KR20090117444A - System and method for analyzing coverage of sector in mobile communication network, and coverage analyzing server therefor - Google Patents

Abstract

PURPOSE: A system for analyzing a coverage of each sector in a mobile communication network, a method therefor and a coverage analyzing server are provided to reflect measurement information. CONSTITUTION: Field measurement data provides collected field measurement data to a coverage analyzing server(200). The coverage analyzing server performs a simulation based on information about base stations and repeaters, receives the field measurement data, and sets up a reference point at the position of one of base stations(102~108) and a repeater on the simulation result. The coverage analyzing server makes a polygonal close curve centering on the set reference point through the received field measurement data.

Description

System and method for analyzing coverage of sector in mobile communication network, and coverage analyzing server therefor}

The present invention relates to a sector-specific coverage analysis method and system in a mobile communication network, and more particularly, receives field measurement data collected by a field measurement terminal, performs simulation based on at least one of base station and repeater information, Coverage analysis method for each sector in a mobile communication network which sets a position of one of a base station and a repeater as a reference point in a simulation result according to the simulation, and produces a closed curve of a polygon around the set reference point using the received field measurement data. And to the system.

In general, a mobile communication system is a system that enables communication between mobile subscribers regardless of a subscriber's location by using space radio waves, and transmits and receives messages between a mobile communication terminal and a mobile communication terminal moving in an unspecified area. A base station that manages resources, a base station controller that controls and manages multiple base stations, and a switch that performs a switching role in conjunction with these base station controllers and other communication networks, and performs an overall function according to call processing and data exchange of a mobile communication system. Include. Such a mobile communication system includes a plurality of base stations, and a repeater that amplifies and transmits a radio signal of the base station or a base station communicates with a mobile communication terminal located in a coverage for managing a corresponding radio resource.

The sector-based coverage analysis of the base station or repeater includes a method using simulation and a method using field measurement.

In this case, in the method using the simulation, the service coverage for each sector may be obtained by performing the simulation based on each base station and repeater information.

In addition, the method using the field measurement can obtain the service coverage for each sector by measuring the actual quality of the field and displaying the measurement data on the map.

However, the method using the simulation has a disadvantage that cannot reflect the actual information, and the method using the field measurement has a disadvantage in that it is impossible to measure data on the road, etc. due to the limitation of measurement. There is a need for a sector-by-sector coverage analysis method that can compensate for the shortcomings of the method.

An object of the present invention is to perform a simulation based on one or more of the field measurement terminal, base station, repeater information collected by the field measurement data to the coverage analysis server, and receives the field measurement data from the field measurement terminal, the simulation In the mobile communication network including a coverage analysis server to set the position of any one of the base station, the repeater as a reference point in the simulation result according to the execution, and to produce a closed curve of the polygon around the set reference point using the received field measurement data To provide a sector-by-sector coverage analysis system.

Another object of the present invention is to transmit the field measurement data collected from the field measurement terminal to the coverage analysis server, perform a simulation based on at least one of the base station, the repeater information in the coverage analysis server, the simulation results according to the simulation By setting the position of any one of the base station and the repeater as a reference point, and using the transmitted field measurement data to perform a closed curve of the polygon around the set reference point, the measured information can be reflected, and the data such as the road or the residential area is actually The present invention provides a sector-by-sector coverage analysis method in a mobile communication network that can provide a polygon map considering difficult points to measure.

Another object of the present invention is a base station, a simulation processing unit for performing a simulation based on one or more of the repeater information, a field measurement processing unit for receiving the field measurement data collected by the field measurement terminal and the base station to the simulation results according to the simulation It provides a coverage analysis server comprising a polygon map manufacturing unit for setting a position of any one of the repeater as a reference point, and producing a closed curve of the polygon around the set reference point using the received field measurement data.

According to an aspect of the present invention to achieve the above object, in a system for analyzing coverage by sector in a mobile communication network, one or more of field measurement terminal, base station, repeater information to collect field measurement data to provide to the coverage analysis server Perform a simulation, receive field measurement data from the field measurement terminal, set a position of one of a base station and a repeater as a reference point in a simulation result according to the simulation, and use the received field measurement data. A sector-by-sector coverage analysis system is provided in a mobile communication network including a coverage analysis server that produces a closed curve of a polygon around the set reference point.

