KR20130084881A - Aumomatic neighbor relation organizing method, organizing system and mobile - Google Patents

Abstract

PURPOSE: An automatic neighbor relation organizing method, an automatic neighbor relation organizing system, and a mobile communication terminal are provided to organize an accurate neighbor cell by performing an automatic neighbor relation (ANR) function using a terminal of an idle state. CONSTITUTION: A target cell information receiving unit (234) receives cell information including network identification information, cell area information, and cell identification information from a target cell base station corresponding to a target cell. A cell information comparing unit (236) determines whether the target cell is included in a source cell-neighboring cell list by comparing cell information received from a source cell base station and the cell information received from the target cell base station. When the target cell is not included in the source cell-neighboring cell list, a cell selection message transmission unit (238) transmits a cell selection message to the target cell. [Reference numerals] (232) Source cell information storing unit; (234) Target cell information receiving unit; (236) Cell information comparing unit; (238) Cell selection message transmission unit

Description

Auto neighbor relationship construction method, auto neighbor relationship construction system and mobile communication terminal {Aumomatic Neighbor Relation Organizing Method, Organizing System and Mobile}

The present invention relates to a method for constructing an auto neighbor relationship, an auto neighbor relationship configuring system, and a mobile communication terminal. More particularly, the present invention relates to an ANR by a connected terminal by performing an ANR function using a terminal in an idle state. In comparison, the present invention relates to an automatic neighbor relationship construction method, an automatic neighbor relationship construction system, and a mobile communication terminal capable of configuring an accurate neighbor cell and reducing a load of radio resources.

Recently, due to the rapid development of communication, computer network and semiconductor technology, not only various services using wireless communication networks have been provided, but the demand of users has been increasing day by day, and the global wireless Internet service market has been exploding Trend. Accordingly, a service provided by a mobile communication system using a wireless communication network is being developed not only as a voice service, but also as a multimedia communication service for transmitting various data.

As mobile data services such as Code Division Multiple Access (CDMA) 2000, Evolution Data Only (EV-DO), Wideband CDMA (WCDMA), Wireless Local Area Network (WLAN), and Long Term Evolution (LTE) are commercialized, cellular phones Usage and demand for mobile data are continuously increasing, and according to this trend, a method of providing a mobile communication service by installing a small mobile communication base station indoors to access a mobile communication core network through an indoor broadband network has been proposed.

In particular, in the next generation network system, a method of arranging a plurality of small-sized multi-cells (small-sized mobile communication base stations) as an alternative to meet a high data rate and stably providing various services is proposed.

By reducing the size of the cell, the efficiency of a next generation network system using a high frequency band can be increased. In addition, the use of a plurality of small-sized cells is advantageous in terms of increasing the frequency reuse frequency. In addition, it is possible to improve the problem of deterioration of the channel condition due to the radio wave attenuation which occurred when one base station covers the entire cell area and the problem of inability to service the users in the shadow area, This has the advantage.

However, this hybrid cell configuration has advantages in terms of service provisioning, but it has a disadvantage that it requires a lot of base stations for high-quality data service in the same area, which is expensive for installation and operation.

In particular, the mixed cell configuration method requires a lot of people and time to determine the parameters related to wired and wireless. In addition, the mixed cell configuration method has difficulty in effectively coping with environmental changes occurring in each cell by simply managing the centralized system. In addition, the mixed cell configuration requires a redefinition of the entire system when changes occur. As a result, it is not easy to find the optimal location for the variable location of the base station (indoor base station is installed by the user rather than the optimal location specified by the service provider) and the changing wireless environment. There is a need for a self organizing network (SON) that automatically installs and adapts to changing wireless and data traffic environments.

Typically, when the base station is installed, the neighbor cell list (NCL) of the base station is configured by estimating the location of the base station and predicting a radio wave environment to predict the neighboring cell to which the terminal can handover. The NCL broadcasted by the base station is information indicating how the neighboring cell is configured when the terminal serving the current base station handles the neighbor cell. However, in the prior art, the operator manually set the NCL at the base station. The NCL configured as described above is broadcasted through a base station, and a terminal which intends to handover to another cell searches for an adjacent cell using this information.

However, as the mobile communication market flows, more and more small base stations have been increased to provide quality services. In such a situation, it is difficult to operate the NCL manually every time the base station is installed or installed.

In order to solve this problem, the 3rd Generation Partnership Project (3GPP) standard defines an Automatic Neighbor Relation (ANR) function by a terminal in a connected state. The configuration of auto-neighbor relations and the optimization method of neighboring cells according to this are the most essential items in a self organizing network (SON).

