KR102656195B1 - Method for providing mountain ridge address information and apparatus for the same - Google Patents

Abstract

According to various embodiments of the present invention, by applying a method and a device for providing mountain range address information, efficient mountain range address information is provided for location specification or search in mountainous terrain for a point selected by the user, and a plurality of mountain range hierarchies and mountain ranges are provided. By assigning a unique code using a section or branch point, mountain range address information that expresses the complex mountain range structure accurately and in detail can be created and provided.

Description

Method for providing mountain range address information and device therefor {METHOD FOR PROVIDING MOUNTAIN RIDGE ADDRESS INFORMATION AND APPARATUS FOR THE SAME}

The present invention relates to a method and device for providing mountain range address information.

The content described in this section simply provides background information for this embodiment and does not constitute prior art.

The street number address searches for a large range (region, district) to which the destination belongs, and then searches for a smaller range within it by street number (planar area concept - hierarchical structure based on physical area).

Road name addresses are searched for the large range (region, district) to which the destination belongs, and small ranges are searched by considering the continuity of building numbers based on the location of the road (linear continuity concept - numbers are given at regular intervals based on the road). .

The hierarchy of road name addresses is divided into “boulevard,” “road,” and “road,” and the standard is the width of the road (boulevard: 40 m wide or 8 lanes or more, road: 12 to 40 m wide or 2 to 7 lanes, road: boulevard and ro other roads).

The existing street number address system or road name address system has problems in expressing the location of wind power plants and CCTVs on mountain ridges, and when a forest fire occurs, there are difficulties in communication between the command center and on-site personnel regarding the location of the forest fire.

There is a need for a management system centered on mountain ranges or mountain range sections for various information located on mountainous areas.

Republic of Korea Patent Publication No. 10-2518134 (2023.03.31)

The purpose of the present invention is to provide a method and device for providing mountain range address information that can efficiently provide mountain range address information for location identification or search in mountainous terrain for a point selected by a user.

The purpose of the present invention is to provide mountain range address information that can generate and provide mountain range address information that accurately and detailedly expresses the complex mountain range structure by assigning a unique code using mountain range sections or branch points classified according to a plurality of hierarchies. The purpose is to provide a provision method and a device for this.

Other unspecified objects of the present invention can be additionally considered within the scope that can be easily inferred from the following detailed description and its effects.

An apparatus for providing mountain range address information according to an embodiment of the present invention for achieving the above-described object includes a memory storing one or more programs for providing mountain range address information; and one or more processors that perform operations according to the one or more programs, wherein the operations performed by the processors include: acquiring geographic information corresponding to a point selected by the user from an external user terminal; and generating mountain range address information corresponding to the point selected by the user using the geographical information based on at least one of the size of the mountain range, the area where the mountain range is located, or the name of a watershed adjacent to the mountain range. there is.

The step of generating mountain range address information corresponding to the point selected by the user includes classifying the plurality of mountain ranges into a plurality of mountain range sections according to a plurality of hierarchies based on the connection relationship between the mountain range sections; And generating the mountain range address information by determining a mountain range code based on a plurality of mountain range hierarchies for each section where the mountain range branches.

The step of generating the mountain range address information by determining a mountain range code based on the plurality of mountain range hierarchies for each section where the mountain range branches includes adding a basic code to a first hierarchical mountain range among the plurality of mountain range hierarchies; generating a first mountain range code for the first hierarchical mountain range by adding an additional code to the basic code whenever it branches from the first hierarchical mountain range to a mountain range section of a lower hierarchy than the first hierarchical mountain range; and generating a second mountain range code for a mountain range branching from the first hierarchical mountain range, which is determined based on at least a portion of the first mountain range code.

The step of adding a basic code to a first hierarchical mountain range among the plurality of mountain range hierarchies may cause the first hierarchical mountain range to branch into different first hierarchical mountain ranges, or create a branch from the first hierarchical mountain range to a lower hierarchy than the first hierarchical mountain range. When branching into a mountain range section, different basic codes are added.

The additional code is a first additional code added to a mountain range section divided into mountain range sections of a lower hierarchy than the first hierarchy mountain range, among a plurality of mountain range sections included in the first hierarchy mountain range, or a lower hierarchy mountain range than the first hierarchy mountain range. It is characterized in that it includes a second additional code added to the mountain range section including the branch point where the mountain range section of the hierarchy branches off.

The second additional code is characterized in that it has different values based on the branch point.

The step of generating the second mountain range code is characterized by generating a third additional code to at least a portion of the first mountain range code.

The step of generating the second mountain range code includes adding a different third additional code to each different mountain range section of the same hierarchy when different mountain range sections of the same hierarchy branch from the first hierarchy mountain range. do.

The step of generating mountain stream address information corresponding to the point selected by the user is characterized by generating the mountain stream address information based on the name of at least one watershed located within a predetermined distance in the mountain stream section.

The step of generating mountain range address information corresponding to the point selected by the user includes dividing the left or right slope of the mountain range section into a plurality of ridge grids, and dividing the plurality of ridge grids into a first direction and the first direction. Splitting in a second direction different from the first direction, assigning a grid unique number to the plurality of divided ridge grids, and generating detailed location information determined based on the grid unique number; characterized in that it further comprises a. .

In order to achieve the above-described object, it is performed in a device including a memory that stores one or more programs for providing mountain range address information and one or more processors that perform operations according to the one or more programs. A method of providing mountain range address information includes obtaining geographical information corresponding to a point selected by a user from an externally located user terminal; and generating mountain range address information corresponding to the point selected by the user using the geographical information based on at least one of the size of the mountain range, the area where the mountain range is located, or the name of a watershed adjacent to the mountain range. there is.

The step of generating mountain range address information corresponding to the point selected by the user includes classifying the plurality of mountain ranges into a plurality of mountain range sections according to a plurality of hierarchies based on the connection relationship between the mountain range sections; And generating the mountain range address information by determining a mountain range code based on the plurality of mountain range hierarchies for each section where the mountain range branches.

The step of generating the mountain range address information by determining a mountain range code based on the plurality of mountain range hierarchies for each section where the mountain range branches includes adding a basic code to a first hierarchical mountain range among the plurality of mountain range hierarchies; generating a first mountain range code for the first hierarchical mountain range by adding an additional code to the basic code whenever it branches from the first hierarchical mountain range to a mountain range section of a lower hierarchy than the first hierarchical mountain range; and generating a second mountain range code for a mountain range branching from the first hierarchical mountain range, which is determined based on at least a portion of the first mountain range code.

