CN110620804A - Environment monitoring system and method thereof - Google Patents

Abstract

The invention relates to an environment monitoring system and a method thereof, wherein the system is provided with a server end and a plurality of user ends which respectively belong to a plurality of user groups, the server end stores environment monitoring task information, generates and sends sampling task information in the environment monitoring task information aiming at the user end of a first user group, and generates and sends measurement analysis task information corresponding to the sampling task information in the environment monitoring task information aiming at the user end of a second user group; the user side of the first user group receives the sampling task information and sends sampling task state information to the server side according to the task completion condition; the user end of the second user group receives the measurement and analysis task information and sends measurement and analysis task completion information to the server end; and the server receives the information sent by the user terminals of the first user group and the second user group to generate environment monitoring data information.

Description

Environment monitoring system and method thereof

Technical Field

The invention relates to the field of environmental monitoring, in particular to an environmental monitoring system and a method thereof.

Background

In the process of environmental monitoring, in order to know the environmental conditions and quality of a certain place or the whole country, a large number of on-site various environmental information and original monitoring data information need to be collected by a large number of environmental monitoring workers, and then the information is collated and analyzed.

However, because of the wide variety of information and the excessive amount of information in the environmental monitoring, the conventional information management device can only manage the information by adopting a simple storage mode generally, and cannot effectively analyze and process the data, so that the problems of low data processing efficiency, insufficient analysis precision, low utilization rate of data information and the like exist.

In addition, to obtain environmental monitoring data, a large amount of field sampling work and laboratory measurement and analysis work are required, and then the data are summarized. In this process, no errors are allowed, which would otherwise waste a lot of time and money and would also have a negative impact on the accuracy of the final result obtained.

Therefore, a set of perfect, reliable, efficient and intelligent environment monitoring system is established, so that management of all links in the environment monitoring process is integrated and efficient, and the problem to be solved urgently is solved.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the environment monitoring system and the method thereof, which can effectively monitor each link of environment monitoring, have high management integration level and high reliability and improve the efficiency of the environment monitoring process.

The environment monitoring system of the invention is characterized in that: the system comprises a server and a plurality of user sides belonging to a plurality of user groups respectively, wherein the server stores environment monitoring task information, generates and sends sampling task information in the environment monitoring task information aiming at the user side of a first user group, and generates and sends measurement analysis task information corresponding to the sampling task information in the environment monitoring task information aiming at the user side of a second user group; the user side of the first user group receives the sampling task information and sends sampling task state information to the server side according to the task completion condition; the user end of the second user group receives the measurement and analysis task information and sends measurement and analysis task completion information to the server end; and the server receives the information sent by the user terminals of the first user group and the second user group to generate environment monitoring data information.

According to the invention, the server side manages the user side of each user group, the completion conditions of the sampling and measurement analysis processes can be effectively monitored, and the reliability is good.

Preferably, in the environment monitoring system of the present invention, the sampling task information includes a plurality of sampling tasks, the measurement analysis task information includes a plurality of measurement analysis tasks corresponding to the plurality of sampling tasks, the server generates unique identification information that can be picked up by the user terminal for each of the sampling tasks, and stores each of the identification information and each of the sampling tasks and each of the measurement analysis tasks corresponding to the identification information in association with each other.

According to the invention, the unique identification information is used for managing the user groups for executing the corresponding sampling task and the measurement and analysis task, so that each user group can obtain the information endowed with corresponding authority when the environment monitoring task is executed, and the reliability of the environment monitoring system is improved.

Preferably, in the environment monitoring system of the present invention, the sampling task information includes, for each of the sampling tasks: sample attribute information, sampling user group information, sampling point location information and sample storage condition information; the measurement analysis task information includes, for each of the measurement analysis tasks: sample attribute information and measurement analysis user group information, and at least does not contain sampling point location information.

