KR20210037126A - Three dimensional path mapping method for facilities - Google Patents

Abstract

A path mapping method comprises a first structure internal guide path setting step of setting and storing at least one internal guide path that can be used as a path of the facility in the first structure, and in the step of setting the first structure as the inner guide, the at least one inner guide is stored including the identification information and the location information to the corresponding inner guide. Therefore, the present invention is capable of allowing a set route to be easily monitored by multiple users, including a user.

Description

3D path mapping method for facilities {THREE DIMENSIONAL PATH MAPPING METHOD FOR FACILITIES}

The present invention relates to a three-dimensional path mapping method for facilities, and more particularly, to a method for mapping a path connecting facilities connected by a network such as an electric line, sewer, water supply, gas pipe or communication cable.

In the case of facilities connected by a network such as an electric line, sewer, water supply, gas pipe or communication cable, even within a single building, they are connected by complex paths such as paths within the same floor and between floors.

However, if the user can easily set the connection route of the facilities connected through the network on the map in the same way as the actual route, and if the set route can be easily monitored by a large number of users, including users, the problem situation occurring somewhere in the route can also be easily identified. I will be able to.

Korean Patent Publication No. 10-2015-0013069: Design of a path connecting a first point to a second point in a three-dimensional scene (published on February 04, 2015).

The present invention is an invention aimed at solving the technical problem as described above, and a user easily maps the connection route of facilities connected by a network such as an electric line, sewer, water supply, gas pipe or communication cable in the same way as the actual route ( Map), and the purpose of this is to provide a 3D route mapping method for facilities in which a number of users including users can easily monitor the set route.

The route mapping method of the present invention includes the steps of setting and storing at least one internal guide route that can be used as a route of a facility within a first structure; A first facility setting step of setting a first facility including a path configured by connecting the first inner guideway and the Nth inner guideway inside the first structure; And setting at least one external guide path connecting the first structure and the second structure and setting it as an external guide path for storing the structure.

Specifically, in the step of setting as the first structure inner guide, the at least one inner guide may be stored including identification information and location information of the corresponding inner guide.

In addition, between the first inner guideway and the Nth inner guideway, it is preferable that '0' or more inner guideways are interposed. Specifically, the step of setting the first facility may include: to a first internal guide that is a starting part of the first facility; '0' or more inner guideways between the first inner guideway and the Nth inner guideway; And setting the first facility by a path sequentially connecting between the Nth internal guide roads that are the terminating portions of the first facility.

Preferably, in the step of setting as the structure external guide, the at least one external guide is stored, including identification information and location information of the corresponding external guide.

In addition, the route mapping method of the present invention may further include a third facility setting step of setting a third facility including a route that is connected by combining another route with the route of the first facility. In addition, the step of setting the third facility may include calling a path of the first facility; And adding a path of the second facility to the path of the first facility. Specifically, the second facility is configured to include at least one external guideway connecting the first structure and the second structure in a path. Preferably, the step of setting the third facility includes: calling a path of a fourth facility in which a path is formed in the second structure; And adding a path of the fourth facility to the path to which the path of the second facility is added.

In addition, the first facility and the second facility are each a communication cable, and the first facility may be connected to a rotating modular optical distribution frame.

In addition, the route mapping method of the present invention includes: setting and storing information related to a rotating modular optical distribution box connected to the first facility; And setting and storing information on equipment connected to the rotational modular optical distribution box.

In addition, in the route mapping method of the present invention, when at least some of the inner guide routes constituting the first facility are inter-floor inner guide routes that connect inner guide routes located on different floors of the first structure, the inter-floor An inner guideway connecting the inside of one layer connected to the inner guideway; And the interfloor inner guideway; by mapping in a 2D map, the path of the first facility including the interfloor inner guideway may be displayed on the 3D map.

In addition, the step of setting the first facility may include receiving identification information of the first facility; And selecting at least one partial route by selecting an inner guide route set in the step of setting an inner guide to the first structure on a two-dimensional map of each floor constituting the first structure. It is characterized.

In addition, the route mapping method of the present invention includes selection information for at least one inner guide route inside the first structure on a two-dimensional map of each floor constituting the first structure after the completion of the first facility setting step. In the case of receiving an input, a facility information display step of displaying facility information including the first facility using a corresponding internal guideway; further comprising, wherein the facility information display step includes: identification information of the corresponding facility; Location information of the start and end portions of the facility; And equipment information connected through the start and end portions of the corresponding facility and each of the rotating modular optical distribution boxes.

