CN111932113A - Environment supervision and management method, platform and storage medium - Google Patents

Abstract

The invention discloses an environment supervision and management method, a platform and a storage medium.A task management module establishes a target task and determines an execution department of the target task. The task decomposition module decomposes the target task according to the execution departments to obtain subtasks of the target task corresponding to each execution department, and sends the subtasks to user terminals of the corresponding execution departments; and determining the assessment indexes of the subtasks. And the first task tracking module receives the execution information of the subtasks fed back by each user terminal. And the examination reporting module is used for examining, verifying and evaluating the execution information, generating the execution progress of the subtasks and outputting the execution progress. Therefore, through the platform, not only can the target tasks be decomposed and respectively distributed to the corresponding execution departments, but also the execution feedback of each execution department can be collected, the execution progress of the tasks and the execution conditions of each execution department are effectively mastered, and the efficiency of environment supervision and management is improved.

Description

Environment supervision and management method, platform and storage medium

Technical Field

The invention relates to the field of environmental supervision and management, in particular to an environmental supervision and management method, a platform and a storage medium.

Background

At present, no suitable informatization system is provided for managing atmosphere control by all levels of environmental protection management departments, the existing informatization technical scheme only solves the construction of atmosphere perception equipment, and the application of the similar system mainly has the following problems in the longitudinal view:

in the prior art, each department establishes an independent management system to manage the air data belonging to the interior of the department, and the systems do not have a sharing mechanism and the data are independent. When the environmental protection department needs to master all the atmospheric monitoring conditions in an overall manner, the atmospheric monitoring conditions can not be checked clearly in time through an informatization means, so that manual contact and collection are needed, and the environmental protection department is inconvenient to master in an overall manner.

The execution process of the atmospheric treatment work lacks tracking and monitoring means, and the completion condition of the atmospheric task is difficult to track.

Therefore, the existing atmospheric treatment efficiency needs to be improved.

Disclosure of Invention

The invention provides an environment supervision and management method, a platform and a storage medium, aiming at improving the efficiency of environment supervision and management.

According to a first aspect, an embodiment provides an environmental surveillance management platform, comprising a target management coordination system, the target management coordination system comprising:

the task management module is used for establishing a target task and determining an execution department of the target task;

the task decomposition module is used for decomposing the target tasks according to the execution departments to obtain subtasks of the target tasks corresponding to the execution departments, and the subtasks are dispatched to the user terminals of the corresponding execution departments; determining the assessment indexes of the subtasks;

the first task tracking module is used for receiving the execution information of the subtasks fed back by each user terminal;

and the examination reporting module is used for examining, verifying and evaluating the execution information, generating the execution progress of the subtasks and outputting the execution progress.

Further, the environmental surveillance management platform further comprises a problem handling coordination system, the problem handling coordination system comprising:

the problem task generating module is used for generating a problem task;

the task distribution module is used for distributing the problem task to a user terminal of an execution department corresponding to the dispatching instruction according to the received dispatching instruction;

the second task tracking module is used for receiving the execution information of the problem task fed back by each user terminal;

and the task verification module is used for verifying the execution information and ending the problem task if the execution information is true.

Further, the environmental supervision and management platform further comprises an air quality guarantee cooperative system, and the air quality guarantee cooperative system comprises:

the early warning confirmation module is used for receiving the early warning data, determining whether an early warning task is generated according to the early warning data, and determining an early warning grade if the early warning task is generated;

the issuing early warning module is used for issuing corresponding early warning notifications according to the early warning grades and sending early warning tasks to user terminals of corresponding execution departments;

and the real-time monitoring module is used for acquiring monitoring data of the air quality in real time, adjusting the early warning level according to the monitoring data and removing the early warning.

Further, the examination notification module is further configured to:

and when the execution progress of the subtasks is lower than the preset progress, reporting the corresponding execution department.

Further, the environment supervision management platform further comprises a communication module for communication, an input module for receiving input of a user, and a display.

Further, the task management module determining an execution department of the target task includes:

displaying all execution departments on a display interface of a display for a user to select;

and determining the execution department selected by the user as the execution department of the target task.