A computer program according to an embodiment of the present invention for achieving the above-described object is stored in a computer-readable recording medium and executes any one of the above-described mountain range address information providing methods on the computer.

In order to achieve the above-described purpose, the mountain range address information providing system according to an embodiment of the present invention acquires geographical information corresponding to the point selected by the user from the outside, and determines the size of the mountain range, the area where the mountain range is located, or adjacent to the mountain range. a mountain range address information providing device that generates mountain range address information corresponding to a point selected by the user using the geographical information based on at least one of the names of the basins; and receiving information about the point selected by the user, transmitting information about the point selected by the user to the mountain range address information providing device, and receiving and displaying the mountain range address information from the mountain range address information providing device. It may include a user terminal.

As described above, according to an embodiment of the present invention, by applying a method and a device for providing mountain range address information, efficient mountain range address information can be provided for location specification or search in mountainous terrain for a point selected by the user. .

In addition, according to an embodiment of the present invention, by applying a method and device for providing mountain range address information, a complex mountain range structure can be expressed accurately and in detail by assigning a unique code using a plurality of mountain range hierarchies, mountain range sections, or branch points. Mountain range address information can be created and provided.

Even if the effects are not explicitly mentioned here, the effects described in the following specification and their potential effects expected by the technical features of the present invention are treated as if described in the specification of the present invention.

Figure 1 is a diagram for explaining the necessity of mountain range address information provided by the mountain range address information providing device according to the present invention.
Figure 2 is a diagram illustrating a mountain range section divided according to a plurality of hierarchies in order to generate a mountain range code in a mountain range address information providing device according to an embodiment of the present invention.
Figure 3 is a diagram showing that each mountain range section is divided into one or multiple hierarchies.
Figure 4 is a diagram for explaining a plurality of hierarchies used to distinguish mountain range sections in a mountain range address information providing device according to an embodiment of the present invention.
FIG. 5 is a diagram illustrating generating a basic code in a mountain range address information providing device according to an embodiment of the present invention.
FIG. 6 is a diagram illustrating the generation of a first additional code and a second additional code added to the basic code in a mountain range address information providing device according to an embodiment of the present invention.
FIG. 7 is a diagram illustrating the generation of a third additional code added to the basic code in the mountain range address information providing device according to an embodiment of the present invention.
Figures 8 to 11 are diagrams sequentially showing determining a mountain range code for each mountain range section in a mountain range address information providing device according to an embodiment of the present invention.
FIG. 12 is a diagram illustrating assigning an administrative district name to a mountain range section in a mountain range address information providing device according to an embodiment of the present invention.
Figures 13 and 14 are diagrams for explaining the creation of mountain range address information in a mountain range address information providing device according to another embodiment of the present invention.
15 to 18 are diagrams sequentially showing the generation of mountain range address information in a mountain range address information providing device according to another embodiment of the present invention.
Figures 19 and 21 are diagrams for explaining the creation of detailed location information in a mountain range address information providing device according to another embodiment of the present invention.
Figure 22 is a diagram for explaining the configuration of a mountain range address information providing device according to an embodiment of the present invention.
Figure 23 is a flowchart for explaining a method of providing mountain range address information according to an embodiment of the present invention.
Figure 24 is a diagram for explaining the configuration of a system for providing mountain range address information according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached drawings. The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and may be implemented in various different forms. The present embodiments are merely intended to ensure that the disclosure of the present invention is complete, and that the present invention is not limited to the embodiments disclosed below and is provided by those skilled in the art It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used with meanings that can be commonly understood by those skilled in the art to which the present invention pertains. Additionally, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless clearly specifically defined.

The terminology used in this application is for the purpose of describing particular embodiments only and is not intended to limit the invention. The singular terms include plural expressions unless the context clearly dictates otherwise. In this application, terms such as “have,” “may have,” “includes,” or “may include” refer to features, numbers, steps, operations, components, parts, or combinations thereof described in the specification. It is intended to specify the existence, but should be understood as not excluding in advance the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof. Terms containing ordinal numbers, such as second, first, etc., may be used to describe various components, but the components are not limited by the terms.

The above terms are used only for the purpose of distinguishing one component from another. For example, the second component may be referred to as the first component without departing from the scope of the present invention, and similarly, the first component may also be referred to as the second component. The term and/or includes any of a plurality of related stated items or a combination of a plurality of related stated items.

In this specification, identification codes (e.g., a, b, c, etc.) for each step are used for convenience of explanation. The identification codes do not describe the order of each step, and each step is clearly understood in the context. Unless a specific order is specified, events may occur differently 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 opposite order.

Additionally, the term '~unit' used in this specification may refer to software or hardware components such as FPGA (field-programmable gate array) or ASIC, and the '~unit' performs certain roles. However, '~part' is not limited to software or hardware. The '~ part' may be configured to reside in an addressable storage medium and may be configured to reproduce on one or more processors. Therefore, as an example, '~ part' refers to components such as software components, object-oriented software components, class components, and task components, processes, functions, properties, and procedures. , subroutines, segments of program code, drivers, firmware, microcode, circuits, data structures, and variables. The functions provided within the components and 'parts' may be combined into a smaller number of components and 'parts' or may be further separated into additional components and 'parts'.

Hereinafter, various embodiments of a method for providing mountain range address information and a device therefor according to the present invention will be described in detail with reference to the attached drawings.

Figure 1 is a diagram for explaining the necessity of mountain range address information provided by the mountain range address information providing device according to the present invention.

There is a need for research and development of a new mountain range address system that is easy to manage facilities located in the mountain range section (ridge), manage events in the mountain area based on the mountain range section, and manage slopes based on the mountain range section.

A mountain range section without hierarchy means that each mountain range section exists individually without any hierarchy.

The mountain range starts from Baekdu Mountain or Baekdudaegan and continues until it meets the sea or water (directional). In the present invention, the point where a mountain range branches off into a new mountain range is called a branch point. A mountain range section without hierarchy branches into a new mountain range section whenever it encounters a fork, regardless of hierarchy.

A multi-level hierarchical mountain range section can represent individual mountain range sections that are hierarchically divided. The multi-level hierarchical mountain range section can divide Baekdudaegan into individual sections subdivided according to hierarchy.

Therefore, the device and method for providing mountain range address information according to the present invention generate mountain range address information using a multi-layer hierarchical mountain range section classification method.

