CN110334255B - Weather situation display method and device, electronic equipment and storage medium - Google Patents

Abstract

The invention provides a weather situation display method, a weather situation display device, electronic equipment and a storage medium, which relate to the technical field of weather forecast and comprise the following steps: acquiring a weather situation distribution map at a specified time, wherein the weather situation distribution map comprises a first grid point coordinate; acquiring at least one weather element distribution data at the appointed moment, wherein the weather element distribution data comprise a second grid point coordinate and weather element data corresponding to the second grid point coordinate; and matching the second grid point coordinates with the first grid point coordinates and superposing corresponding weather element data to the weather situation distribution map. The weather situation distribution map is drawn according to the grid-point data of the weather numerical value forecast product, the weather element distribution data is drawn on the weather situation distribution map according to the time and the position coordinates according to the regional weather characteristics, an interactive weather situation distribution map which is more visual in observation and more convenient to judge is formed, and the forecast accuracy is improved.

Description

Weather situation display method and device, electronic equipment and storage medium

Technical Field

The invention relates to the technical field of weather forecast, in particular to a weather situation display method and device, electronic equipment and a storage medium.

Background

Under normal conditions, a forecaster can know the weather situation and the weather situation evolution process by checking the weather situation distribution map, and the forecaster can also check the weather element distribution data to assist in knowing the regional weather conditions. The mode of assisting in judging the weather forecast result through the two types of data has a large dependence on the experience of a forecaster, and particularly, when weather situation evolution discussion and reporting are carried out, switching the display method of the forecast data is inconvenient.

Disclosure of Invention

The invention aims to provide a weather situation display method and a weather situation display device, which are used for relieving the technical problems that judgment is not visual, judgment difficulty is high, two judgment methods are isolated and cannot be corrected in the process of judging weather situation evolution through a weather situation distribution diagram and weather element distribution data.

The invention provides a weather situation display method, which comprises the following steps:

and acquiring a weather situation distribution map at a specified time, wherein the weather situation distribution map comprises first grid point coordinates.

And acquiring at least one type of weather element distribution data at the appointed moment, wherein the weather element distribution data comprise a second grid point coordinate and weather element data corresponding to the second grid point coordinate.

And matching the second grid point coordinate with the first grid point coordinate and superposing the corresponding weather element data to the weather situation distribution map.

Further, the method also comprises the following steps: and storing a plurality of weather situation distribution maps which are overlapped with the weather element data and have continuous time into a bitmap set or general video data and dynamically displaying the bitmap set or the general video data through display software.

Further, the method also comprises the following steps:

and acquiring a first forecast result through a plurality of continuous weather situation distribution maps in a specified time period.

And acquiring a second forecast result through a plurality of continuous weather situation distribution maps superposed with the weather element data in the appointed time period, wherein the second forecast result is corresponding and consistent with the first forecast result in time.

And correcting the first forecasting result according to the second forecasting result.

Further, the step of matching the second grid point coordinate with the first grid point coordinate and superimposing the corresponding weather element data on the weather situation distribution map includes:

and processing the weather element distribution data at the appointed time into a second picture with a second grid point coordinate, processing the terrain part of the second picture into transparent, processing the weather element part of the second picture into non-transparent, and superposing the processed second picture on the weather situation distribution map according to the mode that the second grid point coordinate is consistent with the first grid point coordinate.

Further, the step of matching the second grid point coordinate with the first grid point coordinate and superimposing the corresponding weather element data on the weather situation distribution map includes:

and taking the weather situation distribution map at the appointed moment as a base map, dividing at least one weather element distribution data at the appointed moment into zero data and non-zero data, wherein the zero data are not processed, and the non-zero data draw a weather element color spot map with transparency on the base map according to the first grid point coordinate to obtain the weather situation distribution map on which the weather element color spot map is superimposed.

The invention provides a weather situation display device, comprising:

and the weather situation drawing module is used for acquiring a weather situation distribution map at a specified time, and the weather situation distribution map comprises a first grid point coordinate.

And the weather element selection module is used for acquiring at least one type of weather element distribution data at the appointed moment, and the weather element distribution data comprises a second grid point coordinate and weather element data corresponding to the second grid point coordinate.

And the superposition module is used for matching the second grid point coordinate with the first grid point coordinate and superposing the corresponding weather element data to the weather situation distribution map.

