CN106971275B

CN106971275B - Artificial influence weather command system

Info

Publication number: CN106971275B
Application number: CN201710212699.1A
Authority: CN
Inventors: 冯宏芳; 李丹; 余永江; 林文; 林朝佳
Original assignee: Fujian Institute Of Meteorological Sciences
Current assignee: Fujian Institute Of Meteorological Sciences
Priority date: 2017-04-01
Filing date: 2017-04-01
Publication date: 2021-03-16
Anticipated expiration: 2037-04-01
Also published as: CN106971275A

Abstract

The invention relates to an artificial influence weather command system, which comprises a ground command subsystem arranged at a computer end, a shadow command system mobile APP arranged on a mobile terminal, and a database arranged at a server end, wherein the shadow command system mobile APP is arranged on the mobile terminal; the invention utilizes the geographic information technology, the remote sensing image technology, the two-dimensional and three-dimensional integration technology, the distributed database technology and the enterprise message service bus technology. And integrating the service processes of artificial influence weather command scheduling, supervision and control, real-time reporting, equipment safety management and the like. A human shadow comprehensive database, a comprehensive service platform and a command system are constructed in an intensive mode, and the human shadow command management, scheduling and communication capacity level and efficiency are improved. The modernization and the refinement of the figure command are realized.

Description

Artificial influence weather command system

Technical Field

The invention relates to the field of meteorology, in particular to an artificial influence weather command system.

Background

The artificial influence on weather is an important means for developing and utilizing water resources in the air and preventing and reducing disasters by human beings, and is a sign that the human beings go towards comprehensive development from cognition and prediction to the atmosphere. With the rapid development of economy in Fujian provinces, the demands for artificial weather-affecting services in the aspects of agricultural industry development, food safety guarantee, service government decision, drought coping, forest fire prevention and extinguishing, ecological environment construction, emergency guarantee service, urban area cooling, emission reduction, energy conservation, reservoir water storage and power generation and the like are increasing, and the number of figure operations in various regions is increasing.

Through the standardized construction of the province, city and county three-level figure operation command platform, a figure special database can be established to facilitate statistical analysis, multi-scale and multi-mode product comprehensive analysis and forecast of operation conditions can be realized, interconnection and intercommunication can be realized in real time, the time and the position of artificial precipitation operation can be more efficiently and accurately mastered, and weather operation condition identification, operation early warning, operation command and equipment management are more favorably influenced by manpower.

Disclosure of Invention

In view of the above, the present invention provides an artificial influence weather command system, which intensively constructs a human shadow integrated database, an integrated service platform and a command system, and improves the human shadow command management, scheduling and communication capability level and efficiency.

The invention is realized by adopting the following scheme: an artificial influence weather command system comprises a ground command subsystem arranged at a computer end, a figure command system mobile APP arranged on a mobile terminal, and a database arranged at a server end;

the ground command subsystem comprises a geographic information display module, a figure operation module, a meteorological product display module, a real-time communication module, a live monitoring module, an equipment safety management module and a system management module; the geographic information display module displays geographic information through a background vector map, an electronic map, a remote sensing image map and three-dimensional basic scene data; the figure operation module is used for performing operation point distribution, operation point query, gun carriage running track design, arrival time evaluation, operation state symbolization, cannonball safe shooting range setting, trajectory height calculation and operation scheme design; the weather product display module is used for displaying radar data, sounding data, lightning data, automatic station rainfall, wind profile radar and storm tracking; the real-time communication module comprises an automatic telephone unit and an automatic short message unit; the live monitoring module comprises a live storm tracking list used for selecting a viewing time map to display storm data of the current product; the equipment safety management module is used for inquiring rocket projectiles and operation equipment and realizing unified management on ammunition allocation and annual inspection of the equipment; the system management module comprises department management, operation unit management, operation point management and area configuration;

the figure command system mobile APP is matched with the ground command subsystem for use and used for receiving the operation instruction sent by the ground command subsystem and reporting operation information, and meanwhile stock inventory and allocation of rocket projectiles are achieved through the APP;

the database comprises a basic space library, an observation data live library, a figure space library and a figure basic information library.

