JP2004157408A - Device and method for map selection, computer-readable recording medium where program is recorded, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To select a map for showing the location of a field engineer close to a visit place in an easy-to-see state as to a map selecting device which selects a map including the location of the field engineer who maintains and inspects facilities such as an elevator of a building. <P>SOLUTION: An in-area field engineer retrieval part 202 specifies field engineers present in a specified retrieval object area including a visit place inputted through a visit place input part 201, an essential display field engineer extraction part 205 selects essentially displayed field engineer to be included in an optimum map without fail when the number of the field engineers meets a specified condition, and an optimum map selection part selects an optimum map which includes them and becomes the most enlarged display. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a map selection device for selecting a map including the location of a field engineer who performs maintenance and inspection on facilities such as a building elevator, and relates to a technology for selecting a map for easily displaying a location of a field engineer near a visiting place. .
[0002]
[Prior art]
Japanese Patent Application Laid-Open No. 2000-184071 discloses a maintenance service system, in which a location of a maintenance staff is registered in a location information database via a mobile phone or the like, and a request from a customer database (corresponding to a visit destination of the present invention) is sent to a customer. It discloses that the maintenance person at the nearest position is set as the corresponding maintenance person.
[0003]
With this technique, the position of the maintenance person can be grasped, but there is no remarkable device for confirming the positional relationship between the maintenance person and the request source.
[0004]
Japanese Patent Application Laid-Open No. 09-107410 discloses a system for grasping the position of a maintenance worker, in which the location is written on a maintenance target area map from a GPS or wireless communication device carried by the maintenance worker.
[0005]
With this technique, the location of maintenance personnel can be checked on a map, but it is not enough to change the display magnification due to the density of maintenance personnel.
[0006]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 2000-184071 [Patent Document 2]
JP 09-107410 A [Patent Document 3]
JP 07-177221 A [Patent Document 4]
JP 09-105774 A
[Problems to be solved by the invention]
The present invention has been made in order to eliminate the above-mentioned disadvantages of the prior art, and an object of the present invention is to accurately grasp the relationship between a field engineer and a place of visit according to the location of the field engineer. The task is to select a useful map.
[0008]
[Means for Solving the Problems]
The map selection device according to the present invention,
A map selection device for selecting an optimal map including an arrangement of a search target near a reference position, comprising: (1) a reference position input unit for inputting information capable of specifying a reference position; 2) Obtain the locations of a plurality of search targets and, if the number of search targets located in a predetermined search target area including the reference position satisfies predetermined conditions, select the required display search targets to be included in the optimal map. Required display search target search unit to be selected (3) Optimal map including the location of the required display search target and selecting the optimum map including at least the arrangement of the required display search target in the optimum map (4) Optimal map output Map output unit.
[0009]
The map selection device according to the present invention,
A map selection device for selecting an optimal map including an arrangement of field engineers in the vicinity of a visit, comprising the following elements: (1) Visit input for inputting information capable of specifying the position of the visit Part (2) Obtains the locations of a plurality of field engineers, and if the number of field engineers located in a predetermined search target area including a visit destination satisfies predetermined conditions, a mandatory display field to be always included in the optimal map. Required display field engineer search section for selecting the engineer (3) Select the optimal map including the location of the required display field engineer, and select the optimal map including at least the required display field engineer's location in the optimal map (4) Output the optimal map Optimal map output unit.
[0010]
The optimal map selection unit is characterized in that a map that is the most enlarged display is selected as the optimal map.
[0011]
The optimum map selection unit is characterized in that the optimum map is selected under the condition that the position of the visiting place is the center.
[0012]
The optimal map selection unit is characterized in that the optimal map is selected on the condition that the location of the visiting place is included in the map in addition to the location of the required display field engineer.
[0013]
A mandatory display field engineer search unit is an area field engineer search unit that searches for a field engineer located in a predetermined search target area including a visit from a field engineer location management table that stores the locations of a plurality of field engineers.
When the number of searched field engineers satisfies a predetermined condition, a required display field engineer extracting unit for selecting a required display field engineer to be always included in the optimal map is provided.
[0014]
The required display field engineer search unit has a plurality of prioritized conditions as the predetermined conditions,
Furthermore, for each of the conditions, there is a corresponding selection rule,
According to the prioritization, determine the conditions to be satisfied,
The essential display field engineer is selected according to a selection rule corresponding to a satisfied condition.