Figure 2 is a diagram illustrating a mountain range section divided according to a plurality of hierarchies in order to generate a mountain range code in a mountain range address information providing device according to an embodiment of the present invention.

The method of providing mountain stream address information may be performed in a device that includes a memory that stores one or more programs for providing mountain stream address information and one or more processors that perform operations according to one or more programs. For example, the method of providing mountain range address information can be performed by the mountain range address information providing device that will be explained with reference to FIG. 22.

The processor may classify multiple mountain ranges into multiple mountain range hierarchies based on the size of the mountain ranges. For example, the processor may use satellite images of the Korean Peninsula or DEM information of mountain ranges to classify multiple mountain ranges into a plurality of mountain range hierarchies based on the size of the mountain ranges. When classifying multiple mountain ranges into multiple mountain range hierarchies, the processor may classify them using an administrative district system.

The processor may determine at least one of the following: the area of land covered by the mountain range, the length from the start point of the mountain range to the end point, the number of branch points included by the mountain range, the location of the mountain range, the connectivity of the mountain range, the relationship between the mountain range and administrative districts, or the environmental characteristics of the mountain range. Multiple mountain ranges can also be classified into a mountain range hierarchy using .

In the present invention, a mountain range is a part with relatively higher topographical characteristics than the surrounding area, and may mean a watershed that divides two or more watersheds. Additionally, a mountain range may mean the source of a river or stream, and a mountain range may be a mountain range or a part of a mountain range, but is not necessarily limited to this.

Referring to Figure 2, the processor can divide the mountain ranges existing on the Korean Peninsula into mountain range sections according to seven hierarchies.

For example, based on the relationship between the Korean Peninsula and the sea, the watershed that divides the east and west of the Korean Peninsula (Baekdudaegan) and the eight major rivers (Han River, Nakdong River, Geumgang, Seomjin River, Imjin River, Daedong River, Yalu River, and Duman River) that originate in the Baekdudaegan and meet the sea. (Main Mountain Range) can be classified as a first-tier mountain range (national mountain range).

According to the Baekdudaegan Protection Act, the Baekdudaegan Mountain Range according to the present invention may refer to a mountain range that starts from Baekdu Mountain and continues through Geumgang Mountain, Seorak Mountain, Taebaek Mountain, and Sobaek Mountain to Jiri Mountain.

In addition, the vein according to the present invention may refer to a mountain range specified by Presidential Decree that branches off from the Baekdudaegan and forms the watershed of a major river in accordance with the Baekdudaegan Protection Act. The first-tier mountain range may be a mountain range that semantically or categorically overlaps with at least one of the second-tier mountain range, the third-tier mountain range, the fourth-tier mountain range, the fifth-tier mountain range, the sixth-tier mountain range, and the seventh-tier mountain range. .

The second-tier mountain range (metropolitan mountain range) is connected to the first-tier mountain range and may refer to a mountain range that penetrates the interior of a metropolitan city or crosses between adjacent metropolitan cities. The second hierarchy mountain range may be a mountain range that semantically or categorically overlaps with at least one of a third hierarchy mountain range, a fourth hierarchy mountain range, a fifth hierarchy mountain range, a sixth hierarchy mountain range, or a seventh hierarchy mountain range.

A third-tier mountain range (regional mountain range) is connected to a first-tier mountain range or a second-tier mountain range, and may refer to a mountain range that penetrates the interior of a city or province or crosses between different adjacent provinces and cities. The third hierarchy mountain range may be a mountain range that semantically or categorically overlaps with at least one of the fourth hierarchy mountain range, the fifth hierarchy mountain range, the sixth hierarchy mountain range, and the seventh hierarchy mountain range.

The 4th tier mountain range (si/county/gu mountain range) is connected to the 1st tier mountain range, 2nd tier mountain range, or 3rd tier mountain range, and may refer to a mountain range that penetrates the inside of the city/gun/gu or crosses between different adjacent cities/county/gu. The fourth hierarchy mountain range may be a mountain range that semantically or categorically overlaps with at least one of the fifth hierarchy mountain range, the sixth hierarchy mountain range, and the seventh hierarchy mountain range.

The 5th tier mountain range (eup/myeon-dong mountain range) is connected to the 1st tier mountain range, 2nd tier mountain range, 3rd tier mountain range, or 4th tier mountain range, and may refer to a mountain range that penetrates the inside of an eup/myeon-dong or crosses between different towns/dongs. . The 5th hierarchy mountain range may be a mountain range that semantically or categorically overlaps with at least one of the 6th hierarchy mountain range or the 7th hierarchy mountain range.

The 6th tier mountain range (Dong-ri mountain range) refers to the 1st tier mountain range, 2nd tier mountain range, 3rd tier mountain range, 4th tier mountain range, or 5th tier mountain range refers to a mountain range that penetrates the inside of a dong-ri or crosses between different adjacent dongris. can do. The 6th hierarchy mountain range may be a mountain range that overlaps the 7th hierarchy mountain range semantically or categorically.

In other words, the processor can classify multiple mountain range hierarchies so that they overlap with each other.

The 7th hierarchy mountain range may refer to a mountain range that does not correspond to any one of the 1st hierarchy mountain range, the 2nd hierarchy mountain range, the 3rd hierarchy mountain range, the 4th hierarchy mountain range, the 5th hierarchy mountain range, and the 6th hierarchy mountain range. The 7th tier mountain range may refer to a mountain range that is smaller in scale than the 6th tier mountain range.

Figure 3 is a diagram showing that each mountain range section is divided into one or multiple hierarchies.

A mountain range section that exists only in one hierarchy is called a single-layered hierarchical mountain range section.

The fault hierarchical mountain range section is divided from the upper hierarchy to the lower hierarchy. When a second lower mountain range is encountered in the same mountain range section as the upper level, a new mountain range section is created. The secondary mountain ranges that are created by branching sideways from the upper hierarchy also create new mountain range sections. At this time, new unit mountain range sections on the same hierarchy are gathered to form a single-layer hierarchical mountain range section (excluding duplication). By repeatedly applying the above process, the entire mountain range section is divided into only one hierarchy.

Although it is a single mountain range section, it is divided into one or multiple hierarchies and is called a multi-level hierarchical mountain range section.

The multi-level hierarchical mountain range section is divided from the upper hierarchy to the lower hierarchy. When a second lower mountain range is encountered in the same mountain range section as the upper level, a new mountain range section is created. The secondary mountain ranges that are created by branching sideways from the upper hierarchy also create new mountain range sections. At this time, along with the individual mountain range sections, a new unit mountain range section on the same hierarchy is configured as a multi-layer hierarchical mountain range section. By repeatedly applying the above process, the entire mountain range section is divided into one or multiple hierarchies that are overlapped or overlapped.