Further, the method also comprises the following steps:

and the dynamic display module is used for storing a plurality of weather situation distribution maps which are overlapped with the weather element data and have continuous time into a bitmap set or general video data and dynamically displaying the bitmap set or the general video data through display software.

Further, the method also comprises the following steps:

and the comparison module is used for acquiring a first forecast result through a plurality of continuous weather situation distribution maps in a specified time period.

And acquiring a second forecast result through a plurality of continuous weather situation distribution maps superposed with the weather element data in the appointed time period, wherein the second forecast result is corresponding and consistent with the first forecast result in time.

And correcting the first forecasting result according to the second forecasting result.

The invention provides an electronic device which comprises a processor and a memory, wherein the processor is connected with the memory.

The memory is used for storing programs.

The processor is used for running the program stored in the memory and executing any weather situation display method.

The present invention provides a storage medium having stored thereon a computer program which, when executed by a computer, executes the any one of the weather situation display methods.

According to the weather situation display method provided by the invention, the weather situation distribution map is drawn according to the grid-point data of the weather numerical value forecast product, at least one specific weather element distribution data is selected according to the regional weather characteristics, such as precipitation, high temperature, haze, sand raising and the like, and the weather element distribution data is drawn on the weather situation distribution map according to the time and the position coordinates, so that the interactive weather situation distribution map which is more intuitive to observe and more convenient to judge is formed. Because the weather element distribution data is acquired in real time (the time interval is 0.5 hour or 1 hour), the weather element distribution data can form a good evidence for the weather situation distribution map with larger acquisition time interval (12 hours), and when the prediction result of the weather situation distribution map in a specific time period or a specific area has deviation, the prediction result can be corrected in time through the superposed weather element distribution data, so that the prediction result of the weather situation distribution map is more accurate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a flowchart of a method for displaying weather conditions according to an embodiment of the present invention;

FIG. 2 is a flowchart of a weather situation display method according to another embodiment of the present invention;

FIG. 3 is a flowchart of a weather situation display method according to another embodiment of the present invention;

fig. 4 is a block diagram of a weather situation display apparatus according to an embodiment of the present invention;

FIG. 5 is a block diagram of a weather situation display apparatus according to another embodiment of the present invention;

fig. 6 is a block diagram of a weather situation display apparatus according to another embodiment of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

The prior art has the problems that when a forecaster judges weather forecast, the forecaster usually comprises a weather situation distribution map and weather element distribution data according to the data, the two data are independent and are not easy to compare when judging, the forecasting process has higher requirements on the experience and level of the forecaster, and particularly when the weather situation evolution discussion and the forecast are carried out, the switching of the display method of the forecast data is inconvenient.

In order to alleviate the above technical problem, the present invention provides a method for displaying weather conditions, as shown in fig. 1, comprising the following steps:

s110: and acquiring a weather situation distribution map at a specified time, wherein the weather situation distribution map comprises first grid point coordinates.

Carrying out grid point processing on global actual measurement sounding data (issued once every 08 hours and 20 hours) to obtain an objective analysis report, carrying out numerical prediction processing on an objective analysis table by using a numerical prediction mode to obtain grid point data of a weather numerical prediction product, wherein the grid point data of the weather numerical prediction product is data with a time interval of 3 hours, and the grid point data with the time interval of 3 hours is subjected to linear interpolation, namely data with the time interval of 0.5 hour or 1 hour; inputting the grid-point data subjected to linear interpolation into meteorological analysis display software, drawing the grid-point data subjected to linear interpolation in an isoline mode by the meteorological analysis display software, and outputting the grid-point data as a weather situation distribution map; the grid-point data of the weather numerical forecast product is usually text data or binary data, a weather situation distribution diagram at a specified time is drawn through the grid-point data of the weather numerical forecast product, and the weather situation distribution diagram is usually a contour line on a isobaric surface with first grid point coordinates.

S120: and acquiring at least one type of weather element distribution data at the appointed moment, wherein the weather element distribution data comprise a second grid point coordinate and weather element data corresponding to the second grid point coordinate.

