KR20130021866A - Method and apparatus for automatically setting location id based on pci sniffing of neighbor cell in femto cell - Google Patents

Abstract

PURPOSE: A method for automatically setting physical cell identity sniffing based location ID of an adjacent cell in a femto-cell and a device thereof are provided to automatically set tracking area identity(TAI) like an adjacent macro cell in long term evolution(LTE) based femto-cell. CONSTITUTION: A location ID request unit(141) receives femto-cell ID, location information, and base station identification information transmitted from a femto base station. The location ID request unit requests location ID to a macro management server on a network. A setting management unit(143) manages the location ID corresponding to the base station identification information as location ID of a corresponding femto-cell. The setting management unit transmits the location ID to the femto base station. [Reference numerals] (141) Location ID request unit; (142) Database; (143) Setting management unit; (AA) Femto AP; (BB) Macro management server

Description

Method and Apparatus for Automatically Setting Location ID based on PCI Sniffing of Neighbor Cell in Femto Cell}

The present invention relates to a method and apparatus for managing a femtocell, and more particularly, to a macro cell and femtocell or femtocells by automatically setting a tracking area identity (TAI) such as an adjacent macrocell in a long term evolution (LTE) based femtocell. The present invention relates to a method and apparatus for managing a femtocell that can reduce network load due to paging during terminal movement by preventing paging for location registration update (TAU) during terminal movement.

In addition to the evolved NodeB (eNB), which is a general macro base station defined in 3GPP Long Term Evolution (LTE), LTE, a femto base station HeNB (home evolvedNodeB) may be installed and managed in a macrocell area in which the macro base station covers communication. . The macro base station connects the communication of the mobile terminal under the control of a controller (RNC) interworking with the core network (CN), and the femto base station operates at a very small / low power level to cover a femtocell area of a much smaller range than the macro cell area. It is installed indoors such as home, office. A femto base station is a small cellular base station connected to a broadband router. It is controlled by a femto gateway (G / W) and a home evolved management server (HMS) that manages femto base stations. In conjunction with the core network (CN) including, etc., it is possible to communicate not only 2G but also 3G voice and data. The femto base station may support access of a terminal in an open mode (a mode accessible to registered user terminals) or a closed mode (mode accessible to all user terminals).

In a typical WCDMA-based mobile communication, as shown in FIG. 1, a mobile terminal is classified by updating its location (LA1, LA2 ..) by a location area identity (LAI) value for registration of the mobile terminal, registering it on a network, and updating the terminal. Wherever it is, mobility is ensured so that communication can take place through nearby base stations and exchanges (MSC / VLR). On the other hand, in 3GPP LTE-based mobile communication, the location of the terminal (TA1, TA2, TA3 ..) is classified by TAI (Tracking Area Identity) value for paging of the mobile terminal in the femtocell, registered and updated on the network, and an incoming call is generated. If the mobile terminal is located, the mobile terminal supports paging to the terminal through paging of the terminal through the support of the mobility management entity (MME).

However, as shown in FIG. 2, in a 3GPP LTE-based mobile communication, when a large number of femtocells are installed in a macrocell area in which a macro base station covers communication, a mobile terminal moves from a macro cell area to a femtocell area or between femtocell areas. Whenever this occurs, there is a problem in that paging for location registration update of the mobile terminal occurs. In particular, in the TA boundary area, the coverage of the macrocell is not clear due to the signal attenuation and fading, so that the paging for updating the location registration of the mobile terminal when the TAIs allocated differently to each femtocell moves to another cell is numerous. There may be a lot of problems that increase the load on the network.

Accordingly, an object of the present invention is to solve the above-described problem, and an object of the present invention is to update location registration when a terminal moves between a macrocell and a femtocell or between femtocells by automatically setting a TAI such as an adjacent macrocell in an LTE-based femtocell. The present invention provides a method and apparatus for managing a femtocell that can reduce a network load caused by paging when a terminal is moved by preventing paging for the mobile station.

And, for this purpose, by sniffing the neighboring macro cell information, in order to determine the exact location of the femto base station to set the TAI, the PCI (Physical Cell) that is the base station identification information that the femto base station measures and transmits the neighboring macro cell at the time of initial installation In addition, the present invention provides a method and apparatus for managing a femtocell that can automatically set a TAI to a corresponding femto base station using location information of a femto base station.

First, to summarize the features of the present invention, in accordance with an aspect of the present invention for achieving the object of the present invention, the femtocell management method, femtocell is transmitted to the femto base station after measuring the base station identification information of the neighboring macro cell Receiving an ID, location information, and the base station identification information, and requesting a location ID from a macro management server on a network; And managing the location ID corresponding to the base station identification information transmitted by the macro management server according to the request as the location ID of the femto cell, and transmitting the location ID to the femto base station to be the same location as the base station of the neighboring macro cell. Controlling to set as an ID.