According to the invention, the sampling task information and the measurement analysis task information respectively contain specific information, so that the reliability and the authenticity of the environment monitoring system for acquiring the environment monitoring data can be improved.

Preferably, in the environment monitoring system of the present invention, the user side of the first user group sends the sampling task completion information corresponding to the identification information to the server side by picking up the identification information; and the user side of the second user group confirms that the sample of the sampling task is received by the second user group to the server side by picking up the identification information, and sends the measurement analysis result information corresponding to the identification information to the server side by picking up the identification information. Further preferably, the identification information includes sample classification information, and the user side of the second user group receives the sample of the category by picking up one piece of the identification information and confirming the sample quantity information of the category of the sample corresponding to the identification information with the server side.

According to the invention, the user group communicates with the server end by using the identification information, so that the server end can accurately monitor the execution process of the environment monitoring task, and the reliability of environment monitoring is ensured.

The invention also provides a method of the environment monitoring system, which is characterized in that the method comprises a task allocation step, wherein a server generates and sends sampling task information in the environment monitoring task information aiming at a first user group according to the environment monitoring task information, and generates and sends measurement analysis task information corresponding to the sampling task information in the environment monitoring task information aiming at a second user group; a sampling monitoring step, wherein the first user group receives the sampling task information through a user terminal and sends sampling task state information to the server terminal according to the task completion condition; a measurement analysis monitoring step, wherein the second user group receives the measurement analysis task information through a user end and sends measurement analysis task completion information to the server end; and a data processing step, wherein the server side generates environment monitoring data information according to the information sent by the user sides of the first and second user groups.

According to the invention, the server side manages the user side of each user group, the completion conditions of the sampling and measurement analysis processes can be effectively monitored, and the reliability is good.

Preferably, the environmental monitoring method of the present invention is characterized in that: in the task allocation step, the sampling task information generated by the server includes a plurality of sampling tasks, the measurement and analysis task information generated by the server includes a plurality of measurement and analysis tasks corresponding to the plurality of sampling tasks, the server also generates unique identification information for each sampling task, and stores each identification information and each sampling task and each measurement and analysis task corresponding to the identification information in association with each other.

According to the invention, the unique identification information is used for managing the user groups for executing the corresponding sampling task and the measurement and analysis task, so that each user group can obtain the information endowed with corresponding authority when the environment monitoring task is executed, and the reliability of the environment monitoring system is improved.

Preferably, the environmental monitoring method of the present invention is characterized in that: the sampling task information includes, for each of the sampling tasks: the method comprises the following steps of sample attribute information, sampling user group information, sampling point location information and sample storage condition information, wherein the measurement analysis task information comprises the following steps of: sample attribute information and measurement analysis user group information, and at least does not contain sampling point location information.

According to the invention, the sampling task information and the measurement analysis task information respectively contain specific information, so that the reliability and the authenticity of the environment monitoring system for acquiring the environment monitoring data can be improved.

Preferably, the environmental monitoring method of the present invention is characterized in that: in the sampling monitoring step, the user side of the first user group confirms to the server side that the sampling task corresponding to the identification information is completed by picking up the identification information.

According to the invention, the user group communicates with the server end by using the identification information, so that the server end can accurately monitor the execution process of the environment monitoring task, and the reliability of environment monitoring is ensured.

Preferably, the environmental monitoring method of the present invention is characterized in that: and a sample handover monitoring step, between the sampling monitoring step and the measurement analysis monitoring step, in which the user side of the second user group confirms to the server side that the sample of the sampling task has been received by the second user group by picking up the identification information, and in the measurement analysis monitoring step, the user side of the second user group sends measurement analysis result information corresponding to the identification information to the server side by picking up the identification information. Further preferably, in the sample handover monitoring step, the user side of the second user group receives the sample of the category by picking up one piece of the identification information and confirming the sample quantity information of the sample category corresponding to the identification information with the server side.

