CN113178012A - Method, system, equipment and medium for making meteorological information thematic map - Google Patents

Abstract

The invention discloses a method, a system, equipment and a medium for making a meteorological information thematic map. The method comprises the following steps: the method comprises the steps of obtaining predicted meteorological information and geographic information of a forest observation area, obtaining actual measured meteorological information and geographic information of forest meteorological observation stations in the forest observation area, making a forest observation area thematic map representing meteorological forecast of the forest observation area in a set time period according to the predicted meteorological information and the geographic information, making a forest meteorological observation station thematic map representing actual meteorological change of the forest meteorological observation stations in the set time period according to the actual measured meteorological information and the geographic information, and integrating the forest observation area thematic map and the forest meteorological observation station thematic map to obtain a comprehensive meteorological information thematic map. According to the method for manufacturing the meteorological information thematic map, the manufactured comprehensive meteorological information thematic map has accurate data and extremely strong reference, and powerful data support is provided for forest disaster prevention management.

Description

Method, system, equipment and medium for making meteorological information thematic map

Technical Field

The invention relates to the technical field of meteorological thematic map making, in particular to a method, a system, equipment and a medium for making a meteorological information thematic map.

Background

The weather report graphs commonly used in weather forecast all represent weather reports between countries, provinces and cities, and are not detailed to a part of the city, even if the weather reports of small programs on some intelligent devices can show approximate weather information of each area in the city, the weather report graphs are not sufficient and not accurate for forest management. Specifically, the layout of the forest in the city is not necessarily in which area in the city, and it may be cross-regional or in a position outside these areas, and if the large area forest is managed by only the meteorological report map of the city area, the safety management coefficient of the forest is extremely low, and it is easy to cause disasters such as fire.

Disclosure of Invention

Based on this, the present invention provides a method, system, device and medium for producing a meteorological information thematic map; the data acquired in the process of making the meteorological information thematic map is high in precision, and the made comprehensive meteorological information thematic map is accurate in data and extremely strong in reference, so that powerful data support is provided for forest disaster prevention management.

The purpose of the invention is realized by the following technical scheme:

a method for making a meteorological information thematic map comprises the following steps:

s1: acquiring predicted meteorological information and geographic information of a forest observation area, and acquiring actual meteorological information and geographic information of a forest meteorological observation station in the forest observation area;

s2: making a forest observation region thematic map according to predicted meteorological information and geographic information of a forest observation region, wherein the forest observation region thematic map represents meteorological forecast of the forest observation region in a set time period;

s3: the method comprises the steps that a thematic map of the forest weather observation station is manufactured according to actual measurement weather information and geographic information of the forest weather observation station, wherein the thematic map of the forest weather observation station represents actual weather changes of the forest weather observation station in the same set time period;

s4: and integrating the thematic map of the forest observation area and the thematic map of the forest meteorological observation station to obtain a comprehensive meteorological information thematic map.

According to the method for manufacturing the meteorological information thematic map, the acquired information is refined to the forest observation area and the forest observation stations in the forest observation area, the data precision is extremely high, and the manufactured forest observation area thematic map and the forest meteorological observation station thematic map are extremely high in reference; the data of the thematic map of the forest observation area can be acquired from an external meteorological prediction center, the data of the thematic map of the forest meteorological observation site can be obtained by actually measuring a plurality of sites arranged in the forest observation area, the obtained comprehensive meteorological information thematic map is formed by combining external meteorological prediction data and actually measured meteorological prediction data in the forest observation area, the obtained comprehensive meteorological information thematic map is more favorable for managing forest safety measures, and can evaluate the occurrence risk degree of forest fire, the occurrence possibility of fire, fire controllability and possible loss, predict the possible occurrence time and place of the fire in advance, and provide a reference effective basis for strengthening emergency management and optimizing forest fire-fighting resource allocation; and the thematic map of the forest observation area can be compared with the thematic map of the forest meteorological observation site, so that more powerful support data can be provided for subsequent meteorological forecast, and the accuracy of the meteorological forecast can be improved.