Further, the basic space library comprises a vector electronic map, an image electronic map, a dizzy electronic map and a three-dimensional scene map; the observation data live database comprises a radar database, a sounding database, an automatic station rainfall database, an FJ-GPSMET database, a wind profile radar database, a raindrop spectrum database, a lightning database and an AMDAR database; the figure space library comprises an operation point space position, a gun carriage running track and a real-time operation point; the basic figure information base comprises operating personnel, operating points, gun trucks, ammunition, smoke furnaces and operating mechanisms.

Furthermore, the weather modification integrated service system utilizes the existing weather private network, the backbone network design adopts the gigabit Ethernet technology, the database server is accessed to the backbone network, the local area network working medium adopts the super 5-type line, 100/1000M is connected to each application system terminal.

Further, the radar data comprises combined reflectivity, basic speed, vertical liquid water content and echo peak height.

Further, the figure command system mobile APP comprises a working unit account and a ammunition storage tube account; the job cell account includes the following buttons: starting, arriving, preparing, finishing, re-working, canceling and recovering the initial state; the ammunition magazine account includes the following buttons: warehousing management, ex-warehouse management, state change, inventory management, query statistics and early warning of overdue inventory.

Further, when the human shadow command system mobile APP reports the operation information, the human shadow command system mobile APP comprises the following information: the operation type, the rocket projectile usage amount, the tobacco rod usage amount, the operation date, the operation starting time, the operation ending time, the weather condition before the operation and the weather condition after the operation.

Further, the equipment safety management module comprises: warehousing management, ex-warehouse management, rocket projectile state change management, inventory checking management, query statistics management, inventory expiration early warning management, equipment information registration management, equipment annual inspection maintenance management, equipment distribution management and warehouse configuration management.

Further, the department management comprises adding users, deleting users, selecting and viewing users in each region, and editing, modifying and resetting passwords for users needing maintenance.

Further, the operation unit management is used for performing adding, modifying and deleting operations on the operation units needing maintenance.

Furthermore, the operation point management is used for performing addition, modification and deletion operations on the operation points.

Further, the area configuration checks the area which is not wanted to be viewed, and the checked area is hidden when logging in next time.

Compared with the prior art, the invention has the following beneficial effects: the method utilizes a geographic information technology, a remote sensing image technology, a two-dimensional and three-dimensional integrated technology, a distributed database technology and an enterprise message service bus technology. And integrating the service processes of artificial influence weather command scheduling, supervision and control, real-time reporting, information management and the like. A human shadow comprehensive database, a comprehensive service platform and a command system are constructed in an intensive mode, and the human shadow command management, scheduling and communication capacity level and efficiency are improved. The modernization and the refinement of the figure command are realized.

Drawings

Fig. 1 is a schematic diagram of a ground command subsystem in an embodiment of the invention.

FIG. 2 is a diagram of an application framework in an embodiment of the invention.

Fig. 3 is a schematic diagram of an equipment security management module according to an embodiment of the present invention.

Detailed Description

The invention is further explained below with reference to the drawings and the embodiments.

As shown in fig. 1, the embodiment provides an artificial influence weather command system, which includes a ground command subsystem disposed at a computer end, a figure command system mobile APP disposed at a mobile terminal (i.e., a mobile terminal of a mobile phone), and a database disposed at a server end;

In this embodiment, the basic space library includes a vector electronic map, a video electronic map, a dizzy electronic map, and a three-dimensional scene map; the observation data live database comprises a radar database, a sounding database, an automatic station rainfall database, an FJ-GPSMET database, a wind profile radar database, a raindrop spectrum database, a lightning database and an AMDAR database; the figure space library comprises an operation point space position, a gun carriage running track and a real-time operation point; the basic figure information base comprises operating personnel, operating points, gun trucks, ammunition, smoke furnaces and operating mechanisms.

In this embodiment, the weather modification integrated service system uses an existing weather private network, a backbone network is designed by using a gigabit ethernet technology, a database server is accessed to the backbone network, and a local area network working medium is 100/1000M to each application system terminal by using an ultra-5 line.

In this embodiment, the radar data includes a combined reflectivity, a basic velocity, a vertical liquid water content, and a echo height.

