CN114610947A

CN114610947A - Visual display method and device for energy power supply planning data

Info

Publication number: CN114610947A
Application number: CN202210242289.2A
Authority: CN
Inventors: 黄欣; 郇嘉嘉; 赵敏彤; 吴伟杰; 何春庚; 蓝晓东; 李耀东; 彭勃; 刘嘉文
Original assignee: Guangdong Power Grid Co Ltd
Current assignee: Guangdong Power Grid Co Ltd
Priority date: 2022-03-11
Filing date: 2022-03-11
Publication date: 2022-06-10

Abstract

The invention discloses a visual display method, a visual display device, electronic equipment and a computer readable storage medium of energy power supply planning data, wherein the method comprises the following steps: after receiving planning data about energy sources, determining equipment types corresponding to the planning data; searching application scene information of the equipment type in the use of the energy power supply; carrying out 3D animation modeling by using the application scene information to obtain an application model of the equipment; and combining the application model and the planning data to make and display visual animation. According to the method and the device, the device type corresponding to the planning data can be determined after the planning data is predicted and sorted, then the application scene of the device type using the energy power supply is searched, and the corresponding 3D animation is manufactured based on the application scene for the user to check.

Description

Visual display method and device for energy power supply planning data

Technical Field

The invention relates to the technical field of data visualization display, in particular to a visualization display method and device for energy power supply planning data.

Background

In recent years, with the overall development of socioeconomic performance in China, energy supply will face many challenges such as increasing energy demand and power load, diversifying load types, increasing new energy ratio, and complicating grid structure. In order to meet the development requirements in a new period, power utilization planning needs to be carried out on a new energy power supply, the ratio of the new energy power supply is improved under the condition that the current power utilization requirement is met, and the green development goal is realized.

After the background management system is used for planning the energy power supply, the planned data is often required to be visually processed, so that a user can manually check and plan the planned data, and the problem of planning omission is avoided. The current common data visualization method is to perform data analysis on the electricity utilization data of a user from a short-term time and a long-term time, and then perform multi-dimensional data analysis and visual display on the electricity utilization data from a time dimension, wherein the multi-dimensional data analysis and visual display include geographical visualization, hierarchical data interaction visualization and electric power high-dimensional data visualization of electric power data for the user to review and view.

However, the visualization commonly used at present has the following technical problems: the energy power supply planning method has the advantages that the basic data are various in types, large in quantity and scattered in source, the data are displayed only in a time dimension visualization mode, the data to be displayed are large, a user needs to check mass data, checking efficiency is low, in the checking process, due to the fact that the displayed data are large in size, fatigue is multiplied after the user checks the data for a period of time, the displaying effect is poor, and checking intention of the user is reduced.

Disclosure of Invention

The invention provides a visual display method and device for energy and power supply planning data.

The first aspect of the embodiments of the present invention provides a method for visually displaying energy source planning data, where the method includes:

after receiving planning data about energy sources, determining a device type corresponding to the planning data;

searching application scene information of the equipment type in the use of the energy power supply;

carrying out 3D animation modeling by using the application scene information to obtain an application model of the equipment;

and combining the application model and the planning data to make and display visual animation.

In a possible implementation manner of the first aspect, the finding of the application scenario information of the device type using the energy source includes:

searching application location coordinates of the equipment corresponding to the equipment type;

taking the application place coordinates as a center, and acquiring a plurality of application scene images of the equipment in an application field from the periphery of the application place coordinates;

and acquiring and collecting the environmental characteristics of each application scene image to obtain application scene information.

In a possible implementation manner of the first aspect, the obtaining an application model by performing 3D animation modeling by using the application scenario information includes:

searching corresponding environment object models based on the environment characteristics contained in the application scene information to obtain a plurality of environment object models;

selecting one of the application scene images as a target scene image;

splicing the plurality of environment object models into a scene model applied by the equipment according to the environment characteristics contained in the target scene image;

and 3D animation processing is carried out on the scene model to generate an application model.

In a possible implementation manner of the first aspect, the creating and displaying a visualization animation in combination with the application model and the planning data includes:

extracting a plurality of characteristic data values from the planning data;

editing the dynamic operation of the application model by taking the numerical values of the characteristic data values as the supply of the energy power supply to form visual animation;

and sending the visual animation to a preset cloud platform for the cloud platform to transmit to a connected user terminal, and displaying the visual animation to a user.

