chart components, and completing the configuration of styles and data by dragging;

in the embodiment of the invention, the Canvas class library ZRender is constructed by the source data acquired from the provincial metering automation system and/or the regional scheduling system and/or the production management system and/or the geographic information system and/or the video monitoring system and/or the meteorological environment system, and utilizes a dataV-like data visualization tool to perform visualization display, solves the problems that the metering automation system in the prior art can not intervene and guide the calculation process, can only passively wait for the output of the calculation result, can only manually process a large amount of output data display, or the two-dimensional graph or the data table is output by using the plotter, so that the comparison between data is lacked, the detailed information behind the data cannot be visually reflected, and the technical problems that the supervision personnel faces the data table, the abnormal condition is difficult to find out from the data table, and the supervision work is inconvenient are caused are solved.

The above is a description of one embodiment of a metrology holographic visualization presentation method, and another embodiment of a metrology holographic visualization presentation method is described in detail below.

Referring to fig. 2, another embodiment of a metrology holographic visualization presentation method provided by the present invention includes:

201: acquiring source data based on an HTML5Canvas from a power grid system, wherein the power grid system comprises: a provincial metering automation system and/or a regional scheduling system and/or a production management system and/or a geographic information system and/or a video monitoring system and/or a meteorological environment system;

acquiring source data (adjusted according to actual conditions) from each system of a power grid, wherein the source data comprises a provincial metering automation system and/or a regional scheduling system and/or a production management system and/or a geographic information system and/or a video monitoring system and/or a meteorological environment system, optionally, the source data can be logically divided into service data and real-time data according to data characteristics, and meanwhile, the data is screened, converted and intelligently fused by using an intelligent data quality fusion technology;

202: constructing a Canvas class library ZRender according to the source data;

optionally, after various source data based on the HTML5Canvas are sorted and fused (including ECharts, highhards, and the like), a Canvas class library ZRender special for the metering visualization system is formed;

203: the source data specifically includes: metering data corresponding to each region;

constructing a data map for a Canvas class library ZRender through a class DataV data visualization tool, wherein the data map comprises region information and metering data corresponding to each region;

the data map can be used for realizing the drilling down layer by layer in the process of displaying the metering data, optionally, the data map can be a provincial map which reflects the provincial situation, for example, when the metering data of a certain region is required to be viewed, a certain city in the map can be clicked, the city-level metering data display result can be viewed, a certain county in the city can be clicked, and the county-level metering data display result can be viewed;

204: the source data specifically includes: a power system flow direction;

and constructing a dynamic flow diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the dynamic flow diagram comprises direction information corresponding to the power flow direction of the power system.

Optionally, the power flow direction of the power system can be reflected by drawing a dynamic flow diagram of the power flow direction of the power system, and the color of the power flow direction can be gradually represented by red, yellow and green according to the height;

205: the source data specifically includes: regional load distribution information and regional voltage distribution information;

and constructing a regional load and voltage distribution diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the regional load and voltage distribution diagram comprises regional load distribution information and regional voltage distribution information.

Alternatively, the distribution condition of the load/voltage of an area in a certain area can be reflected by drawing a thermodynamic diagram, and the color of the area is darker when the load/voltage distribution of the area is higher;

206: the source data specifically includes: an electric power metering data index;

constructing an electric power metering data index qualified graph for a Canvas class library ZRender through a class DataV data visualization tool, wherein the electric power metering data index qualified graph comprises electric power metering data qualified information corresponding to electric power metering data indexes;

optionally, various metering indexes can be displayed by drawing the intelligent instrument, and the indexes are gradually changed from green qualified indexes to red unqualified indexes.

While another embodiment of a metrology holographic visualization presentation method has been described above, an embodiment of a metrology holographic visualization presentation device will be described in detail below.

Referring to fig. 3, an embodiment of a fault protection device for a power distribution system including an energy storage according to the present invention includes:

a first obtaining module 301, configured to obtain source data based on an HTML5Canvas from a power grid system, where the power grid system includes: a provincial metering automation system and/or a regional scheduling system and/or a production management system and/or a geographic information system and/or a video monitoring system and/or a meteorological environment system;

a first construction module 302, configured to construct a Canvas class library ZRender according to the source data;

and the first display module 303 is configured to visually display the Canvas class library ZRender through a class DataV data visualization tool.

Further, the first obtaining module 301 is specifically configured to:

acquiring source data based on an HTML5Canvas from a power grid system, wherein the power grid system comprises: the system comprises a provincial metering automation system, a regional scheduling system, a production management system, a geographic information system, a video monitoring system and a meteorological environment system, wherein the source data specifically comprise: metering data corresponding to each region;

the first display module 303 is specifically configured to: and constructing a data map for the Canvas class library ZRender through a class DataV data visualization tool, wherein the data map comprises region information and metering data corresponding to each region.

Further, the first obtaining module 301 is specifically configured to:

acquiring source data based on an HTML5Canvas from a power grid system, wherein the power grid system comprises: the system comprises a provincial metering automation system, a regional scheduling system, a production management system, a geographic information system, a video monitoring system and a meteorological environment system, wherein the source data specifically comprise: a power system flow direction;

the first display module 303 is specifically configured to: and constructing a dynamic flow diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the dynamic flow diagram comprises direction information corresponding to the power flow direction of the power system.