In this embodiment, the figure command system mobile APP includes a job unit account and a ammunition magazine account; the job cell account includes the following buttons: starting, arriving, preparing, finishing, re-working, canceling and recovering the initial state; the ammunition magazine account includes the following buttons: warehousing management, ex-warehouse management, state change, inventory management, query statistics and early warning of overdue inventory.

In this embodiment, the human shadow command system mobile APP includes the following information when reporting job information: the operation type, the rocket projectile usage amount, the tobacco rod usage amount, the operation date, the operation starting time, the operation ending time, the weather condition before the operation and the weather condition after the operation.

In this embodiment, as shown in fig. 3, the equipment security management module includes: warehousing management, ex-warehouse management, rocket projectile state change management, inventory checking management, query statistics management, inventory expiration early warning management, equipment information registration management, equipment annual inspection maintenance management, equipment distribution management and warehouse configuration management.

In this embodiment, the department management includes adding users, deleting users, selecting and viewing users in each area, and editing, modifying, and resetting passwords for users needing maintenance.

In this embodiment, the job unit management is used to perform addition, modification, and deletion operations on job units that need to be maintained.

In this embodiment, the operation point management is used to add, modify, and delete an operation point.

In this embodiment, the area configuration checks out an area that is not desired to be viewed, and the checked-out area is hidden when logging in next time.

In particular, in this embodiment, the equipment security management module is embodied at the mobile terminal of the mobile phone and the computer system terminal as follows:

wherein, the warehousing management (at a mobile terminal of a mobile phone) is mainly divided into adding, returning and allocating; newly adding: the mobile terminal of the mobile phone scans the rocket projectile two-dimensional code or the box two-dimensional code to be put in storage and can carry out newly added storage; returning: after the distributed equipment is returned by the operation of the operation state change function of the operation team, the two-dimensional code can be scanned for returning and warehousing; allocating: the rocket bomb moved to the warehouse can be allocated and put in the warehouse after scanning the two-dimensional code.

The ex-warehouse management (at a mobile terminal of a mobile phone) is mainly divided into a distribution factory, a moving factory and a return factory; distributing: the stock management distributes the rocket projectiles to the operation teams, clicks a distribution option, scans two-dimensional codes of the rocket projectiles to be distributed and clicks for storage after the teams to be distributed are selected for confirmation; and (4) transferring the library: the scanned rocket projectiles can be distributed to selected operation teams by clicking and storing the scanned two-dimensional codes, the target libraries can be selected by clicking and transferring the libraries, and then the scanned rocket projectiles can be transferred to the selected target libraries by scanning the two-dimensional codes of the rocket projectiles.

Wherein, the rocket projectile state change management (at the mobile phone end) comprises the state of the return of the designated rocket projectile when the operation team returns the rocket projectile to the warehouse: clicking a state change button pop-up page to select normal returning and normal launching to directly scan the two-dimensional code to complete state change, clicking fault returning and fault destroying, scanning the two-dimensional code of the faulty rocket projectile, filling fault information and a fault picture, clicking to store and record the faulty rocket projectile, and facilitating subsequent query.

The inventory checking management comprises the following steps: the quantity of rocket projectiles in the warehouse is ensured to be consistent with the reality, and the rocket projectiles are prevented from being lost. Further control the rocket projectile and prepare for working plan making. At a mobile end of the mobile phone: the historical record of the inventory can be checked in the list by inputting the query condition and clicking the query button; clicking the newly added inventory to list all rocket projectile information of the current storeroom by default (characters in the list are grey), then scanning the rocket projectiles in the storeroom to scan the corresponding rocket projectiles (the characters are changed into green), if not, scanning the rocket projectiles or changing the characters into the green, and if not, displaying red. At the computer end: the list of the inventory records is inquired, details of inventory can be checked by double clicking one line of data in the list, inventory conditions of warehouses can be displayed on a map through icons, specific inventory conditions can be checked by clicking the icons, and export buttons can be clicked by all warehouses which are not inventory and displayed in the right-side list to export EXCEL.