A second aspect of the embodiments of the present invention provides a visual display device for energy source planning data, where the device includes:

the device comprises a determining module, a judging module and a judging module, wherein the determining module is used for determining the type of equipment corresponding to planning data after receiving the planning data about the energy power supply;

the searching module is used for searching application scene information of the equipment type in the use of the energy power supply;

the manufacturing module is used for carrying out 3D animation modeling by utilizing the application scene information to obtain an application model of the equipment;

and the display module is used for making and displaying the visual animation by combining the application model and the planning data.

In a possible implementation manner of the second aspect, the search module is further configured to:

taking the application place coordinate as a center, and acquiring a plurality of application scene images of the equipment in an application field from the periphery of the application place coordinate;

In a possible implementation manner of the second aspect, the making module is further configured to:

selecting one of the application scene images as a target scene image;

In a possible implementation manner of the second aspect, the display module is further configured to:

extracting a plurality of characteristic data values from the planning data;

Compared with the prior art, the visual display method and device for the energy power supply planning data provided by the embodiment of the invention have the beneficial effects that: according to the method and the device, the device type corresponding to the planning data can be determined after the planning data is predicted and sorted, then the application scene of the device type using the energy power supply is searched, and the corresponding 3D animation is manufactured based on the application scene for the user to check.

Drawings

Fig. 1 is a schematic flowchart of a method for visually displaying energy source planning data according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a device for visually displaying energy source planning data according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments 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.

The visualization commonly used at present has the following technical problems: the energy power supply planning method has the advantages that the basic data are various in types, large in quantity and scattered in source, the data are displayed only in a time dimension visualization mode, the data to be displayed are large, a user needs to check mass data, checking efficiency is low, in the checking process, due to the fact that the displayed data are large in size, fatigue is multiplied after the user checks the data for a period of time, the displaying effect is poor, and checking intention of the user is reduced.

In order to solve the above problem, the following detailed description will be made and explained for a method for visually displaying energy source power planning data provided by the embodiments of the present application.

Referring to fig. 1, a flow chart of a method for visually displaying energy source planning data according to an embodiment of the present invention is shown.

By way of example, the method for visually displaying energy source planning data may include:

and S11, after receiving the planning data about the energy source power supply, determining the equipment type corresponding to the planning data.

In one embodiment, planning data regarding energy sources for a period of time may be obtained from a back-office server.

In practice, planning data about new energy sources of a plurality of devices or any one device in a certain area in a future period of time can be obtained.

For example, the planning data may be planning data of a new energy power source of a waste incinerator in a waste garbage disposal plant of xx district xx in xx city. For another example, the planning data may be planning data for a new energy source for a construction site cement mixer, a jack, a pile driver, etc. for the xx road in xx district xx city. For another example, the planning data may be the planning data of the new energy power source in the first season of 202x year for each plant in xx road in xx district xx of xx city.

After the planning data is obtained, the type of the device corresponding to the planning data may be determined from information such as the amount of power used, the scale of power used, and the usage object of the planning data. For example, if the planning data is a large amount of continuous power, the device type may be a large-capacity high-voltage power device; if the planning data is low battery and intermittent power, the device type may be a low voltage device with a small capacity.

Optionally, an object corresponding to the planning data, such as information of a plant, a company, or a region, may also be searched, and the previous device type is determined based on the history information, so as to obtain the device type corresponding to the current planning data.

And S12, searching the application scene information of the device type using the energy source.

In an embodiment, after the device type can be determined, the content such as the device of the device type, the usage scenario when the new energy power supply is used, and the like can be searched, so as to obtain the application scenario information.

The application scene information can be utilized to make a corresponding display image for the equipment so as to be viewed by a user.

In order to fit the actual usage scenario of the device, in an alternative embodiment, step S12 may include the following sub-steps:

and a substep S121 of searching application location coordinates of the equipment corresponding to the equipment type.

Specifically, the application location coordinates may be current location coordinates of the device corresponding to the device type, or location coordinates of the device when in use.

And a substep S122, taking the application place coordinates as a center, and acquiring a plurality of application scene images of the equipment in the application field from the periphery of the application place coordinates.

Specifically, the environment image around the center may be collected with the application location coordinates as the center, so as to obtain several application scene images of the device at the application site. The specific collection mode may be, for example, a panorama function in a map application, and after the central coordinate point is determined, the center coordinate point may be rotated 360 degrees around, so as to obtain a surrounding environment image.

And S123, acquiring and collecting the environmental characteristics of each application scene image to obtain application scene information.

