CN107423313B - County-level meteorological comprehensive observation service integrated system - Google Patents

Abstract

The invention relates to a county-level meteorological comprehensive observation service integration system, which comprises user terminals distributed in various county-level meteorological institutions and a county-level meteorological comprehensive observation service integration platform connected with the user terminals through a network; the county-level meteorological comprehensive observation service integration platform comprises a user interaction module, a scheduling and service logic control module, a data processing module and a system data reading and writing module. The invention is based on a unified data source, and solves the integration of multi-service system integration in the field of comprehensive observation of the meteorological station, the integration of state monitoring information of meteorological observation equipment from multiple systems, and the integration of observation data display of a single machine and a C/S framework of the meteorological station.

Description

County-level meteorological comprehensive observation service integrated system

Technical Field

The invention relates to the technical field of comprehensive meteorological observation operation monitoring, in particular to a county-level meteorological comprehensive observation service integration system.

Background

The comprehensive meteorological observation system is used as a component of a modern meteorological service system and plays a key basic role in enhancing the public meteorological service capability and improving the meteorological forecast prediction accuracy. The county-level meteorological comprehensive observation service integration platform with integrated services, intensified functions and multiple responsible posts is built, and has important significance for promoting county-level meteorological service comprehensive reform and meteorological modernization construction.

In recent years, with the rapid development of comprehensive observation services, the scale of national comprehensive observation stations is gradually enlarged, and with the gradual progress of mountain torrent geological disaster prevention and control meteorological guarantee engineering projects in recent two years, a plurality of newly-added meteorological observation stations are already in the stages of construction, comparative observation, trial operation and the like, according to a plan, after the construction of the mountain torrent projects is completed, only more than 6000 regional automatic meteorological stations in Sichuan province are provided, and more than 200 Beidou stations in remote regions are provided. The meteorological observation types are continuously increased, the scale of a station network is gradually enlarged, but all systems of county-level comprehensive observation services are mutually independent, all observation systems are self-integrated to form a striped pattern of a set of observation equipment, a set of data collection and processing software and a terminal service machine, service personnel need to perform service operation, operation monitoring and the like on different service machines during duty, and the efficiency is low; the various systems (national bureau issuing, equipment manufacturer providing and provincial and municipal level issuing) are crossed but not compatible with each other, so that the information is asynchronous, inconsistent or wrong, and the problems influence the exertion of the county-level meteorological comprehensive observation service benefit.

The county-level comprehensive observation service mainly comprises observation data acquisition and transmission, equipment operation monitoring and guarantee, data quality control, observation data application and the like, and specific services are vertically managed mainly in a national-province-city-county mode. If the equipment is operated and monitored, the operation and monitoring of the comprehensive meteorological observation system (hereinafter referred to as ASOM) using the B/S framework is realized by logging in a county-level user; data quality control is realized by a county level user logging in a meteorological data service system (MDOS for short) using a B/S framework to realize data application, and the data application is realized by software carried by equipment or an independently developed platform, including modes of a single machine, a B/S, a C/S and the like, and data sources are different, so that the system is low in reliability, low in utilization rate, low in maintainability and low in expandability.

The existing state-level and provincial-level issuing service system related to comprehensive observation adopts a state-province-city-county mode to carry out longitudinal management, and integration is not horizontally integrated, so that service personnel need to carry out service operation on different service machines during duty, and the intensification degree is low. The conditions of data inconsistency between systems, repeated input of the same information between systems and the like occur occasionally, and the workload, the operation cost and the maintenance cost of the observation service are greatly increased.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a county-level meteorological comprehensive observation service integration system, which solves the integration and integration of multiple service systems in the field of meteorological station comprehensive observation, provides an equipment comprehensive state judgment function and an intensive data display function, reduces the maintenance cost of users, and improves the service benefits.

The technical scheme for solving the technical problems is as follows:

a county-level meteorological comprehensive observation service integration system comprises user terminals distributed in various county-level meteorological institutions and a county-level meteorological comprehensive observation service integration platform connected with the user terminals through a network;

the county-level meteorological comprehensive observation service integration platform comprises a user interaction module, a scheduling and service logic control module, a data processing module and a system data reading and writing module;

the user terminal is used for sending the device comprehensive state request information to the user interaction module; the equipment comprehensive state request information comprises information of an organization mechanism where a user is located and time information;

the user interaction module is used for receiving the device comprehensive state request information sent by the user terminal, resolving the device comprehensive state request information into device comprehensive state query task information, submitting the device comprehensive state query task information to the scheduling and service logic control module, receiving result information fed back by the scheduling and service logic control module, matching an icon according to the device state, overlapping geographic information to generate display information and feeding back the display information to the user terminal;

the scheduling and service logic control module is used for receiving the equipment comprehensive state query task information submitted by the user interaction module, scheduling the data processing module based on the built-in service logic and processing rules, acquiring the original state information of each equipment governed by the organization mechanism where the user is located, judging the state of each equipment according to the equipment comprehensive state judgment rules, and feeding the result back to the user interaction module;

the data processing module is used for receiving an equipment comprehensive state information query request sent by the scheduling and service logic control module, analyzing the request to include information of an organization mechanism where a user is located and time information, calling the system data read-write module to acquire original state information of each equipment governed by the organization mechanism where the user is located, and feeding the original state information back to the scheduling and service logic control module; the state information comprises warning information of the equipment in an ASOM system, suspected error information in an MDOS system and equipment data transmission state information;

the system data read-write module is used for receiving the data read-write request of the data processing module, analyzing the read-write request information into a corresponding SQ L script or an access interface execution script, executing a corresponding SQ L script or an access interface execution script, and feeding back an executed result to the data processing module.

The invention has the beneficial effects that: the original information of the comprehensive state information of the equipment is originally distributed in a plurality of service systems used by county-level meteorological institutions, including ASOM and MDOS, the data transmission state in the provincial-level meteorological data support environment is difficult to obtain, users need to access the platforms one by one and can obtain the comprehensive state after manual analysis, so that the operation of the users is complicated, the efficiency is low, and the judgment of the related state is not standard.

On the basis of the technical scheme, the invention can be further improved as follows.