According to a second aspect, an embodiment provides an environmental supervision management method, including:

establishing a target task and determining an execution department of the target task;

decomposing the target tasks according to the execution departments to obtain subtasks of the target tasks corresponding to the execution departments, and dispatching the subtasks to user terminals of the corresponding execution departments; determining the assessment indexes of the subtasks;

receiving execution information of the subtasks fed back by each user terminal;

and auditing and evaluating the execution information, generating the execution progress of the subtasks, and outputting and displaying the execution progress.

Further, still include:

generating a problem task;

according to the received dispatching instruction, dispatching the problem task to a user terminal of an execution department corresponding to the dispatching instruction;

receiving the execution information of the problem task fed back by each user terminal;

and verifying the execution information, and if the execution information is true, ending the problem task.

Further, still include:

receiving early warning data, determining whether an early warning task is generated according to the early warning data, and if the early warning task is generated, determining an early warning level;

issuing corresponding early warning notification according to the early warning level, and dispatching the early warning task to a user terminal of a corresponding execution department;

and acquiring monitoring data of air quality in real time, adjusting the early warning level according to the monitoring data, and removing the early warning.

According to a third aspect, an embodiment provides a computer-readable storage medium comprising a program executable by a processor to implement the method of the above-described embodiment.

According to the environment supervision management method, the platform and the storage medium of the embodiment, the task management module establishes the target task and determines the execution department of the target task. The task decomposition module decomposes the target task according to the execution departments to obtain subtasks of the target task corresponding to each execution department, and sends the subtasks to user terminals of the corresponding execution departments; and determining the assessment indexes of the subtasks. And the first task tracking module receives the execution information of the subtasks fed back by each user terminal. And the examination reporting module is used for examining, verifying and evaluating the execution information, generating the execution progress of the subtasks and outputting the execution progress. Therefore, through the platform, not only can the target tasks be decomposed and respectively distributed to the corresponding execution departments, but also the execution feedback of each execution department can be collected, the execution progress of the tasks and the execution conditions of each execution department are effectively mastered, and the efficiency of environment supervision and management is improved.

Drawings

FIG. 1 is a block diagram of an embodiment of an environment supervision management platform;

FIG. 2 is a block diagram of a target management collaboration system of an embodiment;

FIG. 3 is a flowchart of target task execution in the method for environmental surveillance management according to an embodiment;

FIG. 4 is a block diagram of the structure of an issue handling coordination system of an embodiment;

FIG. 5 is a flowchart of problem task execution in the method for environmental surveillance management according to an embodiment;

FIG. 6 is a block diagram of an air quality assurance coordination system according to an embodiment;

fig. 7 is a flowchart illustrating execution of an early warning task in an environmental supervision management method according to an embodiment.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The environment supervision management platform provided by the invention dispatches the tasks to the corresponding execution departments in a cooperative management mode and receives the execution information fed back by the execution departments, thereby realizing the management of the environment management tasks and the supervision of the execution conditions and improving the efficiency of environment supervision management. The following is illustrated by several examples.

The first embodiment is as follows:

referring to fig. 1, fig. 1 is a block diagram of an environment monitoring management platform (environment monitoring management system) according to an embodiment, which includes three systems: a target management cooperative system 20, a problem disposal cooperative system 30, and an air quality assurance cooperative system 40. The environment supervision and management platform can be deployed on a server or a user terminal.

The environment supervision management platform further comprises a communication module, an input module and a display.

The communication module is used for communication, for example, for communication with user terminals 10 disposed at respective execution departments. The user terminal 10 may be various types of computers (desktop, notebook, tablet, etc.), mobile phones, smart wearable devices, and the like. Since the environmental supervision and management platform is usually used by the environmental protection regulatory department, the execution department may be other functional departments at the same level as the environmental protection regulatory department, such as a residential building, a public security bureau, an administrative law enforcement bureau, a city management bureau, etc. The execution department may also be a subordinate department of an environmental protection regulatory department, such as an environmental protection department of each county. The communication between the environment supervision and management platform and the user terminals 10 deployed in each execution department may be in the form of authorized accounts, for example, different accounts are distributed to the execution departments according to the difference of the execution departments, and the staff of the execution departments log on the user terminals 10, that is, a communication connection with the environment supervision and management platform is established.

