KR102288967B1 - Gis-based renewable energy resource management system and information provision method using the same - Google Patents

Abstract

The present invention relates to a GIS-based renewable energy resource management system and an information provision method using the same. The system comprises: a web service provision unit which provides a web page including an electronic map to a user terminal, receives an input of a photograph file and a coordinate file on a resource management target region through the web page, and manages and provides resource management information; a resource data processing unit which generates a resource map on the resource management target region as a result of mapping the electronic map and an aviation photograph, generates a target place information based on a building ledger information, visualizes and indicates the target place information on the electronic map, and provides resource statistics information; and a database which stores the map information including the resource map, the target plate information, and the resource statistics information. The web service provision unit can include a data visualization linking unit which operates on the web page, links to the resource data processing unit, and provides a data sheet interface with a table structure which is able to interact with the visualized target plate information on the electronic map. The present invention aims to provide a GIS-based renewable energy resource management system and an information provision method using the same, which are able to more efficiently manage regional energy.

Description

GIS-based renewable energy resource management system and information provision method using the same

The present invention relates to a new and renewable energy resource management technology, and more particularly, to a GIS-based new and renewable energy resource management system and method using a digital map to identify and manage the supply status of new and renewable energy in a specific area will be.

Site visits and surveys are required to select a site for renewable energy generation, which may require a lot of manpower and budget. For example, it takes a lot of time and manpower to analyze the location for building a solar power plant in a number of houses in an area of an eup or myeon unit.

In order to save time and manpower, conventional photovoltaic operators use an electronic map service such as Kakao Map or Naver Map to determine the status of notation in candidate locations or select new installation sites.

Since the satellite map provided by such a map service has a long update cycle, facility information may be inaccurate, and it is difficult to understand the shape of the building or the surrounding field situation because the resolution of the picture is low. Due to this, it was judged as a place that can be installed on the satellite map, but it is often changed to a place that is difficult to install when conducting an actual on-site inspection.

Therefore, there is a demand for the development of a technology capable of efficiently performing resource management with a small amount of manpower and budget.

Korean Patent Publication No. 10-2017-0120887 (2017.11.01)

An embodiment of the present invention has been devised to solve the above problems, and is intended to provide a basis for managing new and renewable energy resources for the development and dissemination of new and renewable energy resources.

An embodiment of the present invention can provide more accurate new and renewable energy resource information using a geographic information system (GIS) and drone aerial photos while using a digital map to identify and manage the current state of renewable energy supply in a specific area. It is intended to provide a GIS-based renewable energy resource management system and a method of providing information using the same.

An embodiment of the present invention provides a visualization of various resource management status on an electronic map, and a GIS-based new regeneration that can effectively process data extraction and processing of target site information visualized through a data sheet interface that can interact with the electronic map It is intended to provide an energy resource management system and a method of providing information using the same.

Among the embodiments, the GIS-based renewable energy resource management system provides a web page including an electronic map to a user terminal, receives a photo file and a coordinate file for a resource management target area through the web page as input, and receives the resource a web service providing unit that manages and provides management information; As a result of mapping the electronic map and aerial photo, a resource map for the resource management target area is generated, target site information is generated based on the building ledger information, and the target site information is visualized and displayed on the electronic map, resource statistics information a resource data processing unit that provides; and a database for storing map information including the resource map, the target site information, and the resource statistics information, wherein the web service providing unit operates on the web page and works in conjunction with the resource data processing unit on the electronic map. It may include a data visualization linkage that provides a data sheet interface of a table structure that can interact with the target site information visualized in the .

The data visualization linkage unit converts target site information visualized on the electronic map into data of a table structure through the data sheet interface or visualizes data of a table structure input through the data sheet interface on the electronic map converted to the target site information, and the data of the table structure may include an internal link related to at least one of a document, an image, and an image related to the target site information.

When any one of the data in the table structure is selected through the data sheet interface, the data visualization interworking unit overlays and displays an info-window of target information related to the data on the electronic map, When the internal link of the corresponding data is detected, the image or video may be displayed through a specific area of the info window.

When a plurality of data in a table structure is sequentially selected through the data sheet interface, the data visualization linkage unit sequentially highlights the target site icons associated with the data on the electronic map while highlighting the corresponding target site according to the selection order A directed edge may connect between the icons, and a distance between the corresponding destination icons may be assigned as a weight for each directional edge.

The current status board processing unit detects markers related to the target site information existing in the screen area on the electronic map, determines whether the markers overlap or not based on the zoom level of the electronic map, and for each marker group in which the overlap occurs After determining the uppermost marker as the representative marker of the corresponding marker group, only the representative marker may be selectively displayed for each marker group in the process of displaying the markers of the screen area.

The data visualization linkage unit is arranged according to the selection order while highlighting data related to the corresponding target information among the data in the table structure through the data sheet interface when a plurality of target site information visualized on the electronic map is sequentially selected Thus, it can be displayed at the top of the table structure.

The web service providing unit may include: a status board providing unit configured to receive an input regarding the resource management target area through a first interface operating on the web page and provide resource status information; a map management unit for receiving a photo file and a coordinate file for the resource management target area through a second interface operating on the web page and providing a map management function including map upload; a target site management unit that provides functions of registering, modifying, deleting, and inquiring about the target site information through a third interface operating on the web page; a resource statistics unit which graphically visualizes and provides the resource statistics information through a fourth interface operating on the web page; and an operation management unit that provides user registration, correction, deletion and inquiry functions through a fifth interface operating on the web page and provides management functions including work history, data room and notices.

The site management unit provides a layer addition function for registering the destination information, and the layer addition function receives an Excel file generated in a free format as an input and latitude/longitude in the Excel file in the process of registering the destination information If the information does not exist, it may include a function of inquiring latitude/longitude information based on the value of the place in the corresponding Excel file.

The resource data processing unit includes a status board processing unit that provides feedback information in response to an interaction between the electronic map and a user, and the status board processing unit performs area measurement or semi-measurement along with designation of a specific area on a specific layer of the electronic map. When a button manipulation is detected, an infowindow including the area or radius of the specific area and the number of each type of target site as the feedback information is displayed, and in the process of displaying the infowindow, at least one preset for the specific layer When there are groups of , the number for each type of destination may be independently provided for each of the at least one group.

In embodiments, uploading an aerial photographic map of a specific area to the resource management system; calling an electronic map of the specific area in conjunction with a first external system; mapping the aerial photographic map on the electronic map; creating a destination registration folder and adding it to a favorite list when there is no destination registration folder associated with the feature area; registering target information on the electronic map; and a target site information web page including the electronic map and a table-structured data sheet interface that operates on the web page and interacts with the target site information visualized on the electronic map in conjunction with the resource data processing unit to the user terminal step of providing.

