CN110933132A

CN110933132A - Data processing server and data processing system

Info

Publication number: CN110933132A
Application number: CN201911021877.8A
Authority: CN
Inventors: 李曌; 丁页; 杨凯; 李文攀; 刘喜惠; 陈亚男; 刘允; 刘喆; 刘京; 孙宗光; 贾庆; 胡晓燕; 唐旭; 余正东; 王梦园; 刘学文; 梁荣帧; 王宏全
Original assignee: CHINA ENVIRONMENTAL MONITORING GENERAL STATION
Current assignee: CHINA ENVIRONMENTAL MONITORING GENERAL STATION
Priority date: 2019-10-25
Filing date: 2019-10-25
Publication date: 2020-03-27

Abstract

The invention relates to a data processing server and a data processing system, wherein the data processing server stores environment monitoring task information generated in a specified mode, and the environment monitoring task information comprises a sampling task and a measurement and analysis task corresponding to the sampling task; storing the corresponding sampling task and the measurement analysis task in a correlation manner; sending a sampling task aiming at a terminal of a first user group, receiving sampling task completion information from the terminal of the first user group, sending a measurement and analysis task corresponding to the sampling task aiming at a terminal of a second user group, and receiving measurement and analysis task result information from the terminal of the second user group; and storing the information received from the terminals of the first and second user groups in a correlated manner to generate environment monitoring data information. According to the invention, the server manages the terminals of each user group, the completion conditions of the sampling and measurement analysis processes can be effectively monitored, and the method has good reliability.

Description

Data processing server and data processing system

Technical Field

The invention relates to a data processing server and a data processing system, in particular to a data processing server and a data processing system used in the field of environmental monitoring.

Background

In the field of environmental monitoring, in order to know the environmental conditions and quality of a certain place or a country, a large number of on-site environment monitoring workers are required to collect a large amount of on-site environment information and original monitoring data information and then arrange and analyze the information.

However, the information in environmental monitoring is of a great variety and has a large amount, and in order to obtain monitoring data, samples of such huge and complicated data are collected, then measurement and analysis are performed, and then data are collected and collated. In the process, a plurality of workers are involved, in order to improve the reliability of the environmental monitoring data, the data processing system is required to have high accuracy and high efficiency in task issuing, personnel coordination and data collection, and in addition, the influence of human factors on sample collection and measurement analysis results is required to be avoided as much as possible in the whole process.

In addition, to acquire monitoring data, a large amount of field sampling work is required for sample acquisition, and on the other hand, when the acquired sample is measured and analyzed, the measurement and analysis work of the sample needs to be completed by using multiple labs in a division and cooperation manner.

Therefore, a set of complete, reliable, efficient and intelligent data processing 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 data processing 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 data processing server of the present invention is characterized in that: storing environment monitoring task information generated in a specified mode, wherein the environment monitoring task information comprises a sampling task and a measurement and analysis task corresponding to the sampling task; storing the corresponding sampling task and the measurement analysis task in a correlation manner; sending a sampling task aiming at a terminal of a first user group, receiving sampling task completion information from the terminal of the first user group, sending a measurement and analysis task corresponding to the sampling task aiming at a terminal of a second user group, and receiving measurement and analysis task result information from the terminal of the second user group; and storing the information received from the terminals of the first and second user groups in a correlated manner to generate environment monitoring data information.

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

Preferably, the data processing server receives from the terminals of the third user group the sampling task generated by the terminals of the third user group in the prescribed manner, generates a measurement and analysis task corresponding to the sampling task received from the terminals of the third user group, and transmits the measurement and analysis task corresponding to the sampling task received from the terminals of the third user group to the terminals of the second user group.

According to the invention, the reliability of the environmental monitoring data sampling can be improved by setting the third user group.

Preferably, unique first identification information that can be picked up by the terminal is generated for the corresponding sampling task and measurement and analysis task generated by the data processing server, the identification information is transmitted together with the sampling task when transmitting information to the terminals of the first user group, and the sampling task completion information and measurement and analysis task result information are stored in association with each other in accordance with the pickup result of the unique identification information received from the terminals of the first and second user groups.