The input module is used for receiving input of a user, and may include, for example, a mouse, a keyboard, a touch panel integrated on a display, and the like.

As shown in fig. 2, the object management cooperative system 20 includes: the task management module 210, the task decomposition module 220, the first task tracking module 230 and the assessment reporting module 240. The target management cooperative system 20 is mainly used for processing the key work task and the superior task, and a specific process thereof is shown in fig. 3, and includes the following steps:

the step S1 of creating a task, the task management module 210 creates a target task, performs unified management and maintenance on each target task, and determines an execution department of the target task. The target tasks comprise key work tasks, superior submitting tasks and the like. The major work task has a relatively long span, which is usually an annual target task, for example, the embodiment takes a blue sky defense task as an example for explanation. The user can input an instruction for newly creating the key work task through the input module, the task management module 210 responds to the instruction, and displays a page of the newly created key work task on a display interface of the display for the user to edit, the page can display a task name bar for the user to input, and display all execution departments for the user to select, and the like. The user performs input operation and selection operation through the input module. The task management module 210 determines the task name input by the user as the name of the target task, and determines the execution department selected by the user as the execution department of the target task, thereby completing the establishment of the target task. Of course, the environment monitoring and management platform of the current level may also communicate with the environment monitoring and management platform of the previous level, receive the task distributed by the environment monitoring and management platform of the previous level, and use it as the target task.

The task decomposition step S2, the task decomposition module 220 decomposes the target task according to the execution department of the target task to obtain the subtasks of the target task corresponding to each execution department, and dispatches the subtasks of each execution department to the user terminal 10 of the corresponding execution department, that is, decomposes the target task and sends the decomposed target task to each level department and the subordinate department of each district and county. For the blue sky defense task, a subtask for industrial structure optimization, a subtask for transportation structure adjustment, a subtask for land structure adjustment, a subtask for seasonal pollution control, a subtask for energy structure adjustment and the like can be decomposed. The process of creating the subtasks refers to the process of creating the target task, which is not described herein again.

After the subtasks of each execution department are obtained, the task decomposition module 220 displays an assessment index editing interface through a display for the user to input the corresponding assessment indexes, and the task decomposition module 220 determines the assessment indexes of the subtasks according to the input of the user. The assessment index may also be distributed to the user terminals 10 of the corresponding execution departments. Assessment indicators include the number of operational indicators for the subtasks and the corresponding score criteria (e.g., full score 100, and pass score 60). After receiving the number of subtasks and the number of the operational indicators, the user terminal 10 may specify and submit the operational indicators to the target management cooperative system. For example, the sub-tasks of energy structure adjustment may formulate operational indicators of gas boiler modification, biomass boiler remediation, and the like.

The task decomposition module 220 is further configured to edit and delete the subtasks.

In the task tracking step S3, after receiving the subtask, the user terminal 10 of the execution department executes the subtask, and periodically reports the execution information reflecting the execution condition of the subtask to the target management cooperative system 20. The first task tracking module 230 receives the execution information of the subtasks fed back by each user terminal 10 through the communication module, and displays the execution information through the display, which may be directly displayed after receiving the execution information or displayed when the user views the execution information. The execution information can be text content, pictures, videos, voices and the like, and the execution condition of the task can be intuitively reflected. Therefore, the user terminal 10 may also be a mobile phone, and after the staff of the executive department executes the task on site, the staff can obtain evidence of the task execution process and the execution result in the modes of editing characters, taking pictures, shooting videos, recording and the like through the mobile phone, so as to facilitate the platform user to supervise and manage.

The examination reporting step S4 and the examination reporting module 240 review and evaluate the execution information, generate and output the execution progress of the subtask. The output of the execution progress may be displaying the execution progress through a display, and specifically, the examination reporting module 240 performs summary statistics according to the distribution condition of the subtasks and the execution information of the subtasks, tracks the standard reaching condition and the completion quality of each subtask, generates the execution progress of the subtasks according to the standard reaching condition and the completion quality of each subtask, and displays the execution progress on the display. The execution progress can be generated according to the assessment indexes and preset rules, and can also be input by a user. Therefore, the user can see the execution progress of each department, and the supervision and management of each department are facilitated. The examination report module 240 checks the execution information, and if the execution information does not pass the check, the examination report module returns the execution information to the user terminal 10 for re-execution, that is, the user terminal 10 needs to re-execute the execution information and upload new execution information. The assessment reporting module 240 evaluates the execution information and may provide a display page for the user to input the assessment.