In addition, the step of setting the first structure internal guide may include: receiving identification information of the internal guide to be set; And receiving location information to a corresponding inner guide by designating an area on a two-dimensional map of each floor constituting the first structure.

According to the 3D route mapping method for facilities of the present invention, a user can easily set a connection route of facilities connected by a network such as an electric line, sewer, water supply, gas pipe or communication cable on a map in the same manner as the actual route. In addition, it is possible to easily monitor a set path, including users.

1 is a flowchart of a 3D route mapping method for a facility according to an embodiment of the present invention.
FIG. 2 is an exemplary diagram showing a mapping area of a 3D route mapping method for a facility according to the present invention as a 3D drawing.
3 and 4 are exemplary views of setting as an inner guide for a structure called an ASEM tower, respectively.
5 is an exemplary view showing an internal guideway set on the first floor of the ASEM Tower on a 3D map.
6 is an exemplary view of setting a structure called ASEM Tower as an external guide for connecting a structure called COEX.
7 is an exemplary diagram of facility setting.
8 is an exemplary view showing facilities set inside COEX on a 3D map.
9 to 11 are explanatory diagrams of a method of setting facilities starting from the second basement floor of COEX and ending on the first floor of the ASEM Tower.
12 is an exemplary view of facility information.
13 is an exemplary view showing facilities for which setting has been completed.
14 is an exemplary view showing equipment status information.

Hereinafter, a 3D route mapping method for facilities according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. It goes without saying that the following examples of the present invention are intended to embody the present invention and do not limit or limit the scope of the present invention. What can be easily inferred by experts in the technical field to which the present invention belongs from the detailed description and examples of the present invention is interpreted as belonging to the scope of the present invention.

The 3D path mapping method for a facility of the present invention may be implemented in the form of a computer program executed by a computing device including a processor and a memory.

In addition, the facility in the present invention is one of the infrastructure facilities that can be used in each user's home, office, etc. by using a long cable or pipe including an electric line, sewer, water supply, gas pipe or communication cable. It is done.

First, FIG. 1 shows a flowchart of a 3D route mapping method for a facility according to an exemplary embodiment of the present invention.

As can be seen from FIG. 1, the 3D route mapping method for a facility according to a preferred embodiment of the present invention includes at least one internal guide that can be used as a path of a facility within a first structure. Setting step (SA100) as a first structure inner guide to set and store; Establishing and storing at least one external guide path connecting the first structure and the second structure (SA200); A first facility setting step (SA300) of setting a first facility including a path configured by connecting the first inner guideway and the Nth inner guideway inside the first structure; And a third facility setting step (SA400) of setting a third facility including a path obtained by combining and connecting other paths to the path of the first facility.

In addition, a three-dimensional path mapping method for a facility according to a preferred embodiment of the present invention is a rotational modular type for setting and storing information related to a rotational modular optical distribution box (FDF) connected to a first facility. Optical distribution box information setting step (SA500); Equipment information setting step (SA600) of setting and storing information of equipment connected to the rotating modular optical distribution box; And when selection information for at least one inner guideway inside the first structure is input on the two-dimensional map of each floor constituting the first structure, facility information including the first facility using the corresponding inner guideway is provided. It is preferable to further include a display facility information display step (SA700).

Examples of the internal guide in the setting step SA100 as the first structure internal guide include a tray, a pipe, or a cavity in which facilities such as an electric line, sewer, water supply, gas pipe or communication cable can be mounted. For reference, in the case of trays and pipes, it may be expressed in the form of a narrow line or point in the case of a two-dimensional map presented in the present invention, and in the case of a hollow sphere, a wide surface area (AREA) It could be expressed as In addition, structures such as the first structure and the second structure may include buildings such as buildings and piers.

In the setting step SA100 as the first structure inner guide, the inner guide is stored, including identification information and location information of the corresponding inner guide. The identification information of the inner guideway may be a name that allows the corresponding inner guideway to be distinguished from another inner guideway or an external guideway. In addition, the location information of the inner guide road may be, for example, coordinate information in a two-dimensional map for a corresponding floor within the first structure in which the inner guide road is located.

Specifically, the step of setting the first structure inner guide (SA100) includes receiving identification information of the inner guide to be set (SA110); And receiving location information to the corresponding inner guide by designating a point, line, or surface area on the two-dimensional map of each layer constituting the first structure (SA120).