Further, in S2, the creating a thematic map of the forest observation area according to the predicted weather information and geographic information of the forest observation area includes the following steps:

s21: converting the geographic information of the forest observation area into graphic coordinates;

s22: combining the converted graphic coordinates and meteorological information of the forest observation area, and forming a forest observation area grid map by using a two-dimensional Krigin space interpolation method;

s23: carrying out color processing on the forest observation area grid map;

s24: and acquiring a scene graph of the forest observation area, and fusing the scene graph with the color-processed forest observation area grid graph to obtain a thematic map of the forest observation area.

Further, in S3, the creating a thematic map of the forest weather observation station according to the measured weather information and the geographic information of the forest weather observation station includes the following steps:

s31: acquiring all actual measurement meteorological information of a forest meteorological observation station in a set time period, arranging the actual measurement meteorological information according to a time sequence, calculating and marking an average value, a minimum value and a maximum value of each meteorological actual measurement value in the actual measurement meteorological information in the set time period, and obtaining a local map of the forest meteorological observation station;

s32: and integrating local maps of the forest meteorological observation stations of all forest meteorological observation stations in the forest observation area according to the geographic information of the forest meteorological observation stations to obtain thematic maps of the forest meteorological observation stations.

Further, in S1, the predicted weather information includes predicted temperature information, predicted humidity information, predicted precipitation information, and predicted wind field information, and the measured weather information includes measured temperature information, measured humidity information, measured precipitation information, and measured wind field information.

A system for making a meteorological information thematic map comprises:

the system comprises an information acquisition module, a weather information analysis module and a weather information analysis module, wherein the information acquisition module is used for acquiring predicted weather information and geographic information of a forest observation area and acquiring actual measurement weather information and geographic information of a forest weather observation station in the forest observation area;

the forest observation region thematic map making module is used for making a forest observation region thematic map according to the predicted meteorological information and the geographic information of a forest observation region, and the forest observation region thematic map represents the meteorological forecast of the forest observation region in a set time period;

the system comprises a forest meteorological observation station thematic map making module, a forest meteorological observation station thematic map generation module and a forest meteorological observation station thematic map generation module, wherein the forest meteorological observation station thematic map making module is used for making a forest meteorological observation station thematic map according to actual measurement meteorological information and geographic information of a forest meteorological observation station, and the forest meteorological observation station thematic map represents actual meteorological changes of the forest meteorological observation station in the same set time period;

and the comprehensive meteorological information thematic map making module is used for integrating the thematic map of the forest observation region and the thematic map of the forest meteorological observation station to obtain the comprehensive meteorological information thematic map.

Further, the module for making thematic map of forest observation area comprises:

the coordinate conversion module is used for converting the geographic information of the forest observation area into a graphic coordinate;

the analysis module is used for combining the converted graphic coordinates and meteorological information of the forest observation area and forming a forest observation area grid map by using a two-dimensional Krigin space interpolation method;

the color processing module is used for carrying out color processing on the forest observation region grid map;

and the fusion module is used for acquiring a scene graph of the forest observation area, and fusing the scene graph with the color-processed forest observation area grid graph to obtain a thematic map of the forest observation area.

Further, the module for making thematic map of forest meteorological observation station comprises:

the local map making module is used for acquiring all actual measurement meteorological information of the forest meteorological observation station in a set time period, arranging the actual measurement meteorological information according to a time sequence, calculating and marking an average value, a minimum value and a maximum value of all meteorological actual measurement values in the actual measurement meteorological information in the set time period, and obtaining a local map of the forest meteorological observation station;

and the integration module is used for integrating local images of the forest meteorological observation stations of all forest meteorological observation stations in the forest observation area according to the geographic information of the forest meteorological observation stations to obtain thematic images of the forest meteorological observation stations.