When the execution progress of the subtask is lower than the preset progress, the examination reporting module 240 reports the corresponding execution department, that is, reports the criticizing of the execution department whose execution progress is lower than the preset progress to other execution departments, and may send the criticizing result to the user terminal of each execution department in the form of text, picture, and the like, so as to implement reporting. Specifically, when the execution progress of the subtask is lower than the preset progress corresponding to the preset time period within the preset time period, the examination reporting module 240 reports the corresponding execution department, where one preset time period corresponds to one preset progress, and the preset time period and the preset progress thereof are set as required.

The environment supervision and management platform supports the first-level deployment and third-level application of provinces, cities and counties, and all levels of environment protection management departments can only check the data of the region to which the environment protection management departments belong through authority control; the higher environmental protection department can supervise the service data of the lower department.

As shown in FIG. 4, the issue handling collaboration system 30 includes an issue task generation module 310, a task diversion module 320, a second task tracking module 330, and a task verification module 340. The problem handling cooperative system 30 is mainly used for processing a possible environmental problem reflected externally, and a specific process thereof is shown in fig. 5, and includes the following steps:

the task establishing step S1' generally finds some problem clues in daily inspection, for example, in actions such as atmospheric inspection, central inspection, special inspection, and complaint report. Some problem clues can be found after an alarm is generated in the daily monitoring process of the automatic monitoring equipment, for example, some problem clues can be found in the processes of air stations, village and town stations, high-altitude videos, enterprise power utilization monitoring, pollution source online monitoring and the like. After the problem clues are provided by the external departments, personnel and monitoring equipment, the user judges the problem clues to determine whether the problem clues need to initiate a collaborative process, i.e., whether the problem needs to be processed, and if the problem clues need to be initiated, the problem task is generated by the problem task generating module 310, and the process is directly ended if the problem clues do not need to be initiated.

The user can input an instruction of a newly-built problem task through the input module, the problem task generation module 310 responds to the instruction, and displays a page of the newly-built problem task on a display interface of the display for the user to edit, wherein the page can be the same as the page number of the newly-built target task, the page can display a task name bar for the user to input, display a problem description bar for the user to input, and display all execution departments for the user to select. The user performs input operation and selection operation through the input module. The task name input by the user is determined as the name of the task, and the execution department selected by the user is determined as the execution department of the task, so that the establishment of the task is completed. Multiple executing departments may be required to participate in the same problem clue, and multiple problem tasks are newly created.

In an optional embodiment, the platform further obtains data such as scattered pollutant enterprise remediation data, catering oil fume remediation data, sprinkler action set, sweeper action set, emission list data, air quality emission reduction list, boiler remediation elimination list and the like, and then a user determines whether to create a problem task.

In the task shunting step S2', the task shunting module 320 dispatches the problem task to the user terminal of the execution department corresponding to the dispatch instruction according to the received dispatch instruction, thereby implementing that the environmental protection department shunts the problem task to different departments according to the problem clues.

And a task tracking step S3', wherein the execution department receiving the problem task goes to the site for checking according to the problem description, and feeds back execution information reflecting the execution result to the platform. Similarly, the execution information can be text content, pictures, videos, voices and the like, and the execution condition of the task can be intuitively reflected. Therefore, the user terminal 10 may also be a mobile phone, and after the staff of the executive department executes the task on site, the staff can obtain evidence of the task execution process and the execution result in the modes of editing characters, taking pictures, shooting videos, recording and the like through the mobile phone, so as to facilitate the platform user to supervise and manage.

The second task tracking module 330 receives the execution information of the problem task fed back by each user terminal, and displays the execution information through a display, which may be directly displayed after receiving the execution information or displayed when the user views the execution information. Therefore, the environmental protection department can track and inquire the completion condition of the distributed problem tasks and know the task execution condition.

