CN113672633B - Label management system and method based on environment monitoring data - Google Patents

Abstract

A tag management system and method based on environmental monitoring data, wherein the method comprises: acquiring environmental monitoring data, including atmospheric environmental data, water environment data, acoustic environmental data, soil environmental data and pollution source data; generating a label and/or updating an old label in real time according to a preset label generation rule by utilizing the environment monitoring data, wherein the label is used for representing environment management characteristics of an environment management object corresponding to the environment monitoring data; storing the generated and/or updated tags in a tag library; when the query condition input by the user is received, the labels meeting the condition are called and displayed from the label library according to the query condition input by the user. The unified management and the unified scheduling of various data resources are realized; the pollution information can be known through the tag, and can be retrieved through the tag, so that a user can accurately acquire the required information.

Description

Label management system and method based on environment monitoring data

Technical Field

The invention relates to the technical field of information management, in particular to a label management system and method based on environment monitoring data.

Background

With the continuous and deep construction of environmental informatization, environmental informatization systems are more and more, and the data volume is more and more. How to quickly mine data information, analyze pollution characteristics, provide decision support for environment management, and solve the problems of an environment informatization system, wherein the existing environment informatization system has the following problems in this aspect:

1. The environmental monitoring data are scattered, and the island phenomenon is serious. The environmental monitoring data comprise various data such as atmospheric environment, water environment, acoustic environment, soil environment, pollution sources and the like, and are stored in different service systems, so that the environmental monitoring data cannot be uniformly scheduled, resources family property are unclear, and inconvenience is brought to environmental management.

2. The searching capability is poor, and the required information cannot be accurately acquired. For example, as the amount of data increases, it is necessary to quickly query for contaminated information or retrieve matching information based on keywords. Most of the environment informatization systems at present only store data, but do not analyze characteristic information represented by the data, so that users are difficult to accurately and quickly acquire required information.

3. The information of the pollution source more comprehensively cannot be mastered. The existing environment informatization system is deeper in single service analysis, but cannot grasp more comprehensive information of pollution sources due to incomplete data.

Disclosure of Invention

The application provides a label management system and method based on environment monitoring data, and aims to solve the problems that the environment monitoring data in the existing environment informatization system is scattered, the searching capability is poor, and the information of a pollution source is not mastered more comprehensively.

According to a first aspect, in one embodiment there is provided a tag management system based on environmental monitoring data, comprising:

The data acquisition module is used for acquiring environment monitoring data, wherein the environment monitoring data comprise atmospheric environment data, water environment data, acoustic environment data, soil environment data and pollution source data;

The label generation module is used for acquiring the environment monitoring data from the data acquisition module in real time, generating a label and/or updating an old label according to a preset label generation rule, wherein the label is used for representing environment management characteristics of an environment management object corresponding to the environment monitoring data, and the environment management object comprises an atmospheric environment, a water environment, an acoustic environment, a soil environment and a pollution source enterprise;

the tag library module is used for storing the tags generated and/or updated by the tag generation module;

The system function module comprises a tag query unit, wherein the tag query unit is used for retrieving and displaying the tags meeting the conditions from the tag library module according to the query conditions input by a user.

In one embodiment, the tag generation module acquires the environmental monitoring data from the data acquisition module in real time in a task scheduling manner, and generates a tag and/or updates an old tag according to a preset tag generation rule.

In one embodiment, the tag generation rule includes: if the environmental monitoring data of a certain environmental management object continuously exceeds the standard for N hours, marking the environmental management object with a label continuously exceeding the standard for N hours, wherein N is a positive integer; if the environmental monitoring data of a water environment quality monitoring station in the latest preset time period exceeds the standard, marking a pollution exceeding label on the water quality monitoring station; if the statistical data of the environmental monitoring data of a certain air quality monitoring station in the last year does not meet the preset examination target requirement, marking the air quality monitoring station with a label which does not reach the standard; if a pollution source enterprise has a trusted report record, a trusted report label is marked on the pollution source enterprise.

In one embodiment, the system function module further includes a tag management unit, where the tag management unit is configured to perform tag entity definition, tag topic definition, and tag definition in response to a user operation;

The label entity definition refers to the input of information of an environment management object, wherein the information of the environment management object comprises the position of the environment management object, the type and the number of a monitoring object, and the type of the monitoring object comprises an atmospheric environment, a water environment, an acoustic environment, a soil environment and a pollution source;

The label thematic definition refers to classifying labels;

the tag definition refers to setting tag generation rules.