The disclosed technology may have the following effects. However, this does not mean that a specific embodiment should include all of the following effects or only the following effects, so the scope of the disclosed technology should not be construed as being limited thereby.

The GIS-based new and renewable energy resource management system and the information providing method using the same according to an embodiment of the present invention visualize the local renewable energy resource supply status using GIS, drone aerial photos, and various resource information to make the region more efficient. Energy management is possible, and it can contribute to increasing the penetration rate of new and renewable energy.

The GIS-based new and renewable energy resource management system and the information providing method using the same according to an embodiment of the present invention have a clearer image quality compared to the general satellite map secured data, making it easy to understand the on-site situation of the new and renewable energy resources, and It is possible to provide high reliability in the result of determining whether installation is possible.

The GIS-based renewable energy resource management system and the information providing method using the same according to an embodiment of the present invention provide various resource management statuses by visualizing them on an electronic map, and a target site visualized through a data sheet interface that can interact with the electronic map Data extraction and processing of information can be handled effectively.

1 is a diagram illustrating a GIS-based renewable energy resource management system according to an embodiment of the present invention.
2 is a view for explaining the basic system configuration of the GIS-based renewable energy resource management system according to an embodiment of the present invention.
FIG. 3 is a diagram showing the configuration of the resource management system of FIG. 1 .
FIG. 4 is a view for explaining the configuration of the web service providing unit of FIG. 3 .
FIG. 5 is a diagram for explaining the configuration of the resource data processing unit of FIG. 3 .
FIG. 6 is a diagram for explaining the configuration of the database of FIG. 3 .
7 is a flowchart illustrating a method for generating and providing a resource management status board according to an embodiment of the present invention.
8 is a flowchart illustrating a method for generating resource management statistics according to an embodiment of the present invention.
9 to 11 are diagrams for explaining various embodiments of the operation of the web service providing unit according to the present invention.
12 is a diagram for explaining an embodiment of an operation of a resource data processing unit according to the present invention.
13 is a view for explaining an embodiment of the operation of the current status board processing unit according to the present invention.

Since the description of the present invention is merely an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiment described in the text. That is, since the embodiment may have various changes and may have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea. In addition, since the object or effect presented in the present invention does not mean that a specific embodiment should include all of them or only such effects, it should not be understood that the scope of the present invention is limited thereby.

On the other hand, the meaning of the terms described in the present application should be understood as follows.

Terms such as “first” and “second” are for distinguishing one component from another, and the scope of rights should not be limited by these terms. For example, a first component may be termed a second component, and similarly, a second component may also be termed a first component.

When a component is referred to as being “connected” to another component, it should be understood that the component may be directly connected to the other component, but other components may exist in between. On the other hand, when it is mentioned that a certain element is "directly connected" to another element, it should be understood that the other element does not exist in the middle. Meanwhile, other expressions describing the relationship between elements, that is, “between” and “immediately between” or “neighboring to” and “directly adjacent to”, etc., should be interpreted similarly.

The singular expression is to be understood to include the plural expression unless the context clearly dictates otherwise, and terms such as "comprises" or "have" refer to the embodied feature, number, step, action, component, part or these It is intended to indicate that a combination exists, and it should be understood that it does not preclude the possibility of the existence or addition of one or more other features or numbers, steps, operations, components, parts, or combinations thereof.

Identifiers (eg, a, b, c, etc.) in each step are used for convenience of description, and the identification code does not describe the order of each step, and each step clearly indicates a specific order in context. Unless otherwise specified, it may occur in a different order from the specified order. That is, each step may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the reverse order.

The present invention can be embodied as computer-readable codes on a computer-readable recording medium, and the computer-readable recording medium includes all types of recording devices in which data readable by a computer system is stored. . Examples of the computer-readable recording medium include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage device, and the like. In addition, the computer-readable recording medium may be distributed in a network-connected computer system, and the computer-readable code may be stored and executed in a distributed manner.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Terms defined in general used in the dictionary should be interpreted as being consistent with the meaning in the context of the related art, and cannot be interpreted as having an ideal or excessively formal meaning unless explicitly defined in the present application.

In the present invention, a new renewable energy resource or target site may correspond to a new renewable energy business target site. For example, a new renewable energy resource or site may include a site or a building as a new and renewable energy power plant installation site.

Hereinafter, a GIS-based renewable energy resource management system according to the present invention will be described with reference to the drawings.

1 is a diagram illustrating a GIS-based renewable energy resource management system according to an embodiment of the present invention.

Referring to FIG. 1 , a GIS-based renewable energy resource management system (hereinafter referred to as a resource management system) 130 is a user terminal 110 , a first external system 150 and a second external system 170 . and can be connected through a network.

The user terminal 110 may correspond to a computing device that participates in or promotes distribution of local renewable energy projects and manages resources, and may be implemented as a smartphone, a notebook computer, or a computer, but is not necessarily limited thereto, and a tablet PC. It can also be implemented in various devices such as The user terminal 110 may be connected to the resource management system 130 through a network, and a plurality of user terminals 110 may be simultaneously connected to the resource management system 130 .

In addition, the user terminal 110 can access the resource management system 130 through the Internet to obtain information on the supply status of new and renewable energy such as solar power in a specific area, and more specifically, the resource management system 130 ) can access the published web page and obtain information on the supply status of the target site for the address entered by the user or the area selected on the electronic map. Meanwhile, the user terminal 110 may install and execute a dedicated program or a dedicated application for processing related operations.

The resource management system 130 may be implemented as a server corresponding to a computer or program that can provide efficient management of local energy by visualizing the supply status of new and renewable energy resources in a resource management target area using various information. The resource management system 130 may store various data for resource management by interworking with the database, and the database may be implemented by being included in the resource management system 130 and implemented as an independent device that operates externally if necessary. can be In addition, the resource management system 130 may be implemented including a processor, a memory, a user input/output unit, and a network input/output unit, which will be described in more detail with reference to FIG. 2 .

In addition, the resource management system 130 may provide a management function such as inquiring or registering, modifying, or deleting information on a target site for an area input or selected on a web page from the user terminal 110 . The resource management system 130 may provide a bookmark function so that the user can manage information on the target site by region. The resource management system 130 may categorize the target site into four types, such as notation, installable, difficult to install, and new installation, on the electronic map, and may provide after displaying using markers of different colors.

In addition, when the marker displayed on the electronic map is clicked on the resource management system 130, the address of the target site, the type of installation, information included in the building ledger (eg, capacity, area, use, roof shape, etc.) and various You can inquire or edit attribute information. The resource management system 130 may provide the number of markers displayed on the electronic map for each type of target site in the area selected by the area or semi-measure function. The resource management system 130 may provide an energy source, capacity, roof shape, statistics for each building use, and distribution statistics for each village unit.