Also comprises a three-party system access control and acquisition module and a three-party system mirror image module,

the user terminal is also used for sending an access request of the user terminal to a third-party system to the county-level meteorological comprehensive observation service integration platform;

the user interaction module is also used for receiving an access request of a user terminal to a third-party system, analyzing the access request into three-party system access task information, submitting the three-party system access task information to the scheduling and business logic control module, meanwhile, establishing a three-party system working area based on the three-party system information fed back by the scheduling and business logic control module, initiating the access request to the three-party system mirror image module, and displaying a corresponding interaction result in the three-party system working area;

the scheduling and service logic control module is also used for receiving the three-party system access task information submitted by the user interaction module, scheduling the three-party system access control and acquisition module, completing access authorization to the three-party system and feeding back result information to the user interaction module;

the three-party system access control and acquisition module is also used for receiving the three-party system access authorization instruction information sent by the scheduling and service logic control module, analyzing the instruction information, acquiring the user identity submitted by a user, calling the system data read-write module to acquire the configuration information of the three-party system, initiating a user verification request to the three-party system mirror image module, receiving the result information whether the user is legal or not fed back by the three-party system mirror image module, and feeding back the result information to the scheduling and service logic control module;

the three-party system mirror image module is also used for receiving a user verification request sent by the three-party system access control and acquisition module and feeding back result information whether the user is legal or not; or the system is also used for receiving the direct access of the user interaction module and returning a corresponding result according to the access request submitted by the user;

the system data read-write module is also used for receiving data read-write requests of the three-party system access control and acquisition module, analyzing read-write request information into corresponding SQ L scripts or access interface execution scripts, executing corresponding SQ L scripts or access interface execution scripts, and feeding back the executed results to the three-party system access control and acquisition module.

The beneficial effect of adopting the further scheme is that:

the integration of a plurality of business systems in the comprehensive observation field of the station is realized, a user only needs to log in once, the functions of the original business systems are integrated into one platform, the user authorization, basic information synchronization and other work of multiple systems are completed by a platform background, the daily work of the user is greatly simplified, the user only needs to complete all county-level comprehensive observation business operations on one platform, and the platform support is provided for county-level comprehensive observation business which forms business integration, function intensification and multi-responsibility position.

Further comprises a provincial meteorological observation data access module,

the user terminal is also used for sending observation data viewing request information to the user interaction module, wherein the observation data viewing request information comprises an organization mechanism where the user is located, a viewing time and a device type;

the user interaction module is also used for receiving observation data viewing request information sent by the user terminal, resolving the observation data viewing request information into observation data viewing task information, submitting the observation data viewing task information to the scheduling and service logic control module, receiving result information fed back by the scheduling and service logic control module, generating display information by adopting a mode of overlapping observation data values with geographic information, and feeding back the display information to the user terminal;

the scheduling and service logic control module is also used for receiving observation data checking task information submitted by the user interaction module, scheduling the data processing module based on the built-in service logic and processing rules, acquiring an observation data element value of a certain type of equipment governed by an organization mechanism where the user is located at a certain time, and feeding the result back to the user interaction module;

the data processing module is also used for receiving an observation data element value query request sent by the scheduling and business logic control module, analyzing the request to include an organization mechanism where a user is located, the observation time and the equipment type, calling the provincial meteorological observation data access module to obtain observation data, processing the obtained observation data and feeding the result back to the scheduling and business logic control module; the processing comprises observing data element interception, element matching, element format conversion, element quality control information screening, station network information matching and weather phenomenon translation into natural language;

the provincial meteorological observation data access module is also used for receiving observation data access requests stored in a provincial meteorological data center by the data processing module, resolving the data access requests into interface access statements according to the access specifications of the provincial meteorological data center unified data access interface, submitting the interface access statements to the provincial meteorological data center unified data access interface for execution, and returning the executed results to the data processing module.

The beneficial effect of adopting the further scheme is that:

the existing observation data is mainly displayed in a local data source mode, is realized by software attached to equipment or independent development, has scattered function distribution and different software architectures, comprises modes of a single machine, a B/S (browser/Server), a C/S (client/Server) and the like, and adopts meteorological observation data provided by provincial meteorological data support environment as a uniform data source, so that the consistency of data can be ensured, and the expandability of related functions can be improved; and 0 maintenance of software and hardware related to observation data display by station service personnel can be realized, so that the service maintenance cost is reduced, and the service benefit is improved.

Further, the system also comprises a provincial meteorological observation data access module;

the user interaction module is also used for receiving basic data change request information sent by the user terminal, analyzing the basic data change request information into basic data change task information, submitting the basic data change task information to the scheduling and service logic control module, receiving result information fed back by the scheduling and service logic control module, matching the result information with a corresponding display style to generate display information, and feeding back the display information to the user terminal;

the scheduling and service logic control module is also used for receiving basic data change task information sent by the user interaction module, scheduling the data processing module based on the built-in service logic and processing rule, and acquiring provincial data support environment and basic data stored in the platform; scheduling the access control and acquisition module of the three-party system to acquire basic data of the three-party system; basic data submitted by a user and analyzed from the task information are combined; judging the normalization and rationality of basic data information submitted by a user, generating change basic data, and updating the change basic data by a scheduling data processing module; the scheduling three-party system access control and acquisition module updates the change basic data to the three-party system;

the data processing module is also used for receiving a basic data change instruction sent by the scheduling and service logic control module, calling the provincial meteorological observation data access module to acquire observation station network information in a provincial meteorological data supporting environment and meteorological data information observed and output by each observation device, calling the system data read-write module to acquire basic data stored in the platform, judging whether the two groups of information are consistent, if so, carrying out merging processing, and if not, taking the information provided in the provincial meteorological data supporting environment as the standard, and feeding the final result information back to the scheduling and service logic control module;

the three-party system access control and acquisition module is also used for receiving basic data change instruction information of the three-party system sent by the scheduling and business logic control module, analyzing the instruction information, acquiring basic data of the system to be updated, calling the system data read-write module to acquire configuration information of the three-party system, initiating a data update request for the three-party system mirror image module, acquiring an execution result of the update request and feeding back the result information to the scheduling and business logic control module;

the three-party system mirror image module is also used for receiving basic data updating request information sent by the three-party system access control and acquisition module and returning corresponding system basic data and an execution result of the updating request;

the provincial meteorological observation data access module is also used for receiving the access of the data processing module to the observation station network information and the meteorological data associated information of each observation device stored in the provincial meteorological data center, analyzing the access request into an interface access statement, submitting the interface access statement to the provincial meteorological data center for unified data access interface execution, and returning the executed result to the data processing module.

