KR101537872B1 - GIS based system and method for large scale numerical data processor and expression of results from EFDC model - Google Patents

Abstract

The present invention relates to a large-scale numerical computation and result display system and method of a GIS-based EFDC model, in which an EFDC model execution unit having an operating system environment optimized for EFDC model simulation and a GIS-based main processing unit of a MicroSoft's Windows operating system environment communicate with each other And EFDC model that can simulate the flow of water bodies and material transport in the estuaries and coastal areas can be simulated, and it is possible to display the result data, thereby improving the efficiency of EFDC model numerical calculation, EFDC model simulation results and simulated environment.
According to the present invention, the EFDC model numerical computation can be processed more quickly than the conventional method, and as a result, the visualization of the result can be quickly visualized, thereby contributing to the effective management of estuaries and coastal areas and policy formulation. In particular, by applying the present invention to estuaries and coastal areas, it is possible to set a reasonable direction for the development and environmental preservation of a target area, and provide an optimal GIS-based result display configuration and environment for EFDC model numerical computation and EFDC model simulation results It is expected that the cost reduction effect of the business promotion can be expected. The EFDC model simulation environment constructed by applying the present invention can process the EFDC model operation processing quickly, and the result of displaying the EFDC model simulation result using the GIS based system is utilized immediately for the multidimensional analysis such as overlap analysis. Contributes to the development of

Description

Technical Field [0001] The present invention relates to a GIS-based EFDC model,

The present invention is the result of the support of the "Development of a comprehensive management system for estuaries" which is a part of the marine environment technology development project of the Ministry of Maritime Affairs and Fisheries of the Republic of Korea. The applicant (or inventor) developed the post-processing system for GIS-based visualization of the EFDC model large-scale result data, which is disclosed in Patent Document 1, as a result of the above-described " I have done it.

The present invention relates to a numerical computation and a result display technology using an EFDC (Environmental Fluid Dynamic Code) model developed to simulate the flow and material transport of a water body in a simulated area such as estuaries and coastal areas in three dimensions. And more particularly, to a large-scale numerical computation and result display system and method of a GIS-based EFDC model.

As is well known, the EFDC model is a numerical modeling system capable of simulating the flow and material transport of water bodies in simulated areas such as estuaries and coastal areas in three dimensions. And the model is executed, the quantitative change values of the water bodies relating to the flow, sedimentation, and water quality are stored as characters and numerical values for each simulation grid according to predetermined time intervals.

In this case, the computation process executed by executing the EFDC model is determined by the area of the simulated area, the number of simulated meshes, the interval of simulation time, the number of simulated items, and the like. If the number of grids is further increased or the specific simulation time interval is set to be short, the computation processing load increases accordingly.

In addition, the EFDC model simulation results show that the simulated items are expressed in numerical form, and when they are visualized in a map form using the GIS (Geographic Information System) technique, the simulated time is sequentially retrieved and the numerical value Is stored in a virtual memory, and the entire file is searched, and then converted into a map form and displayed, it takes a considerably long time and a long processing time.

In this situation, if EFDC model is applied for management plan and policy establishment based on prediction of long-term future environment change in estuaries and coastal waters, etc., the spatial range of simulation area is very wide and simulation period is very long There is a heavy load on the computation processing, and there is a lot of inconvenience to utilize it because the load of the computation processing inevitably increases in order to perform the process of storing the simulation result in the memory and converting it into the map form by applying the GIS technique.

KR 10-1234761 B1

SUMMARY OF THE INVENTION It is an object of the present invention to provide an EFDC model execution unit having an operating system environment optimized for EFDC model simulation and a GIS based main processing unit to communicate with each other, The EFDC model can simulate three-dimensional flow and material transport in the EFDC model. By doing so, it is possible to increase the efficiency of the EFDC model numerical computation and expose the GIS-based EFDC model simulation result to the user. The present invention provides a large scale numerical computation and result display system and method of a GIS-based EFDC model that provides a simulation environment.