In addition, the resource management system 130 may perform an operation for efficient resource management in conjunction with an external system. For example, the first external system 150 may correspond to the Naver map platform provided by Naver, and the second external system 170 may correspond to a public data portal provided by the Ministry of Public Administration and Security. That is, the resource management system 130 may link with the second external system 170 to refer to the building ledger information, and may provide a 2D electronic map in conjunction with the first external system 150 .

2 is a view for explaining the basic system configuration of the GIS-based renewable energy resource management system according to an embodiment of the present invention.

Referring to FIG. 2 , the resource management system 130 may be implemented including a processor 210 , a memory 230 , a user input/output unit 250 , and a network input/output unit 270 .

The processor 210 may execute a procedure for processing each step in the process in which the resource management system 130 operates, and manage the memory 230 that is read or written throughout the process, and the memory 230 ) can schedule the synchronization time between volatile and nonvolatile memory in The processor 210 may control the overall operation of the resource management system 130 , and is electrically connected to the memory 230 , the user input/output unit 250 , and the network input/output unit 270 to control the flow of data therebetween. can The processor 210 may be implemented as a central processing unit (CPU) of the resource management system 130 .

The memory 230 is implemented as a non-volatile memory such as a solid state drive (SSD) or a hard disk drive (HDD) and may include an auxiliary storage device used to store overall data required for the resource management system 130, It may include a main memory implemented as a volatile memory such as random access memory (RAM).

The user input/output unit 250 may include an environment for receiving a user input and an environment for outputting specific information to the user. For example, the user input/output unit 250 may include an input device including an adapter such as a touch pad, a touch screen, an on-screen keyboard, or a pointing device, and an output device including an adapter such as a monitor or a touch screen. In an embodiment, the user input/output unit 250 may correspond to a computing device accessed through remote access, and in such a case, the resource management system 130 may be implemented as a server.

The network input/output unit 270 includes an environment for connecting with an external device or system through a network, for example, a local area network (LAN), a metropolitan area network (MAN), a wide area network (WAN), and a VAN (Wide Area Network) (VAN). It may include an adapter for communication such as Value Added Network).

FIG. 3 is a diagram showing the configuration of the resource management system of FIG. 1 .

Referring to FIG. 3 , the resource management system 130 may be implemented including a web service providing unit 310 , a resource data processing unit 330 , and a database 350 , and each component is electrically interconnected to provide data can be exchanged Meanwhile, the resource management system 130 is a control unit (not shown in FIG. 3 ) capable of managing a control flow or data flow between the web service providing unit 310 , the resource data processing unit 330 , and the database 350 . It may be implemented by including separately.

The web service providing unit 310 may provide a web page including an electronic map to the user terminal 110 , receive an input regarding a resource management target area through the web page, and manage and provide resource management information. More specifically, the web service providing unit 310 may receive area information input or selected from the user terminal 110 and transmit it to the current status board providing unit for resource supply status management, and transmit the resource supply status by the current status board providing unit to the user terminal. (110) can be provided. In addition, the web service providing unit 310 may provide useful information related to renewable energy resource management on the web page. To this end, the web service providing unit 310 may be implemented including a current status board providing unit, a data visualization linkage unit, a map management unit, a target site management unit, a resource statistics unit, and an operation management unit, which will be described in more detail in FIG. 4 .

The resource data processing unit 330 generates a resource map for the resource management target area as a result of mapping the electronic map and the aerial photograph, generates target site information based on the building ledger information, and visualizes and displays the target site information on the electronic map while providing resource statistics information. That is, the resource data processing unit 330 may display the supply status of the renewable energy target site on the electronic map on the resource management target area input and set from the user terminal 110, and generate target site information and provide statistical information. there is.

At this time, the target site distribution status and statistical information generated by the resource data processing unit 330 may be immediately expressed on a web page through the web service providing unit 310 and transmitted to the user terminal 110 in the form of a file. could be To this end, the web service providing unit 310 may be implemented including a map linkage unit, a map/photo mapping unit, a resource map generation unit, a status board processing unit, a building book linkage unit, a target site generation unit, and a resource statistics generation unit, This will be described in more detail with reference to FIG. 5 .

The database 350 may store map information including a resource map, target site information, and resource statistics information. That is, the database 350 may store various data for operating the resource management system 130 as well as data required for the target site distribution management. A detailed configuration of the database 350 will be described in more detail with reference to FIG. 6 .

FIG. 4 is a view for explaining the configuration of the web service providing unit of FIG. 3 .

Referring to FIG. 4 , the web service providing unit 310 includes a status board providing unit 410 , a data visualization linkage unit 420 , a map management unit 430 , a target site management unit 450 , a resource statistics unit 470 , and an operation management unit. 490 may be implemented, and each of the components may be electrically interconnected to transmit and receive data. On the other hand, the web service providing unit 310 is between the current status board providing unit 410, the data visualization linkage unit 420, the map management unit 430, the target site management unit 450, the resource statistics unit 470 and the operation management unit 490. It may be implemented by separately including a first control unit (not shown in FIG. 4 ) capable of managing the control flow or the data flow.

The current status board providing unit 410 may receive an input on a resource management target area through a first interface operating on a web page and provide resource status information. Here, the first interface may be implemented by being included in a graphic user interface (GUI) of a web page. The current status board providing unit 410 may receive input or selection of a resource management target region and transmit it to the resource data processing unit 330 , and receive a resource map and target site information generated from the resource data processing unit 330 , and receive a web page can be displayed on the

In addition, the status board providing unit 410 may provide a menu screen including an address search tab and an electronic map screen through a web page, and searches for a target address according to an input of the user terminal 110 or on the electronic map. The distribution status information for each type of target site can be reflected on the web page by displaying icons with different colors.

In an embodiment, the current status board providing unit 410 may provide a map control tool for controlling the electronic map and reflect an input value input through the corresponding map control tool on the electronic map. At this time, the map control tool may include commands for map type conversion, orthophoto show/hide, label show/hide, map enlargement/reduction, area measure, radius measure, and distance measure, and the commands can open various interfaces. can be implemented through For example, the map control tool may be implemented to include a button corresponding to each command, the user may request initiation of the corresponding command by clicking the corresponding button, and the status board providing unit 410 may provide an input associated with the corresponding command. The value can be received and reflected on the electronic map.

