KR101767199B1 - System with on-board algorithm for detecting hydrological factors - Google Patents

Abstract

The present invention relates to an algorithm mounting system for calculating hydrological factors and is to easily mount a data processing algorithm developed to calculate hydrological factors on a data processing system. The algorithm mounting system for calculating hydrological factors includes a data collection device for collecting the weather-related data, an algorithm storage part for storing a data processing algorithm for processing the weather related data and selecting a data processing algorithm suitable for the weather-related data to be processed, and a data processing part connected to the algorithm storage part, operating the corresponding data processing algorithm selected by the algorithm storage part to process the weather-related data to be processed, and generating final result data.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an algorithm for calculating a hydrologic parameter,

The present invention relates to an algorithm mounting system for hydrologic factor calculation.

Warming phenomenon, etc., and abnormal weather phenomenon is becoming worse day by day. Due to such abnormal phenomenon, natural disaster phenomena such as drought, stream watering, and flood are increasing day by day and become a big problem in the world.

Therefore, the importance of weather forecasting using weather-related data is increasing day by day, and it is important to prevent the occurrence of economic loss as well as many human casualties in preparation for the predicted environmental disaster by using the predicted weather conditions easily and easily Do.

To this end, it is urgent to construct a system capable of collecting a large number of meteorological data and performing weather forecasting using collected meteorological data.

Therefore, weather data are collected by satellite, radar, and automatic weather system (AWS), requiring a scientific analysis of the water environment for the collected data , And an integrated water resource management model is needed to scientifically analyze factors such as terrain and climate in each region.

The satellite images obtained by the satellites are radar images (SAR) obtained using an image radar such as Synthetic Aperture Radar, optical images (EO) obtained using general optical (electro-optical) cameras, , And an infrared image (IR) acquired by an infrared camera, and the radar data obtained using the radar is data obtained using a ground radar.

In addition, the automatic weather observation data obtained by the automatic weather observation system are data on the wind direction, wind speed, temperature, humidity, and the like.

However, even if various weather-related data are collected, there is a lack of an integrated system that can converge them and interpret them as meaningful information. Therefore, in order to scientifically analyze and analyze hydrological factors, data A processing algorithm is required.

In addition, there is a need for a data processing algorithm to be appropriately selected and used according to the type and characteristics of the weather-related data.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a data processing system and a data processing method therefor.

The algorithm-based system for hydrologic parameter calculation according to one aspect of the present invention includes a data collection device for collecting weather-related data, a data processing algorithm for processing weather-related data, and a data processing algorithm suitable for the weather- And a data processor connected to the algorithm storage unit and operating the corresponding data processing algorithm selected by the algorithm storage unit to process the weather related data to be processed and generate final result data.

The data processing algorithm is preferably constructed on a script language basis and operated in a plug-in manner.

According to this aspect, since various data processing algorithms for calculating hydrologic parameters using weather related data are installed in the corresponding system, the user selects and uses an appropriate data processing algorithm suited to the type and characteristics of weather related data, The convenience of the user is improved.

In addition, since the most suitable data processing algorithm is selected and used for meteorological data, it is possible to efficiently manage and provide information on global hydrological observation data and water related disasters using meteorological data.

Increase the reproducibility of data processing algorithms, improve processing speed, and accelerate product performance improvement.

1 is a block diagram of a weather-related data receive processing distribution system for hydrometric factor calculation according to one embodiment of the present invention.
2 is a diagram showing an example of a system software configuration of a data processing system according to an embodiment of the present invention.
3 is a flow chart of the main procedure performed in the data processing system according to one embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, but it should be understood that there may be other elements in between do. On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

Related data reception processing distribution system according to an embodiment of the present invention will be described with reference to Fig. 1, and the weather related data reception processing distribution system processes the weather related data to obtain final result data (e.g., a hydrologic parameter) And a data processing algorithm for calculating the data. Therefore, the weather-related data reception processing distribution system of the present embodiment is an algorithm mounting system equipped with an algorithm for hydrometric parameter calculation.

1, the weather-related data reception processing distribution system includes at least one satellite image acquisition unit 11, at least one radar image acquisition unit 12, at least one automatic weather related data acquisition unit 13, A data managing device 30 connected to the data collecting device 20 and a data processing device 30 connected to the data managing device 30 connected to the acquiring part 11-13 40), and a data distribution device (50) connected to the data management device (30).

At least one satellite image acquiring unit 11 may be provided in the same organs or equipments or at least two different equipments or equipments.

Each satellite image acquisition unit 11 is composed of a satellite or the like and acquires satellite images of the corresponding satellite and outputs the satellite images to the data acquisition unit 20.

The satellite image may be acquired by a microwave radiometer or a synthetic aperture radar (SAR), or may be data of an image file format such as HDF (hierarchical data format), geoTIFF, JPG, and the like.