However, in general, the ANR function does not operate during services requiring continuous data transmission and reception, such as FTP (File Transfer Protocol) and streaming services, and does not optimize the DRX (Discontinuous Reception) parameter of the connected terminal. There is a problem that does not work properly.

In addition, since the general ANR function is performed after the handover is triggered, there is a possibility that the handover is delayed or fails.In addition, since the periodic management report message must be transmitted to configure the ANR, the radio resource load is increased. There is a problem that increases.

The present invention was devised to solve the above-described problem, and performs an ANR function using a terminal in an idle state, so that an accurate neighbor cell can be configured as compared to an ANR by a terminal in a connected state, and radio resources An object of the present invention is to provide an auto neighbor relationship construction method, an auto neighbor relationship construction system, and a mobile communication terminal thereof.

In accordance with an aspect of the present invention, an auto neighbor relationship configuration method includes a network identification information, cell region information, cell identification information, and peripheral information of a terminal in an idle state from a source cell base station. Receiving and storing cell information including cell list information; When the terminal in the idle state moves to a target cell, receiving cell information including network identification information, cell region information, and cell identification information from the target cell base station; Comparing, by the terminal in the idle state, cell information received from the source cell base station and cell information received from the target cell base station, and determining whether the target cell is included in the neighbor cell list of the source cell; If it is determined that the target cell is not included in the neighbor cell list of the source cell, the terminal in idle state transmitting a cell selection message to the target cell; And transmitting, by a target cell, a cell selection message received from the terminal in the idle state to a source cell.

The above-described auto neighbor relationship configuration method may further include reconfiguring the source cell by including the target cell in the neighbor cell list based on the cell selection message received from the target cell base station.

Here, the cell information storing step may be performed when the terminal in the idle state receives and permits automatic configuration from the source cell base station, and the determining step may be performed when the automatic configuration of the idle state is allowed by the source cell.

The above-described auto neighbor relationship configuration method may further include setting, by a terminal in an idle state, a cell selection message including network identification information, cell region information, and identification information received from a source cell base station and a target cell base station, respectively. Can be.

In accordance with another aspect of the present invention, there is provided a system for configuring an auto neighbor relationship, including: a source cell base station in a source cell; A target cell base station in a target cell located around the source cell; And receiving and storing cell information including network identification information, cell area information, cell identification information, and neighbor cell list information from the source cell base station, and when the mobile station moves to the target cell, network identification information and cell area information from the target cell base station. Receiving cell information including identification information, comparing the cell information received from the source cell base station with the cell information received from the target cell base station, determining whether the target cell is included in the neighbor cell list of the source cell, And an idle state terminal for transmitting a cell selection message to the target cell base station when it is determined that the target cell is not included in the neighbor cell list of the source cell. The target cell base station receives the source cell base station from the idle state terminal. And delivering the cell selection message.

The source cell base station may include the target cell in the neighbor cell list based on the cell selection message received from the target cell base station.

The terminal in the idle state receives the automatic configuration from the source cell base station, and may determine whether the target cell is included in the neighbor cell list of the source cell when the automatic configuration is allowed by the source cell base station.

The terminal in the idle state may be configured to include network identification information, cell region information, and identification information received from the source cell base station and the target cell base station, respectively, in the cell selection message.

A mobile communication terminal according to an embodiment of the present invention for achieving the above object, in a mobile communication terminal in the idle state, the network identification information, cell area information, cell identification information, neighbor cell list information from the source cell base station A source cell information storage unit for receiving and storing cell information including; A target cell information receiver configured to receive cell information including network identification information, cell region information, and cell identification information from the target cell base station when moving to the target cell; A cell information comparison unit comparing the cell information received from the source cell base station with the cell information received from the target cell base station, and determining whether the target cell is included in the neighbor cell list of the source cell; And a cell selection message transmitter for transmitting a cell selection message to the target cell when the target cell is not included in the neighbor cell list of the source cell.

The cell information comparison unit may determine whether the target cell is included in the neighbor cell list of the source cell when automatic configuration is allowed by the source cell base station.

The cell selection message transmitter may transmit the cell selection message by including network identification information, cell region information, and cell identification information received from the source cell base station and the target cell base station, respectively.

According to the present invention, since there are generally more terminals in an idle state than a terminal in a connected state, an accurate neighbor cell can be configured in comparison with a conventional technique of configuring an auto neighbor relationship using a terminal in a connected state. do.

