KR20160129123A - Apparatus for generating observational information of meteorological radar, and recording medium thereof - Google Patents

Abstract

The present invention relates to an apparatus for generating observational information of a weather radar and a recording medium thereof. The apparatus for generating observational information of a weather radar according to the present invention comprises: a header which comprises a radar area containing information on the weather radar, a time area containing information on time when a weather radar observation value is obtained, a cell information area containing cell information which is a standard for the size and numbers of a lattice cell and for the lattice, and information for reading the weather radar observation value corresponding to each cell and a coordinate system area containing information on a coordinate system of a lattice; and a data generating unit which generates an observation information of a lattice typed weather radar having a data structure containing a payload having the weather radar observation value corresponding to each cell. According to the present invention, separate files and synchronization operations with other file data are not needed because a data structure where information necessary for the uses of observational information of the weather radar is included in a single format is provided. Therefore a user convenience is increased.

Description

TECHNICAL FIELD [0001] The present invention relates to a weather radar observation information generating apparatus, a weather radar observation information generating apparatus,

TECHNICAL FIELD The present invention relates to an apparatus for generating a weather radar observation information and a recording medium therefor, and more particularly to an apparatus for generating grid-shaped weather radar observation information and a recording medium therefor.

In recent years, floods have been caused by heavy rains due to rainy weather, abnormal weather, etc., and many property and personal injury have been increasing. In order to minimize these damages, it is important to analyze the complex rainfall distribution using the distributed rainfall runoff model including the GRM model, predict the flood, and perform measures against flooding rapidly.

One of the bases for estimating rainfall is weather radar observation data. The weather radar observing agency provides radar observation data of radar beam distribution to the distribution of airborne precipitation particles so that it can be used for estimation of rainfall. In this case, since the radar observation is performed by changing the azimuth angle while keeping the elevation angle of the antenna fixed, and by observing the volume while observing the elevation angle of the antenna gradually, Generated in UF (Universal Format) format data.

However, in order to increase the convenience of handling and use of data in the analysis, it is necessary to use a lattice-type (two-dimensional) model in which a two-dimensional space is divided into cells of an equal size Data structures are often used.

Domestic Ministry of Land, Transport and Meteorological Administration also provides lattice type weather radar observation information for various weather interpretation.

However, when providing the weather radar observation information, there is a great inconvenience in performing the weather analysis using the information provided by adopting the data structure of the grid existing in the past as it is.

The ESRI ASCII format is an example of a grid-type data structure used for providing weather information. However, since it is not a binary format, the data read / write performance is poor and the storage space efficiency is low. have.

As another example, although the Surfer GRD format is widely used for various grid-type information transmission, there is a limitation that dedicated information of only the weather radar observation information can not be stored because it is not a format customized to the weather radar observation information.

On the other hand, the weather station provides data in the RDR_CMP format, but provides only the radar observation values of each cell, and other information necessary for data analysis is provided as a separate document, There is a problem that it can not be used, and if the two documents are not synchronized, there is a fear of causing confusion.

In addition, the Ministry of Land, Transport and Maritime Affairs is inconvenient because it provides single radar observation information and composite radar observation information in a format other than a unified format.

Therefore, if a dedicated data structure for providing grid-type weather radar observation information that can overcome the inconvenience of the conventional data structure as described above is provided, the user's convenience is greatly increased and can contribute to more efficient weather analysis .

SUMMARY OF THE INVENTION It is an object of the present invention to provide a weather radar observation information generating device having a dedicated data structure that can be used efficiently for weather analysis, Media.

The above object can be accomplished by a radar system including a radar region including information about a weather radar according to an aspect of the present invention, a time region including acquisition time information of a weather radar observation value, a size of a grid cell, A cell information area including information for reading the observed values of the weather radar corresponding to each cell, and a coordinate system area including the coordinate system information of the grid; And a data generator for generating grid-shaped weather radar observation information having a data structure including a payload including a vapor cloud radar observation value corresponding to each cell, by a grid-like weather radar observation information generator Can be achieved.

In this case, it is preferable to further include a receiver for receiving the weather radar observation data having the three-dimensional radiation format, wherein the data generator generates the grid weather radar observation information having the data structure by grasping the received weather radar observation data .

Alternatively, the apparatus may further include a receiving unit that receives the latticed weather radar observation data, and the data generating unit may generate the latticed weather radar observation information having the data structure by processing the received latticed weather radar observation data have.

The data structure may further include a footer including statistical information on a weather radar observation value stored in the payload for graphical processing of the weather radar observation information, Can be saved.