According to the invention, the execution condition of the handover task between the user groups can be effectively monitored by using the server, and the reliability of the execution of the environment monitoring task is ensured.

Drawings

Fig. 1 is a schematic configuration diagram of an environment monitoring system according to an embodiment of the present invention.

Fig. 2 is a schematic configuration diagram of an environment monitoring system according to an embodiment of the present invention.

FIG. 3 is an example of a table of data stored on the server side by the environmental monitoring system in accordance with one embodiment of the present invention.

FIG. 4 is an example of a table of data stored on the server side by the environmental monitoring system in accordance with one embodiment of the present invention.

FIG. 5 is a flow chart of an environmental monitoring system in accordance with an embodiment of the present invention.

Detailed Description

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, the preferred embodiments of the present invention will be described in detail, but the scope of the present invention is not limited thereto.

Fig. 1 and 2 are schematic views of an environment monitoring system according to an embodiment of the present invention, and as shown in fig. 1 and 2, an environment monitoring system 1 according to a preferred embodiment of the present invention includes: a server 100 and a plurality of user groups 200, wherein the server 100 and the user groups 200 communicate through a network 300.

In the present embodiment, the user group 200 is divided into a plurality of user groups 210, 220, …, 2n 0. Each group includes a plurality of clients, for example, the group 210 includes clients 211, 212, 213, 214 …; the user group 220 comprises user terminals 221, 222, 223, 224 …; the user group 2n0 includes user terminals 2n1, 2n2, 2n3, and 2n4 ….

The server 100 stores the environment monitoring task information, generates an environment monitoring task for each user group 210, 220, … 2n0 according to the environment monitoring information, and sends the task information to the corresponding user group 210, 220, … 2n0 through the network 300.

As the server 100, the generated environment monitoring task includes sampling task information 311 and measurement and analysis task information 312, in this embodiment, the sampling task information 311 may be received by each user terminal 211, 212, 213, 214 … in the user group 210; and measurement analysis task information 312 may be received by clients 221, 222, 223, 224 … of user group 220.

The user terminals 211, 212, 213, 214 … in the user group 210 receive the sampling task information 311 sent by the server terminal 100, and send sampling task status information 321 to the server terminal 100 according to the task completion status. The user terminals 221, 222, 223, 224 … of the user group 220 receive the measurement and analysis task information 312 sent by the server 100, and send measurement and analysis task completion information 322 to the server 100 according to the task completion status.

The server side 100 receives the sampled task state information 321 from the user sides 211, 212, 213, 214 … of the user group 210 and the measurement analysis task completion information 322 from the user sides 221, 222, 223, 224 … of the user group 220 to generate the environmental monitoring data information. And the server 100 can effectively monitor the sampling and analyzing process by receiving the sampling task status information 321 and the measurement and analysis task completion information 322. This will be explained in detail below.

The sampling task information 311 generated by the server 100 includes a plurality of sampling tasks 3111, 3112, and … 311 m. The measurement and analysis task information 312 generated by the server 100 includes a plurality of measurement and analysis tasks 3121, 3122, … 312m corresponding to the plurality of sampling tasks 3111, 3112, … 311 m. The server side 100 transmits only one of the corresponding sampling task information and the measurement analysis task information to the respective user groups 210, 220, … 2n 0.

Fig. 3 and 4 show an example of a table for storing data on the server side.

As shown in fig. 3, the server 100 generates unique identification information TG1, TG2, … TGm that can be picked up by each user terminal in the user group 200 for each sampling task 3111, 3112, … 311m, and stores each identification information TG1, TG2, … TGm in association with each sampling task 3111, 3112, … 311m and each measurement and analysis task 3121, 3122, … 312m corresponding thereto.

