JP4225676B2 - Subscriber station installation method and subscriber radio system in subscriber radio system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a subscriber station installation method and a subscriber radio system in a subscriber radio system, and in particular, by using an access terminal connected to a main server that operates and maintains the subscriber radio system. The present invention relates to a subscriber station installation method and a subscriber radio system in a subscriber radio system that can easily adjust antennas and register new subscribers.
[0002]
[Prior art]
Conventionally, in this type of subscriber radio system, when installing an antenna of a new subscriber, the antenna installation position of the base station and the subscriber is confirmed on a two-dimensional map, and thereby the antenna installation position of the base station There is an obstacle such as a high-rise building between the antenna installation position of the subscriber station Whether or not After that, we actually went to the site and confirmed the line of sight between the antenna installation position of the base station and the antenna installation position of the subscriber station.
[0003]
In addition, adjustment of the direction and angle of the antenna at the site has been performed visually by an operator using a scope or the like.
[0004]
In addition, when registering a new subscriber, it is necessary for the operator to check the base station to which the new subscriber is wirelessly connected and to register with the base station. When registering the location, it is necessary to register the subscriber information of the new subscriber to the base station.
[0005]
[Problems to be solved by the invention]
However, after confirming the base station and subscriber antenna installation position on a two-dimensional map, the conventional method of actually visiting the site and confirming the line of sight between the base station antenna installation position and the subscriber station antenna installation position In this case, the problem that the line-of-sight between antennas cannot be seen is detected at the time of installation in the field, so unnecessary labor is required, and the field adjustment of the direction and angle of the antenna by the operator's visual observation with a scope etc. is very troublesome. It took.
[0006]
Furthermore, registration of a new subscriber requires an operator to check a base station to which the new subscriber is wirelessly connected, and registration of subscriber information of the new subscriber is very troublesome.
[0007]
Therefore, the present invention simplifies the antenna installation work and the new subscriber registration work of the new subscriber station so that the adjustment of the antenna of the new subscriber station and the registration of the new subscriber can be easily performed. An object is to provide a subscriber station installation method and a subscriber radio system in a subscriber radio system.
[0008]
[Means for Solving the Problems]
The invention of claim 1 Pre-installed in place In a subscriber station installation method in a subscriber radio system having a plurality of base stations, a plurality of subscriber stations connected to the plurality of base stations via a radio line, and a main server for operating and maintaining each station When installing a new subscriber station, input the location information of the new subscriber station from an access terminal connected to the main server, and inquires the main server. Based on the location information of the new subscriber station In response to an inquiry Referring to the position information of the plurality of base stations stored in the position information storage means and the radio range thereof The base station capable of wireless connection of the new subscriber station is extracted, and the extracted Extraction Based on the base station installation position information and the new subscriber station installation position information. Land Access to the figure information distribution server to acquire the three-dimensional map information including the installation position of the extraction base station and the installation position of the new subscriber station. 3 Dimension map information is transferred to the access terminal, and the access terminal is transferred from the main server. 3 Based on the three-dimensional map information, a three-dimensional map including the installation position of the extracted base station and the installation position of the new subscriber station is displayed and displayed. 3 A line-of-sight map is used to determine the prospect between the installation position of the extraction base station and the installation position of the new subscriber station, and the installation position of the extraction base station and the installation of the new subscriber station are determined according to the determination result. If the prospect between the location and the position is not, finely adjust the installation position of the new subscriber station, send the finely adjusted installation position of the new subscriber station to the main server, and re-inquiry, The fine adjustment of the installation position of the new subscriber station and the re-inquiry to the main server are repeated until the determination result is good.
[0010]
The invention according to claim 2 is the invention according to claim 1, wherein the main server requests the installation orientation and vertical angle information of the antenna of the new subscriber station from the access terminal. Installation location information of the new subscriber station and the extraction Based on base station location information The Calculate the optimum azimuth and vertical angle of the antenna of the new subscriber station, and calculate the antenna The most An appropriate direction and angle are notified to the access terminal.