In one embodiment, the system function module further includes a tag update unit for adding, editing and deleting tags in response to user operations, and modifying tag generation rules, tag update times and environmental monitoring data sources.

In one embodiment, the tag library module comprises an entity library, a tag library and a log library;

The entity library is used for storing information of environment management objects, the tag library is used for storing tags generated and/or updated by the tag generation module, and the log library is used for recording operations performed on the tags by users.

According to a second aspect, in one embodiment, there is provided a tag management method based on environmental monitoring data, including:

Acquiring environment monitoring data, wherein the environment monitoring data comprises atmospheric environment data, water environment data, acoustic environment data, soil environment data and pollution source data;

Generating a label and/or updating an old label in real time according to a preset label generation rule by utilizing the environment monitoring data, wherein the label is used for representing environment management characteristics of an environment management object corresponding to the environment monitoring data;

Storing the generated and/or updated tags in a tag library;

When the query condition input by the user is received, the labels meeting the condition are called and displayed from the label library according to the query condition input by the user.

In one embodiment, the tag generation rule includes: if the environmental monitoring data of a certain environmental management object continuously exceeds the standard for N hours, marking the environmental management object with a label continuously exceeding the standard for N hours, wherein N is a positive integer; if the environmental monitoring data of a water environment quality monitoring station in the latest preset time period exceeds the standard, marking a pollution exceeding label on the water quality monitoring station; if the statistical data of the environmental monitoring data of a certain air quality monitoring station in the last year does not meet the preset examination target requirement, marking the air quality monitoring station with a label which does not reach the standard; if a pollution source enterprise has a trusted report record, a trusted report label is marked on the pollution source enterprise.

In one embodiment, the tag management method further comprises: performing label entity definition, label thematic definition and label definition according to user operation;

The label entity definition refers to that information of an environment management object is input into an entity library, the information of the environment management object comprises the position of the environment management object, the type and the number of a monitoring object, and the type of the monitoring object comprises an atmospheric environment, a water environment, an acoustic environment, a soil environment and a pollution source;

The label thematic definition refers to classifying labels;

the tag definition refers to setting tag generation rules.

According to a third aspect, an embodiment provides a computer readable storage medium having a program stored thereon, the program being executable by a processor to implement the tag management method according to the second aspect.

According to the label management system, the label management method and the computer-readable storage medium based on the environment monitoring data, the acquired environment monitoring data comprise atmospheric environment data, water environment data, acoustic environment data, soil environment data and pollution source data, so that unified management and unified scheduling of data resources are realized; meanwhile, a user can preset a tag generation rule according to the pollution information to be obtained, the tag is used for representing the environment management characteristics of the environment management object, the obtained environment monitoring data are analyzed in real time to obtain the characteristics reflected by the data, the tag is generated according to the preset tag generation rule, the environment management object is labeled, the pollution information can be known through the tag, and the tag can be used for searching, so that the user can accurately and rapidly obtain the required information; the tag can be obtained by analysis according to atmospheric environment data, water environment data, sound environment data, soil environment data and pollution source data, and can reflect pollution source information more comprehensively.

Drawings

FIG. 1 is a schematic diagram of a tag management system based on environmental monitoring data in one embodiment;

FIG. 2 is a flow chart of a method of tag management based on environmental monitoring data in one embodiment.

Detailed Description

The application will be described in further detail below with reference to the drawings by means of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present application. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, related operations of the present application have not been shown or described in the specification in order to avoid obscuring the core portions of the present application, and may be unnecessary to persons skilled in the art from a detailed description of the related operations, which may be presented in the description and general knowledge of one skilled in the art.

Furthermore, the described features, operations, or characteristics of the description may be combined in any suitable manner in various embodiments. Also, various steps or acts in the method descriptions may be interchanged or modified in a manner apparent to those of ordinary skill in the art. Thus, the various orders in the description and drawings are for clarity of description of only certain embodiments, and are not meant to be required orders unless otherwise indicated.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The term "coupled" as used herein includes both direct and indirect coupling (coupling), unless otherwise indicated.