The feedback checking step S4' is that the task verifying module 340 verifies the execution information, and if the execution information is true, the problem task is ended, for example, the task verifying module 340 displays the options of the execution information verification and non-true on the display page of the display for the user to select, and if the user selects verification, the problem task is ended and fed back to the corresponding user terminal, and if the execution information is not true, the modification opinion is fed back to the corresponding user terminal 10 for re-execution, that is, the user terminal 10 needs to re-execute and upload new execution information. The task verification module 340 may also generate an execution schedule for the problem task based on the execution information, which may be input by the user.

Through the process, the cooperative processing of the problem of external reflection is realized, the processing progress can be tracked and supervised, and the efficiency of environment supervision and management is improved.

As shown in fig. 6, the air quality assurance cooperative system 40 includes: the early warning confirmation module 410, the early warning issuing module 420 and the real-time monitoring module 430. The air quality assurance cooperative system 40 is mainly used for handling air quality problems, and a specific process thereof is shown in fig. 7, and includes the following steps:

and in the early warning consultation step S1', the platform is in communication connection with an external air station for detecting the air quality, the air station outputs real-time monitoring data of the air quality to the platform, and when the monitoring data exceed an early warning threshold value, the early warning data are output to the early warning confirmation module 410. Of course, the work of outputting the early warning data may also be completed by the real-time monitoring module 430, for example, the real-time monitoring module 430 acquires the monitoring data of the air quality in real time, determines whether the monitoring data exceeds the early warning threshold, and outputs the early warning data to the early warning confirmation module 410 when the monitoring data exceeds the early warning threshold.

The early warning confirmation module 410 receives the early warning data, determines whether to generate an early warning task according to the early warning data, and determines an early warning level if the early warning task is generated. For example, the early warning confirmation module 410 receives the early warning data and then displays the early warning data on the display interface, the user performs consultation on the early warning data, creates an early warning task if the early warning task needs to be generated, and inputs an early warning level determined by the consultation.

And an early warning issuing step S2', in which the early warning issuing module 420 issues a corresponding early warning notification according to the early warning level and dispatches the early warning task to a user terminal of a corresponding execution department. The issuing early warning module 420 can issue the early warning notification on the internet, a television station, a radio station, a mobile phone sent to the jurisdiction through the network, and the like. The early warning task may be preset, which corresponds to an early warning level. For example, light pollution corresponds to one kind of early warning task, heavy pollution corresponds to another kind of early warning task, the early warning task is equivalent to a treatment measure, and the issuing early warning module 420 only needs to dispatch the corresponding early warning task according to the early warning level. For example, the early warning level is severe pollution, and the issuing early warning module 420 sends the early warning tasks such as "daily watering task increase frequency", "gas-involved unit performs production limit, production stop", and "gas-involved work patrol" to the corresponding execution department, and the execution department performs treatment.

The real-time monitoring step S3 ″, where the real-time monitoring module 430 acquires monitoring data of the air quality in real time and displays the data through a display, so as to track the air quality status; and adjusting the early warning grade and relieving the early warning according to the monitoring data. That is, after the distribution of the early warning task is completed, the real-time monitoring module 430 acquires the monitoring data of the air quality in real time to check the execution condition of the early warning task of each execution department, reduces the early warning level when the monitoring data shows that the air quality is improved until the early warning is released, and increases the early warning level when the monitoring data shows that the air quality is deteriorated. And after the early warning is released, the early warning process is ended.

In conclusion, the environment supervision and management platform provided by the invention introduces a business cooperation mode in the atmospheric control supervision process of the environmental protection department, and realizes intelligent supervision on atmospheric control by using the internet technology and intelligent terminal application through a standardized atmospheric control supervision flow. The problems of existing atmospheric data dispersion, data independent isolated island, difficult cooperative management among departments, low task execution efficiency and the like are solved. The method has more real and reliable data in actual work, is more beneficial to tracking and managing the task execution condition by an environmental protection department, and improves the efficiency of environmental supervision and management.