[0015]
Each of the conditions is a condition corresponding to a charge of a field engineer.
[0016]
Each of the selection rules is a rule according to the charge of the field engineer.
[0017]
The map selection method according to the present invention includes:
A map selection method by a map selection device for selecting an optimum map including an arrangement of a search target near a reference position, the method including the following elements: (1) inputting information capable of specifying a reference position (2) Obtain the locations of a plurality of search targets, and if the number of search targets located in a predetermined search target area including the reference position satisfies predetermined conditions, be sure to include them in the optimal map. (3) selecting the optimal map including the location of the essential display search target, and including at least the arrangement of the essential display search target in the optimal map, and (4) outputting the optimal map.
[0018]
A computer-readable recording medium on which the program according to the present invention is recorded stores a program for causing a computer serving as a map selection device for selecting an optimal map including an arrangement of a search target near a reference position to execute the following processing. (1) a process of inputting information capable of specifying a reference position, (2) obtaining a plurality of search target locations, and a predetermined search target area including the reference position. When the number of search targets located within the area satisfies a predetermined condition, a process of selecting a required display search target to be always included in the optimum map (3) Selecting an optimum map including the location of the required display search target, Processing to include at least the arrangement of the essential display search targets in the map (4) Processing to output the optimal map.
[0019]
The program according to the present invention includes:
The program is a program for causing a computer serving as a map selection device for selecting an optimum map including an arrangement of a search target near a reference position to execute the following procedure. Input procedure (2) Obtain the locations of a plurality of search targets, and if the number of search targets located in a predetermined search target area including the reference position satisfies predetermined conditions, be sure to include them in the optimal map. Procedure for selecting display search target (3) Procedure for selecting the optimal map including the location of the required display search target and including at least the arrangement of the required display search target in the optimal map (4) Procedure for outputting the optimal map.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1 FIG.
FIG. 1 is a diagram illustrating an example of geography and the location of a field engineer.
In the figure, a search target area specified by a visit other than the visit is indicated by a rectangle. In addition, the position of each field engineer is shown together with the type of charge (separate duty, work, emergency response). The present invention will be described below with reference to the embodiments shown in the drawings, taking the positional relationships shown in the drawings as examples.
Note that the search target area is not limited to the case where it is determined graphically such as a rectangle, but may be an administrative division or an arbitrarily defined area. Further, among the types of charge, “duty” is a person assigned as a worker on the day and indicates the order of priority to visit. “Work in progress” is a person who is currently working at another destination and can make a new visit after the work is completed. “Emergency response” is a person who responds extremely when it is difficult to make a duty or a visit by a field engineer during work, and indicates the lowest priority. In other words, the charge is information indicating the priority of selection of a field engineer to visit.
[0021]
FIG. 2 is a diagram illustrating a map selection device. The map selection device includes a visit destination input unit 201 (an example of a reference position input unit), an area field engineer search unit 202 (an example of an area search target search unit), a field engineer location management table 203 (a search target location management table). Example), area field engineer list storage section 204 (example of area search target list storage section), required display field engineer extraction section 205 (example of required display search target extraction section), field engineer charge table 206 (search target priority) An example of a ranking table), a required display field engineer list storage unit 207 (an example of a required display search target list storage unit), an optimal map selection unit 208, a map database 209, and an optimal map output unit 210 are provided.
The in-area field engineer search unit 202, the in-area field engineer list storage unit 204, and the required display field engineer extraction unit 205 are examples of a required display field engineer search unit (an example of a required display search target search unit).
[0022]
FIG. 3 is a diagram illustrating a configuration example of the field engineer location management table. A record is provided for each target field engineer in the map selection device, and has a field engineer ID and a location.
It is effective to specify the location using, for example, a GPS device of a device carried by a field engineer or a mobile phone.
[0023]
Next, the operation will be described. FIG. 4 is a diagram showing an overall processing flow.
The visitor input unit 201 performs a visitor input process (S401), the intra-region field engineer search unit 202 performs an intra-region field engineer search process (S402), and the essential display field engineer extraction unit 205 executes a mandatory display field. The engineer extraction process (S403) is performed, the optimum map selection unit 208 performs the optimum map selection process (S404), and the optimum map output unit 210 performs the optimum map output process (S405). Details of each process will be described later.