Further, the device comprehensive state determination rule is as follows:

and (3) normal: the ASOM and MDOS systems do not have the equipment warning information, and the transmission monitoring result of the equipment is in time;

exception: warning information of the equipment exists in an ASOM or MDOS system, or the transmission monitoring result of the equipment is not timely;

no data: the ASOM system and the MDOS system do not have warning information of the equipment and cannot acquire the transmission state of any kind of data of the equipment;

for the determination of the transmission monitoring status result, the rule is as follows:

(1) if the current time has passed the time validity check period of the transmission time closest to the current time, directly adopting the transmission result of the time as the transmission state;

(2) if the current time does not exceed the time efficiency check period of the transmission time closest to the current time, taking out the transmission results of the two times closest to the current time for judgment, if the state of the transmission time closest to the current time is timely, judging the transmission result to be normal, otherwise, checking the state close to the current time, if the result is timely, judging the transmission result to be normal, otherwise, judging the transmission result to be abnormal.

Further, the system also comprises an operation management module and a provincial meteorological observation data access module;

the scheduling and service logic control module is further used for acquiring original state acquisition task information of three-party system observation equipment configured in the system through the scheduling operation management module during initialization, scheduling the three-party system access control and acquisition module periodically, acquiring and storing warning information of all equipment in an ASOM (automatic start-up and maintenance object) system and suspected error data information in an MDOS (management data operating system), and acquiring data transmission state information of all equipment in a provincial data supporting environment through the scheduling data processing module;

the operation management module is used for receiving scheduling instruction information sent by the scheduling and service logic control module, calling the system data read-write module, reading the original state acquisition task information of the three-party system observation equipment stored in the system and feeding the information back to the scheduling and service logic control module;

the three-party system access control and acquisition module is also used for receiving an equipment state acquisition task scheduling instruction sent by the scheduling and service logic control module, calling the system data read-write module to acquire configuration information of the three-party system, initiating an access request to the three-party system mirror image module, storing result information returned by the three-party system mirror image module into the system data read-write module, and feeding back an acquisition task execution result to the scheduling and service logic control module;

the three-party system mirror image module is also used for receiving the data acquisition request sent by the three-party system access control and acquisition module and returning corresponding result information.

The data processing module is also used for receiving a data transmission state information acquisition task scheduling instruction sent by the scheduling and service logic control module, calling the provincial meteorological observation data access module to acquire transmission state information of message data sent by all equipment, calling the system data read-write module to write corresponding result information, and feeding back the execution state information of the acquisition task to the scheduling and service logic control module;

the provincial meteorological observation data access module is also used for receiving various equipment message data transmission state access requests stored by the data processing module for the provincial meteorological data center, resolving the corresponding data access requests into interface access statements according to the access specifications of the provincial meteorological data center unified data access interface, submitting the interface access statements to the provincial meteorological data center unified data access interface for execution, and returning the executed results to the data processing module.

Further, the system also comprises an operation management module;

the scheduling and service logic control module is also used for acquiring various kinds of operation parameter information of the platform by the scheduling operation management module during initialization, verifying relevant parameters based on the built-in service logic and processing rules, and completing the operation setting of various kinds of parameters by the scheduling operation management module; the operation parameters comprise a platform display style, a platform response timeout time, log automatic cleaning parameters, a system state information acquisition period and organization grading parameters;

the operation management module is also used for receiving scheduling instruction information sent by the scheduling and service logic control module, calling the system data read-write module, reading various system parameters and feeding back various system parameters to the scheduling and service logic control module;

the system data read-write module is also used for receiving a data read-write request of the operation management module, resolving read-write request information into a corresponding SQ L script, executing the read-write request information through a database in the system, and feeding back an executed result to the operation management module.

Further, the user terminal is also used for sending a change request of the user terminal to the system operation parameters to the county-level meteorological comprehensive observation service integration platform;

the user interaction module is also used for receiving a change request of the user terminal to the system operation parameters, analyzing the change request into system parameter change task information, submitting the system parameter change task information to the scheduling and service logic control module, receiving a result after task scheduling operation, and sending result display information to the user terminal;

the scheduling and service logic control module is also used for receiving system parameter change task information, the scheduling operation management module finishes the storage and application of related information and feeds back the result to the user interaction module;

the operation management module is also used for receiving a system operation parameter storage instruction sent by the scheduling and service logic control module, calling the system data read-write module, completing the writing of the system operation parameters, and setting and applying the system operation parameters.

Furthermore, the dispatching and service logic control module also regularly dispatches the operation management module and the data processing module, acquires abnormal equipment state information and observation data threshold value overrun information, generates service warning information, determines a user terminal related to the information, and pushes the warning information to the user terminal through the user interaction module;

further, the observation data types supported by the data processing module comprise national station 5 minute data, hour data, day data, regional station minute data, hour data, sounding data, a GPS water vapor inversion product, lightning positioning data, automatic soil moisture data, radiation meteorological data, acid rain observation data, atmospheric composition observation data, automatic station radiation data, reference radiation data, wind profile data, ship reports and buoy reports.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a system home page of the present invention;

FIG. 3 is a block diagram of the ASOM system of the present invention as a module of the present platform;

FIG. 4 is a diagram of the multi-view display integration of the present invention.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

The three-party System comprises an integrated Meteorological observation System operation Monitoring platform (ASOM for short) And a Meteorological Data operation System (MDOS for short).

As shown in fig. 1, a block diagram of a county-level weather integrated observation service integration system according to an embodiment of the present invention is provided, where the county-level weather integrated observation service integration system includes: a plurality of user terminals and a county-level meteorological comprehensive observation service integration platform accessed by the user terminals. The user terminals are mainly distributed in each county-level meteorological institution, the physical environment of the county-level meteorological comprehensive observation service integrated platform is deployed in a provincial-level meteorological data center, and the county-level meteorological comprehensive observation service integrated platform and the provincial-level meteorological data center are connected through a network.

And the plurality of user terminals are used for sending weather comprehensive observation service request information to the county-level weather comprehensive observation service integration platform through a wired/wireless network, and the weather comprehensive observation service request information comprises comprehensive environment information of the user terminals and the requested weather comprehensive observation service request information.

The user terminal may specifically be a PC computer, a smart phone, a tablet computer, or the like.

As shown in fig. 1: user terminal 1, user terminal 2 and user terminal 3, which belong to different users, for example: the user terminal 1 is a county level administrator, the user terminal 2 is a county level data processor, and the user terminal 3 is a system administrator.