The header includes a quality information area including a quality level of information determined according to the processing history and accuracy of the weather radar observation information, and a record including the recording order information recording the weather radar observation value while circulating the respective cells And may further include an order region.

In addition, the radar area of the header may include a data field in which at least any one of a radar identification name, a radar position, a radar observation distance information, a radar observation angle information, and a type of the weather radar observation information is recorded, And a data field in which identification information for a synthetic radar classification is recorded.

In addition, the above object can be achieved by a radar system including a radar region including information on a weather radar according to another aspect of the present invention, a time region including acquisition time information of a weather radar observation value, a size of a grid cell, A cell information area including information for reading out the observed value of the weather radar corresponding to each cell, and a coordinate system area including the coordinate system information of the grid; And a payload including an observed value of a weather radar stored in each of the cells. The present invention can also be achieved by a computer-readable recording medium recording grid-like weather radar observation information.

As described above, according to the present invention, since a data structure including all the information necessary for utilization of the weather radar observation information in one format is provided, synchronization work with another file and other file data is unnecessary, .

According to the present invention, by providing a dedicated data structure customized to the weather radar observation information, it is possible to improve the efficiency in performing analysis through the above data.

According to the present invention, it is possible to generate information according to a data structure applicable to various weather radars that perform observation for various weather analysis, including a rainfall radar operating at a lower observation altitude angle.

1 is a schematic view of a system to which a weather radar observation information generating apparatus according to an embodiment of the present invention is applied;
2 is a block diagram of an apparatus for generating weather radar observation information according to an embodiment of the present invention;
FIG. 3 is a flowchart illustrating a process of generating lattice-type weather radar observation information by a weather radar observation information generating apparatus according to an embodiment of the present invention;
FIG. 4 illustrates an example of a data structure generated by the weather radar observation information generating apparatus according to an embodiment of the present invention; FIG. And
5 shows an example of the header structure of the data structure shown in FIG.

 Hereinafter, specific embodiments of the present invention will be described with reference to the drawings.

1 is a schematic configuration diagram of a weather radar observation information system to which a weather radar observation information generating apparatus according to an embodiment of the present invention is applied. Referring to Fig. 1, the weather radar observation information system 100 includes a weather radar observation information generating device 10 and a weather radar observation information analyzing device 30. Fig.

The weather radar observation information generating apparatus 10 receives the first weather radar observation data or the first lattice-processed second weather radar observation data, which are the raw data of the radar observation values as a result observed at the weather radar observing station, The first meteorological radar observations are then either latticed or the second meteorological radar observations are processed to produce grid meteorological radar observation information having a data structure S according to an embodiment of the present invention.

The weather radar observation information analyzing apparatus 30 requests and receives the weather radar observation information having the data structure S generated by the weather radar observation information generating apparatus 10 and generates various weather analysis tools such as a distributed rainfall runoff model (weather) analysis of the corresponding area according to the weather radar observation data using the tool.

The above-described weather radar observation information generating apparatus 10 and the weather radar observation information analyzing apparatus 30 each include a processor (not shown) for generating information having a data structure S and performing various weather analysis including rainfall or runoff analysis, And various terminal devices such as a desktop, a notebook, a tablet PC, a smart phone, and the like.

Hereinafter, the configuration of the weather radar observation information generating apparatus 10 will be described with reference to FIG. 2 is a block diagram of an apparatus 10 for generating weather radar observation information according to an embodiment of the present invention.

Referring to FIG. 2, the weather radar observation information generating apparatus 10 includes a receiving unit 11 and a data generating unit 13.

The receiving unit 11 receives the first weather radar observation data required for the lattice processing or the second weather radar observation data that has been subjected to the lattice processing but does not satisfy the data structure S according to the present invention. For reference, the first weather radar observation data is a data structure having a three-dimensional radiation form, and includes radar observation information obtained by performing radar specification information and volume observation related to the operation of the radar. At this time, the radar observation value is defined in a polar coordinate system having a radar observation distance and an azimuth angle at each altitude angle. On the other hand, the second weather radar observation data is a grid-shaped data in the form of a two-dimensional rectangular coordinate system by projecting on a plane according to a predetermined projection method from raw data expressed on the basis of a three-dimensional radiation type coordinate system.

Reception of the first and second weather radar observations can be done manually via FTP or directly from the relevant authorities. In addition, the receiving unit 11 can receive not only the single weather radar observation data but also a plurality of weather radars, i.e., data observed from the synthetic weather radar.