The query statistics management is to query the number of each state of the rocket projectiles in the warehouse; at a mobile end of the mobile phone: the number of the rocket projectiles corresponding to each state in the list can be checked by inputting the query condition and clicking a query button; at a computer client: more query conditions are provided than the mobile terminal of the mobile phone, and more convenient query items are to query rocket projectile information owned by the warehouse. Counting the quantity: and counting the number of selected query type drop-down boxes, clicking the query after the conditions to be queried are selected, and displaying the number of the states of each rocket projectile in a list. Rocket projectile list query: and selecting a rocket projectile list for inquiry in the inquiry type drop-down box, clicking the inquiry after selecting the conditions to be inquired, and displaying a specific rocket projectile list.

And the stock expiration early warning management comprises the following steps: at a mobile end of the mobile phone: selecting the type of early warning (overdue early warning and inventory early warning), and clicking to check the early warning conditions of rockets of which manufacturers; at a computer client: and clicking a rocket projectile for early warning, distinguishing the type of each warehouse early warning by using colors on a map, and moving a mouse into a bullet frame with detailed information of the warehouse early warning by using a warehouse icon.

The equipment information registration management is to register the information of the launching rack of each warehouse, and the query types are divided into two types: the first type of launcher list statistics, after clicking query, lists show information of each launcher, and can be edited and deleted.

And the second type of launcher year statistics is that the number of launchers in each service year time period is displayed after clicking query, and a specific launcher list can be checked by clicking the number of the launchers. And clicking an adding button to fill corresponding information on the page, and clicking to store and register the launcher information.

The equipment annual inspection maintenance management mainly records maintenance records of the launcher, and inquires a launcher list according to the inquiry name. Clicking the annual survey button in the list clicks in a pop-up page next to the service record to add the service record that may fill out the launcher.

The equipment distribution management is that the equipment is distributed in each warehouse. Clicking the equipment distribution diagram can check the distribution condition of the map launching frame, and clicking the icon can pop up a page of a specific launching frame list.

The warehouse configuration management means adding, editing and deleting a warehouse, configuring whether the warehouse is checked, and importing the purchased rocket bomb two-dimensional code data into a database. And checking a check box of the left list, clicking to delete the check box, deleting the checked warehouse, checking the specific information of the warehouse on a page by clicking the name of the left warehouse, and clicking to store the information after modification. And clicking the imported rocket projectile code, selecting a rocket projectile two-dimensional code file to be imported and purchased, clicking the imported rocket projectile two-dimensional code file, importing the two-dimensional code into a database, and storing the imported rocket projectile two-dimensional code into a warehouse.

As shown in fig. 2, the application framework of the present embodiment includes an application presentation layer, a service logic layer, and a data storage layer; the embodiment adopts a wide mature technology, so that the system construction risk can be reduced; the response speed of the system and the user interaction are improved by adopting a rich client technology; the embodiment is beneficial to interconnection and intercommunication among the built system and each unit of the city bureau and resource sharing; meanwhile, the embodiment provides support for WebServie, and application integration is facilitated; the embodiment follows Java technical standards, and ensures the flexibility, the usability, the integratability, the expandability and the flexibility of the system.

Particularly, in this embodiment, the system further includes an aircraft operation subsystem, where the aircraft operation subsystem records time and flight trajectory corresponding to aircraft operation, and transmits the data to the ground command subsystem in time, and the ground command subsystem can query in a figure operation module in the ground command subsystem, click the time to be checked, and play back the flight trajectory of the operation at a position corresponding to a map.

Preferably, in this embodiment, after the job information is reported, there is an audit process:

(a) and filling the reported operation information by a county bureau (team APP).

(b) And checking and examining the operation condition of the city bureau to which the county (team APP) belongs, and reporting to the provincial bureau for examination.

(c) After the city bureau is approved, the provincial bureau can check and audit the operation information submitted by the city bureau and can report the operation information to the national bureau.

In this embodiment, the ground command subsystem further performs statistics on the operation conditions in the current year according to regions and airspaces, and can derive statistical results.

Preferably, in this embodiment, two servers are preferentially used, one for data services and one for deploying application services.

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the present invention.