In addition, according to the present invention, since the automatic neighbor relationship is configured using the terminal in the idle state, the load of radio resources can be reduced as compared with the conventional technology of configuring the automatic neighbor relationship using the terminal in the connected state.

In addition, according to the present invention, since it is unnecessary to optimize the DRX parameter of the connected state, it is possible to reduce the effort of the operator for the configuration of the neighbor relationship.

1 is a diagram illustrating a concept of an auto neighbor relationship construction system.
2 is a diagram schematically illustrating a system for constructing an auto neighbor relationship according to an embodiment of the present invention.
3 is a diagram schematically illustrating a mobile communication terminal according to an embodiment of the present invention.
4 is a flowchart illustrating a method for constructing an auto neighbor relationship according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals are used to denote like elements in the drawings, even if they are shown in different drawings. In addition, when it is determined that the detailed description of the known configuration or function related to the description of the embodiments of the present invention may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a diagram illustrating a concept of an auto neighbor relationship construction system.

Referring to FIG. 1, when the mobile communication terminal 100 performs a handover from a current cell to another cell, the current cell in which the mobile communication terminal 100 is located is called a source cell. The cell to be subjected to handover is called a target cell.

In general, a base station of a source cell generates and stores a neighbor cell list (NCL) by coverage predictions by a cell planning tool and an operator's work.

Meanwhile, as the base station of the source cell operates, a new small base station may be additionally installed or changed in accordance with the expansion and diversification of the mobile communication service. Neighbor relation (NR) may change. Accordingly, when the NCL is not changed, handover to an unsuitable cell may be performed, and an increase in call drop rate may occur due to a delay of the handover, and the performance of the system may be degraded. Therefore, in the LTE (Long Term Evolution) network, auto-neighbor relation is configured by using the connected terminal according to the 3GPP standard.

However, since the ANR function uses the terminal 100 in a connected state, the ANR function does not operate during services requiring continuous data transmission and reception, such as FTP and streaming services, and does not optimize the DRX parameter of the terminal 100 in the connected state. If it doesn't work properly. In addition, the periodic management report message should be transmitted in order to configure the ANR. The radio resource load is increased due to the radio resource for the periodic management report in addition to the radio resource by the connected terminal 100.

The embodiment of the present invention configures an auto neighbor relationship using a mobile communication terminal in an idle state to improve such a problem.

2 is a diagram schematically illustrating a system for constructing an auto neighbor relationship according to an embodiment of the present invention.

Referring to FIG. 2, an auto neighbor relationship configuration system according to an embodiment of the present invention may include a source cell base station 210, a target cell base station 220, and a mobile communication terminal 230 in an idle state.

The source cell base station 210 refers to the base station of the current cell located before the mobile communication terminal 230 in the idle state moves to the target cell 220. At this time, the source cell base station 210 to the mobile communication terminal 230 of the idle state in the source cell, network identification information such as PLMN (Public Land Mobile Network), area information of the corresponding cell such as a tracking area code (TAC), Cell identification information such as ECGI (E-UTRAN Cell Global Identifier), PCI (Physical Cell Identifier), CID (Connection Identifier), etc., and neighbor cell list information are transmitted.

The target cell base station 220 refers to the base station of the cell that is the target of handover of the mobile communication terminal 230 in the idle state. At this time, the target cell base station 220 is a mobile terminal 230 in the idle state handovered to the target cell (network identification information, such as PLMN, area information of the corresponding cell, such as TAC, ECGI, CID, etc.) Send cell identification information.

The mobile communication terminal 230 in an idle state is a mobile communication terminal in a state where power is applied, and means a mobile communication terminal in a standby state of communication or data transmission and reception.

The mobile communication terminal 230 in the idle state receives and stores cell information including network identification information, cell area information, cell identification information, and neighbor cell list information from the source cell base station 210. In addition, when the mobile communication terminal 230 in the idle state moves to the target cell, the mobile communication terminal 230 receives cell information including network identification information, cell region information, and cell identification information from the target cell base station 220. At this time, the mobile communication terminal 230 in the idle state compares the cell information received from the source cell base station 210 and the cell information received from the target cell base station 220, the target cell according to the result of the comparison It is determined whether it is included in the neighbor cell list, and if it is determined that the target cell is not included in the neighbor cell list of the source cell, the cell selection message is transmitted to the target cell base station 220. Here, the cell selection message may be received from the source cell base station 210 by the mobile communication terminal 230 in the idle state, the cell area information, the cell identification information, and the handover from the target cell base station 220 after the handover. The received network identification information, cell area information, and cell identification information may be set to be included.