When a user needs to access the county-level meteorological comprehensive observation service integration platform through the user terminal, taking the web browser at the PC end as an example, the user accesses the county-level meteorological comprehensive observation service integration platform through the address of the input platform, and at the moment, the web browser sends meteorological comprehensive observation service request information to the platform through the network; or after clicking a certain service function, the user sends the corresponding service request information.

A county-level meteorological comprehensive observation service integration platform comprises a user interaction module, a scheduling and service logic control module, an operation management module, a data processing and processing module, a three-party system access control and acquisition module, a system data read-write module, a provincial-level meteorological observation data access module and a three-party system mirror image module, wherein the modules are introduced respectively as follows:

the user terminal is used for sending basic data synchronous change request information of the user terminal to a county-level meteorological comprehensive observation service integrated platform through a wired and/or wireless network, wherein the basic data synchronous change request information comprises user information, organization information, observation station network information and meteorological data type information observed and output by each observation device;

the county-level meteorological comprehensive observation service integration platform comprises a user interaction module, a scheduling and service logic control module, a data processing module, a three-party system access control and acquisition module, a three-party system mirror image module, a system data read-write module and a provincial-level meteorological observation data access module;

(1) user interaction module

The system comprises a scheduling and service logic control module, a basic data synchronous change request message, a basic data synchronous change task message;

the system is also used for receiving an access request of a user terminal to a third-party system, analyzing the access request into three-party system access task information, submitting the three-party system access task information to the scheduling and service logic control module, and meanwhile, initiating an access request to the three-party system mirror image module based on the three-party system information fed back by the scheduling and service logic control module;

the system is also used for receiving the equipment comprehensive state request information sent by the user terminal, resolving the equipment comprehensive state request information into equipment comprehensive state query task information, submitting the equipment comprehensive state query task information to the scheduling and service logic control module, receiving result information fed back by the scheduling and service logic control module, matching the icon according to the equipment state, overlapping the geographic information to generate display information and feeding back the display information to the user terminal;

the system is also used for receiving observation data viewing request information sent by the user terminal, analyzing the observation data viewing request information into observation data viewing task information, submitting the observation data viewing task information to the scheduling and business logic control module, receiving result information fed back by the scheduling and business logic control module, generating display information by adopting a mode of overlapping observation data values with geographic information, and feeding back the display information to the user terminal;

the system parameter changing task is submitted to the scheduling and service logic control module, receives a result after the task is scheduled and operated, and sends result display information to the user terminal;

(2) dispatching and service logic control module

The system comprises a data processing module, a user interaction module, a data processing module and a data processing module, wherein the data processing module is used for receiving basic data synchronous change request task information sent by the user interaction module, scheduling the data processing module based on built-in service logic and processing rules and acquiring provincial data supporting environment and basic data stored in the platform; scheduling the access control and acquisition module of the three-party system to acquire basic data of the three-party system; basic data submitted by a user and analyzed from the task information are combined; judging the normalization and rationality of basic data information submitted by a user, generating change basic data, and updating the change basic data to the system by a scheduling data processing module; the scheduling three-party system access control and acquisition module updates the change basic data to the three-party system;

the system is also used for receiving the three-party system access task information submitted by the user interaction module, scheduling the three-party system access control and acquisition module, completing the access authorization of the three-party system and feeding back the result information to the user interaction module;

the system is also used for receiving the equipment comprehensive state query task information submitted by the user interaction module, scheduling the data processing module based on the built-in business logic and processing rules, acquiring warning information of each equipment managed by the organization mechanism where the user is located in the system in the ASOM system, suspected error information in the MDOS system and data transmission state information, judging the state of each equipment according to the equipment comprehensive state judgment rules, and feeding the result back to the user interaction module; the comprehensive state judgment rule of the equipment is as follows:

and (3) normal: the ASOM and MDOS systems do not have the equipment warning information, and the transmission monitoring result of the equipment is in time;

exception: warning information of the equipment exists in an ASOM or MDOS system, or the transmission monitoring result of the equipment is not timely;

no data: the ASOM system and the MDOS system do not have warning information of the equipment and cannot acquire the transmission state of any kind of data of the equipment;

for the determination of the transmission monitoring status result, the rule is as follows:

(1) if the current time has passed the time validity check period of the transmission time closest to the current time, directly adopting the transmission result of the time as the transmission state;

(2) if the current time does not exceed the time efficiency check period of the transmission time closest to the current time, taking out the transmission results of the two times closest to the current time for judgment, if the state of the transmission time closest to the current time is timely, judging the transmission result to be normal, otherwise, checking the state close to the current time, if the result is timely, judging the transmission result to be normal, otherwise, judging the transmission result to be abnormal.

The system is also used for acquiring information acquisition task information of three-party system observation equipment configured in the system through the scheduling operation management module during initialization, scheduling the three-party system access control and acquisition module regularly, and acquiring and storing warning information of all equipment in an ASOM system and suspected error data information in an MDOS system;

the system is also used for receiving observation data checking task information submitted by the user interaction module, scheduling the data processing module based on built-in business logic and processing rules, acquiring an observation data element value of a certain type of equipment governed by an organization mechanism where the user is located at a certain time, and feeding back the result to the user interaction module;

the scheduling operation management module is also used for acquiring various operation parameter information of the platform during initialization, verifying relevant parameters based on built-in service logic and processing rules, and completing the operation setting of various parameters by the scheduling operation management module; the operating parameters include: platform display style, platform response timeout time, log automatic cleaning parameters, system state information acquisition period and organization grading parameters;

the scheduling operation management module is also used for receiving a system parameter change task, finishing the storage and application of related information and feeding back the result to the user interaction module;

the system comprises a data processing module, a scheduling operation management module, a data processing module, a service warning module, a user interaction module and a data processing module, wherein the data processing module is used for acquiring abnormal equipment state information and observation data threshold value overrun information, generating service warning information, determining a user terminal related to the information and pushing the warning information to the user terminal through the user interaction module;

(3) data processing module

The system data reading and writing module is used for acquiring basic data acquisition instructions sent by the dispatching and service logic control module, calling the provincial meteorological observation data access module to acquire observation station network information and observation output meteorological data information of each observation device in the provincial meteorological data supporting environment, calling the system data reading and writing module to acquire basic data stored in the platform, judging whether the two groups of information are consistent, if so, carrying out merging processing, if not, taking the information provided in the provincial meteorological data supporting environment as the standard, and feeding the final result information back to the dispatching and service logic control module;

the system data read-write module is called to obtain a device list administered by the organization mechanism where the user is located, the state information of each device in the device list of the system data read-write module is called, and the state information is fed back to the scheduling and service logic control module; the status information includes warning information in the ASOM system, suspected error information in the MDOS system, and data transmission status information.

