CN116664722A - Intelligent environment-friendly big data visualization processing method and system - Google Patents

Abstract

The application is applicable to the technical field of data visualization, and provides a smart and environment-friendly big data visualization processing method and system, wherein the method comprises the following steps: receiving an environmental protection form uploaded by each environmental protection terminal, wherein the environmental protection form comprises position information, time information, environmental protection items and environmental protection data, and storing the environmental protection form; receiving visual keyword information input by a user, wherein the visual keyword information comprises a plurality of visual keywords, and the visual keywords are divided into three categories, namely a position category, a time category and a project category; automatically analyzing the visual keyword information to generate a visual image; thus, the visual image can be automatically obtained, the method is quick and convenient, and the working efficiency is greatly improved; in addition, the method and the device also support editing of the generated visual image, and better meet the requirements of users.

Description

Intelligent environment-friendly big data visualization processing method and system

Technical Field

The application relates to the technical field of data visualization, in particular to a smart and environment-friendly big data visualization processing method and system.

Background

The data visualization aims at clearly and effectively conveying and communicating information by means of a graphical means, so that a user can acquire the information more intuitively. Various environmental protection data can be acquired every day by environmental protection departments, related staff can edit the environmental protection data, the wanted part is visually displayed, the editing processing steps are generally that the environmental protection data required by the user are selected, a table is made, variable parameters are determined, a graph is made, and the process is complex and not fast and convenient. Therefore, it is necessary to provide a smart and environment-friendly big data visualization processing method and system, which aims to solve the above problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the application aims to provide an intelligent and environment-friendly big data visualization processing method and system, so as to solve the problems existing in the background art.

The application discloses a smart environment-friendly big data visualization processing method, which comprises the following steps:

receiving an environmental protection form uploaded by each environmental protection terminal, wherein the environmental protection form comprises position information, time information, environmental protection items and environmental protection data, and storing the environmental protection form;

receiving visual keyword information input by a user, wherein the visual keyword information comprises a plurality of visual keywords, and the visual keywords are divided into three categories, namely a position category, a time category and a project category;

automatically analyzing the visual keyword information to generate a visual image;

and receiving a visual image editing instruction, and adjusting the generated visual image according to the visual image editing instruction.

As a further scheme of the application: the step of automatically analyzing the visual keyword information and generating a visual image specifically comprises the following steps:

according to the visual keyword information of the position class and the time class, calling the conforming environment-friendly form;

screening the retrieved environment-friendly forms according to the visual keyword information of the item class;

according to the visual keyword information of the time class and the project class, the screened environment-friendly form is manufactured into a visual image;

and invoking grading data of the corresponding environment-friendly items according to the visual keyword information of the item class, and grading and marking the visual images according to the grading data.

As a further scheme of the application: the step of calling the conforming environment-friendly form according to the visual keyword information of the position class and the time class specifically comprises the following steps:

determining the visual keyword information of the position class as specific position information or comprehensive position information;

when the integrated position information is the integrated position information, inputting the integrated position information into the electronic map, and determining a plurality of specific position information corresponding to the integrated position information;

and calling the conforming environment-friendly form according to the specific position information and the time-class visual keyword information.

As a further scheme of the application: the step of manufacturing the screened environment-friendly form into a visual image according to the visual keyword information of the time class and the project class specifically comprises the following steps:

judging the number of time information contained in the visual keyword information of the time class;

when the number is one, the position information and the time information are taken as names to manufacture visual images, and the environment-friendly project and the time information are taken as names to manufacture visual images;

when there are a plurality of images, the visual image is made by using the position information as the name, and the visual image is made by using the environmental protection project as the name.

As a further scheme of the application: the step of receiving the visual image editing instruction specifically comprises the following steps:

selecting one visual image;

generating an image format editing popup, wherein the image format editing popup comprises image form, color, font and coordinate conversion, and receiving a visual image editing instruction input by a user;

when the variables in the selected visual images are greater than two, generating whether to split the popup window, receiving a splitting instruction, and splitting the selected visual images into a plurality of visual images.