[0011]
The invention according to claim 3 is the invention according to claim 1, wherein the main server is based on the location information of the new subscriber station from the access terminal. Said extraction Send a registration request for the new subscriber station to the base station; Returned from the base station in response to the registration request The registration result is notified to the access terminal.
[0012]
The invention of claim 4 is the invention of claim 1, wherein New The subscriber station The extraction based on the location information of the new subscriber station Sending a registration request for the subscriber information of the new subscriber station to the base station; Said extraction The base station Above The subscriber information of the new subscriber station is registered in the main server based on a registration request.
[0013]
The invention of claim 5 Pre-installed in place Connected to the main server in a subscriber radio system having a plurality of base stations, a plurality of subscriber stations connected to the base stations via radio channels, and a main server for operating and maintaining each station An access terminal, a location information storage means connected to the main server and storing location information and radio ranges of the plurality of base stations, and a map information delivery server connected to the main server and delivering 3D map information And the main server responds to an inquiry based on the location information of the new subscriber station input at the access terminal. ,in front Position information of the plurality of base stations stored in the position information storage means and radio range thereof See Extraction means for extracting a wirelessly connectable base station of the new subscriber station, and extraction by the extraction means Extracted Base station location information and Entered at the access terminal Access the map information server based on the location information of the new subscriber station. Before Acquisition means for acquiring three-dimensional map information including the installation position of the extracted base station and the installation position of the new subscriber station, and acquisition by the acquisition means 3 Transfer means for transferring dimensional map information to the access terminal, wherein the access terminal is transferred by the transfer means. 3 Display means for displaying a three-dimensional map including the installation position of the extracted base station and the installation position of the new subscriber station based on the three-dimensional map information, and displayed by the display means 3 A determination means for performing a line-of-sight determination between the installation position of the extraction base station and the installation position of the new subscriber station based on a three-dimensional map; and if the determination result of the determination means is negative, the new subscriber station Adjustment means for finely adjusting the installation position of the new subscriber station, and re-inquiry means for sending an inquiry to the main server for the installation position of the new subscriber station adjusted by the adjustment means. The adjustment and the inquiry by the re-inquiry unit are repeated until the determination result of the determination unit becomes good.
[0015]
Further, the invention of claim 6 is the invention of claim 5, wherein the main server requests the installation orientation and vertical angle information of the antenna of the new subscriber station from the access terminal. Location information of the new subscriber station and the extraction Based on the location information of the base station, the optimum azimuth and vertical angle of the antenna of the new subscriber station are calculated and calculated by the calculation means Antenna And a notification means for notifying the access terminal of the optimum azimuth and angle.
[0016]
The invention according to claim 7 is the invention according to claim 5, wherein the main server is based on installation position information of the new subscriber station. Said extraction Transmitting means for transmitting a registration request for the new subscriber station to a base station; Above It further comprises registration result notifying means for notifying the access terminal of a registration result returned from the base station in response to a registration request.
[0017]
The invention of claim 8 is the invention of claim 5, wherein New The subscriber station The extraction based on the location information of the new subscriber station A registration request transmitting means for transmitting a registration request for subscriber information of the new subscriber station to the base station, wherein the extraction base station comprises: Above It further comprises registration means for registering subscriber information of the new subscriber station in the main server based on a registration request.
[0020]
Embodiment
Embodiments of a subscriber station installation method and a subscriber radio system in a subscriber radio system according to the present invention will be described below in detail with reference to the accompanying drawings.
[0021]
FIG. 1 is a system configuration diagram showing a schematic configuration of a subscriber radio system to which the present invention is applied.
[0022]
In FIG. 1, this subscriber radio system includes a plurality of base stations 10-1 to 10-n and a plurality of base stations 10-1 to 10-n connected to the respective base stations 10-1 to 10-n via radio channels. To 11-m, subscriber stations 12-1 to 12-o, base station 10-1 to 10-n, device data storage units 13-1 to 13-n, base stations 10-1 to 10- connected to the main server 20 that manages the plurality of base stations 10-1 to 10-n and subscriber stations 11-1 to 11-m, 12-1 to 12-o, and the main server 20, A plurality of access terminals 30-1 to 30-p that perform processing such as establishment of a subscriber station and the main server 20 are connected to a map information distribution server 40 and a main server 20 that distribute map information. Store position data of -1 to 10-n Station data storage unit 50, connected to main server 20, and subscriber data storage unit 60 for storing subscriber data of subscriber stations 11-1 to 11-m and subscriber stations 12-1 to 12-o, map information A map data storage unit 70 is connected to the distribution server 40 and stores 3D map information.
[0023]
Here, in the device data storage units 13-1 to 13-n, data relating to subscriber stations wirelessly connected to the base stations of the respective base stations 10-1 to 10-n are stored.
[0024]
Also, Subscriber data storage 60 Stores various information of subscribers accommodated in the subscriber radio system.
[0025]
Also, Position data storage unit 50 Includes information on the position of the base station accommodated in the subscriber radio system, that is, information indicating the base station antenna installation position (latitude and longitude, etc.), the radio radio range of the base station, and the map data storage unit 70 An index or the like of stored 3D map information is stored.
[0026]
In the above configuration, when a subscriber station is newly established, subscriber information and installation of a new subscriber station newly established from any one of the access terminals 30-1 to 30-p, for example, the access terminal 30-1. Enter location information.
[0027]
Here, the subscriber information includes various information about the new subscriber, and the installation position information includes information such as the address of the new subscriber station, the antenna installation position, and the antenna installation altitude. .
[0028]
The access terminal 30-1 to which the subscriber information and the installation location information of the new subscriber station are input communicates with the main server 20, and displays display data corresponding to the location information of the new subscriber station to the main server 20. Request.
[0029]
When the main server 20 receives a request for display data corresponding to the location information of the new subscriber station from the access terminal 30-1, the main server 20 internally manages the location information of the new subscriber station notified from the access terminal 30-1. Data, for example, latitude, longitude, and altitude information is converted, and the position of the base station in the same area stored in the position data storage unit 50 and the index of the three-dimensional map information are searched.
[0030]
Further, the main server 20 accesses the map information distribution server 40 based on the index of the searched 3D map information and acquires the corresponding 3D map data from the map data storage unit 70.
[0031]
Then, the acquired three-dimensional map data is transferred to the access terminal 30-1 together with the display position data of the corresponding base station and new subscriber station.
[0032]
In the access terminal 30-1, the positions of the corresponding base station and new subscriber station indicated by the display position data are synthesized on the transferred three-dimensional map data, and the result is displayed on a display device (not shown) of the access terminal 30-1. A three-dimensional map including the position of the corresponding base station and new subscriber station is displayed.
[0033]
The access terminal 30-1 determines whether the installed antenna positions of the corresponding base station and the subscriber station have good visibility based on the displayed three-dimensional map including the positions of the corresponding base station and the new subscriber station. I do. Then, the determination result is displayed on the display device. Here, the antenna positions of the base station and the new subscriber station are also displayed on the three-dimensional map.
[0034]
FIG. 2 is a block diagram showing a detailed configuration of the main server 20 in the subscriber radio system shown in FIG.
[0035]
2, the main server 20 is connected to the access terminals 30-1 to 30-p, the map information distribution server 40, the position data storage unit 50, and the subscriber data storage unit 60 shown in FIG. A map data storage unit 70 is connected to the server 40.
[0036]
In FIG. 2, one of the access terminals 30-1 to 30-p is shown as the access terminal 30.
[0037]
The main server 20 includes a base station extraction unit 21, a 3D map information acquisition unit 22, and a 3D map information transfer unit 23.
[0038]
Here, the base station extraction unit 21 searches the location data storage unit 50 based on the location information of the new subscriber station transmitted from the access terminal 30, and the base station to which the new subscriber can connect, that is, the new subscriber station A subscriber extracts a base station included in a radio range.
[0039]
In the base station extraction process by the base station extraction unit 21, the new subscriber is searched for the position of the base station included in the radio range, the index of the three-dimensional map information related to the position of the base station, and the like. The subscriber data storage unit 50 stores the location information of the new subscriber.
[0040]
The three-dimensional map information acquisition unit 22 accesses the map information distribution server 40 based on the index of the three-dimensional map information searched by the base station extraction unit 21, and accesses the corresponding base station and new subscriber station from the map data storage unit 70. 3D map data including the position of is acquired.
[0041]
The three-dimensional map information transfer unit 23 obtains the three-dimensional map data including the positions of the corresponding base station and the new subscriber station acquired by the three-dimensional map information acquisition unit 22 from the position information of the base station and the position information of the new subscriber. Together with the access terminal 30.
[0042]
When the access terminal 30 receives the 3D map data including the positions of the corresponding base station and the new subscriber station transferred from the 3D map information transfer unit 23, the position information of the base station, and the position information of the new subscriber. The access terminal 30 does not show a 3D map including the position of the corresponding base station and the new subscriber station by combining the received 3D map data with the location information of the base station and the location information of the new subscriber. Display on the display device.
[0043]
FIG. 3 is a diagram illustrating an example of a three-dimensional map displayed on the access terminal 30.
[0044]
In FIG. 3, two subscriber station devices 110-1 and 110-2 are displayed for one base station 100, but in actuality, they are displayed corresponding to one new subscriber station. Is only one subscriber station device.
[0045]
In FIG. 3, when the new subscriber station that is actually displayed is the subscriber station apparatus 110-1, the prospect between the subscriber station apparatus 110-1 and the base station 100 is good at the access terminal 30. It is determined that
[0046]
In FIG. 3, when the new subscriber station that is actually displayed is the subscriber station apparatus 110-2, the access terminal 30 has a prospect between the subscriber station apparatus 110-2 and the base station 100. Is determined to be no.
[0047]
When the new subscriber station displayed on the access terminal 30 is the subscriber station apparatus 110-2 that is not expected to be shown in FIG. 3, the access terminal 30 has a connection between the new subscriber station and the base station. In this case, the subscriber station device 110-2 is finely adjusted on the screen of the access terminal 30, and the prospect between the new subscriber station and the base station is changed. Adjust the position so that it is good.
[0048]
The position information of the new subscriber who has performed the position adjustment communicates with the main server 20 again, and requests the main server 20 for display data corresponding to the position information for which the position of the new subscriber station has been adjusted.
[0049]
FIG. 4 is a sequence chart showing a new subscriber installation process in the configuration shown in FIG.
[0050]
In the access terminal 30, when the installation process for a new subscriber station is started, first, installation position information for the new subscriber station is input. As a result, the access terminal 30 makes an inquiry to the main server 20 and transmits to the main server 20 the location information of the new subscriber station.
[0051]
When the main server 20 receives the installation position information of the new subscriber station from the access terminal 30, the main server 20 performs position information conversion for converting the installation position information into internal management data such as latitude, longitude, and altitude information. Based on the position information of the converted new subscriber station, the position data storage unit 60 is searched to extract a base station with which the new subscriber station can perform wireless communication.
[0052]
Then, based on the index of the three-dimensional map information including the extracted base station, the map information distribution server 40 is requested for the three-dimensional map information including the extracted position of the base station and the position of the new subscriber station.
[0053]
Upon receiving this 3D map information, the map information distribution server 40 executes a map information search process for searching the map data storage unit 70 based on the index of the 3D map information, and extracts the position of the extracted base station and the new subscription. Three-dimensional map data including the position of the personal station is obtained, and this three-dimensional map data is transmitted to the main server 20.
[0054]
The main server 20 performs necessary display position conversion on the 3D map data, and transfers the 3D map data to the access terminal 30 as display data.
[0055]
When the access terminal 30 receives the transfer of the display data, the access terminal 30 is based on the display data. This A three-dimensional map as shown in FIG. 3 including the position of the base station and the position of the new subscriber station is displayed.
[0056]
The access terminal 30 determines the prospect between the base station and the new subscriber station based on the three-dimensional map including the position of the base station and the position of the new subscriber station, that is, the antenna of the base station and the new subscriber station. It is determined whether there is an obstacle between the antenna and the determination result.
[0057]
Here, if it is determined that the determination result is negative in the above-mentioned line-of-sight determination, the position of the new subscriber station, that is, the antenna installation position is displayed on the display screen of the access terminal 30 so that the line-of-sight determination result is good. Fine-tune with.
[0058]
Then, the access terminal 30 makes an inquiry to the main server 20 again based on the result of the fine adjustment of the installation position, and sends the installation information of the new subscriber station that has been finely adjusted to the main server 20 to the main server 20. Send.
[0059]
The main server 20 performs the same position information conversion of the installation position information as described above, and includes the position of the base station and the position of this newly adjusted subscriber station with respect to the map information distribution server 40 as described above. Request dimension map information.
[0060]
In the map information distribution server 40, the map data storage unit 70 is searched in the same manner as described above to obtain three-dimensional map data including the position of the base station and the position of the new subscriber station. Send to server 20.
[0061]
As a result, the main server 20 performs the same display position conversion on the 3D map data as described above, and transfers the 3D map data to the access terminal 30 as display data.
[0062]
When the access terminal 30 receives the transfer of the display data, it is based on the display data as described above. This A three-dimensional map as shown in FIG. 3 including the position of the base station and the position of the new subscriber station is displayed, and based on this three-dimensional map, the prospect of the base station and the new subscriber station is determined. The determination result is displayed.
[0063]
According to such a configuration, the access terminal 30 can make a line-of-sight judgment between the new subscriber station and the base station wirelessly connected to the new subscriber station without actually going to the site.
[0064]
FIG. 5 is a sequence chart showing processing for adjusting the azimuth and vertical angle of the antenna of the new subscriber station virtually installed as shown in FIG.
[0065]
In FIG. 5, the access terminal 30 makes an inquiry to the main server 20 based on the input installation location information of the new subscriber station, and transmits this installation location information to the main server 20.
[0066]
When the main server 20 receives the installation position information of the new subscriber station from the access terminal 30, the main server 20 performs position information conversion for converting the installation position information into internal management data such as latitude, longitude, and altitude information. Based on the position information of the converted new subscriber station, the position data storage unit 60 is searched to extract a base station with which the new subscriber station can perform wireless communication.
[0067]
Then, the main server 20 calculates the azimuth and vertical angle of the new subscriber station based on the extracted latitude and longitude of the base station, altitude information, and installation position information of the new subscriber station.
[0068]
The calculation result of the main server 20, that is, the azimuth and vertical angle of the new subscriber station are transmitted to the access terminal 30 and displayed on the access terminal 30.
[0069]
FIG. 6 is a sequence chart showing registration processing of a new subscriber station in the access terminals 30-1 to 30-p shown in FIG.
[0070]
In FIG. 6, when the installation location information of a new subscriber station is input at, for example, the access terminal 30-1 among the access terminals 30-1 to 30 -p, the access terminal 30-1 And the installation position information is transmitted to the main server 20.
[0071]
When the main server 20 receives the installation position information of the new subscriber station from the access terminal 30, the main server 20 performs position information conversion for converting the installation position information into internal management data such as latitude, longitude, and altitude information. Based on the position information of the converted new subscriber station, the position data storage unit 60 is searched to extract a base station with which the new subscriber station can perform wireless communication.
[0072]
Then, the main server 20 makes a registration request for a new subscriber station to the extracted base station, for example, the base station 10-1 among the base stations 10-1 to 10-n.
[0073]
The base station 10-1 determines the registration request received from the main server 20, registers it in the device data storage unit 13-1 in its own station, and sets the communication with the new subscriber station in a possible state. The registration result is notified to the main server 20, and the main server 20 further notifies the registration result to the access terminal 30-1.
[0074]
Then, the access terminal 30-1 displays this registration result.
[0075]
FIG. 7 is a sequence chart showing registration processing of subscriber information of a new subscriber station with respect to the main server 20 shown in FIG.
[0076]
In FIG. 7, when a subscriber information registration instruction is input at a new subscriber among the subscriber stations 11-1 to 11-m, 12-1 to 12-o, for example, the subscriber station 10-1, The subscriber station 10-1 starts communication with the base station 10-1, transmits a subscriber information and key information for authentication to the base station 10-1, and makes a registration request.
[0077]
When the base station 10-1 receives the subscriber information and the key information for authentication, the base station 10-1 first performs authentication based on the key information and then compares it with the management data of the device data storage unit 13-1 in the own station. It is determined whether or not the subscriber information belongs to a registered subscriber station.
[0078]
Here, if the subscriber information is for a registered subscriber station, the state transits to a state where communication is possible immediately, but if the subscriber information is for an unregistered subscriber. This subscriber information is transferred to the main server 20, and a request for registration of this subscriber information, that is, a determination as to whether or not registration is possible is requested.
[0079]
The main server 20 determines whether or not the registration of the subscriber information can be registered. If registration is possible, the subscriber information is registered in the subscriber data storage unit 60 and the registration result is stored in the base station 10-1. Notice.
[0080]
As a result, the base station 10-1 registers the subscriber information in the device data storage unit 13-1 in the own station and starts communication with the subscriber station 10-1.
[0081]
【The invention's effect】
As described above, according to the present invention, the line-of-sight confirmation between the antenna of the base station and the subscriber station, which could not be determined only at the antenna installation site of the new subscriber station, is confirmed in advance without going to the antenna installation site. As a result, it is possible to confirm whether or not the subscriber station can be used at an early stage, and to reduce the number of man-hours for installing the antenna. Therefore, it is possible to improve services and reduce costs when setting up a new subscriber station. Play.
[0082]
Further, since the antenna direction and vertical angle of the new subscriber station can be known in advance, the number of antenna installation steps can be reduced, and the cost for installing the antenna of the new subscriber station can be reduced.
[0083]
In addition, registration of a new subscriber station can be performed from the access terminal, the number of registration steps can be reduced, and the cost and efficiency of registration for the new subscriber station can be reduced.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram showing a schematic configuration of a subscriber radio system to which the present invention is applied.
2 is a block diagram showing a detailed configuration of a main server 20 in the subscriber radio system shown in FIG.
FIG. 3 is a diagram showing an example of a three-dimensional map displayed on the access terminal shown in FIG.
FIG. 4 is a sequence chart showing a new subscriber installation process in the configuration shown in FIG. 2;
FIG. 5 is a sequence chart showing processing for adjusting the azimuth and vertical angle of an antenna of a new subscriber station virtually installed as shown in FIG. 4 at an access terminal.
6 is a sequence chart showing registration processing of a new subscriber station in the access terminals 30-1 to 30-p shown in FIG.
7 is a sequence chart showing a registration process of subscriber information of a new subscriber station with respect to the main server shown in FIG.
[Explanation of symbols]
10-1 to 10-n base station
11-1 to 11-m subscriber stations
12-1 to 12-o subscriber stations
13-1 to 13-n Device data storage unit
20 Main server
21 Base station extractor
22 3D map information acquisition unit
23 3D map information transfer part
30-1 to 30-p access terminal
40 Map information distribution server
50 Position data storage
60 Subscriber data storage
70 Map data storage

Claims (8)

A subscriber having a plurality of base stations installed in a predetermined position in advance, a plurality of subscriber stations connected to the plurality of base stations via wireless lines, and a main server that operates and maintains each station In a subscriber station installation method in a wireless system,
When installing a new subscriber station, enter the location information of the new subscriber station from an access terminal connected to the main server, and make an inquiry to the main server.
The main server is
Corresponding to the inquiry based on the installation location information of the new subscriber station, the new subscriber station can be wirelessly connected by referring to the location information of the plurality of base stations stored in the location information storage means and the radio range thereof. Extract the base station
By accessing the installation position information and the installation position information of the new subscriber station extracts the base station the extracted to the based-out MAP information distribution server, the installation position and the installation position of the new subscriber station the extracted base station 3D map information including
The three-dimensional map information the acquired transfer the access terminal f,
The access terminal is
Based on the 3D map information transferred from the main server, a 3D map including the installation position of the extraction base station and the installation position of the new subscriber station is displayed.
Performing a line-of-sight determination between the installation position of the extraction base station and the installation position of the new subscriber station based on the displayed three- dimensional map;
If there is no prospect between the installation position of the extraction base station and the installation position of the new subscriber station according to the determination result of the determination, finely adjust the installation position of the new subscriber station,
Send the finely adjusted installation position of the new subscriber station to the main server to re-inquire,
A subscriber station installation method in a subscriber radio system, wherein fine adjustment of an installation position of the new subscriber station and re-inquiry to the main server are repeated until the determination result is good. The main server is
Wherein upon request of the installation direction and the vertical angle information of the antenna of the new subscriber station from the access terminal, of the novel subscriber station based on the installation position information of the installation position information and the extracted base station of a new subscriber station antenna Calculate the optimal azimuth and vertical angle of
Subscriber station installation method in the subscriber radio system according to claim 1, wherein the notifying the calculated optimal orientation and angle of the antenna that issued to the access terminal. The main server is
Transmitting a registration request for the new subscriber station to the extraction base station based on the location information of the new subscriber station from the access terminal;
The subscriber station installation method in the subscriber radio system according to claim 1, wherein a registration result returned from the base station in response to the registration request is notified to the access terminal. The new subscriber station is:
Sending a registration request for subscriber information of the new subscriber station to the extraction base station based on the location information of the new subscriber station,
The extraction base station is
Subscriber station installation method in the subscriber radio system according to claim 1, characterized in that the main server f registers the subscriber information of the new subscriber station based on the registration request. A plurality of base stations pre-installed at predetermined positions ;
A plurality of subscriber stations connected to the base station via wireless lines;
In a subscriber radio system with a main server that operates and maintains each station,
An access terminal connected to the main server;
Position information storage means connected to the main server and storing position information of the plurality of base stations and radio ranges thereof;
A map information delivery server connected to the main server for delivering 3D map information;
The main server is
In response to a query based on the installation position information of the new subscriber station entered at the access terminal, said with reference to the position information and radio range before Symbol positional information storing means stored in the plurality of base stations Extraction means for extracting a base station capable of wireless connection of a new subscriber station;
By accessing the map information server based on the installation position information of the new subscriber station entered in the installation position information and the access terminal extracts the base station extracted by the extracting means, the installation position and the previous SL extracted base station Obtaining means for obtaining 3D map information including the new subscriber station installation position;
Transfer means for transferring the three- dimensional map information acquired by the acquisition means to the access terminal,
The access terminal is
Display means for displaying a three-dimensional map including the installation position of the extraction base station and the installation position of the new subscriber station based on the three- dimensional map information transferred by the transfer means;
Determination means for performing a line-of-sight determination between the installation position of the extraction base station and the installation position of the new subscriber station based on the three- dimensional map displayed by the display means;
If the determination result of the determination means is NO, an adjustment means for finely adjusting the installation position of the new subscriber station;
Re-inquiry means for sending an inquiry to the main server for the installation position of the new subscriber station adjusted by the adjustment means,
A subscriber radio system, wherein the fine adjustment by the adjustment means and the inquiry by the re-inquiry means are repeated until a determination result of the determination means becomes good. The main server is
Upon requesting the antenna orientation and vertical angle information of the new subscriber station from the access terminal, the antenna of the new subscriber station is based on the location information of the new subscriber station and the location information of the extraction base station. Calculating and calculating the optimum azimuth and vertical angle of
6. The subscriber radio system according to claim 5, further comprising notification means for notifying the access terminal of the optimum antenna azimuth and angle calculated by the calculation means. The main server is
Transmitting means for transmitting a registration request for the new subscriber station to the extraction base station based on the location information of the new subscriber station;
6. The subscriber radio system according to claim 5, further comprising registration result notifying means for notifying the access terminal of a registration result returned from the base station in response to the registration request. The new subscriber station is:
Registration request transmitting means for transmitting a registration request for subscriber information of the new subscriber station to the extraction base station based on the location information of the new subscriber station;
The extraction base station is
6. The subscriber radio system according to claim 5, further comprising registration means for registering subscriber information of the new subscriber station in the main server based on the registration request.

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