The coverage analysis server may perform a simulation by using the strongest pseudo noise (PN) signal for each specific point of a bin unit.

The fields measuring terminal collects field measurement data by measuring the strongest PN (Pseudo Noise) signal for each specific point of a bin unit using a diagnostic monitor.

The coverage analysis server sets a constant search distance around the reference point, and the strongest pseudo noise (PN) signal for each preset unit in a 360 degree direction around the reference point, the bin of the nearest distance and the bin of the home distant distance. Extract the, set the extracted nearest point to-and set the farthest point to +, and connect the points and the + points according to a preset condition to produce a closed curve of the polygon.

The coverage analysis server receives location-based data including the strongest PN (Pseudo Noise) signal for a specific location from a mobile communication terminal, and manufactures a closed curve of a polygon using the received field measurement data and location-based data. It is characterized by.

According to another aspect of the present invention, in a method for analyzing coverage by sector in a mobile communication network, (a) transmitting field measurement data collected by a field measurement terminal to a coverage analysis server, (b) at the coverage analysis server Performing a simulation based on at least one of the base station and the repeater information, (c) setting the position of any one of the base station and the repeater as a reference point in the simulation result of performing the simulation in the coverage analysis server; and (d) A coverage analysis method for each sector is provided in a mobile communication network including the step of producing a closed curve of a polygon around the set reference point by using the transmitted field measurement data in the coverage analysis server.

In the step (a), the field measurement terminal collects field measurement data by measuring the strongest PN (Pseudo Noise) signal for each specific point of a bin unit using a diagnostic monitor.

Step (b) is characterized in that the simulation is performed using the strongest PN (Pseudo Noise) signal for each specific point in the bin unit.

In the step (d), a predetermined search distance is set around the reference point, and the strongest PN (Pseudo Noise) signal per preset unit in a 360 degree direction around the reference point is far from the nearest bin. Extracting a bin of a distance, setting the extracted closest point to-and setting the farthest point to +, and connecting the points and the + points according to a preset condition to produce a polygon closed curve Characterized in that it comprises a.

After the step (a), further comprising the step of receiving location-based data including the strongest PN (Pseudo Noise) signal for a specific location from the mobile communication terminal, the step (d), the received field A closed curve of the polygon is formed by using the measured data and the location-based data.

According to another aspect of the present invention, a coverage analysis server for analyzing the coverage for each sector in a mobile communication network, a simulation processing unit for performing a simulation based on one or more of the base station, repeater information, field measurement collected by the field measurement terminal Set a position of any one of a base station and a repeater as a reference point in a field measurement processor for receiving data and a simulation result according to the simulation, and produce a closed curve of a polygon around the set reference point using the received field measurement data. A coverage analysis server including a polygon map production unit is provided.

The simulation processor may perform a simulation by using the strongest PN (Pseudo Noise) signal for each specific point of a bin unit.

The field measurement data is characterized in that the strongest PN (Pseudo Noise) signal measured for each specific point in the bin unit using a diagnostic monitor.

The polygon map manufacturing unit sets a constant search distance around the reference point, and the strongest pseudo noise (PN) signal for each preset unit in a 360-degree direction around the reference point, the bin of the nearest distance and the bin of the home distant distance. Extract the, set the extracted closest point to-, set the farthest point to +, and connect the points and the + points according to a predetermined condition to produce a polygon closed curve.

It further comprises a Location Based Service (LBS) processing unit for receiving a location-based data including the strongest PN (Pseudo Noise) signal for a specific location from a mobile communication terminal, wherein the polygon map manufacturing unit and the received field measurement data and location It is characterized by producing a closed curve of the polygon using the underlying data.