Another object of the present application is to provide an intelligent and environment-friendly big data visualization processing system, the system comprising:

the environment-friendly form storage module is used for receiving environment-friendly forms uploaded by the environment-friendly terminals, wherein the environment-friendly forms comprise position information, time information, environment-friendly items and environment-friendly data, and the environment-friendly forms are stored;

the keyword input module is used for receiving visual keyword information input by a user, wherein the visual keyword information comprises a plurality of visual keywords which are classified into three categories, namely a position category, a time category and a project category;

the visual image generation module is used for automatically analyzing the visual keyword information to generate a visual image;

the visual image editing module is used for receiving visual image editing instructions and adjusting the generated visual images according to the visual image editing instructions.

As a further scheme of the application: the visualized image generation module comprises:

the environment-friendly form calling unit is used for calling the environment-friendly form according to the visual keyword information of the position class and the time class;

the environment-friendly form screening unit is used for screening the retrieved environment-friendly forms according to the visual keyword information of the project class;

the visual image production unit is used for producing the screened environment-friendly forms into visual images according to the visual keyword information of the time class and the project class;

and the grading marking unit is used for calling grading data of the corresponding environment-friendly item according to the visual keyword information of the item class and grading marking the visual image according to the grading data.

As a further scheme of the application: the environment-friendly table extracting unit comprises:

the position information judging subunit is used for determining the visual keyword information of the position class as specific position information or comprehensive position information;

the specific position information subunit is used for inputting the comprehensive position information into the electronic map when the specific position information subunit is the comprehensive position information, and determining a plurality of specific position information corresponding to the comprehensive position information;

and the environment-friendly list Shan Diaoqu subunit is used for calling the environment-friendly list according to the specific position information and the time-class visual keyword information.

As a further scheme of the application: the visual image producing unit includes:

a number judging subunit, configured to judge the number of time information included in the visualized keyword information of the time class;

the first image making subunit is used for making a visual image by taking the position information and the time information as names and making the visual image by taking the environment-friendly item and the time information as names when the first image making subunit is one;

and the second image making subunit is used for making visual images by taking the position information as a name and making visual images by taking the environment-friendly project as a name when the plurality of the second image making subunits are used.

As a further scheme of the application: the visual image editing module comprises:

the visual image selecting unit is used for selecting one visual image;

the image format editing unit is used for generating an image format editing popup, wherein the image format editing popup comprises image forms, colors, fonts and coordinate conversions, and receiving a visual image editing instruction input by a user;

and the visual image splitting unit is used for generating whether to split the popup window or not when the variables in the selected visual images are more than two, receiving a splitting instruction and splitting the selected visual images into a plurality of visual images.

Compared with the prior art, the application has the beneficial effects that:

after the visual keyword information is input by a user, the visual keyword information is automatically analyzed to generate a visual image; thus, the visual image can be automatically obtained, the method is quick and convenient, and the working efficiency is greatly improved; in addition, the method and the device also support editing of the generated visual image, and better meet the requirements of users.

Drawings

FIG. 1 is a flow chart of a smart and environment-friendly big data visualization processing method.

Fig. 2 is a flowchart of automatic analysis of visual keyword information in a smart and environment-friendly big data visual processing method.

FIG. 3 is a flow chart of a method for intelligent environmental protection big data visualization processing to retrieve a conforming environmental protection form.

FIG. 4 is a flow chart of a method for producing a visual image in a smart and environment-friendly big data visual processing method.

FIG. 5 is a flow chart of editing a visual image in a smart and environment-friendly big data visual processing method.

FIG. 6 is a schematic diagram of a smart and environment-friendly big data visualization processing system.

Fig. 7 is a schematic structural diagram of a visual image generating module in the intelligent environment-friendly big data visual processing system.

FIG. 8 is a schematic diagram of the structure of the environment-friendly table retrieving unit in the intelligent environment-friendly big data visualization processing system.

FIG. 9 is a schematic diagram of a visual image creating unit in the intelligent environment-friendly big data visual processing system.