Referring to fig. 1, a tag management system based on environmental monitoring data according to an embodiment of the present application includes a data acquisition module 1, a tag generation module 2, a tag library module 3, and a system function module 4, which are described below.

The data acquisition module 1 is used for acquiring environment monitoring data from a service database of each service department, and the acquired environment monitoring data can comprise atmospheric environment data, water environment data, sound environment data, soil environment data, pollution source data and the like, so that the system integrates various environment monitoring data, and unified management and unified scheduling of data resources are realized.

The tag generation module 2 is configured to obtain environmental monitoring data from the data acquisition module 1 in real time, generate a tag according to a preset tag generation rule, and/or update an old tag. The tag is used for representing environmental management characteristics of an environmental management object corresponding to the environmental monitoring data, and it can be understood that the environmental management objects corresponding to the atmospheric environmental data, the water environment data, the acoustic environmental data, the soil environmental data and the pollution source data are respectively an atmospheric environment, a water environment, an acoustic environment, a soil environment and a pollution source enterprise, and the environmental management characteristics can be whether the environmental monitoring data reach standards, whether pollution exists, the severity of the pollution, the duration of the pollution and the like. The tag generation module 2 can acquire environmental monitoring data from the data acquisition module 1 in real time through task scheduling, analyze data characteristics, generate tags according to tag generation rules and/or update old tags. Task scheduling is an important function of computer systems by which a particular task can be automatically performed at a given point in time, a given interval of time, or a given number of executions. Tag generation rules include, but are not limited to: if the environmental monitoring data of a certain environmental management object continuously exceeds the standard for N hours, marking the environmental management object with a label continuously exceeding the standard for N hours, wherein N is a positive integer; if the environmental monitoring data of a water environment quality monitoring station in the latest preset time period exceeds the standard, marking a pollution exceeding label on the water quality monitoring station; if the statistical data of the environmental monitoring data of a certain air quality monitoring station in the last year does not meet the preset examination target requirement, marking the air quality monitoring station with a label which does not reach the standard; if a pollution source enterprise has a trusted report record, a trusted report label is marked on the pollution source enterprise. For example, if an air monitoring station continuously exceeds the standard for 3 hours, the label generating module 2 analyzes the exceeding condition of the environmental monitoring data of the air monitoring station in real time through task scheduling, and if a certain air monitoring station continuously exceeds the standard for 3 hours, the air monitoring station is marked with the continuously exceeding label for 3 hours. Along with the change of the environmental monitoring data, the tag generation module 2 continuously tracks the environmental monitoring data through task scheduling, and updates the tag of the air monitoring site according to the latest environmental monitoring data. By looking up the label, the user can know the pollution information, and the method is very convenient.

The tag library module 3 is used for storing the tags generated and/or updated by the tag generation module. Referring to fig. 1, the tag library module 3 includes an entity library 31, a tag library 32, and a log library 33. The entity library 31 is used for storing information of environment management objects, and the information of the environment management objects can include positions, types, numbers and the like of the environment management objects, and the types of the monitoring objects correspond to the environment monitoring objects and include atmospheric environment, water environment, acoustic environment, soil environment, pollution sources and the like; the tag library 32 is used for storing the tags generated and/or updated by the tag generation module 2, and the log library 33 is used for recording operations performed on the tags by a user.

The system function module 4 provides functions that can be directly used by a user, who can operate on the tag management system through man-machine interaction devices such as a keyboard, a mouse, a display, a touch screen, and the like, using the functions provided by the system function module 4. Referring to fig. 1, the system function module 4 includes a tag inquiry unit 41, a tag management unit 42, and a tag update unit 43. The tag query unit 41 is configured to retrieve and display a tag that meets the condition from the tag library module 3 according to the query condition input by the user. The user can set the query condition in the tag management system to query the required data, for example, can choose to check the tag of a certain environment management object, the tag of a certain monitoring object or certain specific tag (for example, check all tags exceeding the standard for 3 hours), one or more query conditions can be provided, the tag query unit 4 searches the tag library module 3 for the tag meeting the conditions and presents the tag to the user, and the tag contains the pollution information of the environment management object, so that the user can accurately and quickly acquire the required information instead of only facing the pure data; the tag can be obtained by analysis according to atmospheric environment data, water environment data, acoustic environment data, soil environment data and pollution source data, so that the pollution source information can be reflected more comprehensively, and decision support is provided for environment management.