Further, the predicted meteorological information in the information acquisition module includes predicted temperature information, predicted humidity information, predicted precipitation information, and predicted wind field information, and the measured meteorological information in the information acquisition module includes measured temperature information, measured humidity information, measured precipitation information, and measured wind field information.

An apparatus for producing a thematic map of meteorological information, the apparatus comprising a storage device for storing one or more programs and a processor;

when the one or more programs are executed by the processor, the processor realizes the method for making the meteorological information thematic map.

A computer-readable storage medium storing at least one program which, when executed by a processor, implements a method of producing a weather information thematic map as described in any one of the above.

Compared with the prior art, the method, the system, the equipment and the computer readable storage medium for manufacturing the meteorological information thematic map have the advantages that the acquired information is refined to the forest observation area and the forest observation stations in the forest observation area, the data precision is extremely high, and the manufactured forest observation area thematic map and the forest meteorological observation station thematic map are extremely high in reference; the data of the thematic map of the forest observation area can be acquired from an external meteorological prediction center, the data of the thematic map of the forest meteorological observation site can be obtained by actually measuring a plurality of sites arranged in the forest observation area, the obtained comprehensive meteorological information thematic map is formed by combining external meteorological prediction data and actually measured meteorological prediction data in the forest observation area, the obtained comprehensive meteorological information thematic map is more favorable for managing forest safety measures, and can evaluate the occurrence risk degree of forest fire, the occurrence possibility of fire, fire controllability and possible loss, predict the possible occurrence time and place of the fire in advance, and provide a reference effective basis for strengthening emergency management and optimizing forest fire-fighting resource allocation; and the thematic map of the forest observation area can be compared with the thematic map of the forest meteorological observation site, so that more powerful support data can be provided for subsequent meteorological forecast, and the accuracy of the meteorological forecast can be improved.

For a better understanding and practice, the invention is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a flow chart of a method for creating a weather information thematic map according to the present invention.

FIG. 2 is a flowchart of the step S2 in the method for creating a weather information topic map of the present invention.

FIG. 3 is a flowchart of the step S3 in the method for creating a weather information topic map of the present invention.

FIG. 4 is a block diagram of a system for creating a thematic map of weather information according to the present invention.

Reference numerals: 1. an information acquisition module; 2. a thematic map making module for forest observation areas; 21. a coordinate conversion module; 22. an analysis module; 23. a color processing module; 24. a fusion module; 3. a thematic map making module of forest meteorological observation stations; 31. a partial graph making module; 32. an integration module; 4. and a comprehensive weather information thematic map making module.

Detailed Description

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like, referred to or may be referred to in this specification, are defined relative to their configuration, and are relative concepts. Therefore, it may be changed according to different positions and different use states. Therefore, these and other directional terms should not be construed as limiting terms.

The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

A method for making a weather information thematic map, as shown in fig. 1-3, comprising the steps of:

s1: the method comprises the steps of obtaining predicted meteorological information and geographic information of a forest observation area, and obtaining actual meteorological information and geographic information of forest meteorological observation stations in the forest observation area.

Specifically, the predicted weather information in S1 includes predicted temperature information, predicted humidity information, predicted precipitation information, and predicted wind field information, and the measured weather information includes measured temperature information, measured humidity information, measured precipitation information, and measured wind field information.

S2: and making a forest observation region thematic map according to the predicted meteorological information and the geographic information of the forest observation region, wherein the forest observation region thematic map represents the meteorological forecast of the forest observation region in a set time period.

Specifically, the predicted weather information of the inter-forest observation area in S1 substantially includes the predicted weather information of the inter-forest weather observation site, and the thematic map of the inter-forest observation area in S2 includes an inter-forest observation area prediction map layer and an inter-forest weather observation site prediction map layer.

S3: and manufacturing a thematic map of the forest weather observation station according to the actual measurement weather information and the geographic information of the forest weather observation station, wherein the thematic map of the forest weather observation station represents the actual weather change of the forest weather observation station in the same set time period.