The data generator 13 may be configured to grasp the first weather radar observation data received through the receiver 11 or to process the second weather radar observation data to satisfy the data structure S according to the embodiment of the present invention And generates grid-like weather radar observation information.

Hereinafter, with reference to FIG. 3, a process performed by the data generator 13 will be described by dividing the case where the first weather-phase radar observation data is received by the receiving unit 11 and the case where the second weather-related radar observation data is received .

FIG. 3 is a flowchart illustrating a process of generating grid-shaped weather radar observation information satisfying the data structure S by the weather radar observation information generating apparatus 10 according to an embodiment of the present invention.

Referring to FIG. 3, the weather radar observation data is received through the receiving unit 11 (S10). At this time, if the weather radar observation data received through the receiver 11 is the first weather radar observation data having the three-dimensional radiation format (S11), in order to generate the lattice data structure S according to the embodiment of the present invention The process of latticing in the form of a two-dimensional rectangular coordinate system projected on a plane must be preceded. To this end, the data generator 13 generates a grid having a coordinate reference system (CRS) that is projected by a predetermined projection method on the basis of a predetermined projection origin and a datum, The data is latticed (S13). At this time, the gridding process of S13 may be performed by various gridding methods for transforming the three-dimensional radiation format into the two-dimensional gridded format.

Thereafter, the data input to the data structure S according to the embodiment of the present invention is extracted from the latticed weather radar observation data, inserted into the corresponding region, and the grid shape weather radar observation Information is generated (S17).

On the other hand, if the weather radar observation data received through the receiver 11 is already the first lattice-shaped second weather radar observation data, the grid generation process as described above is unnecessary, (S) according to the embodiment of the present invention through the processing of the second weather radar observation data, that is, the data corresponding to the data structure S in the second weather radar observation data, Type weather radar observation information is finally generated (S15, S17).

4 is an example of a data structure S of lattice type weather radar observation information generated by the weather radar observation information generating apparatus 10 according to the embodiment of the present invention, 1 shows an example of the configuration.

Referring to FIG. 4, the data structure S is divided into a header H, a payload P, and a footer F region.

5, the header H includes a radar area H1, a time area H2, and a cell information area (not shown). The header H is a region in which various information necessary to read and use the weather radar observation information is recorded. H3, a coordinate system area H4, a quality information area H5, and a recording order area H6.

The radar area H1 is an area containing information on the weather radar that performed the observation, and includes a radar position according to the radar identification name, latitude, longitude, and / or altitude information used to identify the radar, (Radar observation angle) (altitude angle, azimuth interval information), types of radar observation information such as a Constant Altitude Plan Position Indicator (CAPPI), a Planar Position Indicator (PPI) And a data field in which information such as identification information for the user is recorded.

The time zone H2 includes time information at which the observed value of the weather radar is acquired. For example, the time zone H2 may include a data field into which the year, month, day, hour, minute, and second information in which the weather radar observation value is acquired is inserted.

The cell information area H3 is a coordinate of a reference cell for defining the size of a lattice cell of the latticed data, the number of cells constituting the lattice row and column, and the starting point of the lattice, cell information as a reference of a grid defined by coordinates of a corner or a center of a lower left cell and information for reading the weather radar observation value stored in each cell, A scale factor, and a data field in which information about the data type (integer, float, double) of the observation value is recorded.

The coordinate system area H4 includes a data field in which information such as a coordinate reference system name, a type, a datum, a projection method, and the like is recorded, regarding the coordinate reference system applied in the latticeization of the weather radar observation data. In this case, for example, the information about the coordinate reference system can be managed by introducing the standard code according to EPSG Geodetic Parameter Dataset in the coordinate system area (H4).

The quality information area H5 is an area into which quality level information of the provided weather radar observation information, which is determined according to the processing history and accuracy of the weather radar observation information, is inserted. Since the accuracy and the history of the information such as the number of processing times and the accuracy of the information have a considerable influence on the reliability of the analysis result when the analysis using the weather radar observation information is performed, inserting the information about the quality level enables the analyst to determine the usability of the information and the result It can be a great help in evaluating reliability.

The recording order area H6 includes a data field into which recording order information recording the observed value of the weather radar while circulating in the grid cell is input. Conventionally, there has been a problem that it is necessary to repeatedly output data or check the cell traversal order due to the difference in the grid cell traversal order at the time of inputting and outputting the observed values of the weather radar. However, It is possible to effectively solve the above-described problem. As an example of the recording order information, a code according to the cell circulation standard provided in ISO 19123 may be applied.