In the setting step SA200 as a guide outside the structure, the at least one external guide is stored including identification information and location information of the corresponding external guide. The identification information of the external guide may be a name that allows the corresponding external guide route to be distinguished from other external guides or internal guide routes. In addition, the location information of the external guide may include coordinate information on a two-dimensional map of the external guide or the name of a building located at both ends of the external guide. Each of the coordinate values at the two end points of the outer guides point to different structures, so that different structures can be connected by the outer guides.

The external guide in the step of setting the external guide to the structure (SA200), similar to the internal guide, may include, for example, a tray, a pipe, or a cavity in which facilities such as electric lines, sewage, water supply, gas pipes or communication cables can be mounted. .

In the first facility setting step SA300, between the first inner guideway and the Nth inner guideway, '0' or more inner guideways are interposed. That is, the first facility may be configured by two or more inner guideways including a first inner guideway and an Nth inner guideway.

That is, the first facility setting step SA300 includes: to a first internal guide that is a starting part of the first facility; '0' or more inner guideways between the first inner guideway and the Nth inner guideway; And it is preferable to set the first facility by a path sequentially connecting between the Nth internal guideway, which is the terminating part of the first facility.

In addition, at least some of the first to the Nth inner guideways may be internal guideways located on the same floor of the first structure. In addition, in the case where at least some of the inner guide paths constituting the first facility are inter-floor internal guide paths that connect internal guide paths located on different floors of the first structure, With an inner guide connecting the inside; And an interfloor inner guideway; by mapping in a 2D map, the route of the first facility including the interfloor inner guideway can be displayed on the 3D map. That is, as an interlayer inner guide, the end portion of the inner guideway of one layer connected to the corresponding interlayer inner guideway is set as an area and is connected.

Specifically, the first facility setting step (SA300) may include receiving identification information of the first facility (SA310); And selecting at least one partial path (SA310) by selecting the inner guide path set in the setting step SA100 as the first structure internal guide on the two-dimensional map of each floor constituting the first structure. It is preferable to include.

The third facility setting step (SA400) includes: calling a path of the first facility (SA410); Adding a path of the second facility to the path of the first facility (SA420); Calling a path of a fourth facility in which a path is formed inside the second structure (SA430); And further adding a path of the fourth facility to the path to which the path of the second facility is added (SA440).

For reference, before the step of adding the path of the second facility (SA420), it is necessary to precede the step of setting the second structure as an inner guide and the step of setting the fourth facility. However, in the flowchart of FIG. 1, the steps of setting the second structure as an inner guide and the step of setting the fourth facility are alive.

Finally, the path of the third facility is formed by the paths of the first facility, the second facility, and the fourth facility. That is, by the third facility setting step SA400, a number of facilities may be grouped and a new facility may be set. For reference, even if a new facility is set by grouping a plurality of facilities, it goes without saying that a plurality of facilities before grouping can also be used separately.

The second facility is configured by including at least one external guide path connecting the first structure and the second structure in the path.

Each of the first facility, the second facility, the third facility, and the fourth facility may be a communication cable. In this case, at least some of the facilities may be connected to a rotating modular optical distribution frame (Fiber Distribution Frame) at two ends, respectively. In addition, the rotating modular optical distribution box may be connected to equipment such as network equipment.

For example, the first facility may be connected to a rotating modular optical distribution box.

The three-dimensional path mapping method for a facility of the present invention includes: a rotation module type optical distribution box information setting step (SA500), an equipment information setting step (SA600); And, by the facility information display step (SA700), rotational modular optical distribution box information and equipment information connected to at least some of the facilities may be displayed, and the information may be displayed in association with the corresponding facility.

Specifically, the facility information display step (SA700) includes identification information of the facility; Location information of the start and end portions of the facility; And equipment information connected through the start and end portions of the corresponding facility and each of the rotating modular optical distribution boxes.

Hereinafter, the present invention will be described in detail using an example in which the facility of the 3D route mapping method for the facility of the present invention is applied as a communication cable and the structure is a building. do.