The combination of the field engineer search process in the area (S402) and the required display field engineer extraction process (S403) is an example of the required display field engineer search process.
[0024]
The visit destination input process (S401) will be described in detail. Through this processing, information that can specify the position of the visiting destination is input.
FIG. 5 is a diagram showing a flow of a visit destination input process (example 1). For example, an address (visit place) such as “1-2, Tokyo XX Ward XX Town” is input (S501). The address is converted into latitude and longitude (S502). At this time, for example, a map database is used.
[0025]
FIG. 6 is a diagram showing a flow of a visit destination input process (example 2). In this example, a management ID such as a visitor customer ID is input (S601). Alternatively, a management ID such as a facility ID may be used. Next, an address (visit place) corresponding to the customer ID is acquired from a customer database (not shown) (S602). Then, it is converted into latitude and longitude as described above (S603).
[0026]
Next, the in-area field engineer search processing (S402) will be described in detail. By this processing, a field engineer located in a predetermined search target area including a visiting place is searched from the field engineer location management table storing the locations of a plurality of field engineers.
FIG. 7 is a diagram showing a field engineer search processing flow within the area. The search target area is specified based on the position (latitude and longitude) of the visit destination (S701). The search target area is a range set to include the visited place. It may be set in advance, or may be calculated and set in this processing. The search target area is specified using latitude and longitude, for example, such as south limit <latitude <north limit and west limit <longitude <east limit. Instead of this example, the range may be specified by the administrative division.
Next, the user accesses the field engineer location management table 203 to search for a field engineer in the search target area (S702). Then, the field engineer ID and location of the field engineer in the search target area are stored as a field engineer list in the area (S703).
[0027]
FIG. 8 is a diagram showing a configuration example of the field engineer list in the area. A record is provided for each field engineer existing in the search target area, and has a field engineer ID and a location.
[0028]
Next, the essential display field engineer extraction processing (S403) will be described in detail. By this processing, when the number of field engineers in the area satisfies a predetermined condition, a mandatory display field engineer to be always included in the optimal map is selected. In particular, in this example, there are a plurality of prioritized conditions (first to third priority conditions), and for each of the conditions, a corresponding selection rule (first to third selection rule) And determines a condition to be satisfied according to the prioritization, and selects a required display field engineer according to a selection rule corresponding to the satisfied condition.
[0029]
FIG. 9 is a diagram showing a flow of essential display field engineer extraction processing (example 1).
The number of on-duty field engineers whose assignment in the field engineer list is “on duty” is counted (S901). At this time, the charge corresponding to each field engineer ID is read from the field engineer charge table 206. The configuration of the field engineer charge table 206 will be described later with reference to FIG. If the number of shift field engineers is equal to or greater than the number of shift requests within a predetermined area (for example, two), it is determined that the first priority condition is satisfied (S902), and the shift field engineer is assigned according to the corresponding first selection rule. Are stored in the required display field engineer list (S903).
If the first priority condition is not satisfied, the number of working field engineers whose charge is “working” included in the field engineer list in the area is similarly counted (S904). If the number of working field engineers is equal to or greater than the number of working requests within a predetermined area (for example, five), it is determined that the second priority condition is satisfied (S905), and this work is performed according to the corresponding second selection rule. All the middle field engineers are selected and stored in the required display field engineer list (S906).
If the second priority condition is not satisfied, the number of emergency response field engineers whose charge is “emergency response” included in the field engineer list within the area is similarly counted (S907). If the number of emergency response field engineers is equal to or greater than the predetermined number of emergency response requests in the area (for example, 7), it is determined that the third priority condition is satisfied (S908), and the emergency is performed according to the corresponding third selection rule. All the corresponding field engineers are selected and stored in the required display field engineer list (S909).
If the third priority condition is not satisfied, all the field engineers in the area are selected according to the fourth selection rule and stored in the required display field engineer list (S910).
[0030]
FIG. 10 is a diagram illustrating a configuration example of the field engineer charge table. A record is provided for each field engineer targeted by the map selection device, and has a field engineer ID and an item in charge.
[0031]
FIG. 11 is a diagram illustrating a configuration example of a mandatory display field engineer list. A record is provided for each field engineer always displayed in the optimal map, and has a field engineer ID and a location.