In an implementation manner, a plurality of environmental features of each application scene image may be obtained, and then a plurality of environmental features corresponding to each application scene image are combined together to obtain application scene information.

The environmental characteristics may be information of an object, a size of the object, a color, a position, a number, and the like included in the image.

By acquiring images around the equipment and acquiring information such as corresponding objects, colors, sizes, positions and the like from the images, the practical application scene of the equipment can be restored based on the various information, so that the reality degree of the manufactured images or animations can be improved.

And S13, performing 3D animation modeling by using the application scene information to obtain an application model of the equipment.

In an embodiment, 3D animation modeling may be performed based on various environmental features and object features in the application scene information, a plurality of animation models are made, and then the plurality of animation models are assembled to form an application model, so as to truly restore the application scene of the device.

In order to accurately restore the practical application scenario of the device, in one embodiment, step S13 may include the following sub-steps:

and a substep S131 of searching for a corresponding environment object model based on the environment characteristics contained in the application scene information to obtain a plurality of environment object models.

Specifically, based on the object in the environment, the corresponding object model is searched in a preset animation model library, and the object model is rendered and adjusted according to the characteristics of the color, the size and the like of the object model, so that the corresponding environment object model is obtained.

For example, if the object of the environmental feature is a gray transformer with a width of one meter, the object model of the transformer may be searched, and then the size of the object model is adjusted and rendered to be gray white, so as to obtain the environmental object model corresponding to the transformer.

And a substep S132 of selecting one of the application scene images as a target scene image.

Each application scene image is a surrounding environment image of any angle with the device as the center, and a plurality of application scene images can form the environment of the whole device. If the animation model is manufactured according to the whole environment, the time consumption is long, and the manufacturing efficiency is low. On the premise of displaying the application scene of the equipment, the animation production efficiency is improved, one application scene image can be selected as a target scene image at will, and the application scene of the equipment under any angle is displayed.

And a substep S133, splicing the plurality of environment object models into a scene model applied by the device according to the environment characteristics contained in the target scene image.

Specifically, the environmental features included in the target scene image may be identified, then, objects corresponding to the environmental features included in the target scene image are determined, a plurality of corresponding environmental object models are screened from the plurality of environmental object models based on the objects included in the target scene image, and then, the plurality of environmental object models are spliced and collocated to form a scene model of the device when the device is applied.

For example, the electric equipment is various large-scale electric equipment such as a jack, a cement mixer and the like in a construction site of a building, and the application scene of the electric equipment is in the construction site, wherein 6 buildings in construction and 2 small-area shopping malls are arranged in the construction site. 3 buildings in construction, 1 cell market and 3 buildings and 1 cell market are arranged in a selected target scene image from left to right in a line mode, so that environment object models of the 3 buildings and 1 cell market can be screened from a plurality of environment object models, and then the environment object models of the 3 buildings and 1 cell market are arranged in a line mode from left to right, so that a scene model of the transformer substation in application is formed.

And a substep S134 of performing 3D animation processing on the scene model to generate an application model.

In an embodiment, after editing the scene model of the device during application, the scene model may be converted into 3D animation to generate a 3D application model.

And S14, combining the application model and the planning data to make and display a visual animation.

After the 3D application model is manufactured, rendering adjustment can be performed on the whole 3D application model based on planning data, so that a visual 3D animation is formed, and the animation is displayed to a user for the user to view.

In one embodiment, step S14 may include the following sub-steps:

substep S141, extracting a number of characteristic data values from the planning data.

In one embodiment, the characteristic data value may be a maximum value, a minimum value, an average value, or the like.

Specifically, a part of the planning data may be extracted, and then characteristic values such as a peak value, a maximum value, a minimum value, and time thereof may be extracted.

And a substep S142, editing the dynamic operation of the application model by taking the numerical values of the plurality of characteristic data values as the supply of the energy source power, so as to form the visual animation.

In an embodiment, the value of the characteristic data value may be used as the supply size of the energy source power, the operating state of the application model under the supply of the energy source power may be rendered and edited, and the corresponding dynamic operation may be edited and rendered to form the visual animation.

In connection with the above example, the application model is a construction site and the characteristic data values include a maximum value, a minimum value, and an average value. Under the supply of the energy power supply with the maximum value, the dynamic operation can be that buildings and markets on a construction site are built very rapidly; with the supply of the minimum energy power supply, the dynamic operation can be that buildings and shopping malls on the construction site are built very slowly; under the supply of average energy power, the dynamic operation can be that buildings and shopping malls on the construction site are built step by step.