Specifically, the thematic map of the forest observation area in S2 includes a predicted temperature thematic map, a predicted humidity thematic map, a predicted precipitation thematic map, a predicted wind field thematic map and a total predicted thematic map, the thematic map of the forest weather observation station in S3 includes an actually measured temperature thematic map, an actually measured humidity thematic map, an actually measured precipitation thematic map, an actually measured wind field thematic map and a total actually measured thematic map, the integrated weather information thematic map can be integrated by one or more of the thematic maps of the forest observation area and one or more of the thematic maps of the forest observation station according to actual forest management requirements, and one integrated weather information thematic map can be combined to represent various kinds of weather information in the forest observation area, thereby being beneficial to providing a more intuitive and complete integrated weather information thematic map for users to refer to.

S4: and integrating the thematic map of the forest observation area and the thematic map of the forest meteorological observation station to obtain a comprehensive meteorological information thematic map.

Specifically, the contour lines are extracted, and the thematic map of the forest observation area and the thematic map of the forest meteorological observation station are integrated to obtain the comprehensive meteorological information thematic map.

By extracting the contour lines to integrate the thematic map of the forest observation area and the thematic map of the forest meteorological observation site, the superposition and fusion of the thematic map of the forest observation area and the thematic map of the forest meteorological observation site can be more accurate, the accuracy of the finally obtained comprehensive meteorological information thematic map is improved, the possibility of disaster occurrence of the area where the forest is located can be conveniently and subsequently evaluated, and more perfect disaster prevention measures can be set for forest management.

According to the method for manufacturing the meteorological information thematic map, the acquired information is refined to the forest observation area and the forest observation stations in the forest observation area, the data precision is extremely high, and the manufactured forest observation area thematic map and the forest meteorological observation station thematic map are extremely high in reference; the data of the thematic map of the forest observation area can be acquired from an external meteorological prediction center (such as a weather station), the data of the thematic map of the forest meteorological observation site can be obtained by actually measuring a plurality of sites arranged in a forest observation area, the obtained comprehensive meteorological information thematic map is formed by combining external meteorological prediction data and the actually measured meteorological prediction data in the forest observation area, the obtained comprehensive meteorological information thematic map is more favorable for managing forest safety measures, and can evaluate the forest fire occurrence risk degree, the fire occurrence possibility, the fire controllability and the possible loss, predict the possible time and place of the fire in advance, and provide a reference effective basis for strengthening emergency management and optimizing forest fire fighting resource allocation; and the thematic map of the forest observation area can be compared with the thematic map of the forest meteorological observation site, so that more powerful support data can be provided for subsequent meteorological forecast, and the accuracy of the meteorological forecast can be improved.

Preferably, the step of S2, the step of creating a thematic map of the forest observation area based on the predicted weather information and geographic information of the forest observation area, includes the steps of:

s21: and converting the geographic information of the forest observation area into graphic coordinates.

Specifically, the geographic information of the forest observation area can be converted into the graphic coordinates through a geographic projection method, the conversion mode is more direct and simpler, and the obtained data of the graphic coordinates are more accurate.

S22: and combining the converted graphic coordinates and meteorological information of the forest observation area, and forming a forest observation area grid map by using a two-dimensional Krigin space interpolation method.

A two-dimensional Krigin space interpolation method is adopted, and a forest observation area grid map is formed by using space interpolation, so that the subsequent processing of the map layer is facilitated.

S23: and carrying out color processing on the forest observation area grid map.

S24: and acquiring a scene graph of the forest observation area, and fusing the scene graph with the color-processed forest observation area grid graph to obtain a thematic map of the forest observation area.

Specifically, the OpenGL three-dimensional graphics library is preferably used to perform color processing on the forest observation region grid map, for example, different colors are used to represent weather information between different forest weather observation stations in the forest observation region, and a scene map of the forest observation region stored in the OpenGL three-dimensional graphics library may be used to be fused with the color-processed forest observation region grid map, so that the obtained forest observation region thematic map is more real and intuitive.