In this case, the target cell base station 220 transmits the cell selection message received from the mobile communication terminal 230 in the idle state to the source cell base station 210. In this case, the target cell base station 220 may transmit a cell selection message to the source cell base station 210 through a mobility management device 240 such as a mobility management entity (MME). Through this, the source cell base station 210 may include the target cell in its neighbor cell list based on the cell selection message received from the target cell base station 220.

On the other hand, the source cell base station 210 may transmit a signal on whether to allow automatic configuration to the mobile communication terminal 230 in the idle state in the source cell. That is, the source cell base station 210 may transmit a signal that is not automatically configured to the mobile communication terminal 230 of the idle state in the corresponding source cell, when its neighbor cell list is completely created, the surrounding source cell Only when there is a possibility of adding or changing a new cell, the mobile terminal 230 in idle state may transmit a signal allowing automatic configuration. In this case, it is determined whether the target cell is included in the neighbor cell list of the source cell only when automatic configuration is allowed by the source cell base station 210 when the mobile communication terminal 230 in the idle state is handed over to the target cell. And transmit the cell selection message accordingly. Accordingly, when it is certain that the target cell is included in the neighbor cell list of the source cell, unnecessary determination by the idle terminal 230 may be omitted.

3 is a diagram schematically illustrating a mobile communication terminal according to an embodiment of the present invention. Here, the mobile communication terminal can be used in the system for configuring the auto neighbor relationship of FIG. 2, and therefore, the same reference numerals as those of the mobile communication terminal 230 of FIG.

Referring to FIG. 3, the mobile communication terminal 230 according to an exemplary embodiment of the present invention includes a source cell information storage unit 232, a target cell information receiver 234, a cell information comparison unit 236, and a cell selection message transmitter. And may include 238.

The source cell information storage unit 232 receives network identification information, cell area information, cell identification information, and neighbor cell list information from the current source cell base station 210 before the mobile communication terminal 230 in the idle state performs handover. Receives and stores cell information that contains. In this case, the source cell information storage unit 232 may receive and store a signal of whether to allow automatic configuration by the mobile communication terminal 230 in the idle state from the source cell base station 210.

When the mobile communication terminal 230 in the idle state moves to the target cell, the target cell information receiver 234 receives cell information including network identification information, cell area information, and cell identification information from the target cell base station 220. do.

The cell information comparison unit 236 compares the cell information received from the source cell base station 210 and the cell information received from the target cell base station 220 and determines whether the target cell is included in the neighbor cell list of the source cell. do. In this case, the cell information comparison unit 236 may select the target cell in the neighbor cell list of the source cell only when a signal for allowing automatic configuration by the mobile communication terminal 230 in the idle state is stored in the source cell information storage unit 232. You can also determine if it is included.

If it is determined by the cell information comparison unit 236 that the target cell is not included in the neighbor cell list of the source cell, the cell selection message transmitter 238 transmits the cell selection message to the target cell base station 220. In this case, the cell selection message transmitter 238 may include network identification information, cell region information, cell identification information, and network identification information, cell region information, received from the target cell base station 210, from the source cell base station 210. The cell identification information is preferably included in the cell selection message and transmitted.

4 is a flowchart illustrating a method for constructing an auto neighbor relationship according to an embodiment of the present invention.

2 to 4, the mobile communication terminal 230 in the idle state receives cell information including network identification information, cell region information, cell identification information, and neighbor cell list information from the source cell base station 210. Save (S410). In this case, the mobile communication terminal 230 in the idle state may receive and store a signal of whether to allow automatic configuration by the mobile communication terminal 230 in the idle state from the source cell base station 210.

When the mobile communication terminal 230 in the idle state performs a handover to the target cell (S420), the mobile communication terminal 230 in the idle state may identify network identification information, cell area information, and cell identification information from the target cell base station 220. Receive the cell information including the (S430).

When the automatic configuration of the mobile communication terminal 230 in the idle state is allowed by the source cell base station 210 (S440), the mobile communication terminal 230 in the idle state receives the cell information and the target received from the source cell base station 210. The cell information received from the cell base station 220 is compared to determine whether the target cell is included in the neighbor cell list of the source cell (S450).

In this case, if the target cell is not included in the neighbor cell list of the source cell, the mobile communication terminal 230 in the idle state receives the network identification information, the cell area information, the cell identification information, and the target received from the source cell base station 210. A cell selection message including network identification information, cell region information, and cell identification information received from the cell base station 220 is set (S460), and the set cell selection message is transmitted to the target cell base station 220 (S470).