The effect of the three dynamic operations, which are very fast, very slow and gradually created, is equivalent to playing video at 2 times rate, 0.5 times rate and normal rate.

Similarly, if the application model is a cell that is already perfect and populated with users, the characteristic data values also include a maximum value, a minimum value, and an average value. Under the supply of the energy source power supply with the maximum value, the dynamic operation can be that the residents in the community move rapidly or the light brightness in the community is strong and the flicker is frequent; with the supply of a minimum amount of energy power, its dynamic operation may be slow movement of occupants within the cell or weak and occasional flashing lights within the cell; the dynamic operation may be a normal speed movement of the occupants of the cell or a normal and non-flashing light intensity of the lights in the cell, with the average power supply.

In actual operation, the rendering effect may be adjusted according to actual needs and actual application scenarios of the application model.

And S143, sending the visual animation to a preset cloud platform for the cloud platform to transmit to a connected user terminal, and displaying the visual animation to a user.

After the visual animation image is made, the visual animation can be sent to a preset cloud platform, the cloud platform can be in communication connection with a plurality of user terminals, and various data and information can be sent to the user terminals through the cloud platform.

The cloud platform can forward the visual animation to the user terminal, so that a user can check the corresponding visual animation through the user terminal, perform corresponding examination, and determine application change after using the planning data, thereby improving interest of examination.

In this embodiment, the embodiment of the present invention provides a visual display method for energy source planning data, which has the following beneficial effects: according to the method and the device, the device type corresponding to the planning data can be determined after the planning data is predicted and sorted, then the application scene of the device type using the energy power supply is searched, and the corresponding 3D animation is manufactured based on the application scene for the user to check.

The embodiment of the invention also provides a visual display device of energy and power supply planning data, and referring to fig. 2, a schematic structural diagram of the visual display device of energy and power supply planning data provided by the embodiment of the invention is shown.

Wherein, as an example, the visual display device of energy power supply planning data may include:

a determining module 201, configured to determine, after receiving planning data about an energy source, a device type corresponding to the planning data;

the searching module 202 is used for searching application scene information of the device type using the energy power supply;

the making module 203 is used for performing 3D animation modeling by using the application scene information to obtain an application model of the equipment;

and a display module 204, configured to combine the application model and the planning data to produce and display a visual animation.

Optionally, the search module is further configured to:

Optionally, the production module is further configured to:

selecting one of the application scene images as a target scene image;

Optionally, the display module is further configured to:

extracting a plurality of characteristic data values from the planning data;

and sending the visual animation to a preset cloud platform so that the cloud platform can transmit the visual animation to a connected user terminal, and displaying the visual animation to a user.

It can be clearly understood by those skilled in the art that, for convenience and brevity, the specific working process of the apparatus described above may refer to the corresponding process in the foregoing method embodiment, and is not described herein again.

Further, an embodiment of the present application further provides an electronic device, including: the energy source power planning system comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor executes the program to realize the visual display method of the energy source power planning data according to the embodiment.

Further, the present application also provides a computer-readable storage medium storing computer-executable instructions for causing a computer to perform the method for visually displaying energy source planning data according to the foregoing embodiment.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims

1. A visual display method for energy and power supply planning data is characterized by comprising the following steps:

2. The method for visually displaying energy source power planning data according to claim 1, wherein the searching for the application scenario information of the device type using the energy source power comprises:

3. The method for visually displaying energy source planning data according to claim 2, wherein the performing 3D animation modeling using the application scenario information to obtain an application model comprises:

selecting one of the application scene images as a target scene image;

4. The method for visually presenting energy supply planning data according to claim 1, wherein said creating and presenting a visual animation in combination with said application model and said planning data comprises:

extracting a plurality of characteristic data values from the planning data;

5. A visual presentation device of energy source power planning data, the device comprising:

6. The apparatus according to claim 5, wherein the search module is further configured to:

7. The apparatus for visual presentation of energy source power planning data according to claim 6, wherein the production module is further configured to:

selecting one of the application scene images as a target scene image;

8. A visual presentation device of energy supply planning data according to claim 5, wherein said presentation module is further configured to:

extracting a plurality of characteristic data values from the planning data;

9. An electronic device, comprising: memory, processor and computer program stored on the memory and executable on the processor, characterized in that the processor, when executing the program, implements a method for visualization of energy supply planning data according to any of claims 1-4.

10. A computer-readable storage medium storing computer-executable instructions for causing a computer to perform the method for visually presenting energy source power planning data according to any one of claims 1-4.