Preferably, the step of S3, creating the thematic map of the forest weather observation station according to the measured weather information and the geographic information of the forest weather observation station, includes the following steps:

s31: acquiring all actual measurement meteorological information of the forest meteorological observation station in a set time period, arranging the actual measurement meteorological information according to a time sequence, calculating and marking an average value, a minimum value and a maximum value of each meteorological actual measurement value in the actual measurement meteorological information in the set time period to obtain a local map of the forest meteorological observation station,

s32: and integrating local maps of the forest meteorological observation stations of all forest meteorological observation stations in the forest observation area according to the geographic information of the forest meteorological observation stations to obtain thematic maps of the forest meteorological observation stations.

Specifically, the meteorological measured values include temperature values, humidity values, precipitation amounts, wind speeds, wind directions and the like, the set time period may be 24 hours, 48 hours, 72 hours, a week, a month, a season, a year or longer, the local map of the forest meteorological observation station may show changes of various meteorology of the station with time in the set time period, and the thematic map of the forest meteorological observation station obtained by overlapping and fusing the local maps of the forest meteorological observation stations may show changes of meteorology of the forest meteorological observation stations with time in the forest meteorological observation area.

The invention also discloses a system for making the meteorological information thematic map, as shown in fig. 4, comprising:

the information acquisition module 1 is used for acquiring the predicted meteorological information and the geographic information of a forest observation area, acquiring the actual meteorological information and the geographic information of a forest meteorological observation station in the forest observation area,

a forest observation region thematic map making module 2 for making a forest observation region thematic map according to the predicted meteorological information and geographic information of a forest observation region, wherein the forest observation region thematic map represents the meteorological forecast of the forest observation region in a set time period,

a thematic map making module 3 of the forest weather observation station, which is used for making a thematic map of the forest weather observation station according to the actual measurement weather information and the geographic information of the forest weather observation station, wherein the thematic map of the forest weather observation station represents the actual weather change of the forest weather observation station in the same set time period,

and the comprehensive meteorological information thematic map making module 4 is used for integrating the thematic map of the forest observation region and the thematic map of the forest meteorological observation station to obtain the comprehensive meteorological information thematic map.

Preferably, the module 2 for making thematic map of forest observation area comprises:

a coordinate conversion module 21 for converting the geographical information of the forest observation area into graphic coordinates,

an analysis module 22, for combining the transformed graphic coordinates and the meteorological information of the forest observation area, using a two-dimensional kriging space interpolation method to form a forest observation area grid map,

a color processing module 23, configured to perform color processing on the forest observation region grid map,

and the fusion module 24 is used for acquiring a scene graph of the forest observation area, and fusing the scene graph with the color-processed forest observation area grid graph to obtain a thematic map of the forest observation area.

Preferably, the forest meteorological observation site thematic map making module 3 includes:

the local map making module 31 is used for acquiring all the actual measurement weather information of the forest weather observation station in a set time period, arranging the actual measurement weather information according to a time sequence, calculating and marking the average value, the minimum value and the maximum value of each weather actual measurement value in the actual measurement weather information in the set time period to obtain a local map of the forest weather observation station,

and the integration module 32 is configured to integrate local images of the forest meteorological observation stations in the forest observation area according to the geographic information of the forest meteorological observation stations, so as to obtain thematic images of the forest meteorological observation stations.

Preferably, the predicted meteorological information in the information obtaining module 1 includes predicted temperature information, predicted humidity information, predicted precipitation information, and predicted wind field information, and the measured meteorological information in the information obtaining module includes measured temperature information, measured humidity information, measured precipitation information, and measured wind field information.

The invention also discloses equipment for making the meteorological information thematic map, which comprises a storage device and a processor, wherein the storage device is used for storing one or more programs;

when the one or more programs are executed by the processor, the processor realizes the method for making the meteorological information thematic map.

The device may also preferably include a communication interface for communicating with external devices and for interactive transmission of data.