The system is also used for receiving an observation data element value query request sent by the scheduling and service logic control module, analyzing an organization mechanism where a user is located, an observation time and a device type contained in the request, calling the provincial meteorological observation data access module to obtain observation data, processing the obtained observation data and feeding back a result to the scheduling and service logic control module; the processing comprises the steps of observing data element interception, element matching, element format conversion, element quality control information screening, station network information matching and weather phenomenon translation into natural language;

the observation data types supported by the data processing module comprise: national station 5 minute data, hour data, day data, regional station minute data, hour data, sounding data, GPS water vapor inversion products, lightning location data, automatic soil moisture data, radiometric data, acid rain observation data, atmospheric composition observation data, automatic station radiation data, reference radiation data, wind profile data, ship reports, and buoy reports.

(4) Three-party system access control and acquisition module

The system comprises a scheduling and business logic control module, a system data read-write module, a mirror image acquisition module, a scheduling and business logic control module and a business logic control module, wherein the scheduling and business logic control module is used for receiving basic data acquisition instruction information of a three-party system sent by the scheduling and business logic control module, analyzing the instruction information, acquiring specific basic data types needing to be accessed, calling the system data read-write module to acquire configuration information of the three-party system, initiating an access request to the mirror image of the three-party;

the system is also used for receiving basic data updating instruction information of the three-party system sent by the scheduling and business logic control module, analyzing the instruction information, acquiring basic data of the system to be updated, calling the system data reading and writing module to acquire configuration information of the three-party system, initiating a data updating request for a mirror image of the three-party system, acquiring an execution result of the updating request and feeding back the result information to the scheduling and business logic control module;

the system is also used for receiving the three-party system access authorization instruction information sent by the scheduling and service logic control module, analyzing the instruction information, acquiring the user identity submitted by the user, calling the system data read-write module to acquire the configuration information of the three-party system, initiating a user verification request to the three-party system mirror image module, receiving the result information whether the user is legal or not fed back by the three-party system mirror image module, and feeding back the result information to the scheduling and service logic control module;

the system is also used for receiving a device state acquisition task scheduling instruction sent by the scheduling and service logic control module, calling the system data read-write module to acquire configuration information of the three-party system, initiating an access request to the three-party system mirror image module, storing result information returned by the three-party system mirror image module into the system data read-write module, and feeding back an execution result of the acquisition task to the scheduling and service logic control module;

(5) three-party system mirror image module

In order to complete the integration of the three-party WEB system of the existing comprehensive observation service to the platform, the existing system needs to be seamlessly integrated into the platform, system codes are copied through original images, a header column of a page is adjusted, access interfaces such as user and equipment state information are added, the data environment is shared with the original system, and the three-party WEB system has the same function as the original system, so that a three-party system mirror image module is constructed, the mirror image provides the same function as the original system, is suitable for being integrated into the platform, is used for receiving a user verification request sent by a three-party system access control and acquisition module, and feeds back result information whether the user is legal or not; or used for receiving the direct access of the user interaction module and returning a corresponding result according to the access request submitted by the user.

(6) System data read-write module

The data read-write request used for the data processing module and the three-party system access control and acquisition module analyzes read-write request information into a corresponding SQ L script or an access interface execution script, executes a corresponding SQ L script or an access interface execution script, and feeds back an executed result to the request sending module;

and the system is also used for receiving a data read-write request of the operation management module, analyzing read-write request information into a corresponding SQ L script, executing the read-write request through a database in the system, and feeding back an executed result to the operation management module.

(7) An operation management module;

the system data read-write module is used for reading information of the information acquisition task of the three-party system observation equipment stored in the system and feeding back the information to the scheduling and service logic control module;

the system is also used for receiving scheduling instruction information sent by the scheduling and service logic control module, calling the system data read-write module, reading various system parameters and feeding back various system parameters to the scheduling and service logic control module;

and the system is also used for receiving a system operation parameter storage instruction sent by the scheduling and service logic control module, calling the system data read-write module, completing the writing of the system operation parameters, and setting and applying the system operation parameters.

(8) Provincial meteorological observation data access module

The system is used for receiving the access of the data processing module to the observation station network information and the associated information of each observation device and meteorological data stored in the provincial meteorological data center, analyzing the access request into an interface access statement, submitting the interface access statement to the provincial meteorological data center for unified data access interface execution, and returning the executed result to the data processing module.

The system is also used for receiving an observation data access request stored in the provincial meteorological data center by the data processing module, analyzing the data access request into an interface access statement according to the access specification of the provincial meteorological data center unified data access interface, submitting the interface access statement to the provincial meteorological data center unified data access interface for execution, and returning the executed result to the data processing module.

Other functions are as follows:

(1) localization: a county-level meteorological comprehensive observation service integration system submits user environment information when a user browser accesses a county-level meteorological comprehensive observation service integration platform, the county-level meteorological comprehensive observation service integration platform locally customizes platform functions for users on the basis of the user environment information, and the main body of the local platform functions is performed around equipment in the jurisdiction range of the users, administrative regions where the users are located and the browser versions used by the users.

(2) Pushing warning: the system comprises a scheduling and service logic control module, a regular scheduling operation management module and a data processing module, acquires equipment state abnormal information and observation data threshold value overrun information, generates service warning information, determines a user browser end related to the information, and pushes the service warning information to the user browser end through a user interaction module.

(3) Filling in: the user browser receives various weather observation service information filled by the user, wherein the weather observation service information comprises: meteorological observation data, meteorological station network information, data suspected error correction information and equipment fault list information; the user interaction module receives corresponding filling information and submits an information processing task to the scheduling and service logic control module; the scheduling and service logic control module schedules the data processing module or the three-party system access control and acquisition module to complete the processing and storage of information.