According to another aspect of the present invention, a method for analyzing coverage by sector of a mobile communication network in a coverage analysis server, the method comprising: (a) receiving field measurement data collected by a field measurement terminal, (b) a base station and a repeater Performing a simulation based on at least one of the information, (c) setting a position of one of a base station and a repeater as a reference point in a simulation result according to the simulation, and (d) using the received field measurement data. A sector-by-sector coverage analysis method is provided in a mobile communication network including manufacturing a closed curve of a polygon around a set reference point.

In the step (a), the field measurement terminal collects field measurement data by measuring the strongest PN (Pseudo Noise) signal for each specific point of a bin unit using a diagnostic monitor.

Step (b) is characterized in that the simulation is performed using the strongest PN (Pseudo Noise) signal for each specific point in the bin unit.

In the step (d), a predetermined search distance is set around the reference point, and the strongest PN (Pseudo Noise) signal per preset unit in a 360 degree direction around the reference point is far from the nearest bin. Extracting a bin of a distance, setting the extracted closest point to-and setting the farthest point to +, and connecting the points and the + points according to a preset condition to produce a polygon closed curve Characterized in that it comprises a.

After the step (a), further comprising the step of receiving location-based data including the strongest PN (Pseudo Noise) signal for a specific location from the mobile communication terminal, the step (d), the received field A closed curve of the polygon is formed by using the measured data and the location-based data.

As described above, according to the present invention, the field measurement data is collected and provided to the coverage analysis server, the simulation is performed based on one or more of the field measurement terminal, base station, and repeater information, and the field measurement data is received from the field measurement terminal. And a coverage analysis server for setting a position of any one of a base station and a repeater as a reference point in a simulation result according to the simulation, and producing a closed curve of a polygon around the set reference point using the received field measurement data. A sector-specific coverage analysis system may be provided in a mobile communication network.

In addition, the field measurement data collected from the field measurement terminal is transmitted to the coverage analysis server, the coverage analysis server performs a simulation based on one or more of the base station and repeater information, and the base station, the repeater of the simulation results according to the simulation By setting any one position as a reference point and using the transmitted field measurement data to perform a closed curve of the polygon around the set reference point, it is possible to reflect the actual measurement information, and it is difficult to actually measure data such as a road or a residential area. In the mobile communication network that can provide the polygon map considered, a sector-by-sector coverage analysis method can be provided.

In addition, the simulation processing unit for performing a simulation based on at least one of the base station, the repeater information, the field measurement processing unit for receiving the field measurement data collected by the field measurement terminal and any one of the base station, the repeater in the simulation results according to the simulation performed It is possible to provide a coverage analysis server including a polygon map manufacturing unit for setting a location of a reference point and producing a closed curve of a polygon around the set reference point using the received field measurement data.

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

1 is a diagram illustrating a configuration of a sector-by-sector coverage analysis system in a mobile communication network according to the present invention.

Referring to FIG. 1, a sector-by-sector coverage analysis system in a mobile communication network according to the present invention includes one or more base stations 102, 104, 106, 108, a base station controller 110, an exchange 112, a data service node 114, and the like. And coverage analysis server 200.

The base station 102, 104, 106, 108 is connected to a mobile communication network such as a code division multiple access (CDMA) network, a wideband code division multiple access (WCDMA) network, a high speed downlink packet access (HSDPA) network, and the like through a radio signal. Performs communication with a mobile communication terminal (not shown).

The base station controller 110 generally includes radio channel management, protocol matching of a mobile communication terminal, protocol matching of a base station, soft handoff processing, protocol matching with a core network, and data service node 114. It performs the function of dealing with connection with.

The switch 112 performs a switching role in conjunction with the base station controller 110 and other communication networks, and performs an overall function according to call processing and data exchange of a mobile communication system.

The coverage analysis server 200 performs a simulation based on one or more of the base station and repeater information, receives field measurement data from the field measurement terminal, and places any one of the base station and the repeater in the simulation result according to the simulation. As a reference point, a closed curve of a polygon is manufactured based on the set reference point by referring to the received field measurement data.

In this case, the coverage analysis server 200 performs a simulation by using the strongest PN (Pseudo Noise) signal for each specific point in a bin unit. At this time, the bin is a kind of unit that divides the space into a certain size.