In order to accomplish the object of the present invention as described above, a large-scale numerical computation and result display system of a GIS-based EFDC model according to the present invention receives an EFDC model simulated input data configuration command and outputs an EFDC model simulated input data The EFDC model simulated input data of the EFDC model is executed in accordance with the EFDC model execution command to perform a large-scale operation process related to the execution of the EFDC model simulator in the simulated area, and the result is stored as the EFDC model simulation result. An EFDC model execution unit for delivering a pre-stored EFDC model simulation result according to a result inquiry command to the outside; The EFDC model simulation program for the large-scale numerical computation of the EFDC model for the simulation region and the GIS-based result query of the EFDC model simulation result is mounted. The EFDC model execution unit receives the EFDC model simulation input data configuration command A GIS-based main processing unit for delivering an EFDC model execution command and an EFDC model simulation result inquiry command and expressing a GIS-based EFDC model simulation result received from the EFDC model execution unit to a user and providing the result; A GUI (Graphical User Interface) unit for providing a user interface screen through which the user can operate the EFDC model execution unit and the GIS based main processing unit; And a display unit for displaying and displaying a user interface screen provided through the GUI unit.

In the GIS-based EFDC model large-scale numerical computation and result display system according to the present invention, the GIS-based main processing unit converts the EFDC model simulation result received from the EFDC model execution unit into a GIS-based map, And presents the information to the user.

The large-scale numerical computation and the result display method of the GIS-based EFDC model according to the present invention includes the EFDC model simulation program for the large-scale numerical computation processing of the EFDC model in the simulation region and the GIS-based result display on the EFDC model simulation result EFDC model of main processing unit based on GIS EFDC model enabling simulated program execution When a simulated program execution procedure is executed, the EFDC model execution unit for the simulated region is displayed on the user interface screen of the GUI unit displayed on the display unit A first step of transmitting a configuration command and an EFDC model execution command; And following the first process, the EFDC model execution unit constructs an EFDC model simulation input data of the simulation area through the user interface screen, performs a large-scale operation process related to the execution of the EFDC model simulation, and outputs the result as an EFDC model simulation result A second step of storing; If the EFDC model simulation result inquiry procedure that enables the GIS-based result query of the EFDC model simulation result stored in the GIS-based main processing unit is performed following the second process, the EFDC model simulation result inquiry procedure, A third step of delivering the EFDC model simulation result inquiry command to the execution unit; And a fourth step in which the GIS based main processing unit receives the EFDC model simulation result stored in the EFDC model execution unit and displays the EFDC model simulation result to the user through the display unit, following the third step.

In the fourth step, the EFDC model simulation result received from the EFDC model execution unit is converted into a GIS-based map form, text form, and chart form in the GIS-based EFDC model according to the present invention. And presents the information to the user.

According to the present invention, the EFDC model numerical computation can be processed more quickly than the conventional method, and as a result, the visualization of the result can be quickly visualized, thereby contributing to the effective management of estuaries and coastal areas and policy formulation.

In particular, by applying the present invention to estuaries and coastal areas, it is possible to set a reasonable direction for the development and environmental preservation of a target area, and provide an optimal GIS-based result display configuration and environment for EFDC model numerical computation and EFDC model simulation results It is expected that the cost reduction effect of the business promotion can be expected.

In addition, the EFDC model simulation environment configured by applying the present invention can quickly process the EFDC model operation processing, and the results of the EFDC model simulation result utilizing the GIS-based system can be immediately utilized for the multidimensional analysis such as overlap analysis Contributes to the development of related research. For example, there are many advantages in that it can be used in various practical fields ranging from predictions of future water environment changes to academic research fields.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a block diagram illustrating a configuration of a large-scale numerical computation and result display system of a GIS-based EFDC model according to the present invention; FIG.
FIG. 1B is a flowchart illustrating a large-scale numerical computation and a result display method of a GIS-based EFDC model according to the present invention.
2 is a diagram showing a user interface screen capable of operating an EFDC model simulation program execution procedure and an EFDC model simulation result inquiry procedure according to the present invention.
3 is a diagram illustrating a user interface screen capable of operating an EFDC model simulation input module and an EFDC model simulation execution module according to the present invention.
FIG. 4 is a diagram showing a screen in which a process of simulation of an EFDC model of an EFDC model simulation execution module according to the present invention can be confirmed by a user in a Linux operating system.
FIG. 5 is a diagram showing a screen in which a process of simulation of an EFDC model of an EFDC model simulation execution module according to the present invention can be confirmed by a user in a Windows operating system of MicroSoft Corporation.
FIG. 6 is a diagram showing an EFDC model simulation result inquiry procedure according to an embodiment of the present invention operated to display an EFDC model simulation result data in a map form.
FIG. 7 is a view showing an EFDC model simulated result data of a EFDC model simulation result inquiry procedure according to the present invention operated in text form.
FIG. 8 is an example showing a screen in which the EFDC model simulation result data of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1A, a large-scale numerical computation and result display system of a GIS-based EFDC model according to the present invention includes an EFDC model execution unit 10, a GIS-based main processing unit 20, a GUI unit 30, 40).