Therefore, when the server 100 transmits the sampling task information 311 and the measurement and analysis task information 312 to the user terminal 200, the server simultaneously transmits the identification information TG1, TG2, … TGm corresponding to each sampling task 3111, 3112, … 311m to each user group 200. In the present embodiment, the sampling task information 311 corresponds to the measurement and analysis task information 312, and therefore, the sampling task information 311 and the measurement and analysis task information 312 are transmitted to different user groups 210 and 220, respectively.

On the other hand, the user groups 210 and 220 may also receive other corresponding measurement analysis task information and sampling task information from the server 100 respectively with another user group 2n0, which is not described in detail. The description will be given only by taking as an example a case where the sampling task information 311 and the measurement analysis task information 312 are transmitted to the user groups 210 and 220, respectively.

In the sampling task information 311, each of the sampling tasks 3111 to 311m includes sample attribute information, sampling user group information, sampling point location information, and sample storage condition information.

The sample attribute information represents basic information of sampling operation to be performed in a sampling task; the sampling user group information is information of viewable right set for each user group 210, 220, … 2n 0; the sampling point location information stores the information of the geographic position coordinates for executing the sampling operation and the spatial position of the sample to be acquired, such as the surface, the underground or the surface of a water body, the underwater depth or the air height, and the like; the sample preservation information is information on the preservation condition of the collected sample, and the information has a crucial role in preservation after collection of a specific sample.

The user terminals 211 to 214 in the user group 210 receive the sampling task information 311 from the server terminal 100 and also receive the identification information TG1 to TGm transmitted together with the sampling task information 311. In the present embodiment, the identification information TG1 to TGm can uniquely identify the corresponding sampling tasks 3111 to 311m and measurement and analysis tasks 3121 to 312 m. The identification information TG1 to TGm may be a two-dimensional code or a barcode encoded according to a predetermined rule, and is preferably a two-dimensional code in view of easy realization and confidentiality.

The user terminals 211 to 214 in the user group 210 can determine the details of the sampling tasks 3111 to 311m transmitted by the server 100 through the pickup identification information TG1 to TGm, and can connect with the server 100 through the pickup identification information TG1 to TGm and transmit the sampling task completion information 3211 to 321m related to the sampling tasks 3111 to 311m to the server 100.

On the other hand, each of the user terminals 221 to 224 in the user group 220 can determine the details of each of the measurement and analysis tasks 3121 to 312m transmitted from the server 100 by the pickup identification information TG1 to TGm, and can connect to the server 100 by the pickup identification information TG1 to TGm to transmit the measurement and analysis result information 3221 to 322m related to each of the measurement and analysis tasks 3121 to 312m to the server 100.

As described above, the user groups 210 and 220 establish communication with the server 100 through the identification information TG 1-TGm, so as to realize acquisition and execution of the sampling tasks 3111-311 m, monitoring management of the sampling tasks 3111-311 m by the server 100, acquisition and execution of the measurement and analysis tasks 3121-312 m of the sample after the sampling tasks 3111-311 m, monitoring management of the measurement and analysis tasks 3121-312 m by the server 100, and acquisition of the measurement and analysis results. The reliability from task formulation to monitoring result acquisition is greatly improved.

The structure of the environment monitoring system and the method for operating the same according to the present invention will be described in detail below with reference to examples. FIG. 5 is a flow chart of an environmental monitoring system of an embodiment of the present invention.

As shown in fig. 5, in the environment monitoring system 1 according to the present embodiment, first, in step S1, the server 100 receives entry of task information, which may include past task information imported by the server 100 and task information newly entered manually from the background of the server 100.

Then, in step S2, the server 100 generates environment monitoring task information. The environment monitoring task information includes a plurality of sampling task information 311 and measurement analysis task information 312, … sampling/measurement analysis task information 31n to be allocated to different user groups 210-2 n 0. Each of the sampling task information 311 and the measurement and analysis task information 312 includes a plurality of sampling tasks 3111 to 311m and a plurality of measurement and analysis tasks 3121 to 312m to be transmitted to a specified user group. In addition, identification information TG 1-TGm for uniquely identifying the environment monitoring task is generated for the sampling tasks 3111-311 m and the measurement and analysis tasks 3121-312 m corresponding to each group together with the environment monitoring task information.