Fig. 10 is a schematic structural diagram of a visual image editing module in the intelligent environment-friendly big data visual processing system.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clear, the present application will be described in further detail with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

Specific implementations of the application are described in detail below in connection with specific embodiments.

As shown in fig. 1, the embodiment of the application provides a smart and environment-friendly big data visualization processing method, which comprises the following steps:

s100, receiving an environment-friendly form uploaded by each environment-friendly terminal, wherein the environment-friendly form comprises position information, time information, environment-friendly items and environment-friendly data, and storing the environment-friendly form;

s200, receiving visual keyword information input by a user, wherein the visual keyword information comprises a plurality of visual keywords, and the visual keywords are divided into three types, namely a position type, a time type and a project type;

s300, automatically analyzing the visual keyword information to generate a visual image;

s400, receiving a visual image editing instruction, and adjusting the generated visual image according to the visual image editing instruction.

It should be noted that, environmental protection departments will acquire various environmental protection data every day, related staff will edit the environmental protection data, so that the wanted part is visually displayed, the editing steps generally include searching and selecting the environmental protection data, making a table, determining variable parameters and making a graph, the process is complex, and not convenient enough, and the embodiment of the application aims to solve the problems.

In the embodiment of the application, all the environmental protection forms are stored, each environmental protection form comprises position information, time information, environmental protection items and environmental protection data, the position information indicates environmental protection data acquisition sites in the environmental protection forms, and the time information indicates environmental protection data acquisition time in the environmental protection forms, and the environmental protection items are in one-to-one correspondence with the environmental protection data. When a user needs to make a visual image, visual keyword information is input, wherein the visual keyword information comprises a plurality of visual keywords, the visual keywords are divided into three categories, namely a position category, a time category and an item category, and the visual keyword information is as follows: the visual keyword information is automatically analyzed to generate a visual image, for example, a line diagram of the soil lead content and the soil cadmium content of the area A in the year 2023 and the month 5 is generated, so that a user can automatically obtain the visual image by inputting a plurality of visual keywords, the visual image is quick and convenient, and the working efficiency is greatly improved; in addition, the embodiment of the application also supports editing the generated visual image, and after the user inputs the visual image editing instruction, the embodiment of the application can adjust the form, the color and the font of the generated visual image according to the visual image editing instruction, thereby more meeting the requirements of the user.

As shown in fig. 2, as a preferred embodiment of the present application, the step of automatically analyzing the visual keyword information to generate a visual image specifically includes:

s301, according to the visual keyword information of the position class and the time class, calling a conforming environment-friendly form;

s302, screening the retrieved environment-friendly forms according to the visual keyword information of the item class;

s303, manufacturing the screened environment-friendly form into a visual image according to the visual keyword information of the time class and the project class;

s304, retrieving grading data of the corresponding environment-friendly items according to the visualized keyword information of the item class, and grading and marking the visualized images according to the grading data.

In the embodiment of the application, in order to generate a visual image, an environmental protection form is selected, specifically, the embodiment of the application firstly calls the environmental protection form according to the visual keyword information of the position type and the time type, for example, all environmental protection forms with the position information being an area A and the time information belonging to 2023, 5, 01, 5, and 31, 5, and 2023 are called, then screens the called environmental protection forms according to the visual keyword information of the item type, for example, the screened environmental protection forms must contain soil lead content and soil cadmium content, then the screened environmental protection forms are manufactured into the visual image according to the visual keyword information of the time type and the item type, and finally, the grading data of the corresponding environmental protection items are called according to the visual keyword information of the item type, for example, the grading data corresponding to the soil lead content are: if the lead content is less than a, the lead content is slightly less than a, and the lead content is slightly less than b, the visual image is marked in a grading way according to grading data, for example, the lead content of the soil is marked with the lead content which is less than a, so that a user can more intuitively view the visual image.

As shown in fig. 3, as a preferred embodiment of the present application, the step of retrieving the conforming environment-friendly form according to the visual keyword information of the location class and the time class specifically includes:

s3011, determining the visual keyword information of the position class as specific position information or comprehensive position information;

s3012, when the integrated position information is the integrated position information, inputting the integrated position information into the electronic map, and determining a plurality of specific position information corresponding to the integrated position information;

s3013, calling the conforming environment-friendly form according to the specific position information and the time-class visual keyword information.