The tag management unit 42 is configured to perform tag entity definition, tag topic definition, and tag definition in response to a user operation. The tag entity definition refers to entering information of an environment management object and storing the information in the entity library 31. The entity herein refers to an environmental management object; the tag thematic definition refers to classifying tags into atmospheric environment tags, water environment tags, acoustic environment tags and the like according to the types of the monitored objects; the tag definition means that the tag generation rule is set, and the user can set the tag generation rule according to the accumulated experience, and the tag management unit 42 receives the tag generation rule set by the user and stores the tag generation rule for the tag generation module 2.

Since the labels of each entity will change updates continuously, the label management system provides a dynamic update mechanism, in particular implemented by the label update unit 43. The tag updating unit 43 is used for adding, editing and deleting tags in response to user operations, and changing tag generation rules, tag update time and environment monitoring data sources. The user can monitor the label job and the application situation through the label updating unit 43.

On the basis of the tag management system based on the environmental monitoring data, the application also provides a tag management method based on the environmental monitoring data, please refer to fig. 2, and the method comprises steps 110-140, which are specifically described below.

Step 110: environmental monitoring data is acquired. The environmental monitoring data can be obtained from the business databases of the business departments, and the obtained environmental monitoring data can comprise atmospheric environmental data, water environment data, acoustic environmental data, soil environmental data, pollution source data and the like, so that the system integrates various environmental monitoring data, and unified management and unified scheduling of data resources are realized.

Step 120: and generating the label and/or updating the old label in real time according to a preset label generation rule by utilizing the environment monitoring data. The label is used for representing environmental management characteristics of an environmental management object corresponding to the environmental monitoring data, it can be understood that the environmental management objects corresponding to the atmospheric environmental data, the water environment data, the acoustic environmental data, the soil environmental data and the pollution source data are respectively an atmospheric environment, a water environment, an acoustic environment, a soil environment and a pollution source enterprise, the environmental management characteristics can be whether the environmental monitoring data reach standards, whether pollution exists, the severity of the pollution, the duration of the pollution and the like, the environmental monitoring data can be obtained in real time through task scheduling, the data characteristics are analyzed, and the label is generated and/or the old label is updated according to a label generation rule. Task scheduling is an important function of computer systems by which a particular task can be automatically performed at a given point in time, a given interval of time, or a given number of executions. Tag generation rules include, but are not limited to: if the environmental monitoring data of a certain environmental management object continuously exceeds the standard for N hours, marking the environmental management object with a label continuously exceeding the standard for N hours, wherein N is a positive integer; if the environmental monitoring data of a water environment quality monitoring station in the latest preset time period exceeds the standard, marking a pollution exceeding label on the water quality monitoring station; if the statistical data of the environmental monitoring data of a certain air quality monitoring station in the last year does not meet the preset examination target requirement, marking the air quality monitoring station with a label which does not reach the standard; if a pollution source enterprise has a trusted report record, a trusted report label is marked on the pollution source enterprise. For example, an air monitoring station is set to continuously exceed the standard for 3 hours, the environment monitoring data exceeding condition of the air monitoring station is analyzed in real time through task scheduling, and if a certain air monitoring station continuously exceeds the standard for 3 hours, the air monitoring station is marked with the continuously exceeding standard for 3 hours. With the change of the environmental monitoring data, the environmental monitoring data needs to be continuously tracked, and the label of the air monitoring station is updated according to the latest environmental monitoring data. By looking up the label, the user can know the pollution information, and the method is very convenient.

Step 130: the generated and/or updated tags are stored in a tag library.

Step 140: when the query condition input by the user is received, the labels meeting the condition are called and displayed from the label library according to the query condition input by the user. After the labels are stored in the label library, a user can perform operation through man-machine interaction equipment such as a keyboard, a mouse, a display, a touch screen and the like, and query and manage the labels. The user can set the query conditions to query the required data, for example, the user can select to check the label of a certain environment management object, the label of a certain monitoring object or certain specific labels (for example, check all labels exceeding the standard for 3 hours), one or more query conditions can be set, the labels meeting the query conditions are called out from the label library and presented to the user, and the labels contain the pollution information of the environment management object, so that the user can accurately and quickly acquire the required information; the tag can be obtained by analysis according to atmospheric environment data, water environment data, acoustic environment data, soil environment data and pollution source data, so that the pollution source information can be reflected more comprehensively, and decision support is provided for environment management.