As the identification information TG for identifying the environmental monitoring task information, high encoding density, high fault tolerance, and reliable confidentiality are required, and therefore, in the present embodiment, a two-dimensional code is preferably used as a carrier of the identification information TG. The user group 200 can determine the specific contents of the sampling tasks 3111 to 3111m and the measurement and analysis tasks 3121 to 312m corresponding to the identification information TG1 to TGm by picking up the two-dimensional code as the identification information TG.

In step S3, after generating the environment monitoring task information (including the sampling task information 311, the measurement and analysis task information 312, … and the sampling (measurement and analysis) task information 31n) and the identification information TG of each environment monitoring task, the server 100 sends the relevant environment monitoring task information 311, 312, … 31n to the corresponding user groups 210, 220, … 2n0, and sends the identification information TG 1-TGm corresponding to each environment monitoring task (specifically, the sampling tasks 3111-311 m and the measurement and analysis tasks 3121-312 m …) included in each environment monitoring task information 311, 312, … 31n to the corresponding user groups 210, 220, … 2n 0. In this embodiment, the identification information TG 1-TGm may be sent together with each environmental monitoring task, or may be sent separately to the corresponding user groups 210, 220, … 2n0 in the form of another data packet, which will not be described in detail below.

In the present embodiment, the server 100 sends the sampling task information 311 and the measurement and analysis task information 312 and … (measurement and analysis) task information 31n in the environment monitoring task information to the designated user groups 210, 220 and … 2n0 according to the actual conditions of the user groups 210, 220 and … 2n 0. So that the server 100 completes the generation and transmission of the environment monitoring task.

Next, in step S4, the user terminals 211 to 214 … in the user group 210 designated by the server 100 to complete the sampling task receive the sampling task information 311 transmitted from the server 100 and receive the identification information TG1 to TGm transmitted together with the sampling task information 311, thereby uniquely identifying the sampling tasks 3111 to 311m included in the sampling task information 311. Accordingly, the users in the user group 210 can prepare various appliances required for completing each sampling task, including a sample container, a sample storage device, a vehicle and a construction device required for collecting a sample, and the like, for each sampling task 3111 to 311 m.

Since each of the sampling tasks 3111 to 311m has unique identification information TG1 to TGm, the user of the user group 210 can create a label with the identification information TG1 to TGm of each sample to be sampled by using any one of the user terminals 211 to 214 …, and attach the label to a container for containing each sample. In the present embodiment, when creating the label, the server side 100 allows only the partial sample attribute information and the sample storage condition information not including at least the sampling point information to be displayed, in addition to the identification information TG1 to TGm of each sample, in accordance with the authority given thereto.

After the user in the user group 210 finishes the preparation work according to the sampling task information 311, the sampling operation can be performed, and each sample is obtained. After the users in the user group 210 take the samples, in step S5, the user terminals 211 to 214 … are used to pick up the identification information TG1 to TGm, so that the sampling task completion information 3211 to 321m of each sampling task can be sent to the server 100, and the status information 321 of the sampling task to the server 100 is sent.

In step S5, the server 100 determines the sampling task completion information 3211 to 321m of each of the sampling tasks 3111 to 311m according to the received identification information TG1 to TGm, and thereby confirms whether all the sampling tasks 3111 to 311m are completed. The server 100 is enabled to monitor the sampling process.

After all the sampling tasks 3111 to 311m are completed, the server 100 notifies the users of the user group 210 executing each of the sampling tasks 3111 to 311m to perform sample connection operation with the users of the user group 220 executing the measurement and analysis tasks 3121 to 312m corresponding to each of the sampling tasks 3111 to 311m designated in step S3.