The target cell base station 220 transmits the cell selection message received from the mobile communication terminal 230 in the idle state to the source cell base station 210 (S480). In this case, the target cell base station 220 may transmit a cell selection message to the source cell base station 210 through a mobility management device 240 such as an MME.

The source cell base station 210 determines whether the target cell is included in its neighbor cell list based on the cell selection message received from the target cell base station 220, and thus the target cell is included in its neighbor cell list. If not, the corresponding target cell may be included in the neighbor cell list (S490).

210; Source Cell Base Station
220: target cell base station
230: mobile communication terminal in the idle state
232: source cell information storage unit
234: target cell information storage unit
236: cell information comparison unit
238: cell selection message transmission unit

Claims (11)

Receiving, by a terminal in an idle state, cell information including network identification information, cell region information, cell identification information, and neighbor cell list information from a source cell base station;
When the terminal in the idle state moves to a target cell, receiving cell information including network identification information, cell region information, and cell identification information from a target cell base station corresponding to the target cell;
Comparing, by the terminal in the idle state, cell information received from the source cell base station and cell information received from the target cell base station, and determining whether the target cell is included in the neighbor cell list of the source cell;
If it is determined that the target cell is not included in the neighbor cell list of the source cell, the terminal in the idle state transmitting a cell selection message to the target cell; And
Transmitting, by the target cell, a cell selection message received from the terminal in the idle state to the source cell;
Auto neighbor relationship configuration method comprising a. The method of claim 1,
Reconstructing, by the source cell, the target cell in the neighbor cell list based on a cell selection message received from the target cell base station;
Auto neighbor relationship construction method characterized in that it further comprises. The method of claim 1,
In the storing step, the terminal in the idle state receives and stores whether the automatic configuration is allowed from the source cell base station,
And the determining step is performed when automatic configuration of an idle state is allowed by the source cell. The method of claim 1,
Setting, by the terminal in the idle state, the cell selection message including network identification information, cell region information, and cell identification information received from the source cell base station and the target cell base station, respectively;
Auto neighbor relationship construction method characterized in that it further comprises. A source cell base station in the source cell;
A target cell base station in a target cell located around the source cell; And
Receives and stores cell information including network identification information, cell region information, cell identification information, and neighbor cell list information from the source cell base station, and moves the network identification information and cell from the target cell base station when moving to the target cell. Receives cell information including area information and cell identification information, compares cell information received from the source cell base station with cell information received from the target cell base station, wherein the target cell is included in the neighbor cell list of the source cell. An idle state terminal for determining whether it is included and transmitting a cell selection message to the target cell base station if it is determined that the target cell is not included in the neighbor cell list of the source cell;
Including;
And the target cell base station delivers a cell selection message received from the terminal in the idle state to the source cell base station. The method of claim 5, wherein the source cell,
And the target cell is included in a neighbor cell list based on a cell selection message received from the target cell base station. The terminal of claim 5, wherein the terminal in the idle state comprises:
Receiving whether or not the automatic configuration is allowed from the source cell base station, and if the automatic configuration is allowed by the source cell base station determines whether the target cell is included in the neighbor cell list of the source cell Neighbor Composition System. The terminal of claim 5, wherein the terminal in the idle state comprises:
And setting the cell selection message by including network identification information, cell region information, and cell identification information received from the source cell base station and the target cell base station, respectively. In the mobile communication terminal in the idle state,
A source cell information storage unit for receiving and storing cell information including network identification information, cell region information, cell identification information, and neighbor cell list information from the source cell base station;
A target cell information receiver configured to receive cell information including network identification information, cell region information, and cell identification information from a target cell base station corresponding to the target cell when moving to a target cell;
A cell information comparison unit for comparing cell information received from the source cell base station with cell information received from the target cell base station, and determining whether the target cell is included in a neighbor cell list of the source cell; And
A cell selection message transmitter for transmitting a cell selection message to the target cell when the target cell is not included in the neighbor cell list of the source cell;
The mobile communication terminal comprising: The method of claim 9, wherein the cell information comparison unit,
And determining whether the target cell is included in the neighbor cell list of the source cell when automatic configuration is permitted by the source cell base station. The method of claim 9, wherein the cell selection message transmission unit,
And transmitting the cell selection message including network identification information, cell region information, and cell identification information received from the source cell base station and the target cell base station, respectively.

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