 And a satellite image acquired by the satellite is composed of first to third level data (level 0-level 2).

The data of the first level is raw data and the data of the second level is data that has undergone the process of radiation correction or geometric correction to the original data and the level 3 ) Are data such as aerosols, water vapor amount, cloud amount, and atmospheric structure.

At least one radar image acquiring unit 12 acquires a radar image containing weather information and hydrological information to be subjected to hydrologic collection using a radar, and may be provided in the same organs or equipments or be equipped in at least two different organs or equipments .

In order to acquire the radar image, the radar image acquiring unit 12 may use a hydrological radar, a weather radar, a high resolution radar, or the like.

The radar image is composed of first to third levels (level 0-level 2).

The data of the first level is a UF file and the data of the second level is data of radar reflectivity and phase information extracted from the original data. Is data obtained by estimating the rainfall amount using the second level (level 1) data.

The automatic weather observation data acquisition unit 13 is installed in the automatic weather observation system to acquire a plurality of automatic weather observation data and transmit them to the data collection device 20.

In this example, the automatic weather observation data is a text format data, and may include meteorological and hydrographic information to be collected, and precipitation, temperature, wind direction, wind speed, humidity, air pressure, etc. are measured by the sensing unit And a first level (level 0) of raw data stored in a text format.

In addition, the automatic weather observation data may further include second to fourth level (level 1-level 3) data which are data processed by fusion with the satellite image and the radar image.

The data collecting apparatus 20 collects data (i.e., satellite images, radar images, and weather data) from the satellite image acquiring unit 11, the radar image acquiring unit 12 and the weather data acquiring unit 13, To the management device (30).

The data collection device 20 receives the satellite image of the signal form transmitted from the satellite through the passive sensor or the active sensor as the image data, and acquires the image data according to the characteristics of each signal.

In this example, the data collection device 20 collects satellite images, radar images, and weather data containing hydrological information from a data source such as Korea Aerospace Research Institute (KAERI) and the Korea Meteorological Administration.

(I.e., a satellite image and a radar image) from the satellite image acquisition unit 11, the radar image acquisition unit 12 and the weather data acquisition unit 13, the hydrographic information of the observation target region, And receives weather data such as rainfall data through wired communication or wireless communication.

The data management device 30 stores the data collected by the data collection device 20 (that is, the satellite image, the radar image, and the weather data), and stores the processing result applied from the data processing device 40.

Also, the data management device 30 stores data transferred from the data collection device 20 or data transferred from the continuous data processing device 40 in at least one storage unit.

The data stored in the data management device 30 is transferred to the data distribution device 50 according to a request of the data distribution device 50 so that the data can be distributed to the outside.

The data management apparatus 30 includes a data storage unit 31, a metadata storage unit 32, a collection / processing scheduling unit 33, and a data search unit 34.

The data storage unit 31 stores data of levels (level 0, level 1, level 2) of the satellite image, the radar image and the weather data to be collected, and transmits the stored data to the data processing unit 40.

The meta data storage unit 32 stores meta data of the satellite image, the radar image, and the meteorological data.

The acquisition / processing scheduling unit 33 generates a schedule so that the weather related data stored in the data storage unit 31 can be transmitted to the data processing unit 40 according to the generated schedule, The data generated by the operation of the memory 40 can be stored in the data storage unit 31 and the metadata storage unit 32 at an appropriate time.

The data search unit 34 searches the metadata storage unit 32 in which the metadata is stored, and outputs data requested by the user so that the user can view the required metadata.

The data processing device 40 processes the data collected from the data collection device 20 (that is, the satellite image, the radar image, and the automatic weather observation data) in a form that can be processed in a programming language and processes the processed rainfall data, And

The data processing device 40 reads at least one of the input data, that is, the satellite image, the radar image, and the automatic weather observation data, necessary for the corresponding processing operation, and selects an appropriate algorithm for the corresponding processing operation and the read data, (Level 1, level 2, level 3), and outputs the generated data to the data management device 30 so that the data can be stored in the data management device 30.

At this time, the data processing device 40 performs a processing operation suitable for the data according to the purpose of the input data or characteristics of the data.

The data processing device 40 may be constructed in consideration of extensibility due to variations in input data.

The data processing device 40 also transmits the generated upper level data to the data distribution device 50 so that the data distribution device 50 can distribute the data to a desired location through the communication network.

The data processing apparatus 40 includes a data supply unit 41, an algorithm storage unit 42, a data processing unit 43, and a status information display unit 44.

The data supply unit 41 receives the weather-related data from the data storage unit 31 according to a schedule set by the collection / processing scheduling unit 33, and allows the data processing unit 43 to process the weather-related data.

The algorithm storage unit 42 stores at least one data processing algorithm for processing the weather-related data.