The data visualization interworking unit 420 may operate on a web page and may provide a table-structured data sheet interface capable of interacting with target site information visualized on an electronic map by interworking with the resource data processing unit 330 . That is, the data visualization interworking unit 420 may read the data file to obtain table-structured data, and may transmit it to the resource data processing unit 330 . In addition, the data visualization interworking unit 420 may receive the target site information and the resource statistical information visualized on the electronic map from the resource data processing unit 330 and provide it to the user through a web page.

Here, the data sheet interface may correspond to a dedicated interface capable of interworking with a web page and inputting target site information for target site registration. That is, since the data sheet interface operates on a web page, a separate executable file or program is not required, and it can be executed by selecting a separate menu displayed on the web page. In addition, the data sheet interface can effectively perform various operations related to destination information displayed on the electronic map through interaction with the electronic map. Basically, the data sheet interface may provide a function of directly inputting target site information into the system without using a separate input means by reading a pre-established data file. In addition, the data sheet interface may be displayed overlaid with the electronic map displayed on the web page, and may be implemented to provide various functions for interaction by interworking with the electronic map in real time.

In an embodiment, the data visualization linkage unit 420 converts the target site information visualized on the electronic map into data of a table structure through a data sheet interface or electronically converts data of a table structure input through a data sheet interface It can be converted into target information visualized on the map. In this case, the data of the table structure may include an internal link related to at least one of a document, an image, and an image related to the target site information. That is, the data visualization interworking unit 420 may interwork with the resource data processing unit 330 to display data directly input from the user through the data sheet interface as target site information on the electronic map. On the contrary, the data visualization linkage unit 420 displays the electronic map processed by the resource data processing unit 330 and at the same time receives the corresponding destination information from the resource data processing unit 330 and displays the information in the table form of the data sheet interface. can be displayed accordingly. In this case, data displayed on the data sheet interface may be generated as a separate data file.

Meanwhile, the data set corresponding to the table structure of the data sheet interface may include an internal link. Here, the internal link may correspond to a link accessible to a storage area of the database 350 for storing target site information. That is, the user can separately check the photo or video included in the target site information through the link. In addition, high-capacity images or images that are difficult to be included in the data file may be separately stored in the database 150 , and the data file may be generated by including only an internal link related thereto along with the destination information.

In one embodiment, the data visualization linkage 420 overlays (info-window) of the destination information related to the data on the electronic map when any one of the data of the table structure is selected through the data sheet interface ( overlay) can be displayed. In addition, the data visualization linkage unit 420 may display an image or an image through a specific area of the info window when an internal link of the corresponding data is detected. This will be described in more detail with reference to FIG. 9 .

In one embodiment, the data visualization linkage unit 420 sequentially highlights the target site icons associated with the corresponding data on the electronic map when a plurality of data in a table structure is sequentially selected through the data sheet interface while highlighting the corresponding data. According to the selection order, a directed edge may be connected between the corresponding target site icons, and a distance between the corresponding target site icons may be given as a weight for each direction edge. This will be described in more detail with reference to FIG. 10 .

In one embodiment, the data visualization linkage unit 420 highlights data related to the target site information among data in a table structure through the data sheet interface when any one of the target site information visualized on the electronic map is selected. can be displayed The data visualization linkage unit 420 may provide various functions related to the interaction between the data sheet interface and the electronic map, and an input to the data sheet interface is provided as an output on the electronic map or an input to the electronic map is a data sheet It can be provided as an output on the interface.

For example, when the user clicks on the target site icon related to the specific target site information displayed on the electronic map, data corresponding to the corresponding target site icon among the table-structured data displayed on the data sheet interface in conjunction with this will be highlighted and displayed. can Meanwhile, when the user wants to check more detailed information other than the visualized information of the electronic map, the user can simply click the target site icon on the map to check the brief information displayed through the info window. At the same time, the user can also check the information displayed by highlighting in the data list through the data sheet interface.

In one embodiment, the data visualization linkage unit 420 highlights data related to the corresponding target information among data in a table structure through the data sheet interface when a plurality of target site information visualized on the electronic map is sequentially selected. It can be displayed at the top of the table structure by sorting it according to the selection order. This will be described in more detail with reference to FIG. 11 .

The map management unit 430 may receive a photo file and a coordinate file for a resource management target area through the second interface operating on the web page, and may provide a map management function including uploading a map. Here, the second interface may be implemented by being included in a graphic user interface (GUI) of a web page. The map management unit 430 may receive the drone aerial photo file and the coordinate file of the resource management target area from the user terminal 110 in a drag-and-drop manner and deliver it to the resource data processing unit 330 . .

In addition, the map management unit 430 may provide a function of a favorite folder for uploading a map, and may provide a function of creating, modifying, and deleting a folder. When the map upload is completed, a thumbnail of the uploaded map can be viewed, and a map image can be displayed on the map's latitude and longitude.

The target site management unit 450 may provide functions of registering, modifying, deleting, and inquiring about the target site information through the third interface operating on the web page. Here, the third interface may be implemented by being included in a GUI (Graphic User Interface) of the web page. The user may inquire the target site information in the form of a table, and when registering the target site, input or select the target site attribute information and transmit it to the resource data processing unit 330 . The destination management unit 450 may provide the destination registration result by the resource data processing unit 330 to the user terminal 110 .

On the other hand, the target site management unit 450 may provide a function of receiving and registering an Excel file when registering a plurality of target sites in bulk, and may provide a function of downloading target site information corresponding to the user's search condition as an Excel file. can In this case, the Excel file may be created in a fixed format composed of fixed items.

In an embodiment, the destination management unit 450 may provide a layer addition function for registering destination information. In this case, the layer addition function may receive an Excel file generated in a free format as an input. Here, the free format may consist of various items, unlike the fixed format including fixed items. In addition, the layer add function can inquire latitude/longitude information based on the location value in the Excel file when latitude/longitude information does not exist in the Excel file in the process of registering the destination information.

More specifically, the layer addition function may operate in the following order. The user may execute a related operation by clicking the add layer button, and accordingly, a layer addition pop-up window may be displayed. The user can select the layer name and Excel file (there is no specified Excel format) in the Add Layer pop-up window. In this case, in general, the Excel file may include geographic information (latitude/longitude coordinates) and various attribute information of the location, and images may also be inserted. Because the layer add function allows the input of a free-format Excel file, the property information item is not fixed, and the target site registration can be processed through the Excel file in which the user has entered an arbitrary item.

In addition, if you cannot specify latitude/longitude values in the Add Layer pop-up window, you can specify a place, and the Add Layer function can automatically set latitude/longitude values by looking up the latitude/longitude values in the Excel file. The layer add function may provide a function to download the failed history (eg, typo in the place, when the place cannot be found) as an Excel file when searching for latitude/longitude as a place value. That is, even if there is a failure history in the layer addition pop-up window, if the OK button is clicked, normal data is saved, and if the Cancel button is clicked, it can be implemented not to be saved.