The femtocell management method is characterized in that the terminal prevents the location registration update during the movement between the macro cell and the femtocell or the femtocells on the network by location registration using the location ID of the base station of the neighboring macro cell. .

The base station identification information is PCI (Physical Cell Identity) information, which is a physical identifier of the macro cell, and the location ID is TAI (Tracking Area Identity) information, which is an identifier of a cell area covered by the femto base station.

The macro management server receives the location information and the base station identification information included in the request, and converts the location ID of the corresponding macro cell to which the location information and the base station identification information match from a database, the location ID corresponding to the base station identification information. Search as.

The location information may be GPS location information measured by the femto base station using a GPS module, a physical port number where the femto base station is connected to a femto gateway, or a unique location information identifier preset for the femto base station.

The femtocell management server according to another aspect of the present invention receives a femtocell ID, location information, and the base station identification information transmitted by a femto base station after measuring base station identification information of a neighboring macro cell to a macro management server on a network. A location ID request unit for requesting a location ID; And managing the location ID corresponding to the base station identification information transmitted by the macro management server according to the request as the location ID of the femto cell, and transmitting the location ID to the femto base station to be the same location as the base station of the neighboring macro cell. And a setting manager for controlling to set as an ID.

According to a method and apparatus for managing a femtocell according to the present invention, by automatically setting the same TAI as a macrocell adjacent to a femtocell, the UE is moved so that the paging for location registration update does not occur when the UE moves between the macrocell and the femtocell or femtocells. Network load due to paging of the city can be reduced.

In addition, since the femto base station can automatically and automatically set the TAI to the femto base station using a sniffing-based physical cell identity (PCI) and location information that measures and transmits the surrounding macro cells during initial installation, the macro cell and femtocell or femtocell Location registration update can be effectively prevented when the terminal moves between them.

1 is a diagram illustrating a service environment of a general macro cell and femtocell.
2 is a diagram illustrating a location registration update load in a service environment of a general macro cell and a femtocell.
3 is a view for explaining a communication network system according to an embodiment of the present invention.
4 is a view for explaining a femto management server according to an embodiment of the present invention.
5 is a flowchart illustrating an operation of a communication network system according to an embodiment of the present invention.
6 is a view for explaining location registration performed in the service environment of the macro cell and femtocell of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

3 is a diagram illustrating a communication network system 100 according to an embodiment of the present invention.

Referring to FIG. 3, a communication network system 100 according to an embodiment of the present invention may include a core network (CN) 110, a macro management server 120, a femto gateway 130, and a femto management server. (HMS) 140, macro base station (eNB) 150, and multiple femto base station (AP) 170.

The core network 110 is a network of a mobile communication provider including a mobile communication network such as WCDMA, WiFi, WiBro, and wired and wireless Internet. A radio network controller (RNC) (not shown) between the macro base station 150 and the core network 110 interworks with the core network 110 to control radio resource management (RRM) according to scheduling of radio resources. ) And a mobile terminal capable of supporting 2G and 3G voice and data communication through the macro base stations 150 by performing a handover function to support mobility between cells and the like.

The macro base stations 150 and the femto base station 170 each include a macro base station and a home evolved NodeB that cover communication of a macrocell region corresponding to an evolved NodeB (eNB) defined in 3GPP Long Term Evolution (LTE). It may be a femto base station that covers the communication of the femtocell area corresponding to). The femto base stations 160 operate in a very small and low power to cover the femtocell area of a much smaller range than the macrocell area, so that the femto base station 160 covers a number of indoors, such as homes, offices, etc. in the macrocell area that covers the communication. It may be installed, connected to the femto gateway 130 to manage the femto base stations 160, under the control of the femto gateway 130 and the femto management server 140 through the Internet based on IP (Internet Protocol) core Interworking with the network 110 enables communication of voice and data of 3G as well as 2G with other mobile terminals in a macrocell area or a femtocell area.

In particular, in the present invention, a mobile terminal capable of receiving a mobile communication service through a core network 110 such as a smart phone, a cellular phone, a Personal Communications Services phone (PCS phone), and the like, includes a macro cell and a macro cell. In order to reduce network load due to paging during UE movement by preventing paging for location registration update even when moving between femtocells or between femtocells, femto base stations 160 are located at the same location as adjacent macrocells during initial installation. ID (eg TAI) can be set automatically.

