KR-20260063350-A - GIS-based Mongolian mining platform mineral resources and transaction information transmission and reception system using terminals

Abstract

A system for transmitting and receiving mineral resource and transaction information based on a GIS-based Mongolian mining platform using a terminal is disclosed. A server capable of transmitting and receiving mineral resource and transaction information of a region according to an example of the present invention comprises: a database unit; and a processor controlling the database unit, wherein the processor comprises: a collection unit that collects at least one of exploration right information, mining right information, aerial imagery information, satellite imagery information, geological map information, geophysical exploration information, mineral distribution status information, drilling information, and sampling information of a sample from a target region to construct datasets for searching in relation to mining information for the region, and generates collected data including said datasets; a GIS file generation unit that creates GIS spatial data for the region based on said collected data; and a user interface unit that provides GIS spatial data corresponding to a signal received from a client terminal to a user, wherein the processor processes said GIS spatial data according to a request included in said signal and can provide said processed GIS spatial data in a differentiated manner depending on whether said client terminal is registered.

Inventors

• 조영주
• 최희경
• 김창희

Assignees

• 주식회사 이브이링크

Dates

Publication Date

20260507

Application Date

20241030

Claims (10)

1. In a server capable of transmitting and receiving regional mineral resource and trading information, Database section; and It includes a processor that controls the above-mentioned database unit, The above processor is, A collection unit that collects at least one of exploration right information, mining right information, aerial imagery information, satellite imagery information, geological map information, geophysical exploration information, mineral distribution status information, drilling information, and sample collection information of a target area to construct datasets for searching in relation to mining information regarding the above-mentioned area, and generates collected data including said datasets; A GIS file generation unit that creates GIS spatial data for the area based on the collected data above; and A user interface unit that provides GIS spatial data corresponding to a signal received from a client terminal to the user; comprising, The above processor is, Process the GIS spatial data according to the request included in the above signal, and Providing the processed GIS spatial data by differentiating it based on whether the above client terminal is registered, Server.
2. In claim 1, The above processor is, If the above client terminal is a registered terminal, the entire data of the above processed GIS spatial data is provided, and If the above client terminal is not a registered terminal, only summary data of the above processed GIS spatial data is provided. Server.
3. In claim 2, The above processor is, If the above client terminal is a registered terminal and the above signal does not include a request, at least one of the location information and history information of the above client terminal is obtained, and Based on at least one of the location information and history information of the client terminal, at least one of the datasets is automatically selected, and at least one of the search result according to the selected dataset and recommendation information according to the search result is provided through the user interface. Server.
4. In claim 3, The above processor is, When automatically selecting at least one of the above datasets, further refer to information regarding the dataset containing update information among the above datasets. Server.
5. In claim 4, The above update information includes, Includes information on geological distribution, mineral resource distribution, mining rights status, and exploration reports, as well as information on mineral trading status and fluctuations in mineral trading prices. Server.
6. In claim 2, The above processor is, If the above client terminal is a registered terminal and the above signal includes a request but there are multiple individuals, At least one of the location information and history information of the above client terminal is obtained, and Based on at least one of the location information and history information of the client terminal, a specific request among the plurality of requests is selected, at least one of the datasets corresponding to the selected request is automatically selected, and at least one of the search result according to the selected dataset and recommendation information according to the search result is provided through the user interface. Server.
7. In paragraph 1, The above GIS spatial data is, Vector data displayed on a map including at least one of a point, a line, and a polygon, and at least one of raster data that displays information as a grid of pixels in the form of aerial or satellite photographs, Server.
8. In Paragraph 7, The above GIS file generation unit is, When creating the above vector data, attribute information is linked and created by point, line, and polygon, Server.
9. A GIS platform server having the features of claim 1; and A client terminal that connects to the above-mentioned GIS platform server and requests and receives the target above-mentioned GIS spatial data; comprising System.
10. In Paragraph 9, The above GIS platform server is, If the above client terminal is a registered terminal, the entire data of the above processed GIS spatial data is provided, and If the above client terminal is not a registered terminal, only summary data of the above processed GIS spatial data is provided. System.

Description

GIS-based Mongolian mining platform mineral resources and transaction information transmission and reception system using terminals The present invention relates to a device and system for constructing a mining information platform that integrates the status of mineral resources, resource distribution maps, mineral deposit and mineral distribution, preliminary survey reports, geological maps, exploration information, and mining cadastral information based on GIS and domains, and for transmitting and receiving mineral resource and transaction information through a GIS-based Mongolian mining platform using a terminal. GIS (Geographic Information System) is a geographic information system that creates a database of various geographic information collected from a region, analyzes and processes it using a computer, and enables it to be utilized in various ways in real life. In addition, smart mining refers to a mining operation system that utilizes advanced technologies of the Fourth Industrial Revolution, such as IoT and big data, to increase the efficiency and safety of mineral production. In highly mechanized modern mining sites, productivity and safety are considered important when operating mining equipment. Additionally, navigation systems combining routing, tracking, and display have been developed and introduced into the mining sector for efficient transportation, but information regarding extracted materials, such as resource distribution in areas where mining is active, is not available. In particular, in Mongolia, an underdeveloped resource-rich country with a developed mining industry, access to most data—ranging from basic to in-depth information regarding resource distribution, mineral deposits, and mines—is restricted and closed off. Therefore, there is a need to develop a system capable of sharing information on low-grade rare metal ores in the New Northern regions, which lack sufficient information and communication infrastructure. FIG. 1 is a structural diagram of a GIS platform server according to one embodiment of the present invention. FIG. 2 is a diagram showing information about a specific mineral deposit distribution in the form of a GIS platform server according to an embodiment of the present invention. FIG. 3 is a structural diagram of a system according to one embodiment of the present invention. Figure 4 is an example diagram of the construction of an Open API-based GIS platform of the present invention. Figure 5 is a diagram illustrating the structure of the main information service of the GIS platform system of the present invention. FIG. 6 is a flowchart illustrated to explain an example of a service provision method in a GIS platform system according to the present invention. FIG. 7 is a flowchart illustrated to explain another example of a service provision method in a GIS platform system according to the present invention. Throughout this specification, terms such as “unit,” “device,” and “system” refer to a unit that processes an operation combining one or more functions, and this may be implemented in hardware, software, or a combination of hardware and software. Terms such as "part," "device," and "system" as used in this specification may be treated as equivalent to computer-related entities, namely hardware, combinations of hardware and software, software, or software at runtime. Additionally, the application program executed in the present invention may be organized into "part" units and may be recorded in a single physical memory in a form that allows reading, writing, and erasing, or may be recorded distributed across two or more memories or recording media. Hereinafter, the present invention will be described with reference to the attached drawings. FIG. 1 shows the structure of a GIS (Geographic Information System) platform server (10) according to one embodiment of the present invention. The GIS platform server (10) according to the present invention can provide a service by producing a mining information platform and a map thereon that integrates the status of mineral resources, resource distribution map, mineral deposit and mineral distribution, preliminary survey report, geological map, exploration information, mining cadastral information, etc. of a target area (e.g., a requested area) based on GIS and a domain. In the present invention, GIS refers to a geographic information system as described above, which is a system created to utilize various aspects of real life by database-ing various geographic information collected from a target area and analyzing and processing it through a computing device. It digitizes geospatial information of the entire country to create a digital map, and utilizes various information and communication technologies to facilitate the development of potential ore deposits and mineral resources, particularly in the Mongolian region, as well as for research and mining services in the corresponding region. Referring to FIG. 1, the GIS pla