Figure 4 is a diagram for explaining a plurality of hierarchies used to distinguish mountain range sections in a mountain range address information providing device according to an embodiment of the present invention.

The processor acquires geographical information corresponding to the point selected by the user from an externally located user terminal (S100) and geographical information based on at least one of the size of the mountain range, the area where the mountain range is located, or the name of the watershed adjacent to the mountain range. Operations including the step of generating mountain range address information corresponding to the point selected by the user (S200) can be performed.

In the step of generating mountain range address information corresponding to the point selected by the user (S200), the processor classifies a plurality of mountain ranges into a plurality of mountain range sections according to a plurality of hierarchies based on the connection relationships between mountain range sections, and the mountain ranges branch. Operations may be performed including generating mountain range address information by determining a mountain range code based on a plurality of mountain range hierarchies for each section.

In the present invention, the mountain range address information providing device can assign a mountain range code, which is a unique number, to each hierarchical mountain range section that is the subject of address assignment. Because mountain range sections are hierarchically divided, codes can be assigned cumulatively, starting from the highest level and ending at the lowest level.

In the present invention, a first additional code, a second additional code (e.g., P(revious) code), or a third additional code are used to distinguish between a mountain range section in which the same mountain range section is subdivided and a new mountain line section that expands laterally in the form of branches. A code (e.g., N(ew) code) may be used.

FIG. 5 is a diagram illustrating generating a basic code in a mountain range address information providing device according to an embodiment of the present invention.

The processor generates mountain range address information by determining a mountain range code based on a plurality of mountain range hierarchies for each section where the mountain range branches, adding a basic code to the first hierarchy among the plurality of mountain range hierarchies, a first step; A step of generating a first mountain range code for the first hierarchical mountain range by adding an additional code to the basic code whenever the hierarchical mountain range branches to a mountain range of a lower hierarchy than the first hierarchical mountain range, and a step of generating a first mountain range code for the first hierarchical mountain range, and providing a code for the mountain range branched from the first hierarchical mountain range. Operations may be performed including generating a second mountain range code determined based on at least a portion of the first mountain range code.

In the step of adding basic code to a first hierarchy among a plurality of mountain range hierarchies, the processor branches off the first hierarchy into a different first hierarchy, or branches from the first hierarchy into a hierarchy lower than the first hierarchy. If applicable, different basic codes can be added.

Here, the first hierarchical mountain range may mean any one of the mountain range hierarchies excluding the seventh hierarchical mountain range among the first to seventh hierarchical mountain ranges explained through FIG. 2.

The processor can divide the first hierarchy, which is the highest hierarchy, into sections into a branch point of the same hierarchy and a branch point of the next lower hierarchy.

The processor may assign mountain range sections included in a mountain range corresponding to one of the first hierarchical mountain ranges as basic codes using numbers corresponding to the range starting from 001 to 999. For example, the processor may assign basic codes to mountain range sections included in the Baekdudaegan Mountain Range starting from 001 to 999.

The sections (veins) extending from the Baekdudaegan can be given basic codes with different hundreds, such as the 100th or 200th range. For the first tier mountain range sections that branch thereafter, up to 199 and 299 can be sequentially assigned.

However, the basic code is not necessarily limited to being assigned only to the 1st hierarchy, and may be assigned to other hierarchical ridges if not the 7th hierarchy.

Additionally, the number given as the basic code is not limited to the hundreds digit, and may be given as other numbers with more than the thousand digit.

FIG. 6 is a diagram illustrating the generation of a first additional code and a second additional code added to the basic code in a mountain range address information providing device according to an embodiment of the present invention.

In the drawing of the present invention, the first hierarchical mountain range may represent a mountain range whose hierarchy is greater (higher level) than the second hierarchical mountain range, and the second hierarchical mountain range may represent a mountain range whose hierarchy is greater (higher level) than the third hierarchical mountain range. .

The additional code refers to a first additional code added to a mountain range section that is divided into mountain range sections of a lower hierarchy than the first hierarchy mountain range, among a plurality of mountain range sections included in the first hierarchy mountain range, or a mountain range section of a lower hierarchy than the first hierarchy mountain range. It may be one of the second additional codes added to the mountain range section including the branching point.

The second additional code may have different values based on the branch point.

The first additional code may be indicated as P0, P00, or P000, etc., and the second additional code may be indicated as P01, P02, ... PNNN, etc. That is, the first additional code may be a code that does not include integers other than 0.

When lowered to the next lower level, the processor may grant a first additional code or a second additional code depending on the segmentation of the same mountain range section.

As the upper mountain range section is subdivided according to hierarchy, the processor may add a new code of the corresponding hierarchy to the mountain range code of the upper hierarchy.

When divided within the same mountain range section as the upper mountain range, the first or second additional code assigned may include P (Previous), but is not necessarily limited thereto and may be distinguished from the symbol included in the third additional code. Other symbols may also be used.

When writing a code for a new hierarchy, if the code comes down to the same mountain range section, the first additional code can be created by adding 00 to P. When writing a new hierarchical code, if a section is divided within the same mountain range section, a second additional code can be created by attaching serial numbers such as 01, 02, ... NN to P in the order of the direction of progress.

FIG. 7 is a diagram illustrating the generation of a third additional code added to the basic code in the mountain range address information providing device according to an embodiment of the present invention.

In the step of generating the second mountain line code, the processor may generate the second mountain line code by adding a third additional code to at least a portion of the first mountain line code.

In the step of generating the second mountain range code, if different mountain range sections of the same hierarchy branch from the first hierarchical mountain range, the processor adds a different third additional code to each different mountain range section of the same hierarchy to generate the second mountain range code. can be created.

The processor may generate a third additional code including N (New) to be added to the second mountain range code, which is a mountain range code of a mountain range section extending from the mountain range in the form of a branch.

The third additional code may include N, but is not necessarily limited thereto, and other symbols that can be distinguished from the symbols included in the first additional code or the second additional code may be used.

The second additional code can be generated by adding a serial number starting from 1, starting from the branch point that connects to the upper hierarchical mountain range, together with N.

If the mountain range extending from the upper hierarchy branches to the left and right, the processor searches to the right first and assigns a serial number. When it reaches the end, it can assign serial numbers to the first branching point while assigning numbers to the left from the end.