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 data processing system is improved.

In addition, it is preferable that the data processing server of the present invention further receives unique second identification information, which is generated by the terminal of the third user group and is available for the terminal to pick up, corresponding to the sampling task generated by the terminal when the sampling task generated by the terminal of the third user group is received from the terminal of the third user group, generates the measurement and analysis task corresponding to the sampling task based on the sampling task received from the terminal of the third user group, and stores the sampling task completion information and the measurement and analysis task result information in association with each other based on the pickup result of the unique identification information received from the terminals of the third and second user groups.

Therefore, the third user group can set sampling tasks independently according to conditions, and the reliability of the environment monitoring data is improved.

Preferably, in the data processing server of the present invention, the sampling task includes: information of sample attribute, sampling user group, sampling point location and sample storage condition; the measurement analysis task comprises: sample attribute, information of a measurement analysis user group, and at least no sampling point location information.

By including specific information in the sampling task and the measurement and analysis task, the reliability and the authenticity of the data processing system for acquiring the environmental monitoring data can be improved.

The invention also provides a data processing system, which is characterized in that: the system comprises a data processing server and terminals belonging to a plurality of user groups, wherein the data processing server stores environment monitoring task information generated in a specified mode, the environment monitoring task information comprises a sampling task and a measurement and analysis task corresponding to the sampling task, and the corresponding sampling task and the measurement and analysis task are stored in a correlated mode; the data processing server sends a sampling task to a terminal of a first user group, and the terminal of the first user group returns sampling task completion information to the data processing server; the data processing server sends a measurement and analysis task corresponding to the sampling task to a terminal of a second user group, and the terminal of the second user group returns measurement and analysis task result information to the data processing server; the data processing server stores the information received from the terminals of the first and second user groups in a correlated manner, and generates environment monitoring data information.

Preferably, in the data processing system according to the present invention, the sampling task generated by the terminal of the third user group in the predetermined manner is transmitted to the data processing server, and the data processing server generates a measurement and analysis task corresponding to the sampling task received from the terminal of the third user group and transmits the measurement and analysis task to the terminal of the second user group.

Preferably, in the data processing system of the present invention, the data processing server generates unique first identification information that can be picked up by the terminal for the respective sampling task and measurement and analysis task generated by itself, transmits the identification information together with the sampling task when transmitting information to the terminals of the first user group, and stores the sampling task completion information and the measurement and analysis task result information in association with each other based on the pickup result of the unique identification information received from the terminals of the first and second user groups.

Preferably, in the data processing system of the present invention, the data processing server receives unique second identification information generated by the terminal of the third user group and corresponding to the sampling task generated by the terminal and available for the terminal to pick up, generates the measurement and analysis task corresponding to the sampling task based on the sampling task received from the terminal of the third user group, and stores the sampling task completion information and the measurement and analysis task result information in association with each other based on the picking up result of the unique identification information received from the terminals of the third and second user groups.

In the data processing system of the present invention, the sampling task includes: information of sample attribute, sampling user group, sampling point location and sample storage condition; the measurement analysis task comprises: sample attribute, information of a measurement analysis user group, and at least no sampling point location information.

Drawings

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

FIG. 2 is a schematic diagram showing the configuration of a data processing system according to an embodiment of the present invention.

FIG. 3 is an example of a table of data stored on a server by a data processing system according to an embodiment of the present invention.

FIG. 4 is an example of a table of data stored on a server by a data processing system according to an embodiment of the present invention.

FIG. 5 is a flow diagram of a data processing 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 diagrams of a data processing system according to an embodiment of the present invention, and as shown in fig. 1 and 2, a data processing system 1 according to a preferred embodiment of the present invention includes: a server 100 and a plurality of user groups 200, the server 100 communicating with the user groups 200 over a network 300.