In addition, the coverage analysis server 200 sets a constant search distance around the reference point, and the strongest PN (Pseudo Noise) signal per preset unit in the 360 degree direction around the reference point is far from the nearest bin and home. Extract the bin of the distance, set the closest point extracted to-, set the farthest point to +, and connect the points and the + points according to the preset conditions to produce a closed curve of the polygon.

In addition, the coverage analysis server 200 may receive location-based data including the strongest PN (Pseudo Noise) signal for a specific location from the mobile communication terminal, and manufacture a closed curve of a polygon by referring to the received location-based data. have.

Meanwhile, the field measurement terminal collects field measurement data by measuring the strongest PN (Pseudo Noise) signal for each specific point of a bin unit using a diagnostic monitor.

Referring to the above configuration, a method for analyzing sector-by-sector coverage in a mobile communication network according to the present invention will be described as follows.

The coverage analysis server 200 performs a simulation based on one or more of the base station and repeater information.

At this time, the coverage analysis server 200 may perform a simulation by using the strongest PN (Pseudo Noise) signal for each specific point of the bin unit.

In addition, the coverage analysis server 200 receives field measurement data collected by the field measurement terminal.

In this case, the field measurement terminal may collect field measurement data by measuring the strongest PN (Pseudo Noise) signal for each specific point of a bin unit using a diagnostic monitor.

Meanwhile, the coverage analysis server 200 sets a location of any one of a base station and a repeater as a reference point in the simulation result according to the simulation.

Thereafter, the coverage analysis server 200 generates a closed curve of a polygon around the set reference point with reference to the received field measurement data.

In this case, the coverage analysis server 200 sets a constant search distance around the reference point, and assumes that the strongest pseudo noise (PN) signal is closest to the nearest bin in a 360-degree direction about the reference point. A far-away bin is extracted, the closest point is set to −, the farthest point is set to +, and the closed points of the polygon are manufactured by connecting the points and the + points according to preset conditions.

2 is a block diagram schematically showing the internal configuration of the coverage analysis server according to the present invention, Figure 3 is a view showing a polygon map according to the present invention.

Referring to FIG. 2, the coverage analysis server 200 according to the present invention includes a simulation processor 202, a field measurement processor 204, a location based service (LBS) processor 206, a polygon map generator 208, and a database ( 210, and the database 210 includes a simulation result information storage area 212, a field measurement information storage area 214, and an LBS information storage area 216.

The simulation processing unit 202 performs a simulation based on one or more of the base station, repeater information.

In this case, the base station and repeater information may include information such as height, direction, reception angle, output, and the like. The simulation processing unit 202 uses the base station and repeater information to provide the strongest PN for each specific point of an empty unit. A Pseudo Noise signal, Best PN, that is, the strongest received signal can be extracted at each point.

The field measurement processing unit 204 receives field measurement data collected by the field measurement terminal. In this case, the field measurement data is Best PN, which is the strongest PN (Pseudo Noise) signal measured for each specific point in a bin unit using a diagnostic monitor.

On the other hand, the field measurement terminal may be mounted in a vehicle and used to measure the quality of the road-oriented.

The Location Based Service (LBS) processor 206 receives location based data including the strongest PN (Pseudo Noise) signal for a specific location from the mobile communication terminal.

The polygon map manufacturing unit 208 sets a position of one of the base station and the repeater as a reference point in the simulation result according to the simulation, and generates a closed curve of the polygon around the reference point set by referring to the received field measurement data / location-based data. To make.

At this time, the polygon map manufacturing unit 208 sets a constant search distance around the reference point, and the strongest PN (Pseudo Noise) signal per preset unit in the 360-degree direction around the reference point is far from the nearest bin. Extract the bin of the distance, set the extracted nearest point to-, set the farthest point to +, and connect the points and the + points according to a preset condition, which is a closed curve of the polygon as shown in FIG. Create polygon maps.

4 is a flowchart illustrating a polygon map manufacturing process according to the present invention.

4, the coverage analysis server sets the location of the base station or repeater as a reference point (S102).