The EFDC model execution unit 10 receives the EFDC model simulation data input command and constructs the EFDC model simulation input data for the simulation regions such as the estuary and the coast, The EFDC model simulation result is stored in the EFDC model simulation result, and the pre-stored EFDC model simulation result is transmitted to the outside according to the EFDC model simulation result inquiry command.

The EFDC model simulation input data configuration module 11 of the EFDC model execution unit 10 receives the EFDC model simulation input data configuration command through the user interface screen of the GUI unit 30 displayed on the display unit 40 The EFDC model simulated input data necessary for the execution of the EFDC model for the simulated area is deleted from the internal EFDC model simulated input data DB (not shown) prepared in advance for the execution of the EFDC model of the simulated area of the simulated area The EFDC model simulation input data for the simulation area is constructed by performing the read operation.

The EFDC model simulation execution module 12 of the EFDC model execution unit 10 receives the EFDC model execution command through the user interface screen of the GUI unit 30 displayed on the display unit 40, The EFDC model simulated input data of the model constructed by the data structure module 11 is used to perform computation processing related to the execution of the EFDC model simulation in the estuary, coastal and other simulated areas.

The EFDC model simulation execution module 12 preferably constructs an operating system environment optimized for large-scale arithmetic processing related to EFDC model simulation execution using a Linux operating system or a Windows operating system of MicroSoft.

The EFDC model simulation result DB 13 of the EFDC model execution unit 10 stores an operation processing result performed by the EFDC model execution module 12 as an EFDC model simulation result.

The GIS-based main processing unit 20 is equipped with an EFDC model simulation program for a large-scale numerical computation process of an EFDC model for a simulation region and a GIS-based result query for an EFDC model simulation result, The EFDC model simulated input data configuration command, the EFDC model execution command, and the EFDC model simulation result inquiry command for the simulation region are transmitted to the user, and the GIS-based EFDC model simulation result received from the EFDC model execution unit 10 is displayed to the user .

The GIS-based main processing unit 20 determines whether the EFDC model simulation program execution procedure 21 that enables the execution of the EFDC model simulation program is activated by the user interface (GUI) of the GUI unit 30 displayed on the display unit 40 The EFDC model execution unit 10 transmits the EFDC model simulation data configuration command and the EFDC model execution command for the simulation region to the EFDC model execution unit 10 through the screen so that the EFDC model execution unit 10 constructs the EFDC model simulation input data of the simulation region To perform large-scale operation processing related to EFDC model simulation execution and to store the result as an EFDC model simulation result.

The GIS based main processing unit 20 may determine whether the EFDC model simulation result inquiry procedure 22 that enables the GIS based result query on the stored EFDC model simulation results is activated, The EFDC model simulation result inquiry command is transmitted to the EFDC model execution unit 10 via the user interface screen of the GUI unit 30 and the EFDC model simulation result stored in the EFDC model execution unit 10 is displayed on the display unit 10. [ (40).

The GIS-based main processing unit 20 exposes the EFDC model simulation result received from the EFDC model execution unit 10 to one of a GIS-based map form, a text form, and a chart form, and provides it to the user.

The GUI unit 30 provides a user interface screen through which the user can operate the EFDC model execution unit 10 and the GIS-based main processing unit 20. [

The GUI unit 30 provides a user interface screen that can be operated by a user so that the EFDC model execution unit 10 and the GIS based main processing unit 20 can communicate with each other.

The display unit 40 displays a user interface screen provided through the GUI unit 30 and displays the user interface screen.

The display unit 40 outputs and displays a command to be communicated between the EFDC model execution unit 10 and the GIS-based main processing unit 20 or a processing result of the command.

The large-scale numerical computation and result display system of the GIS-based EFDC model according to the present invention constructed as described above is operated as follows according to the large scale numerical computation and the result display method of the GIS-based EFDC model according to the present invention shown in FIG. do.

Referring to FIG. 1B, an EFDC model of the GIS-based main processing unit 20, which includes an EFDC model simulation program for performing a large-scale numerical computation process of an EFDC model for a simulation region and a GIS-based result simulation of an EFDC model simulation result, If the EFDC model simulation program execution procedure 21 that enables the execution of the simulation program is operated, the GIS based main processing unit 20 displays the user interface screen of the GUI unit 30 displayed on the display unit 40 The EFDC model simulation data construction command and the EFDC model execution command for the simulation region are transmitted to the EFDC model execution unit 10 at step S10.

2, a user interface screen capable of operating the EFDC model simulation program execution procedure 21 and the EFDC model simulation result inquiry procedure 22 is illustrated.

As shown in FIG. 2, in order to enable the internal procedures enabling the execution of the EFDC model simulation program of the GIS-based main processing unit 20 to operate sequentially or independently, A GUI-based user interface screen is provided that includes buttons for executing the procedure.

When the user presses the < execute model > button 2-1 using the mouse or keyboard on the user interface screen illustrated in Fig. 2, the EFDC model simulated program execution procedure 21 is operated, 2-2) and the <Vertex inquiry> button (2-3), the EFDC model simulation result inquiry procedure 22 is activated.

When the EFDC model simulation data configuration command and the EFDC model execution command are transmitted to the EFDC model execution unit 10 as described above, the EFDC model execution unit 10 transmits the EFDC model simulation data configuration command and the EFDC model execution command to the display unit 40 The EFDC model simulation input data of the simulated region is constructed through the user interface screen of the GUI unit 30 displayed on the GUI unit 30, and a large-scale operation process related to the execution of the EFDC model simulation is performed, and the result is stored as the EFDC model simulation result S20).

In an embodiment of the present invention, when the user presses the < Model execution > button 2-1 in Fig. 2, the EFDC model execution unit 10 provides a GUI-based user interface screen including buttons for executing each module in order to enable the internal modules to operate sequentially.

FIG. 3 illustrates a user interface screen capable of operating the EFDC model simulation input data configuration module 11 and the EFDC model simulation execution module 12.

When the user presses the &quot; ... &quot; button 3-1 on the user interface screen illustrated in Fig. 3 using a mouse or a keyboard, an internal EFDC model prepared in advance for execution of the EFDC model of a simulated area such as estuary, The EFDC model simulated input data construction module 11 that operates to delete or read the EFDC model simulation input data necessary for execution of the EFDC model for the simulated area from the simulated input data DB (not shown) is operated.

When the user presses the < execute > button 3-2 in Fig. 3, the GFI-based main processing unit 20 of the MicroSoft operating system environment communicates with the EFDC The model simulation execution module 12 is activated and the simulation result in which the EFDC model simulation is completed is stored in the EFDC model simulation result DB 13 in the operating system optimized for the EFDC model simulation.

4 is an embodiment showing a screen in which the process of simulation of the EFDC model of the EFDC model simulation execution module 12 can be confirmed by the user in the Linux operating system. The user can confirm that the EFDC model simulation is processed in the Linux operating system through the screen 4-1 in FIG.

5 is an embodiment showing a screen for the user to confirm the process of the simulation of the EFDC model of the EFDC model simulation execution module 12 in the Windows operating system of MicroSoft Corporation. The user can confirm that the EFDC model simulation is processed in the MicroSoft's Windows operating system on the screen 5-1 of FIG.

As described above, in the state where the operation processing result performed by the EFDC model execution module 12 is stored in the EFDC model simulation result DB 13 as an EFDC model simulation result (S20), the GIS based main processing unit Based main processing unit 20 is displayed on the display unit 40 when the EFDC model simulation result inquiry procedure 22 that enables the GIS-based result query on the stored EFDC model simulation results of the GIS- The EFDC model simulation result inquiry command is transmitted to the EFDC model execution unit 10 through the user interface screen of the GUI unit 30 displayed at step S30.

At this time, if the user presses the <Result Query> button 2-2 or the <Vertical Query> button 2-3 by using a mouse or a keyboard on the user interface screen illustrated in FIG. 2, the EFDC model simulation result inquiry procedure (22) is operated.

When the EFDC model simulation result inquiry command for the simulation region is transmitted to the EFDC model execution unit 10 as described above (S30), the EFDC model simulation result stored in the EFDC model execution unit 10 is transmitted to the GIS- Based main processing unit 20 displays the EFDC model simulation result received from the EFDC model execution unit 10 to the user through the display unit 40 and provides the EFDC model simulation result to the user in operation S40 ).

At this time, the GIS-based main processing unit 20 can display the EFDC model simulation result received from the EFDC model execution unit 10 in a GIS-based map form, a text form, or a chart form and provide it to the user.

6, the EFDC model simulation result inquiry procedure 22 is activated when the user presses the <Result Query> button 2-2 using the mouse or keyboard on the user interface screen illustrated in FIG. 2 EFDC model This is an embodiment showing a screen in which a simulation result data is displayed in the form of a map.

7, the EFDC model simulation result inquiry procedure 22 is activated when the user presses the <vertex inquiry> button 2-3 on the user interface screen illustrated in FIG. 2 using a mouse or a keyboard EFDC model This is an embodiment showing a screen in which the simulation result data is displayed in a text form.

8 is a screen showing the EFDC model simulation result result data in a chart form when the user operates the EFDC model simulation result inquiry procedure 22 when the <Graph Inquiry> button 7-1 of FIG. 7 is clicked .

The EFDC model simulation result inquiry procedure 22 is operated to display the EFDC model simulation result data in a chart form.

As can be seen from the above, the large-scale numerical computation and result display system and method of the GIS-based EFDC model according to the present invention is based on the GIS-based large-scale numerical computation processing of the EFDC model and the EFDC model simulation results for the simulation region The EFDC model simulation program execution procedure 21 and the EFDC model simulation result inquiry procedure 22 in the GIS based main processing unit 20 of MicroSoft's Windows operating system environment equipped with the EFDC model simulation program for retrieving the result are compared with the EFDC model The EFDC model simulation is performed by communicating with the EFDC model execution unit 10 of the operating system environment optimized for the operation and the EFDC model simulation result stored in the DB 13 of the EFDC model simulation result is displayed on the GUI unit 30 and the display unit 40), which can be used to check the results of GIS-based maps, texts, and charts.

Therefore, the present invention can process the EFDC model numerical computation more quickly than the conventional method, and can quickly visualize the result as a result, thereby contributing to the effective management of the estuarine and coastal areas and policy establishment.

In particular, by applying the present invention to estuaries and coastal areas, it is possible to set a reasonable direction for the development and environmental preservation of a target area, and provide an optimal GIS-based result display configuration and environment for EFDC model numerical computation and EFDC model simulation results It is expected that the cost reduction effect of the business promotion can be expected.

In addition, the EFDC model simulation environment configured by applying the present invention can quickly process the EFDC model operation processing, and the results of the EFDC model simulation result utilizing the GIS-based system can be immediately utilized for the multidimensional analysis such as overlap analysis Contributes to the development of related research. For example, there are many advantages in that it can be used in various practical fields ranging from predictions of future water environment changes to academic research fields.

The above-described system and method for mass-scale numerical computation and result display of the EFDC model based on GIS according to the present invention are not limited to the above-described embodiments, and can be applied to the present invention without departing from the gist of the present invention, There is a technical spirit to the extent that anyone with ordinary knowledge in the field to which it belongs can make various changes.

10: EFDC model execution unit
11: EFDC Model Simulation Input Data Construction Module
12: EFDC model simulation execution module
13: EFDC Model Simulation Result DB
20: GIS based main processing unit
21: EFDC Model Mock Program Execution Procedure
22: EFDC model simulation results query procedure
30: GUI section
40:

Claims (7)

EFDC model Simulation input data The EFDC model simulated input data is constructed according to the EFDC model execution command while receiving the EFDC model simulated input data for the simulation area. An EFDC model execution unit 10 for performing operation processing, storing the result as an EFDC model simulation result, and delivering a pre-stored EFDC model simulation result according to an EFDC model simulation result inquiry command to the outside;
The EFDC model simulation program for the large-scale numerical computation processing of the EFDC model for the simulation region and the GIS-based result simulation of the EFDC model simulation result is mounted, and the EFDC model execution unit 10 implements the EFDC model simulation input Based main processing unit 20 for delivering a data configuration command, an EFDC model execution command, an EFDC model simulation result inquiry command, and a GIS-based EFDC model simulation result received from the EFDC model execution unit 10, );
The user provides a user interface screen capable of operating the EFDC model execution unit 10 and the GIS based main processing unit 20 to allow the EFDC model execution unit 10 and the GIS based main processing unit 20 to communicate with each other A GUI unit 30; And
And outputs the user interface screen provided through the GUI unit 30 to display a processing result of the EFDC model execution unit 10 and the GIS-based main processing unit 20, A display unit 40 for displaying the image data;
&Lt; / RTI &gt;
The EFDC model execution unit 10,
Upon receiving the EFDC model simulation input data configuration command through the user interface screen of the GUI unit 30 displayed on the display unit 40, the internal EFDC model simulation input data DB An EFDC model simulated input data construction module (11) for constructing an EFDC model simulated input data for the simulated area by performing an operation of deleting or reading the EFDC model simulated input data required for the execution of the EFDC model for the simulated area from the simulation model;
Upon receiving the EFDC model execution command through the user interface screen of the GUI unit 30 displayed on the display unit 40, the EFDC model simulated input data constructed by the EFDC simulated input data configuration module 11 is utilized An EFDC model simulation execution module (12) for performing an arithmetic processing relating to execution of an EFDC model simulation of a simulation region; And
An EFDC model simulation result DB (13) for storing an operation processing result performed by the EFDC model execution module (12) as an EFDC model simulation result;
&Lt; / RTI &gt;
The GIS-based main processing unit (20)
When the EFDC model simulation program execution procedure 21 that enables the execution of the EFDC model simulation program is activated, the EFDC model simulation execution program 21 is displayed on the user interface screen of the GUI unit 30 displayed on the display unit 40 10), the EFDC model simulated input data construction command and the EFDC model execution command are transmitted to the simulation region, and the EFDC model execution unit 10 constructs the EFDC model simulation input data of the simulated region to perform a large-scale operation Processing is performed and the result is stored as an EFDC model simulation result,
EFDC model simulation result enabling the GIS-based result query on the stored EFDC model simulation result When the EFDC model simulation result inquiry procedure 22 is operated, the EFDC model execution unit 10 transmits the EFDC model simulation And outputs the EFDC model simulation result stored by the EFDC model execution unit 10 to the user through the display unit 40,
The EFDC model simulation program execution procedure 21 and the EFDC model simulation result inquiry procedure 22 in the GIS based main processing unit 20 on which the EFDC model simulation program is mounted are stored in the EFDC model execution unit 10, Lt; / RTI &gt;
The GUI unit 30,
A user interface screen including an execution button for operating the EFDC model simulation program execution procedure 21 and an inquiry button for operating the EFDC model simulation result inquiry procedure 22,
The execution button is for sequentially operating an internal module in the EFDC model execution unit 10 and includes a button for executing the EFDC model simulation input data configuration module 11 and a button for executing the EFDC model simulation execution module 12, A button for executing the EFDC model simulation result DB 13, and a button for executing the EFDC model simulation result DB 13,
The inquiry button includes a button for exposing the EFDC model simulation result received from the EFDC model execution unit 10 in a GIS-based map form, a button for displaying in text form, and a button for displaying in a chart form To do
Scale numerical computation and result display system of EFDC model based on GIS. delete delete The EFDC model simulation execution module (12) according to claim 1, wherein the EFDC model simulation execution module (12) constructs an operating system environment optimized for a large scale arithmetic processing related to execution of an EFDC model simulation using a Linux operating system or a Windows operating system of MicroSoft, A large - scale numerical computation and result display system. delete delete delete

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