The weather element distribution map is a distribution area map of a satellite cloud map or a ground weather actual situation, the satellite cloud map is observed and transmitted by a satellite in real time, and the transmission interval is 0.5 hour or 1 hour; the distribution area map of the ground weather actual situation is observed and transmitted by a ground automatic station or a manual observation station in real time. The weather element data included in the weather element distribution profile data includes: temperature data, precipitation data, relative humidity data, dust data, haze data and the like.

In the use process of the relative humidity data, in order to better accord with the observation habit of a forecaster, a relative humidity forecast product can be converted into a water vapor bitmap:

and (3) assuming that a certain grid value of a certain layer of humidity field is alpha, converting the certain grid value into a gray scale value beta, wherein beta is alpha/100 x 255, converting the grid value of the humidity field into the gray scale grid value of water vapor, and performing linear interpolation or cubic function interpolation on the grid value when forming a black and white image similar to a satellite cloud image to obtain the simulated satellite cloud image of the forecast product.

S130: and matching the second grid point coordinate with the first grid point coordinate and superposing the corresponding weather element data to the weather situation distribution map.

A method for superposing weather element data and a weather situation distribution map comprises the following steps:

s131: and processing the weather element distribution data at the appointed time into a second picture with a second grid point coordinate, processing the terrain part of the second picture into transparent, processing the weather element part of the second picture into non-transparent, and superposing the processed second picture on the weather situation distribution map according to the mode that the second grid point coordinate is consistent with the first grid point coordinate.

The other method for superposing the weather element data and the weather situation distribution map comprises the following steps:

s132: and taking the weather situation distribution map at the appointed moment as a base map, dividing at least one weather element distribution data at the appointed moment into zero data and non-zero data, wherein the zero data are not processed, and the non-zero data draw a weather element color spot map with transparency on the base map according to the first grid point coordinate to obtain the weather situation distribution map on which the weather element color spot map is superimposed.

Different weather situation preprocessing modes can be selected for the basic weather station with computers with different performances.

For a station with a low configuration computer, common weather situation collocation modes can be preset, such as data superposition of a 500 hectopar height field and a humidity field with the same height, data superposition of a ground field and a 850 hectopar temperature field, and the like.

For the station of the high-distribution performance computer, besides the data preprocessing of the distribution among the common weather elements, the interactive distribution preprocessing of any two weather elements can be carried out, and a richer multi-element prediction scheme is formed.

According to the weather situation display method provided by the invention, the weather situation distribution map is drawn according to the grid-point data of the weather numerical value forecast product, at least one specific weather element distribution data is selected according to the regional weather characteristics, such as precipitation, high temperature, haze, sand raising and the like, and the weather element distribution data is drawn on the weather situation distribution map according to the time and the position coordinates, so that the interactive weather situation distribution map which is more intuitive to observe and more convenient to judge is formed. Because the weather element distribution data is acquired in real time (the time interval is 0.5 hour or 1 hour), the weather element distribution data can form a good evidence for the weather situation distribution map with larger acquisition time interval (12 hours), and when the prediction result of the weather situation distribution map in a specific time period or a specific area has deviation, the prediction result can be corrected in time through the superposed weather element distribution data, so that the prediction result of the weather situation distribution map is more accurate.

Example two

The problem existing in the prior art is that when a forecaster makes weather forecast, a weather situation distribution map and weather element distribution data are one time-continuous picture, in the process of judging weather forecast, the performance of the weather evolution process is not visual, the experience and level of the forecaster are higher in requirements, and particularly when the weather situation evolution discussion and the forecast are carried out, the display effect is poor.

In order to alleviate the above technical problem, the present invention provides a method for displaying weather conditions, as shown in fig. 2, comprising the following steps:

s210: and acquiring a weather situation distribution map at a specified time, wherein the weather situation distribution map comprises first grid point coordinates.

S220: and acquiring at least one type of weather element distribution data at the appointed moment, wherein the weather element distribution data comprise a second grid point coordinate and weather element data corresponding to the second grid point coordinate.

S230: and matching the second grid point coordinate with the first grid point coordinate and superposing the corresponding weather element data to the weather situation distribution map.

S240: and storing a plurality of weather situation distribution maps which are overlapped with the weather element data and have continuous time into a bitmap set or general video data and dynamically displaying the bitmap set or the general video data through display software.