Claims

1. An artificial influence weather command system, characterized by: the system comprises a ground command subsystem arranged at a computer end, a figure command system mobile APP arranged on a mobile terminal, and a database arranged at a server end;

the ground command subsystem comprises a geographic information display module, a figure operation module, a meteorological product display module, a real-time communication module, a live monitoring module, an equipment safety management module and a system management module; the geographic information display module displays geographic information through a background vector map, an electronic map, a remote sensing image map and three-dimensional basic scene data; the figure operation module is used for performing operation point distribution, operation point query, gun carriage running track design, arrival time evaluation, operation state symbolization, cannonball safe shooting range setting, trajectory height calculation and operation scheme design; the weather product display module is used for displaying radar data, sounding data, lightning data, automatic station rainfall, wind profile radar and storm tracking; the real-time communication module comprises an automatic telephone unit and an automatic short message unit; the live monitoring module comprises a live storm tracking list used for selecting and viewing storm data of secondary meteorological products when the time map is displayed; the equipment safety management module is used for inquiring rocket projectiles and operation equipment and realizing unified management on ammunition allocation and annual inspection of the equipment; the system management module comprises department management, operation unit management, operation point management and area configuration; the area configuration checks the area which is not wanted to be viewed, and the checked area is hidden when logging in next time;

the database comprises a basic space library, an observation data live library, a figure space library and a figure basic information library;

the figure command system mobile APP comprises a working unit account and a ammunition storage tube account; the job cell account includes the following buttons: starting, arriving, preparing, finishing, re-working, canceling and recovering the initial state; the ammunition magazine account includes the following buttons: warehousing management, ex-warehouse management, state change, inventory management, query statistics and early warning of overdue inventory;

wherein the equipment security management module comprises: warehousing management, ex-warehouse management, rocket projectile state change management, inventory checking management, query statistics management, inventory overdue early warning management, equipment information registration management, equipment annual inspection maintenance management, equipment distribution management and warehouse configuration management;

wherein the warehousing management comprises adding, returning and allocating; newly adding: the mobile terminal of the mobile phone scans the two-dimensional code of the rocket projectile or the two-dimensional code of the box to be put in storage for newly adding and putting in storage; returning: after the distributed equipment is returned by operation of the operation state change function of the operation team, scanning the two-dimensional code for returning and warehousing; allocating: scanning the two-dimensional code by the rocket bomb moved to the warehouse, and then transferring and warehousing;

the ex-warehouse management comprises distribution, moving and returning factories; distributing: the stock management distributes the rocket projectiles to the operation teams, clicks distribution options, scans the two-dimensional codes of the rocket projectiles to be distributed for click storage after the teams to be distributed are selected for confirmation; and (4) transferring the library: the scanned rocket projectiles can be distributed to the selected operation teams by scanning the two-dimensional codes and clicking for storage, and the target libraries can be selected by clicking for transferring, and then the scanned rocket projectiles can be transferred to the selected target libraries by scanning the two-dimensional codes of the rocket projectiles;

the rocket projectile state change management comprises the state of the designated rocket projectile when the operation team returns the rocket projectile to the warehouse: clicking a state change button, popping up a page, selecting normal returning and normal launching, directly scanning a two-dimensional code to complete state change, clicking fault returning and fault destroying, scanning a two-dimensional code of a faulty rocket projectile, filling fault information and a fault picture, and clicking and storing to store a record of the faulty rocket projectile, thereby facilitating subsequent query;

the inventory checking management comprises the following steps: the quantity of the rocket projectiles in the warehouse is ensured to be consistent with the reality, and the rocket projectiles are prevented from being lost; further managing and controlling the rocket projectile and making a work plan to prepare; at a mobile end of the mobile phone: the condition of inputting the query clicks a query button to check the historical record of the inventory in the list; clicking the newly added inventory to list all rocket projectiles information of the current storeroom by default, then scanning the rocket projectiles in the storeroom to scan the corresponding rocket projectiles, and if the rocket projectiles are not scanned or are gray, displaying red if the rocket projectiles are not scanned in the list; at the computer end: inquiring a list of inventory records, double clicking one line of data in the list to check inventory details, displaying inventory conditions of warehouses by icons on a map, clicking the icons to check specific inventory conditions, displaying all un-inventory warehouses in a right list, clicking a lead-out button, and leading out EXCEL;