In the embodiment of the application, in order to call the conforming environment-friendly form, the visual keyword information of the position class is firstly required to be determined to be specific position information or comprehensive position information, for example, the specific position information is an area A, the comprehensive position information is a first area, when the specific position information is the comprehensive position information, the comprehensive position information is required to be input into the electronic map, a plurality of specific position information corresponding to the comprehensive position information is determined, for example, the first area comprises an area A, an area B, an area C and an area D, and finally the conforming environment-friendly form is called according to the specific position information and the visual keyword information of the time class.

As shown in fig. 4, as a preferred embodiment of the present application, the step of preparing the screened environment-friendly form into a visual image according to the visual keyword information of the time class and the project class specifically includes:

s3031, judging the number of time information contained in the visual keyword information of the time class;

s3032, when the number is one, making a visual image by taking the position information and the time information as names, and making the visual image by taking the environment-friendly item and the time information as names;

s3033, when there are a plurality of the images, the visualized image is created by using the position information as a name, and the visualized image is created by using the environment-friendly item as a name.

In the embodiment of the present application, before the visual image is produced, the number of time information included in the time-based visual keyword information needs to be determined, for example, a plurality of time information are included from 2023, 5, month 01, year 2023, 5, month 31, and only one time information is included from 2023, 5, month 01. When the time information is one, a visualized image is created with the position information and the time information as names, for example, the names are: an environmental protection data graph of the A area on 2023, 5 and 01 days, wherein the horizontal axis is environmental protection projects, and the vertical axis is environmental protection data; and making a visual image by taking the environmental protection project and the time information as names, wherein the names are as follows: and the environment-friendly data graph of the lead content of the soil in 2023, 5 and 01 days has the horizontal axis of each position information and the vertical axis of environment-friendly data. When the time information is a plurality of, a visual image is produced by taking the position information as a name, and the name is: the environmental protection data trend graph of the area A is characterized in that the horizontal axis is time information, the vertical axis is environmental protection data, and each environmental protection project is provided with a broken line; and making a visual image by taking the environmental protection project as a name, wherein the name is: the trend graph of the environmental protection data of the lead content of the soil has the time information on the horizontal axis and the environmental protection data on the vertical axis, and a broken line is formed by each piece of position information. In this way, all graphics desired by the user can be basically covered, and when a certain graphic user is not needed, the graphic user can directly delete the graphic.

As shown in fig. 5, as a preferred embodiment of the present application, the step of receiving a visual image editing instruction specifically includes:

s401, selecting one visual image;

s402, generating an image format editing popup, wherein the image format editing popup comprises image forms, colors, fonts and coordinate conversions, and receiving a visual image editing instruction input by a user;

s403, when the variables in the selected visual images are more than two, generating whether to split the popup window, receiving a splitting instruction, and splitting the selected visual images into a plurality of visual images.

In the embodiment of the application, when a user needs to edit a certain visual image, the user directly selects the visual image and then generates an image format editing popup, wherein the image format editing popup comprises image forms (sector, bar, fold line and the like), color, font and coordinate conversion, and the user inputs visual image editing instructions according to the needs, so that the selected visual image can be updated. In addition, when the variables in the selected visual image are greater than two, a splitting popup window is generated, a user inputs a splitting instruction, the selected visual image is split into a plurality of images, for example, the horizontal axis is time information, the vertical axis is environment-friendly data, the image with each piece of position information as a broken line comprises three variables, when the number of the position information is four, the visual image is split into four, and the broken line diagram of each piece of position information is displayed independently.