In the prior art, a method for displaying a weather situation distribution map through display software and a method for displaying weather element distribution data through display software are also available, but the method for dynamically displaying the weather element distribution data by the display software after the weather element distribution data are superposed on the weather situation distribution map can directly compare the evolution change of the elements in the sky with the evolution change of the weather situation distribution map, form better judgment support for forecast judgment of a forecaster, and reduce the judgment difficulty of the forecaster.

EXAMPLE III

The problem existing in the prior art is that when a forecaster judges weather forecast, the most important basis is a weather situation distribution map, objective analysis and report of the weather situation distribution map are only twice at 08 hours and 20 hours every day, and the rest data are forecast data, so the longer the time distance from objective analysis and report time points (08 hours and 20 hours), the larger the forecast deviation is theoretically, the smaller the update time interval of weather element distribution data (0.5 hour or 1 hour), but the forecast effect of the weather element distribution data is relatively poor, the two types of the forecaster have respective advantages and disadvantages according to the data, and the combination of the two types of the forecast requires that the forecaster has higher professional level and rich experience, and the requirement on the forecaster is higher.

In order to alleviate the above technical problem, the present invention provides a method for displaying weather conditions, as shown in fig. 3, comprising the following steps:

s310: and acquiring a weather situation distribution map at a specified time, wherein the weather situation distribution map comprises first grid point coordinates.

S320: and acquiring at least one type of weather element distribution data at the appointed moment, wherein the weather element distribution data comprise a second grid point coordinate and weather element data corresponding to the second grid point coordinate.

S330: and matching the second grid point coordinate with the first grid point coordinate and superposing the corresponding weather element data to the weather situation distribution map.

S340: and acquiring a first forecast result through a plurality of continuous weather situation distribution maps in a specified time period.

And acquiring a second forecast result through a plurality of continuous weather situation distribution maps superposed with the weather element data in the appointed time period, wherein the second forecast result is corresponding and consistent with the first forecast result in time.

And correcting the first forecasting result according to the second forecasting result.

Since the updating time interval of the weather element distribution data is small (0.5 hour or 1 hour), the longer the time distance from the objective analysis time reporting point (08 hour and 20 hour), the better the correction significance and the correction effect of the weather element distribution data are, and an important supplement to the weather situation distribution map is formed.

Example four

The present invention provides a weather situation display device, as shown in fig. 4, comprising:

the weather situation drawing module 100 is configured to obtain a weather situation distribution map at a specified time, where the weather situation distribution map includes a first grid point coordinate.

The weather element selection module 200 is configured to obtain at least one type of weather element distribution data at the specified time, where the weather element distribution data includes a second grid point coordinate and weather element data corresponding to the second grid point coordinate.

And the superimposing module 300 is configured to match the second grid point coordinates with the first grid point coordinates and superimpose the corresponding weather element data on the weather situation distribution map.

The weather situation display device provided by the invention is used for drawing a weather situation distribution map according to the grid-point data of a weather numerical value forecast product, selecting at least one specific weather element distribution data according to regional weather characteristics such as precipitation, high temperature, haze, sand raising and the like, and drawing the weather element distribution data on the weather situation distribution map according to time and position coordinates to form an interactive weather situation distribution map which is more intuitive to observe and more convenient to judge. Because the weather element distribution data is acquired in real time (the time interval is 0.5 hour or 1 hour), the weather element distribution data can form a good evidence for the weather situation distribution map with larger acquisition time interval (12 hours), and when the prediction result of the weather situation distribution map in a specific time period or a specific area has deviation, the prediction result can be corrected in time through the superposed weather element distribution data, so that the prediction result of the weather situation distribution map is more accurate.

EXAMPLE five

The present invention provides a weather situation display device, as shown in fig. 5, comprising:

the weather situation drawing module 100 is configured to obtain a weather situation distribution map at a specified time, where the weather situation distribution map includes a first grid point coordinate.

The weather element selection module 200 is configured to obtain at least one type of weather element distribution data at the specified time, where the weather element distribution data includes a second grid point coordinate and weather element data corresponding to the second grid point coordinate.

And the superimposing module 300 is configured to match the second grid point coordinates with the first grid point coordinates and superimpose the corresponding weather element data on the weather situation distribution map.