In the present embodiment, the user group 200 is divided into a plurality of

user groups

210, 220, and 2n 0. Each group includes a plurality of terminals, for example, group 210 includes

terminals

211, 212, 213, and 214 …; the user group 220 includes

terminals

221, 222, 223, 224 …; the user group 2n0 includes terminals 2n1, 2n2, 2n3, and 2n4 …. In this embodiment, the server 100 uses the user group 210 as a first user group to complete the sampling task; taking the user group 220 as a second user group to complete the measurement and analysis task; the user group 2n0 is used as a third user group, and for the third user group, the third user group is enabled to complete a specified task, which will be described in detail later, so that the data processing system of the embodiment has a supervision function, thereby effectively avoiding the influence of human factors on the detection of the environmental data and ensuring the accuracy of the environmental monitoring result.

The server 100 stores the environment monitoring task information generated in a predetermined manner, generates an environment monitoring task for each

user group

210 and 220 based on the environment monitoring information, and transmits the task information to the

corresponding user group

210 and 220 via the network 300.

The environment monitoring tasks generated by the server 100 include sampling tasks 3111 and 3112 … … and measurement and analysis tasks 3121 and 3122 …, and in the present embodiment, the sampling tasks 3111 and 3112 … … are received by the

terminals

211, 212, 213, and 214 … in the user group 210; and the measurement analysis tasks 3121, 3122 … are received by the

terminals

221, 222, 223, 224 … of the user group 220.

The

terminals

211, 212, 213, 214 … in the user group 210 receive the sampling tasks 3111, 3112 … … sent by the server 100, and send sampling task completion information 3211, 3212 … to the server 100 after completing the corresponding sampling tasks. The

terminals

221, 222, 223, 224 … of the user group 220 receive the measurement and analysis tasks 3121, 3122 … transmitted by the server 100, and transmit measurement and analysis task result information 3221, 3222 … to the server 100 after completing the corresponding measurement and analysis tasks.

The server 100 receives the sampling task completion information 3211, 3212 … from the

terminals

211, 212, 213, 214 … of the user group 210 and the measurement analysis task result information 3221, 3222 … from the

terminals

221, 222, 223, 224 … of the user group 220, stores the corresponding information, and generates the environmental monitoring data information. And the server 100 can effectively realize the monitoring of the sampling and analyzing process by receiving the above-mentioned sampling task completion information 3211, 3212 … and measurement and analysis task result information 3221, 3222 …. This will be explained in detail below.

The server 100 generates sampling tasks 3111 and 3112 … and measurement and analysis tasks 3121 and 3122 … in a predetermined manner from the environment monitoring task, and fig. 3 is an example of a table in which the server stores environment monitoring task information.

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

Accordingly, when the server 100 transmits the sampling tasks 3111 and 3112 … and the measurement and analysis tasks 3121 and 3122 … to the terminals of the first user group 210 and the second user group 220, the server simultaneously transmits the identification information TG1 and TG2 … corresponding to the tasks to the

user groups

210 and 220. In the present embodiment, the sampling tasks 3111 and 3112 … correspond to the measurement and analysis tasks 3121 and 3122 …, and the sampling tasks 3111 and 3112 … and the measurement and analysis tasks 3121 and 3122 … are respectively transmitted to terminals of

different user groups

210 and 220, so that the sampling tasks and the measurement and analysis tasks are respectively executed in

different user groups

210 and 220, and the influence of human factors on the environment monitoring data is avoided.

In the present embodiment, the user group 2n0 is given a function and authority different from those of the

user groups

210 and 220.

The terminals 2n1, 2n2 … as the user group 2n0 can generate the sampling task 311m in the same manner as the server 100 and transmit the sampling task 311m to the server 100. The server 100 receives the sampling task 311m and stores the sampling task in the task list shown in fig. 3 in the same manner as the sampling tasks 3111 and 3112 … described above. Then, the server generates a measurement and analysis task 312m for the sampling task 311m, and transmits the measurement and analysis task 312m to the

terminals

221 and 222 … of the second user group 220 that completes the measurement and analysis task. Therefore, the user group 2n0, as a beneficial supplement to the first user group 210 that undertakes the sampling task, can autonomously add a new sampling task according to the actual situation, and can be distinguished from the sampling task independently executed by the first user group 210, thereby effectively avoiding the influence of human factors on the sampling task in the environmental monitoring.