On the other hand, the clients 221 to 224 … in the user group 220 designated by the server 100 to complete the measurement and analysis task wait for the server 100 to confirm whether or not to receive the sample after receiving the measurement and analysis task information 312 sent by the server 100. After the server 100 confirms that the sampling task completion information 3211 to 321m of all the sampling tasks 3111 to 311m is received from the user group 210, the user of the user group 220 is notified to perform a sample receiving operation.

In step S6, the users of the user group 220 use the user terminals 221-224 … to pick up the identification information TG 1-TGm attached to the labels of the sample containers, so as to send the information of completing the sample collection of each sample to the server 100, until the identification information sent from the user terminals 221-224 … of the user group 220 to the server 100 is consistent with the identification information TG 1-TGm sampled by the user group 210, and the server 100 determines that the sample collection operation of the sample sent from the user group 210 to the user group 220 is completed, so that the server 100 can monitor the handover process of the sample sent from one user group to another user group.

In the present embodiment, in order to improve the efficiency of the sample receiving operation in step S6, when the server 100 generates the identification information TG1 to TGm for the environment monitoring task, the sample classification information is added thereto. After the user group 210 finishes each sampling task, the samples are classified, stored and transported according to the sample classification information attached to the identification information TG 1-TGm. Thus, when the user group 220 receives samples, the user group can complete the receiving of the samples of the category by picking up the identification information TGx of one of the classified samples and confirming the number of the samples of the category with the server 100. Therefore, the identification information TG 1-TGm does not need to be picked up one by one for each sample in the sample receiving operation, the workload of the sample receiving operation is greatly reduced, and the efficiency of the sample receiving operation is improved.

In step S7, the users of the user group 220 obtain the information of each sample from the server 100 according to the identification information TG 1-TGm, and perform measurement analysis on each sample accordingly.

In step S8, the users of the user group 220 send measurement and analysis task completion information 322 for performing measurement and analysis on each sample to the server 100 by picking up the identification information TG1 to TGm. As shown in FIG. 4, the measurement and analysis task completion information 322 includes measurement and analysis result information 3221 to 322m of each environmental monitoring task linked to each of the sampling tasks 3111 to 311m by the identification information TG1 to TGm.

In step S9, the server 100 receives the measurement analysis task completion information 322 including the measurement analysis result information 3221-322 m from the user terminals 221-224 … of the user group 220 and stores the same in association with the environment monitoring task. In this embodiment, when each environment monitoring task is generated, the server 100 generates the unique identification information TG1 to TGm of each environment monitoring task, each sampling task 3111 to 311m corresponding thereto, and each measurement and analysis task 3121 to 312m corresponding thereto, so that it is possible to determine whether or not to accurately complete the environment monitoring tasks in the process of the user terminals 211 to 214 … executing the sampling tasks and the user terminals 221 to 224 … executing the measurement and analysis tasks according to the steps S4 to S8, and whether or not to obtain the corresponding measurement and analysis result information 3221 to 322m for each environment monitoring task. Thereby enabling the reliability of the environmental monitoring system 1 to be ensured.

In step S10, when the server 100 receives the pieces of measurement and analysis result information 3221 to 322m as the environmental monitoring data, the environmental monitoring data is analyzed to generate an environmental monitoring report.

Although the embodiments of the present invention have been described in detail, the scope of the present invention is not limited to the specific embodiments. Various modifications, alterations and changes to the above-described embodiments can be made by those skilled in the art as required, and such modifications, alterations and changes are encompassed within the scope of the present claims.

Claims (10)

1. An environmental monitoring system, characterized by:

having a server side and a plurality of user sides respectively belonging to a plurality of user groups,

the server side stores environment monitoring task information, generates and sends sampling task information in the environment monitoring task information aiming at the user side of a first user group, and generates and sends measurement analysis task information corresponding to the sampling task information in the environment monitoring task information aiming at the user side of a second user group;

the user side of the first user group receives the sampling task information and sends sampling task state information to the server side according to the task completion condition;

the user end of the second user group receives the measurement and analysis task information and sends measurement and analysis task completion information to the server end;

and the server receives the information sent by the user terminals of the first user group and the second user group to generate environment monitoring data information.