As shown in fig. 6, the embodiment of the application further provides a smart and environment-friendly big data visualization processing system, which comprises:

the environment-friendly form storage module 100 is configured to receive environment-friendly forms uploaded by each environment-friendly terminal, where the environment-friendly forms include location information, time information, environment-friendly items and environment-friendly data, and store the environment-friendly forms;

the keyword input module 200 is configured to receive visual keyword information input by a user, where the visual keyword information includes a plurality of visual keywords, and the visual keywords are classified into three categories, namely a location category, a time category and a project category;

the visual image generation module 300 is used for automatically analyzing the visual keyword information to generate a visual image;

the visual image editing module 400 is configured to receive a visual image editing instruction, and adjust the generated visual image according to the visual image editing instruction.

As shown in fig. 7, as a preferred embodiment of the present application, the visualized image generating module 300 includes:

an environment-friendly form calling unit 301, configured to call a conforming environment-friendly form according to the visual keyword information of the location class and the time class;

the environment-friendly form screening unit 302 is configured to screen the retrieved environment-friendly form according to the visual keyword information of the item class;

a visual image making unit 303, configured to make the screened environment-friendly form into a visual image according to the visual keyword information of the time class and the project class;

and the grading marking unit 304 is used for calling grading data of the corresponding environment-friendly item according to the visualized keyword information of the item class, and grading marking the visualized image according to the grading data.

As shown in fig. 8, as a preferred embodiment of the present application, the environment-friendly table extracting unit 301 includes:

a location information determining subunit 3011, configured to determine that the visual keyword information of the location class is specific location information or comprehensive location information;

a specific location information subunit 3012, configured to input the integrated location information into the electronic map when the integrated location information is the integrated location information, and determine a plurality of specific location information corresponding to the integrated location information;

the environment protection table Shan Diaoqu subunit 3013 is configured to retrieve an environment protection table according to the specific location information and the visual keyword information of the time class.

As shown in fig. 9, as a preferred embodiment of the present application, the visualized image making unit 303 includes:

a number determination subunit 3031, configured to determine the number of time information included in the visualized keyword information of the time class;

a first image creating subunit 3032, when one, creates a visual image with the location information and the time information as names, and creates a visual image with the environmental protection item and the time information as names;

the second image creating subunit 3034 creates a visual image by using the position information as a name and creates a visual image by using the environmental protection item as a name when there are a plurality of the second image creating subunits.

As shown in fig. 10, as a preferred embodiment of the present application, the visual image editing module 400 includes:

a visual image selecting unit 401, configured to select one visual image;

the image format editing unit 402 is configured to generate an image format editing popup, where the image format editing popup includes image forms, colors, fonts, and coordinate transformations, and receive a visual image editing instruction input by a user;

the visual image splitting unit 403 is configured to generate whether to split the popup window when the variables in the selected visual image are greater than two, receive a splitting instruction, and split the selected visual image into a plurality of visual images.

The foregoing description of the preferred embodiments of the present application should not be taken as limiting the application, but rather should be understood to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the application.

Other embodiments of the present disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

Claims (10)

1. The intelligent environment-friendly big data visualization processing method is characterized by comprising the following steps of:

receiving an environmental protection form uploaded by each environmental protection terminal, wherein the environmental protection form comprises position information, time information, environmental protection items and environmental protection data, and storing the environmental protection form;

receiving visual keyword information input by a user, wherein the visual keyword information comprises a plurality of visual keywords, and the visual keywords are divided into three categories, namely a position category, a time category and a project category;

automatically analyzing the visual keyword information to generate a visual image;

and receiving a visual image editing instruction, and adjusting the generated visual image according to the visual image editing instruction.

2. The intelligent environmental-friendly big data visualization processing method according to claim 1, wherein the step of automatically analyzing the visualized keyword information to generate a visualized image specifically comprises the following steps:

according to the visual keyword information of the position class and the time class, calling the conforming environment-friendly form;

screening the retrieved environment-friendly forms according to the visual keyword information of the item class;

according to the visual keyword information of the time class and the project class, the screened environment-friendly form is manufactured into a visual image;

and invoking grading data of the corresponding environment-friendly items according to the visual keyword information of the item class, and grading and marking the visual images according to the grading data.