It should be noted that the memory may include a high-speed RAM memory, and may also include a nonvolatile memory (nonvolatile memory), such as at least one disk memory.

In a specific implementation, if the memory, the processor and the communication interface are integrated on a chip, the memory, the processor and the communication interface can complete mutual communication through the internal interface. If the memory, the processor and the communication interface are implemented independently, the memory, the processor and the communication interface may be connected to each other through a bus and perform communication with each other.

The invention also discloses a computer readable storage medium which stores at least one program, and when the program is executed by a processor, the method for manufacturing the meteorological information thematic map is realized.

It should be appreciated that the computer-readable storage medium is any data storage device that can store data or programs which can thereafter be read by a computer system. Examples of computer-readable storage media include: read-only memory, random access memory, CD-ROM, HDD, DVD, magnetic tape, optical data storage devices, and the like.

The computer readable storage medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

Program code embodied on a computer readable storage medium may be transmitted using any appropriate medium, including but not limited to: wireless, wire, fiber optic cable, Radio Frequency (RF), etc., or any suitable combination of the foregoing.

In some embodiments, the computer-readable storage medium may also be non-transitory.

Compared with the prior art, the method, the system, the equipment and the computer readable storage medium for manufacturing the meteorological information thematic map have the advantages that the acquired information is refined to the forest observation area and the forest observation stations in the forest observation area, the data precision is extremely high, and the manufactured forest observation area thematic map and the forest meteorological observation station thematic map are extremely high in reference; the data of the thematic map of the forest observation area can be acquired from an external meteorological prediction center, the data of the thematic map of the forest meteorological observation site can be obtained by actually measuring a plurality of sites arranged in the forest observation area, the obtained comprehensive meteorological information thematic map is formed by combining external meteorological prediction data and actually measured meteorological prediction data in the forest observation area, the obtained comprehensive meteorological information thematic map is more favorable for managing forest safety measures, and can evaluate the occurrence risk degree of forest fire, the occurrence possibility of fire, fire controllability and possible loss, predict the possible occurrence time and place of the fire in advance, and provide a reference effective basis for strengthening emergency management and optimizing forest fire-fighting resource allocation; and the thematic map of the forest observation area can be compared with the thematic map of the forest meteorological observation site, so that more powerful support data can be provided for subsequent meteorological forecast, and the accuracy of the meteorological forecast can be improved.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (10)

1. A method for making a meteorological information thematic map is characterized by comprising the following steps:

s1: acquiring predicted meteorological information and geographic information of a forest observation area, and acquiring actual meteorological information and geographic information of a forest meteorological observation station in the forest observation area;

s2: making a forest observation region thematic map according to predicted meteorological information and geographic information of a forest observation region, wherein the forest observation region thematic map represents meteorological forecast of the forest observation region in a set time period;

s3: the method comprises the steps that a thematic map of the forest weather observation station is manufactured according to actual measurement weather information and geographic information of the forest weather observation station, wherein the thematic map of the forest weather observation station represents actual weather changes of the forest weather observation station in the same set time period;

s4: and integrating the thematic map of the forest observation area and the thematic map of the forest meteorological observation station to obtain a comprehensive meteorological information thematic map.

2. The method for making a weather information thematic map as claimed in claim 1, wherein: in S2, the creating of the thematic map of the forest observation area according to the predicted weather information and geographic information of the forest observation area includes the following steps:

s21: converting the geographic information of the forest observation area into graphic coordinates;

s22: combining the converted graphic coordinates and meteorological information of the forest observation area, and forming a forest observation area grid map by using a two-dimensional Krigin space interpolation method;

s23: carrying out color processing on the forest observation area grid map;

s24: and acquiring a scene graph of the forest observation area, and fusing the scene graph with the color-processed forest observation area grid graph to obtain a thematic map of the forest observation area.