Figures 8 to 11 are diagrams sequentially showing determining a mountain range code for each mountain range section in a mountain range address information providing device according to an embodiment of the present invention.

Figure 8 is a diagram showing that the processor determines a mountain line code for the first hierarchical mountain line.

FIG. 9 is a diagram showing that the processor determines a mountain range code for a first hierarchical mountain range and then determines a mountain range code for a second hierarchical mountain range. Referring to FIG. 9 , it can be seen that a first additional code or a second additional code has been added to the mountain range code for which only the basic code has been generated for the first hierarchical mountain range in step 8 of FIG.

FIG. 10 is a diagram illustrating that the processor determines a third hierarchical mountain range code following determining a mountain stream code for the second hierarchical mountain range. Referring to FIG. 10, in step 9, the first additional code or the second additional code is added to the basic code and one first additional code or second additional code to the first hierarchical mountain line. You can see that has been added.

That is, in the mountain line code according to the present invention, a first additional code or a second additional code may be added as many as the number of lower hierarchical mountain lines.

Referring to FIG. 10, '201-P00-P00' is a basic code of '201' with a first additional code (P00) added twice as a result of assigning mountain range codes to the second and third hierarchy mountain ranges. It is a form.

If the first hierarchy mountain range is the first hierarchy mountain range and mountain range codes are assigned sequentially from the first hierarchy mountain range to the seventh hierarchy mountain range, the mountain range code '201-P00-P00' shown in FIG. 10 is '201-P00- It can be 'P00-P00-P00-P00-P00'. In this case, '201-P00-P00-P00-P00-P00-P00' may be provided as the entire mountain range address, but all codes except the basic code may be provided without it.

Referring to FIG. 11, a mountain range section with a hierarchy below the first hierarchy mountain range will be exemplarily described.

Looking at the mountain range code '201-N01' shown in FIG. 11, since it is a mountain range newly branched between a mountain range section with a mountain range code '201' and a mountain range section with a mountain range code '202', the basic code '201' is used. It has a mountain range code that includes:

The processor detects a branch point between the first mountain range section and the second mountain range section (since the mountain range sections are divided by the branch point, one branch point is naturally included between the first mountain range section and the second mountain range section, and the first mountain range section and the second mountain range section is divided by a single branch point), the mountain range code of the mountain range section branching out can be determined based on the mountain range code corresponding to the lower number of the first mountain range section and the second mountain range section. That is, the processor configures the mountain range code of the mountain range section branching from the branch point between the first mountain range section and the second mountain range section to include at least part of the mountain code of the mountain range section to which the mountain range code was assigned first among the first mountain range section and the second mountain range section. You can decide.

Referring to FIG. 11, '201-N01-N01' was decided to include '201-N01' because it branched from the branch point between '201-N01' and '201-N02'.

Referring to FIG. 11, when the second additional code is repeated because no additional branching occurs even when the mountain range section is descended to the mountain range section unit of the lower hierarchy, the repeated second additional code can be omitted to simplify.

FIG. 12 is a diagram illustrating assigning an administrative district name to a mountain range section in a mountain range address information providing device according to an embodiment of the present invention.

In the step of generating mountain range address information corresponding to the point selected by the user (S200), the processor generates mountain range address information using the district name of the administrative district that includes a larger portion of the mountain range section based on the boundary of the administrative district. You may.

For example, referring to Figure 12, a mountain range with a basic code of '201' is partially included in the administrative district 'Gangwon', but a larger portion is included in the administrative district 'Gyeonggi', so it includes more parts. You can create mountain range address information using the administrative district name 'Gyeonggi' and the default code '201'.

Figures 13 and 14 are diagrams for explaining the creation of mountain range address information in a mountain range address information providing device according to another embodiment of the present invention. 15 to 18 are diagrams sequentially showing the generation of mountain range address information in a mountain range address information providing device according to another embodiment of the present invention.

In the step of generating mountain stream address information corresponding to the point selected by the user (S200), the processor may generate mountain stream address information based on the name of at least one watershed located within a predetermined distance from the mountain stream section. .

The processor can generate mountain range address information using the left and right basin place names as unique place names.

Since the mountain range section has basin place names on the left and right depending on the context of the mountainous terrain, a place name combining the left and right place names can be used as a unique place name.

There are many cases where mountain range sections in the hierarchy below town and township do not have watershed names, and if too many different place names are given to each mountain range section, confusion may arise in their use.

Accordingly, among a plurality of mountain range hierarchies, mountain range address information can be generated by introducing a serial number for a mountain range section below a predetermined hierarchy.

Figures 19 and 21 are diagrams for explaining the creation of detailed location information in a mountain range address information providing device according to another embodiment of the present invention.

Referring to FIG. 19, the processor may divide the mountain range section into predetermined intervals to generate detailed location information included in the mountain range address information. Subsequently, the processor may generate a triangle based on the divided mountain range section, using both end points of the mountain range section and the point closest to the stream adjacent to the mountain range section based on the center point of the divided section as vertices.

Next, the processor selects both endpoints of the mountain range section, among the divided mountain range sections of the mountain range section, among the vertices used by the triangle created from the first divided mountain range section, the vertex included in the river, and the vertex used by the triangle created from the last divided mountain range section. You can create a polygonal slope using the vertices included in the river.

Next, the processor selects a first line connecting both end points (A1, A2) of the mountain range section, one end point of the mountain range section, and the vertices used by the triangle created from the first divided mountain range section among the divided mountain range sections of the mountain range section, to the river. The second line connecting the included vertex (B1), the other end points of the mountain range section, and the vertices (B2) included in the river among the vertices used by the triangle created from the last divided mountain range section among the divided mountain range sections of the mountain range section. Among the connecting third lines and the divided mountain range sections, the vertex (B1) included in the river among the vertices used by the triangle created from the first divided mountain range section and the triangle created from the last divided mountain range section among the divided mountain range sections Among the vertices used, the area formed by the fourth line connecting the vertex (B2) included in the river along the river can be created.

Referring to Figures 20 and 21, the processor may divide the area created through the process of Figure 19 into a plurality of sections (ridges) to generate detailed location information of mountain range information.

Referring to Figures 20 and 21, detailed location information may be generated based on the first direction (for example, to the right) based on the direction of movement of the mountain range section, but is not necessarily limited to this, and the direction of movement of the mountain range section may be generated. Detailed location information may be generated based on a direction opposite to the first direction (for example, left).