When the terminals 2n1, 2n2 … of the user group 2n0 as the third user group generate the sampling task 311m, the unique identification information TGm that can be identified by the terminals for identifying the sampling task 311m is also generated in the same manner as the server 100. When the sampling task 311m is transmitted to the server 100, the unique identification information TGm is transmitted to the server 100 at the same time. And the server 100 stores the identification information TGm in the task list shown in fig. 3 in association with the sampling task 311m and the measurement analysis task 312 m.

In the sampling tasks 3111, 3112 … …, and 311m, 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 terminals 211 to 214 in the user group 210 receive the sampling tasks 3111 and 3112 … from the server 100 and also receive the identification information TG1 and TG2 … transmitted together with the sampling tasks 3111 and 3112 …. In the present embodiment, the identification information TG1 and TG2 … TGm can uniquely identify the sampling tasks 3111 and 3112 … 311m and the measurement and analysis tasks 3121 and 3122 … 312m corresponding thereto. The two-dimensional code may be a two-dimensional code or a barcode encoded according to a predetermined rule, and the two-dimensional code is preferably used as the identification information TG1, TG2 … TGm from the viewpoints of easy implementation and confidentiality.

Each of the terminals 211 to 214 in the user group 210 can determine the details of each of the sampling tasks 3111 and 3112 … transmitted from the server 100 by using the pickup identification information TG1 and TG2 …, and can connect to the server 100 by using the pickup identification information TG1 and TG2 … to transmit sampling task completion information 3211 and 3212 … concerning each of the sampling tasks 3111 and 3112 … to the server 100.

The terminals 2n1 to 2n4 in the user group 2n0 can be connected to the server 100 by the pickup identification information TGm, and send sampling task completion information 321m concerning the sampling task 311m to the server 100. Similarly, when the sampling task 311m is a plurality of sampling tasks, the terminals 2n1 to 2n4 in the user group 2n0 generate a plurality of pieces of identification information in association with the plurality of sampling tasks in the sampling task 311m, and the measurement analysis 311m generated by the server 100 is also generated in association with the plurality of sampling tasks indicated by the sampling task 311 m.

On the other hand, each of the 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 and TG2 … and transmit the measurement and analysis result information 3221 to 322m about each of the measurement and analysis tasks 3121 to 312m to the server 100.

As described above, the

user groups

210, 220, 2n0 communicate with the server 100 through the identification information TG1, TG2 … TGm, so as to realize the acquisition, uploading and execution of the sampling tasks 3111-311 m, the monitoring management of the server 100 on the sampling tasks 3111-311 m, the acquisition and execution of the measurement and analysis tasks 3121-312 m on the samples after the sampling tasks 3111-311 m, the monitoring management of the measurement and analysis tasks 3121-312 m by the server 100 and the acquisition of the measurement and analysis results. The reliability from task formulation to monitoring result acquisition is greatly improved.

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

As shown in fig. 5, in the data processing system 1 of 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 environment monitoring 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 tasks 3111, 3112 … and measurement analysis tasks 3121, 3122 … to be assigned to

different user groups

210, 220. Further, identification information TG1 and TG2 … for uniquely identifying the environment monitoring task are generated for each of the sampling tasks 3111 and 3112 … and the measurement and analysis tasks 3121 and 3122 ….

As the identification information TG1, TG2 … for identifying the environmental monitoring task information, high encoding density, high fault tolerance, and reliable confidentiality are required, and therefore, a two-dimensional code is preferably used as a carrier of the identification information in the present embodiment. The

user groups

210, 220 may determine the specific contents of the sampling tasks 3111, 3112 … and the measurement and analysis tasks 3121, 3122 … corresponding to the identification information TG1, TG2 … by picking up the two-dimensional code as the identification information.