2 is an exemplary diagram showing a mapping area in a 3D diagram of a 3D route mapping method for a facility according to the present invention. In addition, FIGS. 3 and 4 are diagrams illustrating an example of setting an inner guide for a structure called an ASEM tower, respectively. However, FIG. 3 is an exemplary diagram of setting an internal guide for the floor used on the first floor of the ASEM Tower, and FIG. 4 is an exemplary diagram for setting an internal guide between the first floor and the 10th floor of the ASEM Tower.

In addition, FIG. 5 is an exemplary view showing an internal guideway set on the first floor of the ASEM Tower on a 3D map.

In Fig. 3, at ① on the left, identification information and location information of the inner guide within the floor can be checked. For reference, if you set the inner guideway in the floor as a line area with a mouse or the like as shown in ② on the right, it will appear in the form of coordinates in ① on the left. In FIG. 3, the identification information of the inner guide in the floor was set to'Seoul-ASEM-1F#11'.

Likewise, identification information and location information of the inner guide between the floors can be confirmed at ① on the left in FIG. 4. For reference, if the internal guideway between the floors is set as a line area with a mouse or the like as shown in ② on the right, the coordinates are displayed in ① on the left. In FIG. 4, the identification information of the inter-floor inner guide was set to'Seoul-ASEM-1F#1'.

In addition, in FIG. 5, a purple line is used as an inner guide for an interlayer, and a light green dot is used for an interlayer inner guide.

In addition, FIG. 6 is an exemplary view of setting a structure called ASEM Tower as an external guide for connecting a structure called COEX.

In Fig. 6, identification information and location information to the corresponding external guide can be checked at ① on the left. For reference, if the external guideway is set as a line area with a mouse as shown in ② on the right, it will appear in the form of coordinates in ① on the left.

7 is an exemplary diagram of facility setting.

Identification information and location information to the corresponding external guide can be seen from ① on the left of FIG. 7. For reference, the identification information to the external guide in FIG. 7 is set as'COEX_B2F_computer room-COEX_4F_hub room #1'. In addition, as shown in ② of FIG. 7, if the internal guide path or the external guide path is set in order, the path is displayed in the area ③.

8 is an exemplary view showing facilities set inside COEX on a 3D map.

That is, in the present invention, by selecting an inner guide route from a 2D map as shown in FIG. 7, the facility can be displayed on the 3D map as shown in FIG. 8.

In addition, identification information of the facility by selecting the facility in FIG. 8; And location information of the start and end portions of the facility.

9 to 11 are explanatory diagrams illustrating a method of setting a facility starting from the second basement floor of COEX and ending on the first floor of the ASEM Tower.

First, in FIG. 9, a path of a facility set inside COEX starting from the 2nd basement floor of COEX is called and selected, and an external guide route connecting COEX and ASEM Tower as shown in FIG. 10 is added to the path, and ASEM Tower 1 in FIG. The route of the facility set in the ASEM Tower, which ends at the floor, is called and added.

That is, in the above-described third facility setting step (SA400), the facility set inside COEX corresponds to the first facility, and adding a path to the external guide corresponds to the path of the second facility, and is set inside the ASEM Tower. The facility corresponds to the fourth facility.

12 is an exemplary view showing facility information.

In FIG. 12, facilities correspond to cables, the identification information of the facilities corresponds to the cable name, the location information of the start and end parts of the facility correspond to FROM and TO, respectively, and the equipment information corresponds to the equipment name. .

13 is an exemplary diagram showing the display of facilities for which setting has been completed, and FIG. 14 is an exemplary diagram of displaying equipment status information.

As can be seen from FIGS. 13 and 14, in the 3D route mapping method for facilities of the present invention, when clicking to the internal guide or to the external guide on the display screen of the facilities for which the setting has been completed, the facility of the corresponding facility Position information of the start part and the end part of can be displayed. In addition, information on facilities using the corresponding facility and a list of the current status of the rotating modular optical distribution box connected to the facility can be monitored. When clicking the rotating modular optical distribution box, the room and the rotating modular optical distribution box are installed. Equipment status information in the same space can be managed and edited in three dimensions.

The 3D route mapping method for a facility according to an exemplary embodiment of the present invention described with reference to FIG. 1 may be described in the following steps from another viewpoint.

That is, the 3D route mapping method for a facility according to an exemplary embodiment of the present invention sets and stores at least one guide route that can be used as a route of the facility in a mapping area including at least one structure. It includes; setting step (SB100) as a guide. In the guide setting step SB100, the guide is preferably stored including identification information and location information of the guide.

In addition, the guide path is a concept including both the inner guide path and the external guide path described above.