the query statistics management is to query the number of each state of the rocket projectiles in the warehouse; at a mobile end of the mobile phone: inputting a query condition, clicking a query button, and checking the number of the rocket projectiles corresponding to each state in the list; at a computer client: providing more query conditions than a mobile terminal of a mobile phone, and more conveniently querying items to query rocket projectile information owned by a warehouse; counting the quantity: counting the number of selected inquiry type drop-down boxes, clicking inquiry after the conditions to be inquired are selected, and displaying the number of states of each rocket projectile in a list; rocket projectile list query: selecting a rocket projectile list for inquiry in an inquiry type drop-down box, clicking the inquiry after selecting the conditions to be inquired, and displaying a specific rocket projectile list;

and the stock expiration early warning management comprises the following steps: at a mobile end of the mobile phone: selecting the type of early warning, and clicking to check the early warning conditions of rockets of which manufacturers; at a computer client: clicking a rocket projectile for early warning, distinguishing the type of each warehouse early warning by using colors on a map, and moving a mouse into a projectile frame of a warehouse icon with detailed information of the warehouse early warning;

the equipment information registration management is to register the information of the launching rack of each warehouse, and the query types are divided into two types: the first type of launcher list statistics is that after clicking query, the list displays information of each launcher, and can be edited and deleted; the second type of launcher year statistics is that the number of launchers in each service year time period is displayed after clicking query, and a specific launcher list can be checked by clicking the number of the launchers; clicking an adding button to fill corresponding information on a page, and clicking to store and register the launcher information;

the equipment annual inspection maintenance management records maintenance records of the launcher, and inquires a launcher list according to the inquiry name; clicking an annual inspection button in the list, and clicking and adding a maintenance record capable of filling in the launcher in a popped page;

the equipment distribution management is that equipment is distributed in each warehouse; clicking the equipment distribution diagram to check the distribution condition of the map launching frame, and clicking the icon to pop up a page of a specific launching frame list;

the warehouse configuration management means adding, editing and deleting a warehouse, configuring whether the warehouse is checked, and importing the purchased rocket bomb two-dimensional code data into a database; the checking box of the left list is checked, the checked warehouse can be deleted by clicking to delete the checking box, the specific information of the warehouse can be checked on a page by clicking the name of the left warehouse, and the checking box can be modified and then clicked to store the information; and clicking the imported rocket projectile two-dimensional code, selecting a rocket projectile two-dimensional code file to be imported and purchased, clicking the imported rocket projectile two-dimensional code file, importing the two-dimensional code into a database, and storing the imported rocket projectile two-dimensional code into a warehouse.

2. An artificial influence weather directing system as defined in claim 1, further comprising: the basic space library comprises a vector electronic map, an image electronic map, a dizzy electronic map and a three-dimensional scene map; the observation data live database comprises a radar database, a sounding database, an automatic station rainfall database, an FJ-GPSMET database, a wind profile radar database, a raindrop spectrum database, a lightning database and an AMDAR database; the figure space library comprises an operation point space position, a gun carriage running track and a real-time operation point; the basic figure information base comprises operating personnel, operating points, gun trucks, ammunition, smoke furnaces and operating mechanisms.

3. An artificial influence weather directing system as defined in claim 1, further comprising: the weather modification command system utilizes the existing weather private network, the backbone network is designed by adopting a gigabit Ethernet technology, the database server is accessed into the backbone network, the local area network working medium adopts an ultra-5 line, and 100/1000M is transmitted to each application system terminal.

4. An artificial influence weather directing system as defined in claim 1, further comprising: the radar data comprises combined reflectivity, basic speed, vertical liquid water content and echo peak height.

5. An artificial influence weather directing system as defined in claim 1, further comprising: the shadow command system mobile APP comprises the following information when reporting the operation information: the operation type, the rocket projectile usage amount, the tobacco rod usage amount, the operation date, the operation starting time, the operation ending time, the weather condition before the operation and the weather condition after the operation.

6. An artificial influence weather directing system as defined in claim 1, further comprising: the department management comprises adding users, deleting users, selecting and checking users in each area, and editing, modifying and resetting passwords for users needing maintenance.

7. An artificial influence weather directing system as defined in claim 1, further comprising: the operation unit management is used for performing addition, modification and deletion operations on operation units needing maintenance.

8. An artificial influence weather directing system as defined in claim 1, further comprising: the operation point management is used for carrying out adding, modifying and deleting operations on the operation points.