The resource statistics unit 470 may graphically visualize and provide resource statistics information through the fourth interface operating on the web page. Here, the fourth interface may be implemented by being included in a graphic user interface (GUI) of a web page. For example, the resource statistics unit 470 may provide the user terminal 110 with attribute information for each destination and a distribution statistics function in the form of tables and graphs.

In an embodiment, the resource statistics unit 470 receives the installation state, period, type and area of the target site from the user terminal 110 as the first search condition, and provides statistical information of the target site for each energy source, capacity, roof type and building use. Or, by receiving the region, the registration period of the target site, and the installation status as the second search condition, it is possible to provide statistical information on the notation, installation possible, installation difficulty, installation application, and total expected penetration rate of the target site for each village in the area. .

The operation management unit 490 may provide user registration, correction, deletion and inquiry functions through the fifth interface operating on the web page, and may provide management functions including work history, data room and notices. Here, the fifth interface may be implemented by being included in a graphic user interface (GUI) of a web page. The operation management unit 490 may provide information on the system usage history up to the present time through the work history, and may provide the title, author, registration date, attachment file and contents of the material in the form of a list through the data room, Through the notice, it is possible to provide the title of the notice in the form of a list, the period of the notice of the pop-up, whether or not there is a pop-up, and the attached files and contents. Meanwhile, when checking whether a pop-up is present, the notice may be displayed on the web page in the form of a pop-up.

FIG. 5 is a diagram for explaining the configuration of the resource data processing unit of FIG. 3 .

Referring to FIG. 5 , the resource data processing unit 330 includes a map link unit 510 , a map/photo mapping unit 520 , a resource map generation unit 530 , a status board processing unit 540 , and a building book link unit 550 . ), the target site generation unit 560 and the resource statistics generation unit 570 may be implemented, and each component may be electrically interconnected to transmit and receive data. Meanwhile, the resource data processing unit 330 includes a map link unit 510 , a map/photo mapping unit 520 , a resource map generation unit 530 , a status board processing unit 540 , a building book link unit 550 , and a target site generation unit. A second control unit (not shown in FIG. 5 ) capable of managing the control flow or data flow between the unit 560 and the resource statistics generation unit 570 may be separately implemented.

The map linkage unit 510 may map and display facility information on the electronic map in conjunction with the first external system 150 . For example, the map linkage unit 510 may map facility location-based information on the electronic map in conjunction with the Naver map platform. Here, the Naver map platform may correspond to the Naver Cloud platform operated by Naver. The map linker 510 may display the facilities of each area in the form of a 2D map by calling the map API of the Naver map platform and reflecting it on the electronic map.

The map/photo mapping unit 520 may overlay a photo file regarding the resource management target area on the electronic map based on the coordinate file regarding the resource management target area. That is, the map/photo mapping unit 520 maps the drone aerial photograph image on the electronic map received from the map linkage unit 510 based on the drone aerial photograph file and the coordinate file transmitted from the map management unit 430 to latitude and longitude coordinates. A mapping function can be provided. For example, the map/photo mapping unit 520 may overwrite the drone aerial photo of the target site input by the user through the map management unit 430 on the electronic map provided by the Naver map platform.

In an embodiment, when the rate of change of at least one of color and brightness exceeds a preset threshold based on the boundary between the picture files or the boundary between the picture file and the electronic map in the overlay process, the map/photo mapping unit 520 is configured to Images near that boundary can be corrected. A photo file that is overlaid on the electronic map can be expressed with higher clarity than the electronic map, so that the boundary between the photo file and the electronic map can be clearly distinguished. The map/photo mapping unit 520 may detect a case in which a difference between the electronic map and the photo file is large based on the rate of change of color and brightness, and may smooth the boundary by correcting the color and brightness.

The resource map generator 530 may process registration and deletion of resources corresponding to the corresponding markers in response to the display and deletion of markers on the electronic map. More specifically, the resource map generating unit 530 may provide a function of registering a marker as a resource when the user displays a marker on the electronic map of the web page provided by the current status board providing unit 410 . The user may display or delete markers in different colors according to the type of target site, and the resource map generator 530 may register or delete resources accordingly. Meanwhile, during resource registration, the target site information may include items related to a name, an address, and an installation type, and may be stored in the target site information DB by reflecting the building ledger information of the target site obtained through the target site generating unit 560 .

The status board processing unit 540 may provide feedback information in response to an interaction between the electronic map and the user. That is, the current status board processing unit 540 may generate feedback information as a result of a request input by the user through the GUI and provide it through the user terminal 110 .

In one embodiment, the current status board processing unit 540 includes, as feedback information, the area or radius of the specific area, and the number of each type of target site when a button operation related to area or semi-measurement is detected along with designation of a specific area on a specific layer of the electronic map. When a mouse click is detected on the target site icon on the electronic map or displaying an info window of the corresponding target site icon, attribute information of the target site associated with the corresponding target site icon may be provided as feedback information. Here, the info-window may correspond to a speech bubble-shaped image displaying text. In addition, the status board processing unit 540 may obtain the property information of the target site from the target site information DB of the database 350 and deliver it to the status board providing unit 410 .

In an embodiment, when at least one group preset for a corresponding specific layer exists in the process of displaying the info window, the status board processing unit 540 may independently provide the number of each type of target site for each at least one group. That is, the user can set the group type for the layer defined on the electronic map. For example, if 'energy source' is set as a group type and then area measurement or semi-measurement is executed on the electronic map, the number of target sites for each group type set for the layer is displayed as a result value in the corresponding info window. can That is, if a plurality of groups are set in one layer, the target sites existing in the corresponding area may be classified and displayed for each group type in the info window.

In an embodiment, the current status board processing unit 540 detects markers related to target site information existing in the screen area on the electronic map, determines whether or not the markers overlap based on the zoom level of the electronic map, and markers in which overlap occurs After determining the top marker for each group as the representative marker of the corresponding marker group, only the representative marker may be selectively displayed for each marker group in the process of displaying the markers in the screen area.

That is, in order to prevent a stuttering or freezing phenomenon from occurring in the process of displaying a plurality of markers on the screen area due to the characteristics of the web browser, the status board processing unit 540 displays the markers displayed on the screen area according to the zoom level of the electronic map. The number of them can be dynamically adjusted. To this end, the status board processing unit 540 may determine a marker group according to the overlap between the markers based on the size of the screen area and the current zoom level, and determine a representative marker for each marker group to determine all the markers of the corresponding marker group. Rendering speed can be improved by selectively displaying only representative markers instead of displaying on the screen.