In some embodiments, the tag management method further comprises: the tag entity definition, the tag topic definition, and the tag definition are performed in response to a user operation. The label entity definition refers to the input of information of an environment management object, wherein the entity refers to the environment management object; the tag thematic definition refers to classifying tags into atmospheric environment tags, water environment tags, acoustic environment tags and the like according to the types of the monitored objects; the tag definition refers to setting tag generation rules, which a user can set according to his accumulated experience.

Since the labels of each entity are updated continuously, the label management method provides a dynamic update mechanism, i.e. the label management method further comprises: and adding, editing and deleting the tags in response to user operations, and changing tag generation rules, tag update time and environment monitoring data sources.

According to the label management system and the label management method based on the environment monitoring data, the acquired environment monitoring data comprise atmospheric environment data, water environment data, sound environment data, soil environment data and pollution source data, so that unified management and unified scheduling of data resources are realized; meanwhile, a user can preset a tag generation rule according to the pollution information to be obtained, the tag is used for representing the environment management characteristics of the environment management object, the obtained environment monitoring data are analyzed in real time to obtain the characteristics reflected by the data, the tag is generated according to the preset tag generation rule, the environment management object is labeled, the pollution information can be known through the tag, and the tag can be used for searching, so that the user can accurately and rapidly obtain the required information; the label can be obtained by analyzing atmospheric environment data, water environment data, acoustic environment data, soil environment data and pollution source data, can reflect pollution source information more comprehensively, and provides decision support for environment management.

Reference is made to various exemplary embodiments herein. However, those skilled in the art will recognize that changes and modifications may be made to the exemplary embodiments without departing from the scope herein. For example, the various operational steps and components used to perform the operational steps may be implemented in different ways (e.g., one or more steps may be deleted, modified, or combined into other steps) depending on the particular application or taking into account any number of cost functions associated with the operation of the system.

In the above embodiments, it may be implemented in whole or in part by software, hardware, firmware, or any combination thereof. Additionally, as will be appreciated by one of skill in the art, the principles herein may be reflected in a computer program product on a computer readable storage medium preloaded with computer readable program code. Any tangible, non-transitory computer readable storage medium may be used, including magnetic storage devices (hard disks, floppy disks, etc.), optical storage devices (CD-to-ROM, DVD, blu-Ray disks, etc.), flash memory, and/or the like. These computer program instructions may be loaded onto a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions which execute on the computer or other programmable data processing apparatus create means for implementing the functions specified. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including means which implement the function specified. The computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified.

While the principles herein have been shown in various embodiments, many modifications of structure, arrangement, proportions, elements, materials, and components, which are particularly adapted to specific environments and operative requirements, may be used without departing from the principles and scope of the present disclosure. The above modifications and other changes or modifications are intended to be included within the scope of this document.

The foregoing detailed description has been described with reference to various embodiments. However, those skilled in the art will recognize that various modifications and changes may be made without departing from the scope of the present disclosure. Accordingly, the present disclosure is to be considered as illustrative and not restrictive in character, and all such modifications are intended to be included within the scope thereof. Also, advantages, other advantages, and solutions to problems have been described above with regard to various embodiments. The benefits, advantages, solutions to problems, and any element(s) that may cause any benefit, advantage, or solution to occur or become more pronounced are not to be construed as a critical, required, or essential feature. The terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, system, article, or apparatus. Furthermore, the term "couple" and any other variants thereof are used herein to refer to physical connections, electrical connections, magnetic connections, optical connections, communication connections, functional connections, and/or any other connection.

Those skilled in the art will recognize that many changes may be made to the details of the above-described embodiments without departing from the underlying principles of the invention. Accordingly, the scope of the invention should be determined only by the following claims.