3. The method for making a weather information thematic map as claimed in claim 1, wherein: in S3, the making of the thematic map of the forest weather observation station according to the measured weather information and the geographic information of the forest weather observation station includes the following steps:

s31: acquiring all actual measurement meteorological information of a forest meteorological observation station in a set time period, arranging the actual measurement meteorological information according to a time sequence, calculating and marking an average value, a minimum value and a maximum value of each meteorological actual measurement value in the actual measurement meteorological information in the set time period, and obtaining a local map of the forest meteorological observation station;

s32: and integrating local maps of the forest meteorological observation stations of all forest meteorological observation stations in the forest observation area according to the geographic information of the forest meteorological observation stations to obtain thematic maps of the forest meteorological observation stations.

4. The method of claim 1, wherein the predicted weather information includes predicted temperature information, predicted humidity information, predicted precipitation information, and predicted wind field information, and the measured weather information includes measured temperature information, measured humidity information, measured precipitation information, and measured wind field information at S1.

5. A system for making a meteorological information thematic map is characterized by comprising:

the system comprises an information acquisition module, a weather information analysis module and a weather information analysis module, wherein the information acquisition module is used for acquiring predicted weather information and geographic information of a forest observation area and acquiring actual measurement weather information and geographic information of a forest weather observation station in the forest observation area;

the forest observation region thematic map making module is used for making a forest observation region thematic map according to the predicted meteorological information and the geographic information of a forest observation region, and the forest observation region thematic map represents the meteorological forecast of the forest observation region in a set time period;

the system comprises a forest meteorological observation station thematic map making module, a forest meteorological observation station thematic map generation module and a forest meteorological observation station thematic map generation module, wherein the forest meteorological observation station thematic map making module is used for making a forest meteorological observation station thematic map according to actual measurement meteorological information and geographic information of a forest meteorological observation station, and the forest meteorological observation station thematic map represents actual meteorological changes of the forest meteorological observation station in the same set time period;

and the comprehensive meteorological information thematic map making module is used for integrating the thematic map of the forest observation region and the thematic map of the forest meteorological observation station to obtain the comprehensive meteorological information thematic map.

6. The system of claim 5, wherein the module for creating thematic map of forest observation area comprises:

the coordinate conversion module is used for converting the geographic information of the forest observation area into a graphic coordinate;

the analysis module is used for combining the converted graphic coordinates and meteorological information of the forest observation area and forming a forest observation area grid map by using a two-dimensional Krigin space interpolation method;

the color processing module is used for carrying out color processing on the forest observation region grid map;

and the fusion module is used for acquiring a scene graph of the forest observation area, and fusing the scene graph with the color-processed forest observation area grid graph to obtain a thematic map of the forest observation area.

7. The system for creating weather information thematic map of claim 5, wherein the module for creating thematic map of forest weather observation site comprises:

the local map making module is used for acquiring all actual measurement meteorological information of the forest meteorological observation station in a set time period, arranging the actual measurement meteorological information according to a time sequence, calculating and marking an average value, a minimum value and a maximum value of all meteorological actual measurement values in the actual measurement meteorological information in the set time period, and obtaining a local map of the forest meteorological observation station;

and the integration module is used for integrating local images of the forest meteorological observation stations of all forest meteorological observation stations in the forest observation area according to the geographic information of the forest meteorological observation stations to obtain thematic images of the forest meteorological observation stations.

8. The system of claim 5, wherein the predicted weather information in the information acquisition module includes predicted temperature information, predicted humidity information, predicted precipitation information, and predicted wind farm information, and the measured weather information in the information acquisition module includes measured temperature information, measured humidity information, measured precipitation information, and measured wind farm information.

9. An apparatus for creating a weather information thematic map, the apparatus comprising a storage device and a processor, the storage device being configured to store one or more programs;

the one or more programs, when executed by the processor, implement the method of making a weather information thematic map according to any one of claims 1-4.

10. A computer-readable storage medium storing at least one program, wherein the program, when executed by a processor, implements the method of creating the weather information thematic map according to any one of claims 1 to 4.

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