The dynamic display module 400 is configured to store a plurality of weather situation distribution maps on which weather factor data are superimposed in a time-sequential manner as a bitmap set or a general video material, and dynamically display the bitmap set or the general video material through display software.

However, the weather situation display device provided by the invention can directly compare the evolution change of the elements under the sky with the evolution change of the weather situation distribution map, thereby forming better judgment support for the forecast judgment of a forecaster and reducing the judgment difficulty of the forecaster.

EXAMPLE six

The present invention provides a weather situation display device, as shown in fig. 6, comprising:

the weather situation drawing module 100 is configured to obtain a weather situation distribution map at a specified time, where the weather situation distribution map includes a first grid point coordinate.

The weather element selection module 200 is configured to obtain at least one type of weather element distribution data at the specified time, where the weather element distribution data includes a second grid point coordinate and weather element data corresponding to the second grid point coordinate.

And the superimposing module 300 is configured to match the second grid point coordinates with the first grid point coordinates and superimpose the corresponding weather element data on the weather situation distribution map.

The comparison module 500 is configured to obtain a first forecast result through a plurality of continuous weather situation distribution maps within a specified time period.

And acquiring a second forecast result through a plurality of continuous weather situation distribution maps superposed with the weather element data in the appointed time period, wherein the second forecast result is corresponding and consistent with the first forecast result in time.

And correcting the first forecasting result according to the second forecasting result.

Because the updating time interval of the weather element distribution data is smaller (0.5 hour or 1 hour), the longer the time distance from the objective analysis time reporting point (08 hour and 20 hour), the better the correction significance and the correction effect of the weather element distribution data are, and the important supplement to the weather situation distribution map is formed.

EXAMPLE seven

The invention also provides an electronic device comprising a processor and a memory, wherein the processor is connected with the memory.

The memory is used for storing programs.

The processor is used for running the program stored in the memory and executing any weather situation display method.

Example eight

The present invention also provides a storage medium having stored thereon a computer program which, when executed by a computer, executes the any one of the weather situation display methods.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (4)

1. A weather situation display method is characterized by comprising the following steps:

acquiring a weather situation distribution map at a specified time, wherein the weather situation distribution map comprises a first grid point coordinate; the weather situation distribution map is a distribution map of contour lines on an isobaric surface with the first grid point coordinates;

acquiring at least one weather element distribution data at the appointed moment, wherein the weather element distribution data comprise a second grid point coordinate and weather element data corresponding to the second grid point coordinate;

matching the second grid point coordinates with the first grid point coordinates and superposing corresponding weather element data to a weather situation distribution map;

the step of matching the second grid point coordinates with the first grid point coordinates and superimposing the corresponding weather element data on the weather situation distribution map comprises:

processing the weather element distribution data at the appointed time into a second picture with a second grid point coordinate, processing the terrain part of the second picture into transparent, processing the weather element part of the second picture into non-transparent, and superposing the processed second picture on the weather situation distribution map according to the mode that the second grid point coordinate is consistent with the first grid point coordinate;

the weather situation display method further comprises the following steps: storing a plurality of weather situation distribution maps which are overlapped with weather element data and have continuous time as a bitmap set or general video data and dynamically displaying the bitmap set or the general video data through display software; and

acquiring a first forecast result through a plurality of continuous weather situation distribution maps in a specified time period;

acquiring a second forecast result through a plurality of continuous weather situation distribution maps superposed with weather element data in the specified time period, wherein the second forecast result is corresponding to the first forecast result in time;

and correcting the first forecasting result according to the second forecasting result.

2. A weather situational display method as claimed in claim 1, wherein said step of matching said second grid point coordinates to said first grid point coordinates and superimposing corresponding weather element data onto the weather situational map comprises:

and taking the weather situation distribution map at the appointed time as a base map, dividing at least one weather element distribution data at the appointed time into zero data and non-zero data, wherein the zero data are not processed, and the non-zero data draw a weather element color spot map with transparency on the base map according to the first grid point coordinate to obtain the weather situation distribution map on which the weather element color spot map is superimposed.

3. An electronic device comprising a processor and a memory, the processor and the memory being connected;

the memory is used for storing programs;

the processor is configured to execute a program stored in the memory to perform the method of any of claims 1-2.

4. A storage medium, having stored thereon a computer program which, when executed by a computer, performs the method of any one of claims 1-2.

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