3. The intelligent environmental protection big data visualization processing method according to claim 2, wherein the step of calling the conforming environmental protection form according to the visualized keyword information of the location class and the time class specifically comprises the following steps:

determining the visual keyword information of the position class as specific position information or comprehensive position information;

when the integrated position information is the integrated position information, inputting the integrated position information into the electronic map, and determining a plurality of specific position information corresponding to the integrated position information;

and calling the conforming environment-friendly form according to the specific position information and the time-class visual keyword information.

4. The intelligent environmental protection big data visualization processing method according to claim 2, wherein the step of making the screened environmental protection forms into the visual images according to the visual keyword information of the time class and the project class specifically comprises:

judging the number of time information contained in the visual keyword information of the time class;

when the number is one, the position information and the time information are taken as names to manufacture visual images, and the environment-friendly project and the time information are taken as names to manufacture visual images;

when there are a plurality of images, the visual image is made by using the position information as the name, and the visual image is made by using the environmental protection project as the name.

5. The intelligent environmental protection big data visualization processing method according to claim 1, wherein the step of receiving the visual image editing instruction specifically comprises:

selecting one visual image;

generating an image format editing popup, wherein the image format editing popup comprises image form, color, font and coordinate conversion, and receiving a visual image editing instruction input by a user;

when the variables in the selected visual images are greater than two, generating whether to split the popup window, receiving a splitting instruction, and splitting the selected visual images into a plurality of visual images.

6. An intelligent environmental-friendly big data visualization processing system, which is characterized by comprising:

the environment-friendly form storage module is used for receiving environment-friendly forms uploaded by the environment-friendly terminals, wherein the environment-friendly forms comprise position information, time information, environment-friendly items and environment-friendly data, and the environment-friendly forms are stored;

the keyword input module is used for receiving visual keyword information input by a user, wherein the visual keyword information comprises a plurality of visual keywords which are classified into three categories, namely a position category, a time category and a project category;

the visual image generation module is used for automatically analyzing the visual keyword information to generate a visual image;

the visual image editing module is used for receiving visual image editing instructions and adjusting the generated visual images according to the visual image editing instructions.

7. The intelligent environmental protection big data visualization processing system of claim 6, wherein the visualized image generation module comprises:

the environment-friendly form calling unit is used for calling the environment-friendly form according to the visual keyword information of the position class and the time class;

the environment-friendly form screening unit is used for screening the retrieved environment-friendly forms according to the visual keyword information of the project class;

the visual image production unit is used for producing the screened environment-friendly forms into visual images according to the visual keyword information of the time class and the project class;

and the grading marking unit is used for calling grading data of the corresponding environment-friendly item according to the visual keyword information of the item class and grading marking the visual image according to the grading data.

8. The intelligent environmental protection big data visualization processing system of claim 7, wherein the environmental protection table retrieving unit includes:

the position information judging subunit is used for determining the visual keyword information of the position class as specific position information or comprehensive position information;

the specific position information subunit is used for inputting the comprehensive position information into the electronic map when the specific position information subunit is the comprehensive position information, and determining a plurality of specific position information corresponding to the comprehensive position information;

and the environment-friendly list Shan Diaoqu subunit is used for calling the environment-friendly list according to the specific position information and the time-class visual keyword information.

9. The intelligent environmental protection big data visualization processing system of claim 7, wherein the visualized image making unit comprises:

a number judging subunit, configured to judge the number of time information included in the visualized keyword information of the time class;

the first image making subunit is used for making a visual image by taking the position information and the time information as names and making the visual image by taking the environment-friendly item and the time information as names when the first image making subunit is one;

and the second image making subunit is used for making visual images by taking the position information as a name and making visual images by taking the environment-friendly project as a name when the plurality of the second image making subunits are used.

10. The intelligent environmental protection big data visualization processing system of claim 6, wherein the visual image editing module comprises:

the visual image selecting unit is used for selecting one visual image;

the image format editing unit is used for generating an image format editing popup, wherein the image format editing popup comprises image forms, colors, fonts and coordinate conversions, and receiving a visual image editing instruction input by a user;

and the visual image splitting unit is used for generating whether to split the popup window or not when the variables in the selected visual images are more than two, receiving a splitting instruction and splitting the selected visual images into a plurality of visual images.