Example 1

As shown in FIG. 2, it is a schematic diagram of a user accessing a page of comprehensive operation status of various meteorological instruments through a user terminal, the user-a comprehensive observation service staff of a meteorological office in a certain county needs to query the comprehensive operation status of various meteorological instruments in his jurisdiction area through a WEB browser on a PC to maintain the instrument with problems, the staff can click on the first page of an application platform, at this time, the browser sends request information of relevant comprehensive observation service functions of the first page of the platform to a county-level meteorological comprehensive observation service integration platform, a user interaction module of the county-level meteorological comprehensive observation service integration platform parses the request into tasks and submits the task information to a scheduling and service logic control module, the scheduling and service logic control module decomposes the tasks into a plurality of subtasks, and processes the tasks through a scheduling data processing module, the method comprises the following steps: processing observation data of all equipment in the current station, processing comprehensive states of all equipment in the current station, and processing all warning information in the current station. And obtaining a processed result, and returning the processed result to the user interaction module, wherein the user interaction module adopts a curve graph, scrolling characters and a map filling based on geographic information. And generating a display interface and sending the display interface to a WEB browser on the PC of the user. In this example, the displayed information includes observation data displayed by a graph, the station comprehensive observation service warning information displayed by scrolling characters, and the comprehensive state of various devices displayed in a map filling form based on geographic information. The original information of the integrated state information of the equipment exemplified in the above example is originally distributed in a plurality of service systems used by county-level meteorological institutions, including ASOM and MDOS provincial meteorological data supporting environments, while the data transmission state in the provincial meteorological data supporting environments is difficult to obtain, users need to access the platforms one by one and can obtain the integrated state after manual analysis, which results in complex user operation, low efficiency and non-standard judgment of relevant states. The support device has a good support effect on the operation and maintenance guarantee of the meteorological equipment.

The equipment comprehensive state information integration has the advantages that: the original information of the comprehensive state information of the equipment is originally distributed in a plurality of service systems used by county-level meteorological institutions and comprises ASOM and MDOS, the data transmission state in the provincial-level meteorological data supporting environment is difficult to obtain, users need to access the platforms one by one and can obtain the comprehensive state after manual analysis, so that the operation of the users is complicated, the efficiency is low, and the judgment of the related state is not standard.

Example 2

As shown in fig. 3, it is a schematic diagram of a display page of a platform-integrated three-party service platform accessed by a user through a terminal device, where the user — a service staff for comprehensive observation of a county meteorological office needs to access an ASOM or MDOS three-party service system through a WEB browser on a PC, and the staff can click on the ASOM function or MDOS function of an application platform, at this time, the browser will send request information of the relevant functions of the platform ASOM or MDOS to the county-level meteorological comprehensive observation service integrated platform, the user interaction module of the county-level meteorological comprehensive observation service integrated platform will resolve the request into a three-party system access task, submit the task to a scheduling and service logic control module, initialize a three-party system work area, the scheduling and service logic control module calls a three-party system access control and collection module, and the module obtains information of the three-party system through a system data read-write module, and combining the current user information to generate interface access of the three-party system, returning the access interface of the three-party system to the scheduling and service logic control module, returning the interface information to the user interaction module by the scheduling and service logic control module, initiating an access request to the returned interface information by the user interaction module to realize the access to the three-party system mirror image module, and displaying a request result in a third-party system working area by the user interaction module. Namely, the integration of a three-party system in the platform is realized. The three-party system mirror image module for access is formed by copying the three-party system code directly, adjusting the header title bar of the page, adding access interfaces such as user and equipment state information, shares a data environment with the original system and has the same function as the original system.

The integration with the three-party platform is adopted, the effective integration of a plurality of service systems of a user side can be realized, a user only needs to log in once, the user can freely switch among a plurality of original application systems while operating a new function on the platform, the user authorization, synchronization and other work of the multiple systems are completed by the system background, the daily work of the user is greatly simplified, the user only needs to be on one platform, all county-level comprehensive observation service operations can be completed, and the platform support is provided for county-level meteorological comprehensive observation services which form service integration, function intensification and multi-responsibility post.

Example 3

As shown in FIG. 4, the user accesses the schematic diagram of multiple types of observation data display pages of the station through the user terminal, the user, namely the comprehensive observation service staff of a county meteorological office, needs to query the observation data of various meteorological instrument devices in the jurisdiction area of the user through a WEB browser on a PC to complete verification and quality control of observation data elements, the staff can click on the data display page of the platform, at this time, the browser sends request information of platform data display function to the county-level meteorological comprehensive observation service integration platform, the county-level meteorological comprehensive observation service integration platform user interaction module analyzes the request into tasks and submits the task information to the scheduling and service logic control module, the scheduling and service logic control module decomposes the tasks into multiple subtasks to be processed through the scheduling data processing module and the operation management module, the method comprises the steps of obtaining station network information in a jurisdiction range of a user through a scheduling operation management module, scheduling a data processing module, obtaining a value of default display data in a current region at the current time, wherein the default data is national station data, the data processing module is based on parameters such as a transmitted region, a station number, an equipment type, a data type and a data style, reading observation data through a provincial meteorological observation access module due to the fact that the data exists in a provincial meteorological data supporting environment, processing the read observation data according to a required data style, and comprises observation data element interception, element matching, element format conversion, element quality control information screening, station network information matching, natural language translation of weather phenomena and the like, and returning results to a scheduling and business logic control module. The scheduling and service logic control module returns the result to the user interaction module, and the user interaction module displays the observation data in a map filling mode based on the geographic information. If the detailed observation data of a certain station needs to be checked, a worker can click a certain station based on geographic information mapping, at the moment, a browser sends request information for displaying the detailed data of the single station to a county-level meteorological comprehensive observation service integrated platform, a user interaction module of the county-level meteorological comprehensive observation service integrated platform can analyze the request into tasks and submit the task information to a scheduling and service logic control module, the scheduling and service logic control module is used for processing through a scheduling data processing module, the scheduling data processing module is used for reading the observation data through a provincial-level meteorological observation access module to obtain the detailed data of the single station and sequentially returning the result to the scheduling and service logic control module and the user interaction module, and the user interaction module displays the detailed observation data of the single station in a graph form.