Claims (4)

1. A tag management system based on environmental monitoring data, comprising:

The data acquisition module is used for acquiring environment monitoring data, wherein the environment monitoring data comprise atmospheric environment data, water environment data, acoustic environment data, soil environment data and pollution source data;

The label generation module is used for acquiring the environment monitoring data from the data acquisition module in real time, generating a label and/or updating an old label according to a preset label generation rule, wherein the label is used for representing environment management characteristics of an environment management object corresponding to the environment monitoring data, and the environment management object comprises an atmospheric environment, a water environment, an acoustic environment, a soil environment and a pollution source enterprise; the tag generation rule includes: if the environmental monitoring data of a certain environmental management object continuously exceeds the standard for N hours, marking the environmental management object with a label continuously exceeding the standard for N hours, wherein N is a positive integer; if the environmental monitoring data of a water environment quality monitoring station in the latest preset time period exceeds the standard, marking a pollution exceeding label on the water environment quality monitoring station; if the statistical data of the environmental monitoring data of a certain air quality monitoring station in the last year does not meet the preset examination target requirement, marking the air quality monitoring station with a label which does not reach the standard; if a pollution source enterprise has a trusted report record, a trusted report label is marked on the pollution source enterprise;

The label library module comprises an entity library, a label library and a log library; the entity library is used for storing information of an environment management object, the tag library is used for storing tags generated and/or updated by the tag generation module, and the log library is used for recording operations of users on the tags;

The system comprises a system functional module, a label management module and a label updating module, wherein the system functional module comprises a label inquiry unit, a label management unit and a label updating unit; the tag query unit is used for retrieving and displaying tags meeting the conditions from the tag library module according to query conditions input by a user;

The label management unit is used for responding to user operation to carry out label entity definition, label thematic definition and label definition; the label entity definition refers to the input of information of an environment management object, wherein the information of the environment management object comprises the position of the environment management object, the type and the number of a monitoring object, and the type of the monitoring object comprises an atmospheric environment, a water environment, an acoustic environment, a soil environment and a pollution source; the label thematic definition refers to classifying labels; the label definition refers to setting label generation rules;

the tag updating unit is used for carrying out new addition, editing and deletion on the tag in response to user operation, and changing tag generation rules, tag updating time and environment monitoring data sources.

2. The tag management system according to claim 1, wherein the tag generation module acquires the environmental monitoring data from the data acquisition module in real time by means of task scheduling, and generates a tag and/or updates an old tag according to a preset tag generation rule.

3. A label management method based on environmental monitoring data, comprising:

Acquiring environment monitoring data, wherein the environment monitoring data comprises atmospheric environment data, water environment data, acoustic environment data, soil environment data and pollution source data;

Generating a label and/or updating an old label in real time according to a preset label generation rule by utilizing the environment monitoring data, wherein the label is used for representing environment management characteristics of an environment management object corresponding to the environment monitoring data; the tag generation rule includes: if the environmental monitoring data of a certain environmental management object continuously exceeds the standard for N hours, marking the environmental management object with a label continuously exceeding the standard for N hours, wherein N is a positive integer; if the environmental monitoring data of a water environment quality monitoring station in the latest preset time period exceeds the standard, marking a pollution exceeding label on the water environment quality monitoring station; if the statistical data of the environmental monitoring data of a certain air quality monitoring station in the last year does not meet the preset examination target requirement, marking the air quality monitoring station with a label which does not reach the standard; if a pollution source enterprise has a trusted report record, a trusted report label is marked on the pollution source enterprise;

Storing information of an environment management object into an entity library, storing generated and/or updated labels into a label library, and recording operations of users on the labels into a log library;

when receiving the query condition input by the user, retrieving and displaying the label meeting the condition from the label library according to the query condition input by the user;

Performing label entity definition, label thematic definition and label definition in response to user operation; the label entity definition refers to that information of an environment management object is input into an entity library, the information of the environment management object comprises the position of the environment management object, the type and the number of a monitoring object, and the type of the monitoring object comprises an atmospheric environment, a water environment, an acoustic environment, a soil environment and a pollution source; the label thematic definition refers to classifying labels; the label definition refers to setting label generation rules;

And adding, editing and deleting the tags in response to user operations, and changing tag generation rules, tag update time and environment monitoring data sources.

4. A computer readable storage medium, characterized in that the medium has stored thereon a program, which is executable by a processor to implement the method of claim 3.