[0032]
Next, the optimal map selection processing (S404) will be described in detail. By this processing, the optimum map including the location of the required display field engineer and the most enlarged display is selected. In particular, in this example, the optimum map is selected under the condition that the position of the visiting place is the center.
FIG. 12 is a diagram showing a flow of the optimal map selection processing (Example 1).
All the locations (latitude and longitude) of the required display field engineers are acquired from the required display field engineer list storage unit 207 (S1201). As a condition for the map database 209, the position (latitude and longitude) of the visit destination is set at the center of the display area (S1202).
The following processing is performed for each scale that can be set in the map database 209 (S1203). The display area range based on the scale is acquired from the map database 209 (S1204). It is determined whether the positions of all the required display field engineers fall within the range of the display area (S1205). If all are included, the reduced scale is set as a candidate (S1206). If any part is not included, it is not considered as a candidate.
When all the scales have been processed (S1207), among the candidate scales, the scale that is the most enlarged display (the scale with a small reduction ratio and the scale with a large scale) is selected as the optimal scale (S1208).
Then, a map (optimum map) at the optimal scale is acquired with the position (latitude / longitude) of the visit destination set at the center of the display area (S1209). Then, the field engineer and the identification mark of the visited place are arranged on the map.
[0033]
FIG. 13 is a diagram illustrating an optimal map (Example 1). In this example, there are three on-duty field engineers in the search target area as shown in FIG. 1, so the first priority condition of S902 in FIG. 9 is satisfied, and the three on-duty field engineers are assigned by the first selection rule. It is selected as a required display field engineer. Then, the map which is the most enlarged display is selected from among the maps including the three on-duty field engineers (indicated by double circles) with the visiting place as the center. Further, in this example, all the field engineers included in the map are displayed including those that are not required display field engineers. Accordingly, a field engineer during work (indicated by a circle) and an emergency response field engineer (indicated by a triangle) are also arranged on the map.
However, those that are not required display field engineers may not be displayed.
[0034]
Finally, the selected optimal map is output by the optimal map output process (S405). Output forms include display, transmission, writing to a storage medium, printing, and the like.
[0035]
In the present embodiment, since the map that is the most enlarged display is selected, the field engineer's positional relationship can be known in detail according to the situation.
[0036]
Since the position of the destination is set at the center, it is easy to grasp the direction of the field engineer with respect to the destination. In addition, the distance in each direction is easy to compare.
[0037]
Embodiment 2 FIG.
An example will be described in which the optimum map is selected under the condition that the position of the visiting place (not limited to the center) is included in the map in addition to the location of the required display field engineer.
[0038]
FIG. 14 is a diagram illustrating a flow of the optimal map selection processing (example 2). All display positions (latitude and longitude) of the required display field engineers are acquired (S1401). The northernmost latitude, the southernmost latitude, the easternmost longitude, and the westernmost longitude are obtained from the location of each required display field engineer and the location (latitude and longitude) of the visiting place (S1402). The average of the northernmost latitude and the southernmost latitude is obtained and set as the central latitude (S1403). The average of the eastern longitude and the westmost longitude is obtained and set as the central longitude (S1404). As a condition for the map database 209, a center latitude and a center longitude are set at the center of the display area (S1405).
As described above, the following processing is performed for each scale (S1406). The range of the display area is obtained (S1407). It is determined whether or not the positions of all required display field engineers and the positions of the visiting places are within the range of the display area (S1408). If all of them are included, the scale is set as a candidate (S1409).
When processing is performed for all scales (S1410), among the candidate scales, the scale with the largest display (a scale with a small reduction ratio and a scale with a large scale) is selected as the optimum scale (S1411). Then, with the center latitude and center longitude set at the center of the display area, a map of the optimum scale (optimum map) is acquired (S1412). Then, the field engineer and the identification mark of the visited place are arranged on the map.
[0039]
FIG. 15 is a diagram illustrating an optimal map (Example 2). Mandatory display In addition to the location of the field engineer, the map to be the most enlarged display is selected under the condition that the position of the visit destination is included in the map. Therefore, the visit place is arranged at a place other than the center. The map is further enlarged compared to.
[0040]
Embodiment 3 FIG.