On the other hand, the order of the data fields of each information recorded in the header H listed above may be changed, and one data field may be formed by combining the data fields of each information or sharing data fields, But may be implemented to configure different data fields.

For example, the data field of the radar identification name can be shared with the data field of the identification information for the single / composite radar classification. In this case, the radar position information is inserted in the case of a single radar, The data field for the information can be operated in a blank form.

In addition to the information recorded in the header H listed above, data structure version information, spare data prepared to be adaptable flexibly according to the data structure user, information on the byte alignment method (big endian, little endian) It is needless to say that a data field may be additionally provided in the header H for information on the non-existent cell, information on the border or background of the area represented by the grid, and the like.

Referring again to FIG. 4, the payload P is a region into which the observed value of the weather radar stored in each grid cell is input. Depending on the information provided to the payload P, various weather radar observations, such as horizontal reflectivity, vertical reflectivity, differential reflectivity, and phase reflectivity, can be input.

The footer F is an area into which statistical information on the observed value of the weather radar stored in the payload P is input for various graphical processing of the weather radar observation information. In the meteorological analysis using the lattice type weather radar observation information, an operation such as visualization by applying gradation rendering with a different color according to the predicted rainfall is performed. In the data structure according to the embodiment of the present invention (S) can effectively reduce the analysis execution time by providing statistical information that is widely used in the weather analysis.

As the statistical information input to the footer F, for example, a minimum value, a maximum value, and an average of observed values of a weather radar input to the payload P may be applied. In addition, various statistical information There will be.

The weather radar observation information analyzing apparatus 30 performs various weather analysis based on the information input to the data structure S described above with reference to FIGS. 4 and 5. FIG.

Meanwhile, the lattice type weather radar observation information having the data structure S according to the embodiment of the present invention may be implemented through various recording media such as a magnetic recording medium readable by a computer, an optical reading medium, and a digital recording medium .

As can be seen from the above description, the apparatus 10 for generating weather radar observation information according to the embodiment of the present invention and the recording medium provide a dedicated data structure for grid-shaped weather radar observation information customized for the weather analysis, It is possible to solve the problem of the prior art in which the lattice-format is adopted and transmitted as it is, and the efficiency of the weather analysis can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

For example, the order of each area of the above-described data structure may be variably implemented, and a data field may be formed by combining data fields of each information or sharing data fields, or conversely, Or < / RTI > In addition, the size of the data field may be determined dynamically in correspondence with the information inserted in the field.

Therefore, the scope of protection of the present invention should be determined by the appended claims and their equivalents.

10: weather radar observation information generating device 30: weather radar observation information analyzing device
S: Data structure

Claims (9)

A time zone including the acquisition time information of the observed values of the weather radar, cell information serving as a reference of the size, number and lattice of the grid cell, and a cell number of the weather radar observation value corresponding to each cell A header including a cell information area including information for reading, and a coordinate system area including coordinate system information of the grid; And
And a data generator for generating grid-shaped weather radar observation information having a data structure including a payload including a vapor-phase radar observation value corresponding to each cell.
The method according to claim 1,
Further comprising a receiver for receiving weather radar observation data having a three-dimensional radiation format,
Wherein the data generator generates grid-like weather radar observation information having the data structure by grating the received weather radar observation data.
The method according to claim 1,
Further comprising a receiver for receiving the latticed weather radar observation data,
Wherein the data generating unit processes the received gridded weather radar observation data to generate grid type weather radar observation information having the data structure.
The method according to claim 1,
Wherein the header further comprises a quality information area including a quality level of information determined according to a processing history and accuracy of the weather radar observation information.
The method according to claim 1,
Wherein the data structure further comprises a footer including statistical information on a weather radar observation value stored in the payload for graphical processing of the weather radar observation information.
The method according to claim 1,
Wherein the header further includes a recording order area including recording order information in which the observed values of the weather raider are recorded while circulating through each of the cells.
The method according to claim 1,
Wherein the radar area of the header includes at least one of a radar identification name, a radar position, a radar observation distance information, a radar observation angle information, and a type of the weather radar observation information, Information generating device.
The method according to claim 1,
Wherein the radar region of the header includes a data field in which identification information for distinguishing a single radar and a synthetic radar is recorded.
A time zone including the acquisition time information of the observed values of the weather radar, cell information serving as a reference of the size, number and lattice of the grid cell, and a cell number of the weather radar observation value corresponding to each cell A header including a cell information area including information for reading, and a coordinate system area including coordinate system information of the grid; And
And a payload including an observed value of a weather radar stored in each of the plurality of cells.

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