After generating the environment monitoring task information (including the sampling tasks 3111, 3112 … …, the measurement and analysis tasks 3121, 3122 …) and the identification information TG1, TG2 … of the respective environment monitoring tasks, the server 100 transmits the sampling tasks 3111, 3112 … to the user group 210 set to execute the sampling tasks in step S3, and transmits the measurement and analysis tasks 3121, 3122 … to the user group 220 set to execute the measurement and analysis tasks in step S4.

Next, the terminals 211 to 214 … in the user group 210 designated by the server 100 to complete the sampling task receive the sampling tasks 3111 and 3112 … transmitted from the server 100 in step S4, receive the identification information TG1 and TG2 … transmitted together with the sampling tasks 3111 and 3112 …, print out the identification information TG1 and TG2 … and attach the identification information to a container for holding the sample, thereby marking the container and uniquely identifying the sampling tasks 3111 and 3112 …, thereby completing the preparation work for the sampling task.

On the other hand, in step S21, the terminal 2n1 … 2n4 of the user group 2n0 generates the sampling task 311m in the same manner as the server 100, and at the same time generates the identification information TGm for identifying the sampling task 311m, and transmits the sampling task 311m and the identification information TGm to the server 100. Upon receiving the sampling task 311m and the identification information TGm, the server 100 generates a corresponding measurement and analysis task 312m in step S22, and also transmits the measurement and analysis task 312m to the user group 220 in step S23. In this way, the terminals 221 to 224 of the user group 220 receive not only the measurement and analysis tasks 3121 and 3122 … corresponding to the sampling tasks 3111 and 3112 … generated by the server 100, but also the measurement and analysis task 312m corresponding to the sampling task 311m generated by the user group 2n 0.

In step S5, the terminals of the user group 210 that performed the sampling task transmit sampling task completion information 3211, 3212 … to the server 100 via the identification codes TG1, TG2 … on the pick-up container, while in step S24, the terminals of the user group 2n0 transmit sampling task completion information 321m to the server 100 via the identification code TGm on the pick-up container. Thus, the server 100 can determine that all the sampling tasks 3111 and 3112 … … 311m have been completed.

Next, in step S6, the terminals 221 to 224 … of the user group 220 pick up the identification information TG1 and TG2 … TGm attached to the labels of the sample containers, and transmit the information that the sample taking is completed to the server 100 until the identification information transmitted from the terminals 221 to 224 … of the user group 220 to the server 100 matches the identification information TG1 and TG2 … sampled by the user group 210, and the server 100 determines that the sample taking operation from the user group 210 to the user group 220 is completed, and thereby the server 100 can monitor whether or not the transfer work to the user group 220 has been completed for all the samples.

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 and TG2 … 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 TG1 and TG2 …. Thus, when a sample is taken by the user group 220, the reception of the sample of the category can be completed by picking up the identification information TG of one of the classified samples and confirming the number of the sample of the category with the server 100. Therefore, the identification information TG1 and TG2 … TGm do 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.

When the user group 220 completes the sample receiving work, the terminals of the user group 220 transmit measurement and analysis task result information 3221, 3222 … 322m for performing measurement and analysis on each sample to the server 100 through the pickup identification information TG1, TG2 … TGm in step S8. As shown in FIG. 4, the measurement and analysis task result information 3221 and 3222 … 322m includes measurement and analysis result information 3221 to 322m of each environmental monitoring task linked to each sampling task 3111 to 311m by the identification information TG1 and TG2 … TGm.

After receiving the measurement and analysis task result information 3221 and 3222 … 322m from the terminals 221 to 224 … of the user group 220, the server 100 stores the measurement and analysis task result information 3221 and 3222 … 322m in association with the task information based on the identification information TGm in step S9. In the present embodiment, the server 100 and the user group 2n0 generate the sampling tasks 3111 and 3112 … … 311m and the unique identification information TG1 and TG2 … TGm thereof in the same manner, and the server 100 generates the measurement and analysis tasks 3121 and 3122 … 312m corresponding to the sampling tasks 3111 and 3112 … … 311m, so that the reliability of the environment monitoring data acquired by the data processing system 1 can be ensured.