In the present embodiment, another example of each priority condition and selection rule will be described. FIG. 16 is a diagram showing a flow of the essential display field engineer extraction processing (example 2).
The number of on-duty field engineers is counted (S1601), and the first priority condition is that the number of on-duty field engineers is equal to or more than the number of on-duty requests in the area (for example, two) (S1602). The first selection rule is to be a mandatory display field engineer (S1603).
Further, the number of field engineers in operation is counted (S1604), and the second priority is given that the total number of field engineers and field engineers on duty is equal to or greater than the number of on-duty and on-going requests (for example, 5) in the area. A condition is set (S1605), and all the on-duty field engineers and working field engineers are set as mandatory display field engineer lists as a second selection rule (S1606).
Furthermore, the number of emergency response field engineers is counted (S1607), and the total number of on-duty field engineers, working field engineers, and emergency response field engineers is equal to or greater than the number of on-duty, working and emergency response requests in the area (for example, seven). Is the third priority condition (S1608), and all of the on-duty field engineer, the working field engineer, and the emergency response field engineer are required display field engineers as the third selection rule (S1609).
The fourth selection rule is that all the field engineers in the area are required display field engineers (S1610).
As described above, it is also effective to set each priority condition and selection rule by combining a plurality of persons in charge.
[0041]
By providing a plurality of priority conditions and selection rules as in the first and third embodiments, the number of field engineer candidates to be visited can be set according to the priority order (charge) of the field engineer. Arrangement can be facilitated.
[0042]
Without being limited to the above-described example, it is also effective to operate so as to select the optimum drawing only on the condition that a required display field engineer is included, without including the position of the visiting place. In that case, the processing is performed omitting the position of the visit destination in S1402 in FIG.
[0043]
It is also effective to select an optimum map under the condition for setting a margin for the position of the required display field engineer and the position of the visiting place.
[0044]
The locations of the field engineer list in the area and the mandatory display field engineer list may be omitted, and the location corresponding to the field engineer ID may be acquired from the field engineer location management table 203 during each process.
[0045]
The map selection device is a computer, and each element can execute processing by a program. Further, the program can be stored in a storage medium, and can be read by the computer from the storage medium.
[0046]
The position of the visit destination is an example of the reference position, and the field engineer is an example of the search target. The charge is an example of the priority of the search target. It is also effective to use the position of the map requester as a reference position, or to use a facility or the like as a search target.
[0047]
【The invention's effect】
In the present invention, when the number of field engineers located in a predetermined search target area including a visit destination satisfies predetermined conditions, a mandatory display field engineer to be included in the optimal map is selected, and a mandatory display field engineer is selected. Since the optimal map including the location of the field engineer is selected, the field engineer who is a candidate for the visitor can be selected according to the standard of the number of the field engineer candidates, and the optimal map including them can be selected. As a result, the person in charge of arranging the field engineer can accurately confirm the position of the field engineer candidate to be determined as necessary according to the situation. This is particularly useful when comparing travel times to a destination.
[Brief description of the drawings]
FIG. 1 is a diagram showing an example of geography and the location of a field engineer.
FIG. 2 is a diagram showing a map selection device.
FIG. 3 is a diagram illustrating a configuration example of a field engineer location management table.
FIG. 4 is a diagram showing an overall processing flow.
FIG. 5 is a diagram showing a flow of a destination input process (example 1).
FIG. 6 is a diagram showing a flow of a destination input process (example 2).
FIG. 7 is a diagram showing a field engineer search processing flow within the area.
FIG. 8 is a diagram showing a configuration example of a field engineer list in a region.
FIG. 9 is a diagram showing a flow of essential display field engineer extraction processing (example 1).
FIG. 10 is a diagram showing a configuration example of a field engineer charge table.
FIG. 11 is a diagram showing a configuration example of a mandatory display field engineer list.
FIG. 12 is a diagram showing a flow of an optimal map selection process (example 1).
FIG. 13 is a diagram showing an optimal map (Example 1).
FIG. 14 is a diagram showing a flow of an optimal map selection process (example 2).
FIG. 15 is a diagram showing an optimal map (Example 2).
FIG. 16 is a diagram showing a flow of essential display field engineer extraction processing (example 2).