The system has the advantages that the intensive data display function is constructed by adopting data based on a provincial data support environment, a user can realize 0 maintenance of the function, and the traditional blocking structure of one set of observation equipment, one set of data collection and processing software and one terminal business machine leads to the realization of a platform for data application and use of self-contained software or independent development of the equipment, including single machine, B/S, C/S and other modes, the intensive degree is lower, the maintenance cost of the user is higher, the software is not compatible with each other, even the data is inconsistent and other conditions exist.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A county-level meteorological comprehensive observation service integration system is characterized by comprising user terminals distributed in various county-level meteorological institutions and a county-level meteorological comprehensive observation service integration platform connected with the user terminals through a network;

the county-level meteorological comprehensive observation service integration platform comprises a user interaction module, a scheduling and service logic control module, a data processing module and a system data reading and writing module;

the user terminal is used for sending the device comprehensive state request information to the user interaction module and displaying the display information fed back by the user interaction module; the equipment comprehensive state request information comprises information of an organization mechanism where a user is located and time information;

the user interaction module is used for receiving the device comprehensive state request information sent by the user terminal, resolving the device comprehensive state request information into device comprehensive state query task information, submitting the device comprehensive state query task information to the scheduling and service logic control module, receiving result information fed back by the scheduling and service logic control module, matching an icon according to the device state, overlapping geographic information to generate display information and feeding back the display information to the user terminal;

the scheduling and service logic control module is used for receiving the equipment comprehensive state query task information submitted by the user interaction module, scheduling the data processing module based on the built-in service logic and processing rules, acquiring the original state information of each equipment governed by the organization mechanism where the user is located, judging the state of each equipment according to the equipment comprehensive state judgment rules, and feeding the result back to the user interaction module;

the data processing module is used for receiving the equipment comprehensive state query task information sent by the scheduling and service logic control module, analyzing the request to include information of an organization mechanism where the user is located and time information, calling the system data read-write module to obtain original state information of each equipment governed by the organization mechanism where the user is located, and feeding the original state information back to the scheduling and service logic control module; the state information comprises warning information of the equipment in an ASOM system, suspected error information in an MDOS system and equipment data transmission state information;

the system data read-write module is used for receiving the data read-write request of the data processing module, analyzing the read-write request information into a corresponding SQ L script or an access interface execution script, executing a corresponding SQ L script or an access interface execution script, and feeding back an executed result to the data processing module.

2. The county-level weather integrated observation service integration system according to claim 1,

also comprises a three-party system access control and acquisition module and a three-party system mirror image module,

the user terminal is also used for sending an access request of the user terminal to a third-party system to the county-level meteorological comprehensive observation service integration platform;

the user interaction module is also used for receiving an access request of a user terminal to a third-party system, analyzing the access request into three-party system access task information, submitting the three-party system access task information to the scheduling and business logic control module, meanwhile, establishing a three-party system working area based on the three-party system information fed back by the scheduling and business logic control module, initiating the access request to the three-party system mirror image module, and displaying a corresponding interaction result in the three-party system working area;

the scheduling and service logic control module is also used for receiving the three-party system access task information submitted by the user interaction module, scheduling the three-party system access control and acquisition module, completing access authorization to the three-party system and feeding back result information to the user interaction module;

the three-party system access control and acquisition module is also used for receiving the three-party system access authorization instruction information sent by the scheduling and service logic control module, analyzing the instruction information, acquiring the user identity submitted by a user, calling the system data read-write module to acquire the configuration information of the three-party system, initiating a user verification request to the three-party system mirror image module, receiving the result information whether the user is legal or not fed back by the three-party system mirror image module, and feeding back the result information to the scheduling and service logic control module;

the three-party system mirror image module is also used for receiving a user verification request sent by the three-party system access control and acquisition module and feeding back result information whether the user is legal or not; or the system is also used for receiving the direct access of the user interaction module and returning a corresponding result according to the access request submitted by the user;

the system data read-write module is also used for receiving data read-write requests of the three-party system access control and acquisition module, analyzing read-write request information into corresponding SQ L scripts or access interface execution scripts, executing corresponding SQ L scripts or access interface execution scripts, and feeding back the executed results to the three-party system access control and acquisition module.

3. The county-level weather integrated observation service integration system according to claim 1,

also comprises a provincial meteorological observation data access module,

the user terminal is also used for sending observation data viewing request information to the user interaction module, wherein the observation data viewing request information comprises an organization mechanism where the user is located, a viewing time and a device type;

the user interaction module is also used for receiving observation data viewing request information sent by the user terminal, resolving the observation data viewing request information into observation data viewing task information, submitting the observation data viewing task information to the scheduling and service logic control module, receiving result information fed back by the scheduling and service logic control module, generating display information by adopting a mode of overlapping observation data values with geographic information, and feeding back the display information to the user terminal;

the scheduling and service logic control module is also used for receiving observation data checking task information submitted by the user interaction module, scheduling the data processing module based on the built-in service logic and processing rules, acquiring an observation data element value of a certain type of equipment governed by an organization mechanism where the user is located at a certain time, and feeding the result back to the user interaction module;

the data processing module is also used for receiving an observation data element value query request sent by the scheduling and business logic control module, analyzing the request to include an organization mechanism where a user is located, the observation time and the equipment type, calling the provincial meteorological observation data access module to obtain observation data, processing the obtained observation data and feeding the result back to the scheduling and business logic control module; the processing comprises observing data element interception, element matching, element format conversion, element quality control information screening, station network information matching and weather phenomenon translation into natural language;

the provincial meteorological observation data access module is also used for receiving observation data access requests stored in a provincial meteorological data center by the data processing module, resolving the data access requests into interface access statements according to the access specifications of the provincial meteorological data center unified data access interface, submitting the interface access statements to the provincial meteorological data center unified data access interface for execution, and returning the executed results to the data processing module.

4. The county-level weather integrated observation service integration system according to claim 2,

the system also comprises a provincial meteorological observation data access module;

the user interaction module is also used for receiving basic data change request information sent by the user terminal, analyzing the basic data change request information into basic data change task information, submitting the basic data change task information to the scheduling and service logic control module, receiving result information fed back by the scheduling and service logic control module, matching the result information with a corresponding display style to generate display information, and feeding back the display information to the user terminal;

the scheduling and service logic control module is also used for receiving basic data change task information sent by the user interaction module, scheduling the data processing module based on the built-in service logic and processing rule, and acquiring provincial data support environment and basic data stored in the platform; scheduling the access control and acquisition module of the three-party system to acquire basic data of the three-party system; basic data submitted by a user and analyzed from the task information are combined; judging the normalization and rationality of basic data information submitted by a user, generating change basic data, and updating the change basic data by a scheduling data processing module; the scheduling three-party system access control and acquisition module updates the change basic data to the three-party system;

the data processing module is also used for receiving a basic data change instruction sent by the scheduling and service logic control module, calling the provincial meteorological observation data access module to acquire observation station network information in a provincial meteorological data supporting environment and meteorological data information observed and output by each observation device, calling the system data read-write module to acquire basic data stored in the platform, judging whether the two groups of information are consistent, if so, carrying out merging processing, and if not, taking the information provided in the provincial meteorological data supporting environment as the standard, and feeding the final result information back to the scheduling and service logic control module;