The data processing algorithm installed in the algorithm storage unit 42 is configured based on a script language and operates in a plug-in manner, so that even if a new algorithm is added, the system is not replaced or modified.

The data processor 43 reads the corresponding weather-related data and the input meta data of the weather-related data, selects a data processing algorithm suitable for the weather-related data input from the algorithm storage unit 42, And performs a processing operation.

The final result data generated by the processing operation of the data processing unit 43 is stored in the data storage unit 31 and the metadata storage unit 32 of the data management apparatus 30 and is also stored in the data distribution apparatus 50 So that the final result data can be delivered to the device.

The status information display unit 44 monitors the operation of the data processing apparatus 40 in real time and outputs the processing progress status, processing time, and processing steps to the corresponding output apparatus so that the user of the system can confirm the status.

When a request is made from the outside in an on-line method or an off-line method, the data distribution device 50 processes the data generated by the data processing device 40 according to the purpose of the data or characteristics of the data and transmits the generated data to an external device And distribute it to various users.

The data distribution apparatus 50 includes a data providing unit 51 for controlling the distribution operation of the corresponding data and is provided with a data providing unit 51 including an internal intranet 521, a web portal 522, and an FTP (file transfer protocol) And outputs the data to the outside using at least one.

Accordingly, the data providing unit 51 receives the final result data from the data processing unit 43 of the data processing unit 40, and outputs the final result data to the external device using the corresponding device.

Next, the operation of the weather-related data reception processing distribution system will be described with reference to Fig.

When the operation is started (S10), the weather-related data is collected by the data collection device 20 (S11), and the collected weather-related data is stored in the data storage 31 (S12).

Next, the collection / processing scheduling unit 33 generates a processing schedule and transmits the collected weather-related data for applying the generated processing schedule to the corresponding device (e.g., the data processing unit 43) (S13, S14) .

Then, the algorithm storage unit 42 selects a data processing algorithm corresponding to the transmitted weather-related data (S15), and determines whether the selected data processing algorithm is suitable for processing the weather-related data (S16).

When the selected data processing algorithm is suitable for the processing operation of the weather-related data, the data processing unit 43 processes the weather-related data using the selected data processing algorithm to generate final result data and stores it in the data storage unit 31 (S18), and is also transmitted to the data providing unit 51 so that the final result data can be distributed to the external device by the data distribution device 50 (S18).

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 exemplary embodiments, It belongs to the scope of right.

11: satellite image acquisition unit 12: radar image acquisition unit
13: Automatic meteorological data acquisition part 20: Data acquisition device
30: data management device 40: data processing device
50: Data Distribution Device

Claims (2)

A satellite image acquiring unit for acquiring a satellite image for the region;
A radar image acquiring unit for acquiring a radar image containing weather and hydrological information to be hydrologically collected;
An automatic weather data acquisition unit mounted on an automatic weather observation system to acquire a plurality of automatic weather observation data;
A data collection device for collecting respective satellite images, radar images and meteorological observation data applied from the satellite image acquisition section, the radar image acquisition section and the automatic weather-related data acquisition section;
A data management device for storing the satellite image, the radar image and the weather observation data collected by the data collection device;
A data processing unit for processing the satellite image, the radar image and the weather observation data collected in the data collection device in a form that can be processed in a programming language and displaying the processed rainfall data and hydrological data; And
And a data distribution device for distributing the generated data processed by the data processing device according to the purpose of the data or characteristics of the data to an external device through a communication network,
The data management apparatus comprising:
A data storage unit for storing the data of the satellite image, the radar image and the weather observation data and transmitting the stored data to the data processing unit;
A meta data storage unit for storing meta data of the satellite image, the radar image and the meteorological observation data;
Related data stored in the data storage unit according to the generated schedule so that the data generated by the operation of the data processing apparatus can be transmitted to the data storage unit A collection / processing scheduling unit that allows the collection / processing scheduling unit to be stored in the metadata storage unit; And
And a data retrieval unit retrieving the metadata storage unit, outputting data requested by the user, and allowing the user to browse the necessary metadata,
The data processing apparatus includes:
A data supply unit for receiving the weather-related data from the data storage unit according to the schedule set by the collection / processing scheduling unit and processing the data in the data processing unit;
An algorithm storage unit storing at least one data processing algorithm for processing the vapor-related data;
A data processing unit for reading the meta data of the corresponding meteorological data to be inputted and the meta data of the corresponding meteorological data to be inputted and selecting a data processing algorithm suitable for the corresponding meteorological data inputted from the algorithm storing unit, ; And
And a status information display unit for monitoring the operation of the data processing apparatus in real time and outputting the process status, the processing time, and the processing step to the corresponding output apparatus so that the user of the system can check the operation progress status, Algorithm - based system. The method of claim 1,
Wherein the data processing algorithm is configured on a script language basis and operates in a plug-in manner.

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