2. The environmental monitoring system of claim 1, wherein:

the sampling task information includes a plurality of sampling tasks,

the measurement analysis task information includes a plurality of measurement analysis tasks corresponding to the plurality of sampling tasks,

the server generates unique identification information for each sampling task, wherein the unique identification information can be picked up by the user side, and stores each piece of identification information and each sampling task and each measurement analysis task corresponding to the identification information in an associated mode.

3. The environmental monitoring system of claim 2, wherein:

the sampling task information includes, for each of the sampling tasks: sample attribute information, sampling user group information, sampling point location information and sample storage condition information;

the measurement analysis task information includes, for each of the measurement analysis tasks: sample attribute information and measurement analysis user group information, and at least does not contain sampling point location information.

4. The environmental monitoring system of claim 2, wherein:

the user side of the first user group sends sampling task completion information corresponding to the identification information to the server side by picking up the identification information;

and the user side of the second user group confirms that the sample of the sampling task is received by the second user group to the server side by picking up the identification information, and sends the measurement analysis result information corresponding to the identification information to the server side by picking up the identification information.

5. The environmental monitoring system of claim 4, wherein:

the identification information comprises sample classification information,

and the user side of the second user group finishes receiving the sample of the category by picking up one piece of identification information and confirming the sample quantity information of the category of the sample corresponding to the identification information with the server side.

6. A method of an environmental monitoring system, comprising:

a task allocation step, wherein the server generates and sends sampling task information in the environment monitoring task information aiming at a first user group according to the environment monitoring task information, and generates and sends measurement analysis task information corresponding to the sampling task information in the environment monitoring task information aiming at a second user group;

a sampling monitoring step, wherein the first user group receives the sampling task information through a user terminal and sends sampling task state information to the server terminal according to the task completion condition;

a measurement analysis monitoring step, wherein the second user group receives the measurement analysis task information through a user end and sends measurement analysis task completion information to the server end;

and a data processing step, wherein the server side generates environment monitoring data information according to the information sent by the user sides of the first and second user groups.

7. The environmental monitoring method of claim 6, wherein:

in the task-assigning step,

the sampling task information generated by the server side comprises a plurality of sampling tasks,

the measurement analysis task information generated by the server side includes a plurality of measurement analysis tasks corresponding to the plurality of sampling tasks,

the server side further generates unique identification information which can be picked up by the user side for each sampling task, and stores each identification information and each sampling task and each measurement analysis task corresponding to the identification information in an associated manner.

8. The environmental monitoring method of claim 7, wherein:

the sampling task information includes, for each of the sampling tasks: sample attribute information, sampling user group information, sampling point location information, sample storage condition information,

the measurement analysis task information includes, for each of the measurement analysis tasks: sample attribute information and measurement analysis user group information, and at least does not contain sampling point location information.

9. The environmental monitoring method of claim 7, wherein:

in the sampling monitoring step, the user side of the first user group confirms to the server side that the sampling task corresponding to the identification information is completed by picking up the identification information;

between the sampling monitoring step and the measurement analysis monitoring step, a sample handover monitoring step is further included, wherein the user side of the second user group confirms to the server side that the sample of the sampling task has been received by the second user group by picking up the identification information;

in the step of monitoring, analyzing and measuring, the user side of the second user group sends the measurement and analysis result information corresponding to the identification information to the server side by picking up the identification information.

10. The environmental monitoring system of claim 9, wherein:

the identification information comprises sample classification information,

in the step of sample handover monitoring, the user side of the second user group receives the sample of the category by picking up one piece of the identification information and confirming the sample quantity information of the category of the sample corresponding to the identification information with the server side.