For example, assuming that the number of markers to be displayed on the map of an area is 5,000, if the map zoom level is high, displaying only the markers in the visible area on the screen will reduce the number of markers to hundreds or thousands. Overlapping reduces the number of markers to tens or hundreds of markers, which speeds up rendering of markers in the browser, which can improve system performance.

The building book link unit 550 may provide building book information including information about the address, area, use, number of floors, and roof shape of the building required for target site registration in conjunction with the second external system 170 . For example, the building ledger linkage unit 550 may obtain building ledger information in conjunction with a public data portal. The public data portal is a system operated by the Ministry of Public Administration and Security and may correspond to an integrated window that provides public data created, acquired, and managed by public institutions.

That is, the building ledger linkage unit 550 may utilize the building ledger information service provided by the Ministry of Land, Infrastructure and Transport among the information provided by the public data portal. The building ledger linkage unit 550 may call the building ledger information service API to obtain information such as the address, area, use, number of floors, and roof shape of the building required for site registration, and transmit it to the target site creation unit 560 .

The target site generator 560 may generate a target site and store it in the database 350 . More specifically, the target site generation unit 560 receives information such as the name of the target site, favorite folder selection, target site type, energy source, capacity and owner from the target site management unit 450 and the address of the building from the building ledger linkage unit 550 . , area, use, number of floors, and roof shape can be transmitted to create a target site. The target site generator 560 may store the generated target site information associated with the target site in the target site information DB of the database 350 .

The resource statistics generating unit 570 may generate statistical information by inquiring the database 350 according to a search condition. That is, the resource statistics generating unit 570 may generate statistical information by inquiring the target site information DB of the database 350 according to the search condition received from the resource statistics unit 470, and the generated statistical information is the resource statistics unit It may be transmitted to 470 and provided to the user.

FIG. 6 is a diagram for explaining the configuration of the database of FIG. 3 .

Referring to FIG. 6 , the database 350 may be implemented including a target site information DB 610 , a map information DB 630 , and a resource statistics DB 650 , and each component is electrically interconnected to provide data and can receive Meanwhile, the database 350 includes a third control unit (not shown in FIG. 6 ) capable of managing the control flow or data flow between the target site information DB 610 , the map information DB 630 , and the resource statistics DB 650 . It may be implemented by including separately.

The target site information DB 610 may store the address of the target site, latitude and longitude coordinates, the installation state, the type of the target site, and building ledger information as information about the target site. The map information DB 630 may store latitude and longitude coordinates, a photo file, and a coordinate file as information about a map image file and coordinates. The resource statistics DB 650 may store information about the target site resource statistics.

7 is a flowchart illustrating a method for generating and providing a resource management status board according to an embodiment of the present invention.

Referring to FIG. 7 , the user may upload the drone aerial photo map to the resource management system 130 through the user terminal 110 (step S710). That is, the user can upload the drone aerial photo map and the coordinate information file of the target sites in the area to be registered together. Users can systematically manage map image files by creating a folder in the target area when uploading a map.

Next, the resource management system 130 may interwork with the Naver map platform to call a map of the corresponding area and display the electronic map on the web page (step S720). At this time, the resource management system 130 may display the central coordinates of the called region to be centered on the web page.

Next, the resource management system 130 may map the uploaded drone aerial photo map on the called map (step S730). The called map may correspond to a general or satellite map provided by the NAVER map platform, and the resource management system 130 overlays the drone aerial photo map on the map to provide a higher resolution quality than the map provided by the existing NAVER map platform. You can provide a map.

Next, the resource management system 130 may check whether there is a destination registration folder (step S740). If there is no target site registration folder in the current status board favorite, the resource management system 130 may create the target site registration folder by dividing it into three regions (step S750). For example, if the final regional unit of the target site to be registered is 'dong', the resource management system 130 generates 'city' in step 1, generates 'gu' in step 2, and 'dong' in step 3 can create

The resource management system 130 may register the target site information on the map manually or by using an Excel file when there is a folder of the target site to be registered (step S760). The user can select the type of target site by viewing the roof or ground condition of the building on the electronic map overlaid with the drone aerial photo map and click the mouse on the building or ground, and accordingly, it can be displayed as icons of different colors. In addition, the resource management system 130 may register a plurality of target sites at once by using the Excel upload function provided by the target site management unit 450 . The resource management system 130 may provide a function of registering the target site by reading the Excel file including the target site information.

Thereafter, the resource management system 130 may provide the target site information web page through the electronic map to the user terminal 110 (step S770). The user selects the target site folder registered in the favorites through the status board providing unit 410 and inquires the supply status and density of the target site, or uses the semi-measure or area measure function on the electronic map to view the target site supply status in the selected area can be viewed.

8 is a flowchart illustrating a method for generating resource management statistics according to an embodiment of the present invention.

Referring to FIG. 8 , first, a user may register target site information manually or by uploading an Excel file (step S810). In this case, the manual registration of target site information may correspond to single registration, or may correspond to registering by directly inputting or selecting information on the target site by the user. Uploading an Excel file may correspond to registration of a plurality of target sites, and when the target site information is created in Excel and uploaded to the resource management system 130 in the form of a file, the target site may be automatically registered.

Next, the resource management system 130 may obtain information on the building ledger in conjunction with the public data portal (step S820). The building ledger information of the target site may include information on the address of the building, the building area, the roof shape, the use of the building, and the number of floors.

Next, the resource management system 130 may register the building ledger information in the attribute item of the target site information (step S830). That is, the resource management system 130 may complete the target site information by adding the building ledger information generated in step S820 to the target site information registered in step S810 .

Next, the resource management system 130 may receive a resource statistics condition from the user terminal 110 through a web page (step S840). Resource statistics conditions may include installation status, period, type of site, region, and the like.

Next, the resource management system 130 may generate statistical information on energy sources, capacity, building area, roof shape, and supply status according to resource statistics conditions (step S850). In generating the distribution status statistical information, the expected penetration rate of the target site can be calculated by calculating the ratio of the sum of the total types of the target sites to the sum of the number of notation and installation requests among the types of target sites.

Next, the resource management system 130 may provide the user terminal 110 by visualizing the target site statistical information in a table or graph (step S860). For example, the resource management system 130 may visualize and provide four kinds of statistical information, such as energy source, capacity, roof shape, and building use, in graph form as resource statistical information.

9 to 11 are diagrams for explaining various embodiments of the operation of the web service providing unit according to the present invention.