In the above embodiment, the steps S21 to S24 may be performed in the steps S1 to S9 alternately, and the order is not limited. However, from the viewpoint of cost saving, it is preferable to complete the execution of the sampling task 311m of step S24 before the sample application operation is performed by the user group 220 in step S6. Otherwise the user group 220 must not repeat the sample taking operation of step S6 again for the sample of the measurement and analysis task 312 m.

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

1. A data processing server, characterized by:

storing environment monitoring task information generated in a specified mode, wherein the environment monitoring task information comprises a sampling task and a measurement and analysis task corresponding to the sampling task;

storing the corresponding sampling task and the measurement analysis task in a correlation manner;

sending a sampling task aiming at a terminal of a first user group, receiving sampling task completion information from the terminal of the first user group, sending a measurement and analysis task corresponding to the sampling task aiming at a terminal of a second user group, and receiving measurement and analysis task result information from the terminal of the second user group;

and storing the information received from the terminals of the first and second user groups in a correlated manner to generate environment monitoring data information.

2. The data processing server of claim 1, wherein:

receiving from the terminals of the third group of users the sampling tasks generated by the terminals of the third group of users in said defined manner,

generating a measurement analysis task corresponding to the sampling task received from the terminals of the third group of users,

and transmitting a measurement analysis task corresponding to the sampling task received from the terminals of the third user group to the terminals of the second user group.

3. The data processing server of claim 2, wherein:

generating unique first identification information for the respective sampling tasks and measurement and analysis tasks generated by the data processing server, which identification information is to be picked up by the terminals, and which identification information is to be transmitted together with the sampling tasks when transmitting information to the terminals of the first user group,

and storing the sampling task completion information and the measurement and analysis task result information in a correlated manner according to the picking result of the unique identification information received from the terminals of the first and second user groups.

4. A data processing server according to claim 3, wherein:

receiving, from the terminals of the third user group, the sampling tasks generated by the terminals of the third user group, and also receiving unique second identification information generated by the terminals of the third user group corresponding to the sampling tasks generated by the terminals and available for the terminals to pick up,

generating a measurement analysis task corresponding to the sampling task based on the sampling task received from the terminal of the third user group,

and storing the sampling task completion information and the measurement analysis task result information in association with each other according to the pickup result of the unique identification information received from the terminals of the third and second user groups.

5. The data processing server according to any one of claims 1 to 4, wherein:

the sampling task comprises the following steps: information of sample attribute, sampling user group, sampling point location and sample storage condition;

the measurement analysis task comprises: sample attribute, information of a measurement analysis user group, and at least no sampling point location information.

6. A data processing system characterized by:

having a data processing server and terminals belonging to a plurality of user groups, wherein,

the data processing server stores environment monitoring task information generated in a specified mode, wherein the environment monitoring task information comprises a sampling task and a measurement and analysis task corresponding to the sampling task, and the corresponding sampling task and the measurement and analysis task are stored in a correlated mode;

the data processing server sends a sampling task to a terminal of a first user group, and the terminal of the first user group returns sampling task completion information to the data processing server;

the data processing server sends a measurement and analysis task corresponding to the sampling task to a terminal of a second user group, and the terminal of the second user group returns measurement and analysis task result information to the data processing server;

the data processing server stores the information received from the terminals of the first and second user groups in a correlated manner, and generates environment monitoring data information.

7. The data processing system of claim 6, wherein:

the sampling task generated by the terminals of the third user group in the prescribed manner and transmitted to the data processing server,

the data processing server generates a measurement analysis task corresponding to the sampling task received from the terminals of the third user group and transmits the measurement analysis task to the terminals of the second user group.

8. The data processing system of claim 7, wherein:

the data processing server generates unique first identification information for the respective sampling tasks and measurement and analysis tasks generated by itself, which identification information is transmitted together with the sampling tasks when transmitting information to the terminals of the first user group,

9. The data processing system of claim 8, wherein:

the data processing server receives unique second identification information generated by a terminal of the third user group corresponding to the sampling task generated by the terminal and available for the terminal to pick up,

10. The data processing system of any of claims 6 to 9, wherein: