KR100706905B1 - System and Method for Managing of Base Station Transceiver System Information - Google Patents

Abstract

The present invention relates to a base station information management system and method for collecting and managing information related to a plurality of base stations to improve the performance of a mobile communication network.

The present invention provides a data collection unit which collects latitude / longitude information of each of a plurality of base stations and altitude information of preset items related to a base station and stores them in a database; The latitude and longitude coordinates of the specific base station collected by the data collection unit are displayed on a map previously stored in the database, and the latitude and longitude coordinates of the base station are modified and stored in the database according to preset conditions. Position correction; As the user selects the arrival point at which the signal transmitted from the maxpoint of the specific base station antenna stored in the database arrives, the orientation of the arrival point is calculated based on the north-east, and the altitude of the specific base station is calculated based on the altitude information stored in the database. Including a data calculator that calculates a slope with an arrival point by calculating the slope, an accurate base station information can be provided when a simulation for wireless network quality management is performed.

Base station

Description

System and Method for Managing of Base Station Transceiver System Information

1 is a diagram showing a connection relationship between a base station information management system and a communication network according to the present invention;

2 is a diagram showing the configuration of a base station information management system according to the present invention;

3 is a view for explaining a method for calculating the slope of a base station according to the present invention;

4 is a flowchart illustrating a base station information management method according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: base station 120: mobile communication network

200: base station information management system 210: control unit

220: data collector 230: position correction

240: data calculator 250: database

251: Latitude / longitude information DB 252: Altitude information DB

253: orientation information DB 254: slope information DB

255: map information DB

The present invention relates to a base station information management system, and more particularly, to a base station information management system and method for collecting and managing information associated with a plurality of base stations for improving the performance of a mobile communication network.

In order to construct an efficient network when introducing a service related to a mobile communication network, a network operator arranges a base station at an appropriate location, repeatedly derives an orientation and a tilt of the base station, and based on this, a field in the mobile communication network. Understand the situation.

In addition, the network operator refers to the base station to select the location of the base station based on the field situation in the mobile communication network identified by the above method.

Once the base station location is selected, the base station is installed and service started, the location of the base station is not changed, but the slope and orientation of the base station is changed in real time for field optimization of the mobile communication network.

In this situation, a simulation tool is used to determine the coverage of a specific base station. In this case, exact latitude and longitude coordinates, slopes and orientations of the base station to be simulated are required. The latitude and longitude coordinates are calculated based on the coordinate values received from the GPS satellites, and the latitude and longitude coordinates are required for the simulation. The reason is that there is an error in the coordinate value itself received from the GPS satellites, and there is also an error in the map indicating the position of the base station.

In addition, the orientation and the slope cause a change in gain, which makes it difficult to derive the correct value.

In order to solve the above problems, a network operator introduces a method of measuring data by using an expensive measuring instrument, which directly visits a place where a plurality of base stations are installed and provides information about the location and antenna information of the base station. There is a problem that needs to be measured.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and collects location information of each of a plurality of base stations, calculates base station information including an orientation and a slope based on the location information, and can be used for simulation for improving performance of a mobile communication network. There is a technical problem to provide a base station information management system and method.

The present invention for achieving the above object is a base station information management system connected to a mobile communication network including a base station, collecting and managing information associated with the base station,

A control unit controlling the overall operation of the base station information management system; A database for storing information associated with the base station information management system under control of the controller; A data collection unit for collecting latitude / longitude information of each of a plurality of base stations and altitude information of a preset item related to the base station and storing the information in a database; The latitude and longitude coordinates of the specific base station collected by the data collection unit are displayed on a map previously stored in the database, and the latitude and longitude coordinates of the base station are modified and stored in the database according to preset conditions. Position correction; As the user selects an arrival point at which a signal transmitted from a maxpoint of a specific base station antenna stored in the database arrives, an orientation of the arrival point is calculated based on the north, and the specific point is based on the altitude information stored in the database. And a data calculator for calculating an inclination with the arrival point by calculating an altitude of the base station.

Another embodiment of the present invention is connected to a mobile communication network including a base station, the base station information management method for collecting and managing information associated with the base station,

A first step of collecting latitude coordinates, longitude coordinates, and altitude information of a preset item associated with each of the base stations; A second step of displaying the latitude and longitude coordinates of the specific base station collected in the first step on a pre-stored map and correcting the latitude and longitude coordinates of the base station according to a preset condition; A third step of calculating an orientation of the arrival point centered on the north as the arrival point at which the signal transmitted from the maximum point of the specific base station antenna arrives is selected by the user; And a fourth step of calculating the altitude of the specific base station based on the altitude information of the preset item collected in the first step, and calculating the altitude of the base station and the slope of the arrival point.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a connection relationship between a base station information management system and a communication network according to the present invention.

The base station information management system 200 may provide related information (eg, latitude and longitude coordinates of the base station) of the plurality of base stations 100-1, 100-2, 100-3, 100-4, in the mobile communication network 120. Etc.), and correct it according to the user's setting, calculate orientation and inclination for each base station based on the corrected latitude / longitude coordinates, and measure mobile network performance by measuring the latitude and longitude information, orientation information, and inclination information of the base station. It provides a reference when performing a simulation.

Hereinafter, the reference number of the base station for the convenience of description will be 100.

2 is a diagram illustrating a configuration of a base station information management system according to the present invention, which will be described with reference to FIG. 3 for explaining a method of calculating a slope of a base station.

As illustrated, the base station information management system 200 includes a control unit 210, a database 250, a data collection unit 220, a location correction unit 230, and a data calculation unit 240.

As shown, the database 250 stores the latitude and longitude information DB 251 and the base station 100 storing latitude and longitude coordinates for each base station collected by the data collection unit 220 under the control of the controller 210. Altitude to store the altitude of the other components except the altitude of the altitude above the altitude, the height of the building where the base station 100 is installed, the antenna altitude of the base station 100, and the altitude of the antenna in the base station 100. An information DB 252, an orientation information DB 253 for storing orientation information calculated by the data calculator 240, an inclination information DB 254 for storing inclination information calculated by the data calculator 240, and And a map information DB 255 for storing a map image.

The data collector 220 collects latitude coordinates, longitude coordinates, and altitude information of preset items related to the base stations of the plurality of base stations 100 and stores them in the database 250. Here, the altitude information of the preset item is the altitude above sea level in the region to which the base station 100 belongs, the altitude of the building in which the base station 100 is installed, the antenna altitude of the base station 100, and the antenna elevation of the base station 100. Altitude other than altitude, for example, the altitude of the base station's pylon portion.

The location correction unit 230 displays the latitude and longitude coordinates of the specific base station 100 collected by the data collection unit 220 on a map previously stored in the database 250, and the user arbitrarily selects the point. By modifying the latitude and longitude coordinates of the base station 100 or matching the address of the base station 100 and the address on the map, the latitude and longitude coordinates of the base station 100 is modified and stored in the database 250. .

The data calculator 240 calculates an orientation of the arrival point centered on the north as the user selects an arrival point at which a signal transmitted from a max point of a specific base station antenna stored in the database 250 arrives. The altitude of the specific base station 100 is calculated based on the altitude information stored in the database 250 to calculate the inclination with the arrival point and stored in the database 250.

Here, the data calculation unit 240 is the elevation of the area to which the base station 100 belongs, the altitude of the building in which the base station 100 is installed, the antenna elevation of the base station 100 and the base station 100 of the antenna. The altitude of the base station 100 is calculated based on the altitude of the rest of the configuration except for the altitude (for example, the tower portion of the base station).

In addition, when calculating the inclination, the data calculation unit 240, as shown in Figure 3, the upper part of the building where the signal transmitted from the maximum point (A) of the antenna of the specific base station 100 is located at the point of arrival specified by the user , The altitude of the specific base station 100 and the inclination of the arrival point are calculated using the information indicating which point (B) of the middle and the bottom is reached.

4 is a flowchart illustrating a base station information management method according to the present invention.

First, the data collection unit 220 of the base station information management system 200 collects latitude coordinates, longitude coordinates, and altitude information of preset items related to the base station 100 of each of a plurality of base stations, and stores the database 250 for each base station. Stored in (S101).

Here, the altitude information of the preset item is the altitude above sea level in the region to which the base station 100 belongs, the altitude of the building in which the base station 100 is installed, the antenna altitude of the base station 100, and the antenna elevation of the base station 100. Altitude other than altitude, for example, the altitude of the base station's pylon portion.

The location correction unit 230 displays the latitude and longitude coordinates of the specific base station collected in step S101 on a map previously stored in the database 250, and the latitude of the base station 100 is a point selected arbitrarily by the user. After modifying the coordinates and the longitude coordinates or matching the address of the base station 100 and the address on the map, the latitude and longitude coordinates of the base station 100 is modified and stored in the database 250 (S103).

Subsequently, the data calculator 240 calculates an orientation of the arrival point centered on the north as the arrival point at which the signal transmitted from the max point of the antenna of the specific base station 100 is reached by the user is selected (S105).

Thereafter, the data calculator 240 calculates an altitude of the specific base station 100 based on the altitude information of the preset item collected in step S101, and calculates an inclination between the altitude of the base station 100 and the arrival point ( S107).

Here, the data calculation unit 240 is the elevation of the area to which the base station 100 belongs, the altitude of the building in which the base station 100 is installed, the antenna elevation of the base station 100 and the base station 100 of the antenna. The altitude of the base station 100 is calculated based on the altitude of the rest of the configuration except for the altitude (for example, the tower portion of the base station).

In addition, when calculating the inclination, the data calculation unit 240, as shown in Figure 3, the upper part of the building where the signal transmitted from the maximum point (A) of the antenna of the specific base station 100 is located at the point specified by the user, The slope of the altitude and the arrival point of the specific base station 100 is calculated using the information indicating which part (B) of the middle and the bottom is reached.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, the base station information management system and method of the present invention has an advantage of providing accurate base station information when performing simulation for wireless network quality management.

In addition, the present invention has the advantage that it can eliminate the inconvenience of having to visit all the area where the base station is located to collect the base station information.

Claims (12)

A base station information management system connected to a mobile communication network including a base station, and collecting and managing information related to the base station, A control unit controlling the overall operation of the base station information management system; A database for storing information associated with the base station information management system under control of the controller; A data collector configured to collect latitude / longitude information of each of a plurality of base stations and altitude information of a preset item related to the base station and store them in the database; The latitude and longitude coordinates of the specific base station collected by the data collection unit are displayed on a map previously stored in the database, and the latitude and longitude coordinates of the base station are modified and stored in the database according to preset conditions. Position correction; And As the user selects an arrival point at which a signal transmitted from a maxpoint of a specific base station antenna stored in the database arrives, an orientation of the arrival point is calculated based on the north, and the specific point is based on the altitude information stored in the database. A data calculator for calculating an inclination with the arrival point by calculating an altitude of the base station; Base station information management system comprising a. The method of claim 1, In the location correction unit, a predetermined condition for modifying the latitude and longitude coordinates of the base station is a base station information management system, characterized in that for modifying the latitude and longitude coordinates of the base station to a point selected by the user. The method of claim 1, In the location correction unit, a preset condition for modifying the latitude and longitude coordinates of the base station is characterized by modifying the latitude and longitude coordinates of the base station after matching the address of the base station with an address on a map. Base station information management system. The method of claim 1, Altitude information of the preset item, And a base elevation information of the region to which the base station belongs, the altitude of the building in which the base station is installed, the altitude of the antenna of the base station, and the altitude of the configuration other than the altitude of the antenna in the base station. The method of claim 4, wherein The data calculation unit, The altitude of the base station is calculated based on the altitude of the base station to which the base station belongs, the altitude of the building in which the base station is installed, the altitude of the antenna of the base station, and the altitude of the configuration other than the altitude of the antenna in the base station. Base station information management system, characterized in that. The method of claim 1, When calculating the slope, The data calculator uses the information indicating whether the signal transmitted from the max point of the specific base station antenna reaches the upper, middle, and lower parts of the building located at the point of arrival to the altitude and the arrival point of the specific base station. A base station information management system, characterized in that for calculating the slope. A base station information management method connected to a mobile communication network including a base station to collect and manage information related to the base station, A first step of collecting latitude coordinates, longitude coordinates, and altitude information of a preset item associated with each of the base stations; A second step of displaying the latitude and longitude coordinates of the specific base station collected in the first step on a pre-stored map and correcting the latitude and longitude coordinates of the base station according to a preset condition; A third step of calculating an orientation of the arrival point centered on the north as the arrival point at which the signal transmitted from the max point of the specific base station antenna arrives is selected by the user; And A fourth step of calculating an altitude of the specific base station based on the altitude information of the preset item collected in the first step, and calculating an altitude of the base station and an inclination between the arrival points; Base station information management method comprising a. The method of claim 7, wherein In the second step, the preset condition for modifying the latitude coordinates and the longitude coordinates of the base station comprises the steps of modifying the latitude and longitude coordinates of the base station to a point selected by the user arbitrarily; The base station information management method, characterized in that. The method of claim 7, wherein In the second step, a preset condition for modifying the latitude and longitude coordinates of the base station includes: matching the address of the base station with an address on a map, and then modifying the latitude and longitude coordinates of the base station; The base station information management method, characterized in that. The method of claim 7, wherein Altitude information of the preset item, And an altitude above sea level in the region to which the base station belongs, the altitude of the building in which the base station is installed, the antenna altitude of the base station, and the altitude of the configuration other than the altitude of the antenna in the base station. The method of claim 10, Computing the altitude of the specific base station in the fourth step, Computing the altitude of the base station based on the altitude above sea level in the region to which the base station belongs, the altitude of the building in which the base station is installed, the antenna altitude of the base station, and the altitude of the configuration other than the altitude of the antenna in the base station. The base station information management method, characterized in that step. The method of claim 7, wherein When calculating the slope in the fourth step, Computing the altitude of the specific base station and the inclination point of the specific base station by using information indicating which of the upper, middle, and bottom of the building located at the point reaches the signal transmitted from the maximum point of the specific base station antenna The base station information management method, characterized in that step.

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