Referring to FIG. 9 , the resource management system 130 provides a data sheet interface 910 displayed on the electronic map 930 of the web page 900 through the data visualization interworking unit 420 of the web service providing unit 310 . When any one of the data of the table structure is selected through , an info-window 950 of target information related to the corresponding data may be overlaid and displayed on the electronic map 930 . That is, the user can check the data list on the target site through the data sheet interface 910, and when selecting specific data from the list, it is generated based on the location of the specific data on the electronic map 930 linked thereto. The info window 950 can be confirmed.

Here, the info window 950 may briefly display the target information of the corresponding target. For example, the info window 950 may include information about each item forming the table structure of the data sheet interface, such as the installation location, applicant (building) name, installation plan application number, progress status, business type, etc. can Meanwhile, the data related to the target site information provided through the data sheet interface may include an internal link that allows access to a photo or image of the corresponding target site.

In addition, the info window 950 may display the photo or image by accessing the photo or image related to the target site through the internal link. In FIG. 9 , the info window 950 may display applicant information.xlsx, foreground picture 1.png, and foreground picture 2.png as a list of files accessible through an internal link. The info window 950 may display pictures accessible through an internal link through a specific area, ie, foreground picture 1.png and foreground picture 2.png.

Referring to FIG. 10 , when a plurality of data in a table structure displayed on the data sheet interface 910 is sequentially selected through the data visualization interworking unit 420 of the web service providing unit 310 , the resource management system 130 . While sequentially highlighting the target site icons 970 associated with the corresponding data on the electronic map 930, according to the selection order, the corresponding target site icons 970 are connected with a directed edge, and each direction As a weight for the trunk line, a distance between the corresponding target site icons 970 may be given. That is, the data visualization linkage unit 420 may generate a direction graph composed of the target site icons 970 visualized on the electronic map as a result of the interaction regarding the input to the data sheet interface 910 .

Here, the direction graph may include the target site icons 970 selected through the data sheet interface 910 as nodes, and may include directional trunks between nodes corresponding to the selection order. Also, the direction graph may include a trunk weight associated with a distance between the corresponding target site icons 970 for each direction trunk. Meanwhile, the data visualization linkage unit 420 may assign an edge weight in various methods such as a distance between nodes, a time, and a movement cost when generating a directed graph.

For example, in FIG. 10 , the user may sequentially select (A), (B) and (C) related to the target site information from the data list displayed on the data sheet interface 910, and in conjunction with this, the electronic map 930 ), the corresponding destination icons (A), (B) and (C) may be sequentially highlighted and displayed. Also, the corresponding destination icons (A), (B), and (C) may be connected through directional trunks, respectively, according to the selection order. If (B) is selected after (A), a direction edge from (A) to (B) can be created between (A) and (B), and (A) and (A) and (A) are The distance between (B) can be given. In this case, the distance between (A) and (B) may be calculated based on coordinate information of the corresponding target site information.

The resource management system 130 according to the present invention can simply generate a directional graph regarding the target site information through the interaction between the electronic map 930 and the data sheet interface 910, and based on the information, the target sites It is possible to effectively provide various information for target site analysis by performing various operations such as shortest path prediction and minimum travel cost analysis.

Referring to FIG. 11 , the resource management system 130 performs a data sheet when a plurality of target site information visualized on the electronic map 930 is sequentially selected through the data visualization interworking unit 420 of the web service providing unit 310 . Through the interface 910 , data related to the corresponding destination information among data of the table structure may be highlighted and sorted according to the selection order and displayed at the top of the table structure.

In FIG. 11 , the user may sequentially select (A), (B) and (C) from among the target site icons 970 visualized and displayed on the electronic map 930 . Accordingly, the data visualization linkage unit 420 may sequentially highlight the target icons (A), (B), and (C), respectively. In addition, the data visualization linkage unit 420 may sequentially highlight data corresponding to the destination icons (A), (B) and (C) in the data list related to the destination information displayed through the data sheet interface 910 and , and at the same time, the corresponding data can be sorted according to the selection order and displayed at the top of the data list.

Through this, the user may select the target sites of interest from among the target sites displayed on the electronic map 930 and obtain detailed information related thereto in the form of an arranged table on the data sheet interface 910 . Meanwhile, the data sheet interface 910 may be implemented to provide a function of selectively storing specific items or specific data among data of a table structure and generating a data file.

12 is a diagram for explaining an embodiment of an operation of a resource data processing unit according to the present invention.

Referring to FIG. 12 , the resource management system 130 relates to area measurement or semi-measurement along with designation of a specific area 1210 on a specific layer of the electronic map through the current status board processing unit 540 of the resource data processing unit 330 . When a button manipulation is detected, the infowindow 1230 including the area or radius of the specific area 1210 and the number of each type of target site as feedback information may be displayed.

In one embodiment, when at least one group preset for a specific layer exists in the process of displaying the info window 1230, the status board processing unit 540 may independently provide the number of each type of target site for each at least one group. there is. That is, the user can set the group type for a specific layer through the group setting menu on the electronic map.

In FIG. 12, when 'energy source' is set as a group type and then area measurement or radius measurement is performed by designating a specific area 1210 on the electronic map, the information window 1230 is displayed as a result value set for the corresponding layer. The number of target sites may be displayed separately for each group type. That is, when a plurality of groups are set in one layer, the target sites existing in the corresponding area may be classified and displayed for each group type (group type 1 to group type n) in the info window 1230 .

That is, the resource management system 130 may provide a function of grouping resource distribution according to location characteristics according to the content of the layer, and provides the grouped analysis information as visualized information to analyze the target sites from various viewpoints. It can identify characteristics and operate to enable efficient analysis and management.

13 is a view for explaining an embodiment of the operation of the current status board processing unit according to the present invention.

Referring to FIG. 13 , the resource management system 130 detects the markers 1310 regarding the target site information existing in the screen area 1300 on the electronic map through the status board processing unit 540 of the resource data processing unit 330 . can The current status board processing unit 540 may determine whether or not the markers 1310 overlap each other based on the zoom level of the electronic map, and may group the overlapping markers 1310 into a marker group (A or B). The status board processing unit 540 determines the top marker for each marker group (A or B) as the representative marker 1330 of the corresponding marker group, and then displays each marker group (A) in the display process for the markers 1310 of the screen area 1300 . Alternatively, only the representative marker 1330 may be selectively displayed for B).

That is, the resource management system 130 renders only the area visible on the screen, and for markers overlapping according to the zoom level of the electronic map, excludes the invisible markers due to overlap from the rendering target on the electronic map. You can increase the rendering speed by making the markers appear faster on the . As a result, the performance of the resource management system 130 can be improved.

Although the above has been described with reference to the preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention within the scope without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that it can be done.