the three-party system access control and acquisition module is also used for receiving basic data change instruction information of the three-party system sent by the scheduling and business logic control module, analyzing the instruction information, acquiring basic data of the system to be updated, calling the system data read-write module to acquire configuration information of the three-party system, initiating a data update request for the three-party system mirror image module, acquiring an execution result of the update request and feeding back the result information to the scheduling and business logic control module;

the three-party system mirror image module is also used for receiving basic data updating request information sent by the three-party system access control and acquisition module and returning corresponding system basic data and an execution result of the updating request;

the provincial meteorological observation data access module is also used for receiving the access of the data processing module to the observation station network information and the meteorological data associated information of each observation device stored in the provincial meteorological data center, analyzing the access request into an interface access statement, submitting the interface access statement to the provincial meteorological data center for unified data access interface execution, and returning the executed result to the data processing module.

5. The county-level weather integrated observation service integration system according to claim 1, wherein the equipment integrated status determination rule is:

and (3) normal: the ASOM and MDOS systems do not have the equipment warning information, and the transmission monitoring result of the equipment is in time;

exception: warning information of the equipment exists in an ASOM or MDOS system, or the transmission monitoring result of the equipment is not timely;

no data: the ASOM system and the MDOS system do not have warning information of the equipment and cannot acquire the transmission state of any kind of data of the equipment;

for the determination of the transmission monitoring status result, the rule is as follows:

(1) if the current time has passed the time validity check period of the transmission time closest to the current time, directly adopting the transmission result of the time as the transmission state;

(2) if the current time does not exceed the time efficiency check period of the transmission time closest to the current time, taking out the transmission results of the two times closest to the current time for judgment, if the state of the transmission time closest to the current time is timely, judging the transmission result to be normal, otherwise, checking the state close to the current time, if the result is timely, judging the transmission result to be normal, otherwise, judging the transmission result to be abnormal.

6. The county-level meteorological integrated observation service integrated system according to claim 1, further comprising an operation management module and a provincial-level meteorological observation data access module;

the scheduling and service logic control module is further used for acquiring original state acquisition task information of three-party system observation equipment configured in the system through the scheduling operation management module during initialization, periodically scheduling the three-party system access control and acquisition module, acquiring and storing warning information of all equipment in an ASOM (automatic start-up and maintenance object) system and observation data quality control error information in an MDOS (management data operating system) system, and acquiring data transmission state information of all equipment in a provincial data supporting environment through the scheduling data processing module;

the operation management module is used for receiving scheduling instruction information sent by the scheduling and service logic control module, calling the system data read-write module, reading the original state acquisition task information of the three-party system observation equipment stored in the system and feeding the information back to the scheduling and service logic control module;

the three-party system access control and acquisition module is also used for receiving an equipment state acquisition task scheduling instruction sent by the scheduling and service logic control module, calling the system data read-write module to acquire configuration information of the three-party system, initiating an access request to the three-party system mirror image module, storing result information returned by the three-party system mirror image module into the system data read-write module, and feeding back an acquisition task execution result to the scheduling and service logic control module;

the three-party system mirror image module is also used for receiving a data acquisition request sent by the three-party system access control and acquisition module and returning corresponding result information;

the data processing module is also used for receiving a data transmission state information acquisition task scheduling instruction sent by the scheduling and service logic control module, calling the provincial meteorological observation data access module to acquire transmission state information of message data sent by all equipment, calling the system data read-write module to write corresponding result information, and feeding back the execution state information of the acquisition task to the scheduling and service logic control module;

the provincial meteorological observation data access module is also used for receiving various equipment message data transmission state access requests stored by the data processing module for the provincial meteorological data center, resolving the corresponding data access requests into interface access statements according to the access specifications of the provincial meteorological data center unified data access interface, submitting the interface access statements to the provincial meteorological data center unified data access interface for execution, and returning the executed results to the data processing module.

7. The county-level weather integrated observation service integration system according to claim 1,

the system also comprises an operation management module;

the scheduling and service logic control module is also used for acquiring various kinds of operation parameter information of the platform by the scheduling operation management module during initialization, verifying relevant parameters based on the built-in service logic and processing rules, and completing the operation setting of various kinds of parameters by the scheduling operation management module; the operation parameters comprise a platform display style, a platform response timeout time, log automatic cleaning parameters, a system state information acquisition period and organization grading parameters;

the operation management module is also used for receiving scheduling instruction information sent by the scheduling and service logic control module, calling the system data read-write module, reading various system parameters and feeding back various system parameters to the scheduling and service logic control module;

the system data read-write module is also used for receiving a data read-write request of the operation management module, resolving read-write request information into a corresponding SQ L script, executing the read-write request information through a database in the system, and feeding back an executed result to the operation management module.

8. The county-level weather integrated observation service integration system according to claim 7,

the user terminal is also used for sending a change request of the user terminal to the system operation parameters to the county-level meteorological comprehensive observation service integration platform;

the user interaction module is also used for receiving a change request of the user terminal to the system operation parameters, analyzing the change request into system parameter change task information, submitting the system parameter change task information to the scheduling and service logic control module, receiving a result after task scheduling operation, and sending result display information to the user terminal;

the scheduling and service logic control module is also used for receiving system parameter change task information, the scheduling operation management module finishes the storage and application of related information and feeds back the result to the user interaction module;

the operation management module is also used for receiving a system operation parameter storage instruction sent by the scheduling and service logic control module, calling the system data read-write module, completing the writing of the system operation parameters, and setting and applying the system operation parameters.

9. The county-level meteorological comprehensive observation service integrated system according to claim 6, wherein the scheduling and service logic control module, the operation management module and the data processing module are further scheduled periodically to acquire device state anomaly information and observation data threshold value overrun information, generate service warning information, determine a user terminal related to the information, and push the warning information to the user terminal through the user interaction module.

10. The county-level weather integrated observation service integrated system according to claim 3, wherein the types of observation data supported by the data processing module include national station 5 minute data, hour data, day data, regional station minute data, hour data, sounding data, GPS water vapor inversion products, lightning positioning data, automatic soil moisture data, radiometric weather data, acid rain observation data, atmospheric composition observation data, automatic station radiation data, reference radiation data, wind profile data, ship reports, and buoy reports.

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