Further, the first obtaining module 301 is specifically configured to:

acquiring source data based on an HTML5Canvas from a power grid system, wherein the power grid system comprises: the system comprises a provincial metering automation system, a regional scheduling system, a production management system, a geographic information system, a video monitoring system and a meteorological environment system, wherein the source data specifically comprise: regional load distribution information and regional voltage distribution information;

the first display module 303 is specifically configured to: and constructing a regional load and voltage distribution diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the regional load and voltage distribution diagram comprises regional load distribution information and regional voltage distribution information.

Further, the first obtaining module 301 is specifically configured to:

acquiring source data based on an HTML5Canvas from a power grid system, wherein the power grid system comprises: the system comprises a provincial metering automation system, a regional scheduling system, a production management system, a geographic information system, a video monitoring system and a meteorological environment system, wherein the source data specifically comprise: an electric power metering data index;

the first display module 303 is specifically configured to: and constructing an electric power metering data index qualified graph for the Canvas class library ZRender through a class DataV data visualization tool, wherein the electric power metering data index qualified graph comprises electric power metering data qualified information corresponding to electric power metering data indexes.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the methods and modules described above may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, a division of a unit is merely a logical division, and an actual implementation may have another division, for example, a plurality of modules or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or modules, and may be in an electrical, mechanical or other form.

In addition, functional modules in the embodiments of the present invention may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. A metering holographic visual display method is characterized by comprising the following steps:

acquiring source data based on HTML5Canvas from a power grid system, the power grid system comprising: provincial metering automation system and/or regional scheduling system and/or production management system and/or geographic information system and/or video monitoring system and/or meteorological environment system, the source data specifically includes: metering data corresponding to each region;

constructing a Canvas class library ZRender according to the source data;

and constructing a data map for the Canvas class library ZRender through a class DataV data visualization tool and performing visualization display, wherein the data map comprises region information and metering data corresponding to each region, and layer-by-layer drilling in the metering data display process is realized based on the data map.

2. The method for representation of metrology holographic visualization of claim 1, wherein the source data specifically comprises: a power system flow direction;

the visually displaying the Canvas class library ZRender through a class DataV data visualization tool specifically comprises the following steps:

and constructing a dynamic flow diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the dynamic flow diagram comprises direction information corresponding to the power flow direction of the power system.

3. The metrology holographic visualization presentation method of claim 2, wherein the source data specifically comprises: regional load distribution information and regional voltage distribution information;

the visually displaying the Canvas class library ZRender through a class DataV data visualization tool specifically comprises the following steps:

and constructing a regional load and voltage distribution diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the regional load and voltage distribution diagram comprises regional load distribution information and regional voltage distribution information.

4. The metrology holographic visualization presentation method of claim 3, wherein the source data specifically comprises: an electric power metering data index;

the visually displaying the Canvas class library ZRender through a class DataV data visualization tool specifically comprises the following steps:

and constructing an electric power metering data index qualified graph for the Canvas class library ZRender through a class DataV data visualization tool, wherein the electric power metering data index qualified graph comprises electric power metering data qualified information corresponding to electric power metering data indexes.

5. A metered holographic visual presentation device, comprising:

a first obtaining module, configured to obtain source data based on an HTML5Canvas from a power grid system, where the power grid system includes: provincial metering automation system and/or regional scheduling system and/or production management system and/or geographic information system and/or video monitoring system and/or meteorological environment system, the source data specifically includes: metering data corresponding to each region;

the first construction module is used for constructing a Canvas class library ZRender according to the source data;

the first display module is used for constructing a data map for the Canvas class library ZRender through a class DataV data visualization tool and performing visualization display, the data map comprises region information and metering data corresponding to each region, and layer-by-layer drilling in the metering data display process is realized based on the data map.

6. The metered holographic visual representation device of claim 5, wherein the first obtaining module is specifically configured to:

acquiring source data based on HTML5Canvas from a power grid system, the power grid system comprising: the system comprises a provincial metering automation system, a regional scheduling system, a production management system, a geographic information system, a video monitoring system and a meteorological environment system, wherein the source data specifically comprise: a power system flow direction;

the first display module is specifically configured to: and constructing a dynamic flow diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the dynamic flow diagram comprises direction information corresponding to the power flow direction of the power system.

7. The metered holographic visual representation device of claim 6, wherein said first obtaining module is specifically configured to:

acquiring source data based on HTML5Canvas from a power grid system, the power grid system comprising: the system comprises a provincial metering automation system, a regional scheduling system, a production management system, a geographic information system, a video monitoring system and a meteorological environment system, wherein the source data specifically comprise: regional load distribution information and regional voltage distribution information;

the first display module is specifically configured to: and constructing a regional load and voltage distribution diagram for the Canvas class library ZRender through a class DataV data visualization tool, wherein the regional load and voltage distribution diagram comprises regional load distribution information and regional voltage distribution information.

8. The metered holographic visual representation device of claim 7, wherein said first obtaining module is specifically configured to:

acquiring source data based on HTML5Canvas from a power grid system, the power grid system comprising:

the system comprises a provincial metering automation system, a regional scheduling system, a production management system, a geographic information system, a video monitoring system and a meteorological environment system, wherein the source data specifically comprise: an electric power metering data index;

the first display module is specifically configured to: and constructing an electric power metering data index qualified graph for the Canvas class library ZRender through a class DataV data visualization tool, wherein the electric power metering data index qualified graph comprises electric power metering data qualified information corresponding to electric power metering data indexes.

Images