Specifically, the step of setting a guide path (SB100) includes the step of setting a guide path inside the first structure (SB110); And an external guide path setting step (SB120) of setting a guide path outside the first structure.

The step of setting an internal guide (SB110) includes: receiving identification information of a guide to be set (SB111); And receiving location information to a corresponding guide by designating a point, point, line, or surface area on the two-dimensional map of the mapping area (SB112).

Similarly, the step of setting an external guide (SB120) includes receiving identification information of a guide to be set (SB121); And receiving location information to a corresponding guide by designating a point, line, or surface area on the two-dimensional map of the mapping area (SB122).

In addition, a 3D route mapping method for a facility according to a preferred embodiment of the present invention includes setting a first facility including a route configured by connecting a plurality of guide roads inside a first structure. Step (SB200); A third facility setting step (SB300) of setting a third facility including a path obtained by combining and connecting other paths to the path of the first facility (SB300); When selection information for at least one inner guideway inside the first structure is input on the two-dimensional map of each floor constituting the first structure, facility information including the first facility using the corresponding inner guideway is displayed. It further includes a; facility information display step (SB400).

The second facility is characterized in that it is formed including a path connecting the first structure and the second structure using a guide path outside the first structure set in step SB120 as an external guide.

In addition, the first facility setting step (SB200) includes: receiving identification information of the first facility (SB210); And selecting at least one partial path (SB220) by selecting the guide path set in the guide path setting step SB100 on the 2D map.

In addition, the third facility setting step (SB300) may include a step of calling a path of the first facility (SB310); Adding a path of the second facility to the path of the first facility (SB320); Calling a path of a fourth facility in which a path is formed inside the second structure (SB330); And adding a path of the fourth facility to the path to which the path of the second facility is added (SB330).

In addition, when at least some of the plurality of guide paths constituting the path of the first facility are inter-floor internal guide paths that connect guide paths located on different floors of the first structure, one layer connected to the inter-floor internal guide path As a guide of; And an interfloor inner guideway; by mapping in a 2D map, the route of the first facility can be displayed on the 3D map by a plurality of guideways constituting the route of the first facility including the interfloor inner guideway. It is characterized by that.

As described above, according to the 3D route mapping method for facilities of the present invention, information on facilities installed in an actual building, etc. and equipment related thereto can be displayed on a 2D or 3D map. In addition, when an error occurs in facilities or equipment, it is possible to easily identify the location or location of the error by using route information displayed on a two-dimensional or three-dimensional map.

That is, according to the 3D route mapping method for facilities of the present invention, a user can easily map the connection route of facilities connected by a network such as electric line, sewer, water supply, gas pipe or communication cable in the same way as the actual route. It can be seen that a number of users including users can easily set and monitor the set path.

Claims (26)