Those skilled in the art will appreciate that all or part of the functions of the various methods in the above embodiments may be implemented by hardware, or may be implemented by computer programs. When all or part of the functions of the above embodiments are implemented by a computer program, the program may be stored in a computer-readable storage medium, and the storage medium may include: a read only memory, a random access memory, a magnetic disk, an optical disk, a hard disk, etc., and the program is executed by a computer to realize the above functions. For example, the program may be stored in a memory of the device, and when the program in the memory is executed by the processor, all or part of the functions described above may be implemented. In addition, when all or part of the functions in the above embodiments are implemented by a computer program, the program may be stored in a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a removable hard disk, and may be downloaded or copied to a memory of a local device, or may be version-updated in a system of the local device, and when the program in the memory is executed by a processor, all or part of the functions in the above embodiments may be implemented.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (10)

1. An environmental supervision and management platform, comprising a target management cooperative system, wherein the target management cooperative system comprises:

the task management module is used for establishing a target task and determining an execution department of the target task;

the task decomposition module is used for decomposing the target tasks according to the execution departments to obtain subtasks of the target tasks corresponding to the execution departments, and the subtasks are dispatched to the user terminals of the corresponding execution departments; determining the assessment indexes of the subtasks;

the first task tracking module is used for receiving the execution information of the subtasks fed back by each user terminal;

and the examination reporting module is used for examining, verifying and evaluating the execution information, generating the execution progress of the subtasks and outputting the execution progress.

2. The environmental surveillance management platform of claim 1, further comprising a problem handling coordination system, the problem handling coordination system comprising:

the problem task generating module is used for generating a problem task;

the task distribution module is used for distributing the problem task to a user terminal of an execution department corresponding to the dispatching instruction according to the received dispatching instruction;

the second task tracking module is used for receiving the execution information of the problem task fed back by each user terminal;

and the task verification module is used for verifying the execution information and ending the problem task if the execution information is true.

3. The environmental surveillance management platform of claim 1, further comprising an air quality assurance coordination system comprising:

the early warning confirmation module is used for receiving the early warning data, determining whether an early warning task is generated according to the early warning data, and determining an early warning grade if the early warning task is generated;

the issuing early warning module is used for issuing corresponding early warning notifications according to the early warning grades and sending early warning tasks to user terminals of corresponding execution departments;

and the real-time monitoring module is used for acquiring monitoring data of the air quality in real time, adjusting the early warning level according to the monitoring data and removing the early warning.

4. The environmental surveillance management platform of claim 1, wherein the assessment advisory module is further to:

and when the execution progress of the subtasks is lower than the preset progress, reporting the corresponding execution department.

5. The environmental surveillance management platform of claim 1, further comprising a communication module for communicating, an input module for receiving input from a user, and a display.

6. The environmental surveillance management platform of claim 5, wherein the task management module determining the execution department of the target task comprises:

displaying all execution departments on a display interface of a display for a user to select;

and determining the execution department selected by the user as the execution department of the target task.

7. An environmental supervision and management method is characterized by comprising the following steps:

establishing a target task and determining an execution department of the target task;

decomposing the target tasks according to the execution departments to obtain subtasks of the target tasks corresponding to the execution departments, and dispatching the subtasks to user terminals of the corresponding execution departments; determining the assessment indexes of the subtasks;

receiving execution information of the subtasks fed back by each user terminal;

and auditing and evaluating the execution information, generating the execution progress of the subtasks, and outputting and displaying the execution progress.

8. The environmental supervision management method according to claim 7, further comprising:

generating a problem task;

according to the received dispatching instruction, dispatching the problem task to a user terminal of an execution department corresponding to the dispatching instruction;

receiving the execution information of the problem task fed back by each user terminal;

and verifying the execution information, and if the execution information is true, ending the problem task.

9. The environmental supervision management method according to claim 7, further comprising:

receiving early warning data, determining whether an early warning task is generated according to the early warning data, and if the early warning task is generated, determining an early warning level;

issuing corresponding early warning notification according to the early warning level, and dispatching the early warning task to a user terminal of a corresponding execution department;

and acquiring monitoring data of air quality in real time, adjusting the early warning level according to the monitoring data, and removing the early warning.

10. A computer-readable storage medium, characterized by comprising a program executable by a processor to implement the method of any one of claims 7-9.

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