Figure 22 is a diagram for explaining the configuration of a mountain range address information providing device according to an embodiment of the present invention.

The mountain range address information providing device 100 includes at least one processor 110, a computer-readable storage medium 120, a communication bus 150, and an artificial intelligence-based processing unit 160.

The processor 110 can be controlled to operate as the mountain range address information providing device 100. For example, the processor 110 may execute one or more programs 121 stored in the computer-readable storage medium 120. One or more programs 121 may include one or more computer-executable instructions, and when executed by the processor 110, the computer-executable instructions cause the mountain stream address information providing device 100 to operate according to an exemplary embodiment. It can be configured to perform these.

Computer-readable storage medium 120 is configured to store computer-executable instructions or program code, program data, and/or other suitable form of information. Computer-executable instructions, program code, program data, and/or other suitable forms of information may also be provided through input/output interface 130 or communication interface 140. The program 140 stored in the computer-readable storage medium 120 includes a set of instructions executable by the processor 110. In one embodiment, computer-readable storage medium 120 includes memory (volatile memory, such as random access memory, non-volatile memory, or an appropriate combination thereof), one or more magnetic disk storage devices, optical disk storage devices, flash It may be memory devices, other types of storage media that can be accessed by the mountain stream address information providing device 100 and store desired information, or a suitable combination thereof.

Communication bus 150 interconnects various other components of mountain stream address information providing device 100, including processor 110 and computer-readable storage medium 120.

The mountain range address information providing device 100 may also include one or more input/output interfaces 130 and one or more communication interfaces 140 that provide interfaces for one or more input/output devices. The input/output interface 130 and communication interface 140 are connected to the communication bus 150. An input/output device (not shown) may be connected to other components of the mountain range address information providing device 100 through the input/output interface 130.

The artificial intelligence-based processing unit 160 may perform operations to generate mountain range address information with the processor 110 in conjunction with the processor 110. For example, the artificial intelligence processing unit 160 may perform operations related to artificial intelligence in conjunction with the processor 110 while the processor 110 performs operations required for the method of providing mountain range address information.

For example, the processor 110 may obtain geographic information of a selected point from the user terminal. The processor 110 may generate mountain range address information corresponding to the selected point based on information such as the size and location of the mountain range and the name of the adjacent basin. The processor 110 may classify a plurality of mountain ranges based on their scale. The processor 110 may generate address information by determining a code based on the mountain range hierarchy for each section where the mountain range branches. The processor 110 may add a basic code to each hierarchical mountain range and add an additional code to each branching mountain range to refine the address information. The processor 110 may add different basic codes when different hierarchical mountains branch. When the processor 110 generates mountain range address information, it may be based on the watershed name within a predetermined distance. The processor 110 divides the mountain range section into a ridge grid, divides this grid into two directions, and assigns a unique number to each grid to generate detailed location information.

The artificial intelligence-based processing unit 160 can predict or recommend geographic information at an appropriate point based on the user's selection or behavior. The artificial intelligence-based processing unit 160 can analyze various data to effectively determine the size or location of a mountain range and generate address information. The artificial intelligence-based processing unit 160 can generate address information more accurately by learning patterns of geographic information or mountain range information. The artificial intelligence-based processing unit 160 can dynamically change or optimize appropriate code or address information according to user requests or environmental changes.

Figure 23 is a flowchart for explaining a method of providing mountain range address information according to an embodiment of the present invention.

In step S100, the processor may obtain geographic information corresponding to the point selected by the user from an externally located user terminal.

The user terminal will be described in more detail with reference to FIG. 24.

The user can select a point by inputting information on the touch screen of the user terminal. The user can select a specific point by directly touching the point on the screen of the user terminal using a finger or a stylus pen.

Users can select a point by clicking the mouse. If the user terminal is a desktop or laptop, the user can select a point on the screen using the mouse. Users can select a point by moving the mouse pointer to the desired point and then clicking a button.

Users can also select specific points or objects through voice commands. For example, the user can select a point on the map, included in the user terminal, or being photographed by a camera connected to the user terminal by wire or wirelessly, through a voice command such as “Give me the address information of the mountain being photographed through the camera.” You can.

If the user terminal supports the augmented reality (AR) function, the user terminal can recognize the real environment through a camera included in the user terminal or connected by wire or wirelessly and display digital information overlaid on it. Users can also select a desired point by touching it on this digital information, selecting a point through a specific gesture, or entering text or an image.

If the user terminal supports gesture recognition or eye tracking (eye tracking) functions, the user can use the camera included in the user terminal or connected wired or wirelessly or various types of previously known sensors to detect the user's hands, fingers, pupils, It can track or recognize the movement of other body parts or specific objects and select the desired point by having it recognize the point the user is looking at or pointing at.

In the present invention, 'point' may mean a specific location of a mountain, mountain range, mountain range, or ridge on a map, map, or actual environment, but is not necessarily limited thereto.

Geographic information that the processor acquires in response to a point selected by the user includes coordinate information including latitude, longitude, and altitude information of the point (e.g., GPS coordinate information), and digital altitude indicating the height of the ground or terrain features of the given point. Model (DEM) information, high-resolution images showing the actual appearance of the point, infrared images, satellite images, GIS data from the Geographic Information System (GIS), water-related features such as rivers, lakes, wetlands, and sources, and water flow direction and amount, etc. It may include at least one of water resource and water system information, geographical name information, or administrative district name information.

In step S200, the processor may generate mountain range address information corresponding to the point selected by the user using geographical information based on at least one of the size of the mountain range, the area where the mountain range is located, or the name of a watershed adjacent to the mountain range.

The user terminal is The generated mountain range address information can be provided to the user using various electronic methods, such as overlapping digital information on the real environment and visually displaying it to the user through functions such as augmented reality (AR) and display exhibition. The user terminal may provide Saint Xi'an mountain range address information to correspond to the method in which the user terminal receives geographical information from the user.

In FIG. 23, each process is described as being executed sequentially, but this is only an illustrative explanation, and those skilled in the art can change the order shown in FIG. 23 and execute it without departing from the essential characteristics of the embodiments of the present invention. Alternatively, it may be applied through various modifications and modifications, such as executing one or more processes in parallel or adding other processes.

Figure 24 is a diagram for explaining the configuration of a system for providing mountain range address information according to an embodiment of the present invention. More specifically, Figure 24 shows that, in order to provide a mountain range address information service according to an embodiment of the present invention, the mountain range address information providing device 100 includes a plurality of user terminals 200-1, 200-2, and 200- This is a schematic diagram showing the configuration connected to enable communication with 3).