110: user terminal 130: resource management system
150: first external system 170: second external system
310: web service providing unit 330: resource data processing unit
350: database
900: webpage 910: data sheet interface
930: electronic map 950: info window
970: Destination Icon
1210: specific area 1230: info window
1300: screen area 1310: marker
1330: representative marker

Claims (10)

a web service providing unit that provides a web page including an electronic map to the user terminal, receives a photo file and a coordinate file on a resource management target area through the web page as inputs, and manages and provides resource management information;
As a result of mapping the electronic map and aerial photo, a resource map for the resource management target area is generated, target site information is generated based on the building ledger information, and the target site information is visualized and displayed on the electronic map, resource statistics information a resource data processing unit that provides; and
A database for storing map information including the resource map, the target site information, and the resource statistics information;
The web service providing unit includes a data visualization interworking unit that operates on the web page and interworks with the resource data processing unit to provide a data sheet interface of a table structure that can interact with target site information visualized on the electronic map,
The resource data processing unit includes a status board processing unit that provides feedback information in response to an interaction between the electronic map and a user,
When a button operation related to area or semi-measurement is detected along with the designation of a specific area on the specific layer of the electronic map, the information window including the area or radius of the specific area, and the number of each type of target site as the feedback information, as the feedback information ( infowindow), and if at least one group set by the user for the specific layer exists in the process of displaying the infowindow, the number of each type of target site is independently provided for each at least one group,
On the electronic map, markers related to the target site information existing in the screen area are detected, and whether or not the markers overlap each other is determined based on the zoom level of the electronic map, and the highest marker is assigned to each marker group in which the overlap occurs. After determining as the representative marker of the marker group, only the representative marker is selectively displayed for each marker group in the display process of the markers in the screen area,
The data visualization linkage unit
When a plurality of data in a table structure are sequentially selected through the data sheet interface, the target site icons associated with the data are sequentially highlighted on the electronic map, and the direction between the target site icons according to the selection order Connecting with a directed edge and giving the distance between the corresponding target icons as a weight for each direction edge,
The data visualization linkage unit
When a plurality of target site information visualized on the electronic map is sequentially selected, data related to the corresponding target site information is highlighted among the data in the table structure through the data sheet interface, and sorted according to the selection order. displayed at the top,
The web service providing unit further includes a target site management unit that provides functions of registering, modifying, deleting, and inquiring of the target site information through a third interface operating on the web page,
The site management unit
Provides a layer addition function for registration of the target site information,
The layer add function is
Function of inquiring latitude/longitude information based on the location value in the Excel file when latitude/longitude information does not exist in the Excel file in the process of receiving the Excel file created in the free format as input and registering the destination information including,
The resource data processing unit is
Based on the boundary between the photo file and the electronic map, when the rate of change of at least one of color and brightness exceeds a preset threshold value, the GIS-based renewable energy resource management system, characterized in that the image near the boundary is corrected .
According to claim 1, wherein the data visualization linkage unit
Converting target site information visualized on the electronic map into data of a table structure through the data sheet interface, or converting data of a table structure input through the data sheet interface into target site information visualized on the electronic map, ,
The data in the table structure is a GIS-based renewable energy resource management system, characterized in that it includes an internal link related to at least one of documents, images, and images related to the target site information.
According to claim 2, wherein the data visualization linkage unit
When any one of the data of the table structure is selected through the data sheet interface, an info-window of the destination information related to the data is overlaid and displayed on the electronic map,
When the internal link of the data is detected, the GIS-based renewable energy resource management system, characterized in that the display (display) the image or video through a specific area of the info window.
delete delete The method of claim 1, wherein the web service providing unit
a status board providing unit for receiving an input on the resource management target region through a first interface operating on the web page and providing resource status information;
a map management unit for receiving a photo file and a coordinate file for the resource management target area through a second interface operating on the web page and providing a map management function including map upload;
a resource statistics unit which graphically visualizes and provides the resource statistics information through a fourth interface operating on the web page; and
GIS, characterized in that it further comprises an operation management unit that provides user registration, correction, deletion and inquiry functions through a fifth interface operating on the web page and provides management functions including work history, data room and notices. based renewable energy resource management system.
delete delete delete A method using a resource management system including a web service providing unit, a resource data processing unit and a database, the method comprising:
uploading an aerial photographic map of a specific area to the resource management system;
calling an electronic map of the specific area in conjunction with a first external system;
mapping the aerial photographic map on the electronic map;
creating a destination registration folder and adding it to a list of favorites when there is no destination registration folder associated with the specific region;
registering target information on the electronic map; and
A target site information web page including the electronic map and a data sheet interface of a table structure that operates on the web page and interacts with the target site information visualized on the electronic map by interworking with the resource data processing unit are provided to the user terminal comprising the steps of
The resource data processing unit includes a status board processing unit that provides feedback information in response to an interaction between the electronic map and a user,
When a button operation related to area or semi-measurement is detected along with the designation of a specific area on the specific layer of the electronic map, the information window including the area or radius of the specific area, and the number of each type of target site as the feedback information, as the feedback information ( infowindow), and if at least one group set by the user for the specific layer exists in the process of displaying the infowindow, the number of each type of target site is independently provided for each at least one group,
On the electronic map, markers related to the target site information existing in the screen area are detected, and whether or not the markers overlap each other is determined based on the zoom level of the electronic map, and the highest marker is assigned to each marker group in which the overlap occurs. After determining as the representative marker of the marker group, only the representative marker is selectively displayed for each marker group in the display process of the markers in the screen area,
The web service providing unit includes a data visualization linkage that provides the table-structured data sheet interface,
The data visualization linkage unit
When a plurality of data in a table structure are sequentially selected through the data sheet interface, the target site icons associated with the data are sequentially highlighted on the electronic map, and the direction between the target site icons according to the selection order Connecting with a directed edge and giving the distance between the corresponding target icons as a weight for each direction edge,
The data visualization linkage unit
When a plurality of target site information visualized on the electronic map is sequentially selected, data related to the corresponding target site information is highlighted among the data in the table structure through the data sheet interface, and sorted according to the selection order. displayed at the top,
The web service providing unit further includes a target site management unit that provides functions of registering, modifying, deleting, and inquiring about the target site information,
The site management unit
Provides a layer addition function for registration of the target site information,
The layer add function is
Function of inquiring latitude/longitude information based on the location value in the Excel file when latitude/longitude information does not exist in the Excel file in the process of receiving the Excel file created in the free format as input and registering the destination information including,
The resource data processing unit is
Based on the boundary between the aerial photographic map and the electronic map, when the rate of change of at least one of color and brightness exceeds a preset threshold value, GIS-based renewable energy resource management, characterized in that the image near the boundary is corrected HOW TO PROVIDE INFORMATION.

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