Thereafter, the coverage analysis server sets a predetermined search distance (for example, 5 km) around the reference point (S104).

Thereafter, the coverage analysis server determines that the best PN signal, which is the strongest PN (Pseudo Noise) signal for every preset unit (for example, 1 degree unit) in a 360 degree direction about a reference point, is the farthest distance from the nearest bin. Is extracted (S106).

Thereafter, the coverage analysis server sets the extracted closest point to − and the farthest point to + (S108).

Thereafter, the coverage analysis server connects the points and the + points according to a preset condition to produce a closed curve of the polygon (S110). For example, the coverage analysis server connects the points closest to the left from the right end, the points farthest to the left from the left to the right, and the connecting line of the point connects to the left end of the + point. , The connecting line of the + point connects to the right end point of the point to complete the closed curve connecting the whole.

The present invention is not limited to the above embodiments, and many variations are possible by those skilled in the art within the spirit of the present invention.

In the aforementioned mobile communication network, the sector-by-sector coverage analysis method includes code division multiple access (CDMA), wideband code division multiple access (WCDMA), and high speed downlink packet access (HSDPA). It can be applied to a wireless network that is guaranteed mobility, such as a network.

1 is a diagram illustrating a configuration of a sector-by-sector coverage analysis system in a mobile communication network according to the present invention.

Figure 2 is a block diagram schematically showing the internal configuration of the coverage analysis server according to the present invention.

3 shows a polygon map according to the invention.

4 is a flow chart showing a polygon map manufacturing process according to the present invention.

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

102: base station 110: base station controller

112: exchange 200: coverage analysis server

202: simulation processing unit 204: field measurement processing unit

206: LBS processing unit 208: Polygon map production unit

Claims (20)