The user terminal 200 may receive information about the point selected by the user using the application and transmit the information about the point selected by the user to the mountain range address information providing device.

The user may refer to a user using an application that provides a mountain range address information service or a user account of an application that provides a mountain range address information service. Here, the user account may represent an account created and used in an application that provides mountain range address information services or data related thereto.

In the present disclosure, 'user' may refer to a 'user account', and 'user account' may refer to a 'user'. Additionally, in the present disclosure, a user can create and operate multiple user accounts.

The user's personal profile information includes the primary identifier of the user's account (e.g., email address) used for communication and verification purposes, a nickname that appears in the user's profile and is used to distinguish the user from other users, and the user's personal information. Personal information such as your name, age, gender, location or phone number, a profile photo, and a password you provide, which are requested for a variety of reasons, including an account password you create to protect your account from unauthorized access, user verification, account recovery or personalization services. Answers to security questions to help us verify your identity if you forget or need to recover your account; and your payment information (e.g., credit card information, account information) to use paid or subscription services. It can be included.

The mountain range address information providing device 100 can provide various types of information, such as mountain range address information or detailed location information, each generated by a plurality of user terminals 200.

The mountain range address information providing device 100 may include a system capable of providing a mountain range address information service to a plurality of user terminals 200-1, 200-2, and 200-3 through the network 300.

According to one embodiment, the mountain range address information providing device 100 is one or more server devices and/or databases capable of storing, providing, and executing computer-executable programs (e.g., downloadable applications) and data, or cloud computing. It may include one or more service-based distributed computing devices and/or distributed databases. For example, the mountain range address information providing device 100 may include separate systems (eg, server devices, cloud devices, etc.) for mountain range address information providing services.

The mountain range address information provision service provided by the mountain range address information providing device 100 is provided to users through a mountain range address information provision service provision application installed on each of a plurality of user terminals (200-1, 200-2, and 200-3). can be provided.

A plurality of user terminals 200-1, 200-2, and 200-3 may communicate with the mountain range address information providing device 100 through the network 300.

The network 300 may be configured to enable communication between a plurality of user terminals 200-1, 200-2, and 200-3 and the mountain range address information providing device 100. Depending on the installation environment, the network 300 may be, for example, a wired network such as Ethernet, a wired home network (Power Line Communication), a telephone line communication device, and RS-serial communication, a mobile communication network, a wireless LAN (WLAN), It may consist of wireless networks such as Wi-Fi, Bluetooth, and ZigBee, or a combination thereof.

The communication method is not limited, and includes communication methods that utilize communication networks that the network 300 may include (e.g., mobile communication networks, wired Internet, wireless Internet, broadcasting networks, satellite networks, etc.), as well as user terminals (200-1, 200, etc.) Short-range wireless communication between -2 and 200-3) may also be included. For example, the network 300 may include a personal area network (PAN), a local area network (LAN), a campus area network (CAN), a metropolitan area network (MAN), a wide area network (WAN), a broadband network (BBN), It may include one or more arbitrary networks among the networks 300, such as the Internet.

Additionally, the network 300 may include any one or more of network topologies including a bus network, star network, ring network, mesh network, star-bus network, tree or hierarchical network, etc. Not limited.

In FIG. 1, a smartphone terminal 200-1, a tablet terminal 200-2, and a laptop computer terminal 200-3 are shown as examples of user terminals, but the user terminal 200-3 is not limited thereto. 1, 200-2, 200-3) may be any computing device capable of wired and/or wireless communication and on which a mountain range address information service providing application can be installed and executed.

For example, user terminals include smartphones, mobile phones, navigation devices, computers, laptops, digital broadcasting terminals, PDAs (Personal Digital Assistants), PMPs (Portable Multimedia Players), tablet PCs, game consoles, and wearable devices. device), IoT (internet of things) devices, VR (virtual reality) devices, AR (augmented reality) devices, etc.

In addition, Figure 1 shows three user terminals (200-1, 200-2, 200-3) communicating with the mountain range address information providing device 100 through the network 300, but the present invention is not limited to this. Different numbers of user terminals 200-1, 200-2, and 200-3 may be configured to communicate with the network 300 and the mountain stream address information providing device 100.

The mountain range address information providing device 100 receives mountain range address information provision service request information from the user terminals 200-1, 200-2, and 200-3, and provides one or more mountain range address information associated with the mountain range address information provision service to the user. It can be transmitted to terminals 200-1, 200-2, and 200-3.

The user terminals (200-1, 200-2, 200-3) are equipped with/connected to or accessible the mountain range address information received from the mountain range address information providing device to the user terminals (200-1, 200-2, 200-3). It can be output to the display.

A display may refer to any display device associated with a computing device, for example, any display device that is controlled by or capable of displaying any information/data provided by the computing device.

Referring to FIG. 24, the mountain range address information providing device 100 may operate by being connected to the database 400 by wire or wirelessly.

The database 400 may include various types of information necessary for the mountain range address information providing device 100 to operate.

For example, the database may contain geographic information such as satellite images, DEM, etc. The database may contain information about administrative district names. The database may include information about the mountain range hierarchy pre-classified by the processor. The database may store at least one program used to create and manage mountain range address information. The database may store user terminal information and may include history information or user activity log information.

By applying the present invention, forest administration can be advanced through ultra-precision forest fire control using the mountain range address system, and the process of ignition-spread-extinguishment of forest fires in mountainous terrain can be accurately explained and tracked, and the Forest Service forest fire control officer can Communication between forest fire extinguishers and on-site forest fire extinguishers can be facilitated, forest fire occurrence history can be managed for each mountain range section and left and right basins, forest fire prevention measures can be established and simulated at the mountain range section and basin level, and forest fire occurrences occurring in the mountains can be established and simulated. We can respond quickly to various safety accidents.

This application also provides computer storage media. When program instructions are stored in a computer storage medium and the program instructions are executed by a processor, the above-described method of providing mountain stream address information is realized.

The computer storage medium according to an embodiment of the present invention may be a U disk, SD card, PD optical drive, mobile hard disk, high-capacity floppy drive, flash memory, multimedia memory card, server, etc., but is not necessarily limited thereto.