[Explanation of symbols]
201 Visit input section, 202 Field engineer search section in area, 203 Field engineer location management table, 204 Field engineer list storage section, 205 Required display field engineer extraction section, 206 Field engineer charge table, 207 Required display field engineer list Storage unit, 208 optimal map selection unit, 209 map database, 210 optimal map output unit.

Claims (12)

A map selection device for selecting an optimum map including an arrangement of a search target near a reference position, the device having the following elements: (1) A reference position for inputting information capable of specifying a reference position Input unit (2) Obtains the locations of a plurality of search targets and, when the number of search targets located in a predetermined search target area including the reference position satisfies predetermined conditions, always includes the search target in the optimal map. Required display search target search unit for selecting the search target (3) Required display Select the optimal map including the location of the search target, and select the optimal map that includes at least the layout of the required display search target in the optimal map (4) Select the optimal map Optimal map output unit to output. A map selection device for selecting an optimal map including an arrangement of field engineers in the vicinity of a visit, wherein the map selection device has the following elements: (1) Inputs information capable of specifying a position of a visit Visit input unit (2) Acquires the locations of a plurality of field engineers and always includes them in the optimal map when the number of field engineers located in a predetermined search target area including the visit meets predetermined conditions. Required display field engineer search section for selecting the required display field engineer (3) Select the optimal map including the location of the required display field engineer, and include at least the arrangement of the required display field engineer in the optimal map. Optimal map output unit that outputs maps. 3. The map selection device according to claim 2, wherein the optimum map selection unit selects a map that is displayed in an enlarged manner as the optimum map. The map selection device according to claim 3, wherein the optimum map selection unit selects the optimum map under a condition that the position of the visited location is set at the center. 4. The map selection device according to claim 3, wherein the optimum map selection unit selects the optimum map under the condition that the position of the visited place is included in the map in addition to the location of the required display field engineer. A mandatory display field engineer search unit is an area field engineer search unit that searches for a field engineer located in a predetermined search target area including a visit from a field engineer location management table that stores the locations of a plurality of field engineers.
3. The map selection according to claim 2, further comprising: a required display field engineer extraction unit that selects a required display field engineer to be always included in the optimum map when the number of searched field engineers satisfies a predetermined condition. apparatus. The required display field engineer search unit has a plurality of prioritized conditions as the predetermined conditions,
Furthermore, for each of the conditions, there is a corresponding selection rule,
According to the prioritization, determine the conditions to be satisfied,
3. The map selection device according to claim 2, wherein the required display field engineer is selected according to a selection rule corresponding to a satisfied condition. The map selection device according to claim 7, wherein each of the conditions is a condition corresponding to a charge of a field engineer. 9. The map selection device according to claim 8, wherein each of the selection rules is a rule according to a charge of a field engineer. A map selection method by a map selection device for selecting an optimal map including an arrangement of a search target near a reference position, wherein the map selection method includes the following elements: (1) Information capable of specifying a reference position Input step (2) Obtain the locations of a plurality of search targets, and if the number of search targets located in a predetermined search target area including the reference position satisfies predetermined conditions, be sure to include them in the optimal map. A step of selecting a display search target (3) a step of selecting an optimal map including the location of the essential display search target and including at least the arrangement of the essential display search target in the optimal map; and (4) a step of outputting an optimal map. A computer-readable recording medium storing a program for causing a computer serving as a map selection device for selecting an optimum map including an arrangement of a search target near a reference position to execute the following processing (1) A reference position can be specified Process of inputting information (2) Obtain the locations of a plurality of search targets, and if the number of search targets located in a predetermined search target area including a reference position satisfies predetermined conditions, be sure to obtain the optimal map Processing for selecting the required display search target to be included (3) Processing for selecting the optimal map including the location of the required display search target and including at least the arrangement of the required display search target in the optimal map (4) Processing for outputting the optimal map A program for executing the following procedure on a computer serving as a map selection device for selecting an optimal map including an arrangement of a search target in the vicinity of a reference position (1) Information for specifying a reference position (2) Plural steps Procedure for obtaining the location of the search target of, and selecting the mandatory display search target to be always included in the optimal map when the number of search targets located in the predetermined search target area including the reference position satisfies the predetermined condition (3) Procedure for selecting the optimal map including the location of the essential display search target and including at least the arrangement of the essential display search target in the optimal map. (4) Procedure for outputting the optimal map.

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