In the system for analyzing the coverage of each sector in the mobile communication network, A field measurement terminal for collecting field measurement data and providing the field measurement data to a coverage analysis server; Perform a simulation based on at least one of base station and repeater information, receive field measurement data from the field measurement terminal, and set a position of any one of a base station and a repeater as a reference point in a simulation result according to the simulation; A coverage analysis server configured to produce a closed curve of a polygon around the set reference point using the received field measurement data; Sector-based coverage analysis system in a mobile communication network comprising a. The method of claim 1, The coverage analysis server sector-by-sector coverage analysis system in the mobile communication network, characterized in that for performing the simulation using the strongest PN (Pseudo Noise) signal for each specific point of the bin unit. The method of claim 1, And the field measurement terminal collects field measurement data by measuring the strongest pseudo noise (PN) signal for each specific point of a bin unit using a diagnostic monitor to collect field measurement data. The method of claim 1, The coverage analysis server sets a constant search distance around the reference point, and the strongest pseudo noise (PN) signal for each preset unit in a 360 degree direction around the reference point, the bin of the nearest distance and the bin of the home distant distance. In the mobile communication network characterized in that for extracting, to set the extracted closest point to-and the farthest point to +, and to connect the points and the + points according to a predetermined condition to produce a closed curve of the polygon Sectoral Coverage Analysis System. The method of claim 1, The coverage analysis server receives location-based data including the strongest PN (Pseudo Noise) signal for a specific location from a mobile communication terminal, and manufactures a closed curve of a polygon using the received field measurement data and location-based data. Sector coverage analysis system in a mobile communication network, characterized in that. In the method for analyzing the sector-by-sector coverage in the mobile communication network, (a) transmitting field measurement data collected by the field measurement terminal to a coverage analysis server; (b) performing simulation based on at least one of a base station and repeater information in the coverage analysis server; (c) setting a location of any one of a base station and a repeater as a reference point in a simulation result of performing the simulation in the coverage analysis server; And (d) manufacturing a closed curve of a polygon around the set reference point using the transmitted field measurement data in the coverage analysis server; Sector coverage analysis method in a mobile communication network comprising a. The method of claim 6, In step (a), The field measurement analysis method of the mobile communication network, characterized in that the field measurement terminal collects field measurement data by measuring the strongest PN (Pseudo Noise) signal for each specific point of the bin unit using a diagnostic monitor. The method of claim 6, In step (b), Sector coverage analysis method in a mobile communication network characterized in that the simulation is performed using the strongest PN (Pseudo Noise) signal for each specific point in the bin unit. The method of claim 6, In step (d), Setting a constant search distance around the reference point; Extracting a bin of a nearest distance and a bin of a home far distance having the strongest PN (Pseudo Noise) signal for each preset unit in a 360 degree direction from the reference point; Setting the extracted closest point to-and setting the furthest point to +; Connecting the points and the + points according to a preset condition to produce a closed curve of a polygon; Sector-based coverage analysis method in a mobile communication network comprising a. The method of claim 6, After the step (a), further comprising the step of receiving location-based data including the strongest PN (Pseudo Noise) signal for a specific location from the mobile communication terminal, In the step (d), the sector-specific coverage analysis method of the mobile communication network, characterized in that for producing a closed curve of the polygon using the received field measurement data and location-based data. A coverage analysis server for analyzing coverage by sector in a mobile communication network, A simulation processor configured to perform a simulation based on at least one of base station and repeater information; A field measurement processing unit for receiving field measurement data collected by the field measurement terminal; And A polygon map manufacturing unit for setting a position of one of a base station and a repeater as a reference point in a simulation result according to the simulation, and producing a closed curve of a polygon around the set reference point using the received field measurement data; Coverage analysis server comprising a. The method of claim 11, The simulation processing unit, the coverage analysis server, characterized in that for performing the simulation using the strongest PN (Pseudo Noise) signal for each specific point of the bin unit. The method of claim 11, The field measurement data is the coverage analysis server, characterized in that the strongest PN (Pseudo Noise) signal measured for each specific point of the bin unit using a diagnostic monitor. The method of claim 11, The polygon map manufacturing unit sets a constant search distance around the reference point, and the strongest pseudo noise (PN) signal for each preset unit in a 360-degree direction around the reference point, the bin of the nearest distance and the bin of the home distant distance. Extracting, setting the extracted closest point to-, setting the farthest point to +, and connecting the points and the + points according to a preset condition to produce a polygon closed curve. server. The method of claim 11, Further comprising a Location Based Service (LBS) processing unit for receiving location-based data including the strongest PN (Pseudo Noise) signal for a specific location from the mobile communication terminal, The polygon map manufacturing unit comprises a closed curve of a polygon using the received field measurement data and location-based data, the coverage analysis server. In the method of analyzing the sector-by-sector coverage of the mobile communication network in the coverage analysis server, (a) receiving field measurement data collected by the field measurement terminal; (b) performing a simulation based on at least one of the base station and the repeater information; (c) setting a location of any one of a base station and a repeater as a reference point in a simulation result according to the simulation; And (d) manufacturing a closed curve of a polygon around the set reference point using the received field measurement data; Sector coverage analysis method in a mobile communication network comprising a. The method of claim 16, In step (a), The field measurement analysis method of the mobile communication network, characterized in that the field measurement terminal collects field measurement data by measuring the strongest PN (Pseudo Noise) signal for each specific point of the bin unit using a diagnostic monitor. The method of claim 16, In step (b), Sector coverage analysis method in a mobile communication network characterized in that the simulation is performed using the strongest PN (Pseudo Noise) signal for each specific point in the bin unit. The method of claim 16, In step (d), Setting a constant search distance around the reference point; Extracting a bin of a nearest distance and a bin of a home far distance having the strongest PN (Pseudo Noise) signal for each preset unit in a 360 degree direction from the reference point; Setting the extracted closest point to-and setting the furthest point to +; Connecting the points and the + points according to a preset condition to produce a closed curve of a polygon; Sector-based coverage analysis method in a mobile communication network comprising a. The method of claim 16, After the step (a), further comprising the step of receiving location-based data including the strongest PN (Pseudo Noise) signal for a specific location from the mobile communication terminal, In the step (d), the sector-specific coverage analysis method of the mobile communication network, characterized in that for producing a closed curve of the polygon using the received field measurement data and location-based data.

Images