Even though all the components constituting the embodiments of the present invention described above are described as being combined or operated in combination, the present invention is not necessarily limited to these embodiments. That is, as long as it is within the scope of the purpose of the present invention, all of the components may be operated by selectively combining one or more of them. In addition, although all of the components may be implemented as a single independent hardware, a program module in which some or all of the components are selectively combined to perform some or all of the combined functions in one or more pieces of hardware. It may also be implemented as a computer program having. In addition, such a computer program can be stored in a computer readable media such as USB memory, CD disk, flash memory, etc. and read and executed by a computer, thereby implementing embodiments of the present invention. Recording media for computer programs may include magnetic recording media and optical recording media.

The above description is merely an illustrative explanation of the technical idea of the present invention, and various modifications, changes, and substitutions can be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the attached drawings are not intended to limit the technical idea of the present invention, but are for illustrative purposes, and the scope of the technical idea of the present invention is not limited by these embodiments and the attached drawings. . The scope of protection of the present invention should be interpreted in accordance with the claims below, and all technical ideas within the equivalent scope should be construed as being included in the scope of rights of the present invention.

Claims (15)

a memory storing one or more programs for providing mountain range address information; and one or more processors that perform operations according to the one or more programs, and the operations performed by the processors include,
Obtaining geographical information corresponding to a point selected by the user from an externally located user terminal; and
Generating mountain range address information corresponding to the point selected by the user using the geographical information based on at least one of the size of the mountain range, the area where the mountain range is located, or the name of a watershed adjacent to the mountain range,
The step of generating mountain stream address information corresponding to the point selected by the user is characterized in that generating the mountain stream address information based on the name of at least one watershed located within a predetermined distance in the mountain stream section, A device that provides mountain range address information. According to paragraph 1,
The step of generating mountain range address information corresponding to the point selected by the user,
Classifying a plurality of mountain ranges into a plurality of mountain range sections according to a plurality of hierarchies based on the connection relationship between the mountain range sections; and
A mountain range address information providing device comprising: generating the mountain range address information by determining a mountain range code based on a plurality of mountain range hierarchies for each section where the mountain range branches. According to paragraph 2,
The step of generating the mountain range address information by determining a mountain range code based on the plurality of mountain range hierarchies for each section where the mountain range branches,
adding a basic code to a first hierarchical mountain range among the plurality of mountain range hierarchies;
generating a first mountain range code for the first hierarchical mountain range by adding an additional code to the basic code whenever it branches from the first hierarchical mountain range to a mountain range section of a lower hierarchy than the first hierarchical mountain range; and
A mountain range address information providing device comprising: generating a second mountain range code for a mountain range branched from the first hierarchical mountain range, which is determined based on at least a portion of the first mountain range code. According to paragraph 3,
The step of adding a basic code to the first hierarchical mountain range among the plurality of mountain range hierarchies is:
When the first hierarchical mountain range branches into a different first hierarchical mountain range, or when the first hierarchical mountain range branches into a mountain range section of a lower hierarchy than the first hierarchical mountain range, different basic codes are added, A device that provides mountain range address information. According to paragraph 3,
The additional code above is,
Among the plurality of mountain range sections included in the first hierarchical mountain range,
A first additional code added to a mountain range section divided into a mountain range section of a lower hierarchy than the first hierarchical mountain range, or a second addition added to a mountain range section including a branch point at which a mountain range section of a lower hierarchy than the first hierarchical mountain range branches. A mountain range address information providing device, characterized in that it includes a code. According to clause 5,
The second additional code is,
A mountain range address information providing device, characterized in that it has different values based on the branch point. According to paragraph 3,
The step of generating the second mountain stream code is,
A mountain range address information providing device, characterized in that it is generated by adding a third additional code to at least part of the first mountain range code. In clause 7,
The step of generating the second mountain stream code is,
When different mountain range sections of the same hierarchy branch from the first hierarchical mountain range, a different third additional code is added to each different mountain range section of the same hierarchy. delete According to paragraph 1,
The step of generating mountain range address information corresponding to the point selected by the user,
The mountain range section is divided into a plurality of ridge grids, the plurality of ridge grids are divided into a first direction and a second direction different from the first direction, and a unique grid number is assigned to the plurality of divided ridge grids. And, generating detailed location information determined based on the grid unique number. Characterized in that it further comprises a mountain range address information providing device. A method of providing mountain range address information performed in a device including a memory storing one or more programs for providing mountain range address information and one or more processors that perform operations according to the one or more programs,
Obtaining geographical information corresponding to a point selected by the user from an externally located user terminal; and
Generating mountain range address information corresponding to the point selected by the user using the geographical information based on at least one of the size of the mountain range, the area where the mountain range is located, or the name of a watershed adjacent to the mountain range,
The step of generating mountain stream address information corresponding to the point selected by the user is characterized in that generating the mountain stream address information based on the name of at least one watershed located within a predetermined distance in the mountain stream section, How to provide mountain range address information. According to clause 11,
The step of generating mountain range address information corresponding to the point selected by the user,
Classifying a plurality of mountain ranges into a plurality of mountain range sections according to a plurality of hierarchies based on the connection relationship between the mountain range sections; and
A method of providing mountain range address information, comprising: generating the mountain range address information by determining a mountain range code based on the plurality of mountain range hierarchies for each section where the mountain range branches. According to clause 12,
The step of generating the mountain range address information by determining a mountain range code based on the plurality of mountain range hierarchies for each section where the mountain range branches,
adding a basic code to a first hierarchical mountain range among the plurality of mountain range hierarchies;
generating a first mountain range code for the first hierarchical mountain range by adding an additional code to the basic code whenever it branches from the first hierarchical mountain range to a mountain range section of a lower hierarchy than the first hierarchical mountain range; and
A method for providing mountain range address information, comprising: generating a second mountain range code for a mountain range branched from the first hierarchical mountain range, which is determined based on at least a portion of the first mountain range code. A computer program stored in a computer-readable recording medium for executing the method of providing mountain range address information according to any one of claims 11 to 13 on a computer. Obtain geographical information corresponding to the point selected by the user from an external source, and select the point selected by the user using the geographical information based on at least one of the size of the mountain range, the area where the mountain range is located, or the name of the basin adjacent to the mountain range. A mountain range address information providing device that generates mountain range address information corresponding to; and
A user who receives information about the point selected by the user, transmits information about the point selected by the user to the mountain range address information providing device, and receives and displays the mountain range address information from the mountain range address information providing device. Includes a terminal;
The mountain stream address information providing device is a mountain stream address information providing system, characterized in that it generates the mountain stream address information based on the name of at least one watershed located within a predetermined distance in the mountain stream section.

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