In the route mapping method,
Including; a first structure inner guide path setting step of setting and storing at least one inner guide path that can be used as a path of a facility inside the first structure;
In the step of setting as the first structure inner guide, as the at least one inner guide,
A route mapping method, characterized in that it is stored including identification information and location information to a corresponding internal guide. The method of claim 1,
The route mapping method,
A first facility setting step of setting a first facility including a path configured by connecting the first inner guideway and the Nth inner guideway inside the first structure; further comprising,
Between the first inner guideway and the Nth inner guideway,
A route mapping method, characterized in that '0' or more internal guide routes are interposed. The method of claim 2,
The first facility setting step,
To a first inner guide that is a starting part of the first facility; '0' or more inner guideways between the first inner guideway and the Nth inner guideway; And setting the first facility according to a path sequentially connecting between the Nth internal guide roads that are the terminating portions of the first facility. The method of claim 2,
The route mapping method,
Including, a step of setting and storing at least one external guide path connecting the first structure and the second structure as a structure external guide path;
In the step of setting as the structure external guide, with the at least one external guide,
A route mapping method, characterized in that it is stored including identification information and location information to a corresponding external guide. The method of claim 4,
The route mapping method,
And a third facility setting step of setting a third facility including a route obtained by combining the route of the first facility with another route and connecting the route. The method of claim 5,
The third facility setting step,
Calling the route of the first facility; And
And adding a path of a second facility to the path of the first facility. The method of claim 6,
The second facility,
A path mapping method comprising at least one external guide path connecting the first structure and the second structure in a path. The method of claim 7,
The third facility setting step,
Calling a path of a fourth facility in which a path is formed inside the second structure; And
And further adding a path of the fourth facility to a path to which the path of the second facility is added. The method of claim 5,
Each of the first facility and the second facility is a communication cable,
The first facility is a route mapping method, characterized in that it can be connected to a rotating modular optical distribution box (Fiber Distribution Frame). The method of claim 9,
The route mapping method,
A rotating modular optical distribution box information setting step of setting and storing information related to a rotating modular optical distribution box connected to the first facility; And
And setting and storing information on equipment connected to the rotational modular optical distribution box. The method of claim 2,
The route mapping method,
When at least some of the inner guideways constituting the first facility are inter-floor inner guideways connecting inner guideways located on different floors of the first structure,
An inner guideway connecting the interior of one layer connected to the interlayered inner guideway; And the interfloor inner guideway; by mapping in a 2D map, the route of the first facility including the interfloor inner guideway can be displayed on a 3D map. The method of claim 2,
The first facility,
Route mapping method, characterized in that one of an electric line, sewer, water supply, gas pipe or communication cable. The method of claim 2,
The first facility setting step,
Receiving identification information of the first facility; And
And selecting at least one partial route by selecting an inner guide route set in the step of setting an inner guide to the first structure on a two-dimensional map of each floor constituting the first structure; Route mapping method. The method of claim 2,
The route mapping method,
After the completion of the first facility setting step, when selection information for at least one inner guideway inside the first structure is input on a two-dimensional map of each floor constituting the first structure, a corresponding inner guideway is selected. A facility information display step of displaying facility information including the first facility to be used; further comprising,
In the step of displaying the facility information,
Identification information of the facility;
Location information of the start and end portions of the facility; And
And equipment information connected through a rotational modular optical distribution box, respectively, with the start and end portions of the facility. The method of claim 1,
The step of setting as the first structure inner guide,
Receiving identification information of an internal guide to be set; And
And receiving location information to a corresponding inner guide by designating an area on a two-dimensional map of each floor constituting the first structure. In the route mapping method,
Inclusive,
In the step of setting with the guide, with the at least one guide,
A route mapping method, characterized in that it is stored including identification information and location information to the guide. The method of claim 16,
The step of setting with the guide,
Setting a guide path in the first structure as an internal guide; And
And setting a guide path outside the first structure as an external guide. The method of claim 17,
The route mapping method,
And a first facility setting step of setting a first facility including a path configured by connecting a plurality of guide paths inside the first structure. The method of claim 18,
The route mapping method,
And a third facility setting step of setting a third facility including a route obtained by combining the route of the first facility with another route and connecting the route. The method of claim 19,
The third facility setting step,
Calling the route of the first facility; And
And adding a path of a second facility to the path of the first facility. The method of claim 20,
The second facility,
And a path connecting the first structure and the second structure using a guide path outside the first structure set in the setting step of the external guide path. The method of claim 21,
The third facility setting step,
Calling a path of a fourth facility in which a path is formed inside the second structure; And
And further adding a path of the fourth facility to a path to which the path of the second facility is added. The method of claim 18,
The route mapping method,
When at least some of the plurality of guide paths constituting the path of the first facility are inter-floor internal guide paths that connect guide paths located on different floors of the first structure,
A single layer guideway connected to the interlayer inner guideway; And the interfloor inner guideway; by mapping in a two-dimensional map, the path of the first facility is routed on a three-dimensional map by a plurality of guideways constituting the route of the first facility including the interfloor inner guideway. A route mapping method characterized in that it can be displayed. The method of claim 18,
The first facility setting step,
Receiving identification information of the first facility; And
And selecting at least one partial route on the 2D map by selecting the guide route set in the guide route setting step. The method of claim 18,
The route mapping method,
After the completion of the first facility setting step, when selection information for at least one inner guideway inside the first structure is input on a two-dimensional map of each floor constituting the first structure, a corresponding inner guideway is selected. A facility information display step of displaying facility information including the first facility to be used; further comprising,
In the step of displaying the facility information,
Identification information of the facility;
Location information of the start and end portions of the facility; And
And equipment information connected through a rotational modular optical distribution box, respectively, with the start and end portions of the facility. The method of claim 17,
The step of setting with the inner guide,
Receiving identification information of a guide to be set; And
And receiving location information to a corresponding guide by designating an area on a two-dimensional map of the mapping area.

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