For example, a femtocell identification (eg, unique identification information of a femto base station), which is initially transmitted by a femto base station 160 that is initially installed, after measuring base station identification information (eg, PCI) of a neighboring macro cell, location information, and the base station Upon receiving the identification information (eg, PCI), the femto management server 140 may request a location ID (eg, TAI) to the macro management server 120 connected to the core network 110 through the femto gateway 130. . Accordingly, the macro management server 120 transmits a location ID (eg, TAI) corresponding to the base station identification information (eg, PCI) according to the request, and the femto management server 140 transmits the base station identification information (eg, The location ID (eg, TAI) corresponding to the PCI is managed as the location ID of the corresponding femto cell, and the location ID (eg, TAI) is transmitted to the corresponding femto base station 160 to be identical to the base station 150 of the neighboring macro cell. Parameters can be sent and controlled to set as a location ID.

In the present invention, the macro management server 120 uses the sniffing-based base station identification information (eg, PCI: Physical Cell Identity) and location information received from the femto management server 140 to determine the base station of the corresponding macro cell ( A location ID (eg, TAI) corresponding to 150 may be extracted. The macro management server 120 further compares the location information of the femto base station 160 in order to prevent the ambiguity caused by the overlap of PCI, which can be allocated to the base stations of other macro cells. The location ID (eg, TAI) corresponding to the base station 150 is extracted. Accordingly, in the femto management server 140, the corresponding femto base station 160 is the same location ID (eg, the base station 150 of the macro cell). Since the TAI) can be automatically set correctly, the femto management server 140 can effectively prevent the location registration update even when the UE moves between the macrocell and the femtocell or femtocells.

To this end, the femto management server 140 according to an embodiment of the present invention may include a location ID request unit 141, a database 142, and a configuration manager 143 as shown in FIG. 4.

First, briefly, the location ID request unit 141 may transmit its own femtocell ID (eg, unique identification information of the femto base station) transmitted by the femto base station 160 after measuring the base station identification information (eg, PCI) of the neighboring macro cell. ) And location information, and the base station identification information (eg, PCI) to request a location ID (eg, TAI) to the macro management server 120 on the network. Here, the location information is GPS location information (including latitude, longitude, altitude, etc.) measured by the femto base station 160 using the Global Positioning System (GPS) module, and the femto base station 160 is connected to the femto gateway 130. It may be a variety of information that can know the location of the femto base station 160, such as the connected physical port number, or the unique location information identifier preset for the femto base station 160.

Here, the base station identification information of the base station 150 of the neighboring macro cell is PCI (Physical Cell Identity) information which is a unique physical identifier for the macro cell. In addition, the location ID requested by the macro management server 120 is tracking area identity (TAI) information, which is an identifier of a cell area covered by the femto base station 160, and is covered by the base station 150 of the neighboring macro cell as described below. It is set to the same position ID as the position ID which is an identifier of the cell area.

The configuration manager 143 corresponds to a location ID (eg, TAI) corresponding to the base station identification information (eg, PCI) transmitted by the macro management server 120 according to the request of the location ID requester 141 as described above. The location ID of the femto cell may be managed in the database 142 and the location ID (eg, TAI) may be transmitted to the femto base station 160 to be set as the same location ID as the base station 150 of the neighboring macro cell. .

Here, when the location ID request unit 141 requests a location ID (eg, TAI) to the macro management server 120, a message including the base station identification information (eg, PCI) and the location information of the femto base station 160 is described. The macro management server 120 extracts a location ID (eg, TAI) corresponding to the base station 150 of the corresponding macro cell from a database (not shown) according to a request of the location ID requesting unit 141. can do. The macro management server 120 stores base station identification information (eg, PCI) and location information of the femto base station 160 managed in a database in order to prevent ambiguity due to duplication of PCI, which may be allocated to base stations of other macrocells. From the location ID list corresponding to the location ID request unit 141, the location ID (e.g., TAI) of the corresponding macro cell in which the location information matches the location information (e.g., PCI) transmitted by the location ID request unit 141 is determined. The location ID corresponding to the PCI) may be searched for and responded to the configuration manager 143 in the form of a message included in a predetermined message.

As such, the macro management server 120 extracts the location ID (eg, TAI) corresponding to the base station 150 of the macro cell by accurately classifying the macro cells based on the base station identification information (eg, PCI) and the location information. . Accordingly, the configuration management unit 143 may automatically set the same location ID (eg, TAI) as the base station 150 of the macro cell based on the corresponding femtocell ID (unique identification information of the femto base station). By transmitting the parameter, the mobile terminal can register the location using the same location ID as the location ID (eg, TAI) of the base station of the neighboring macro cell even in the femtocells in the macro cell. Therefore, even when a mobile terminal moves between a macro cell and a femtocell or moves between femtocells on the network, the femto management server 140 may control the location registration update not to be performed in the same cell area.

Hereinafter, the operation of the communication network system 100 according to an embodiment of the present invention will be described in more detail with reference to the flowchart of FIG. 5.

When the macro base station 150 is installed in the home, office, etc. in the macro cell area covering the communication, the femto base station 160 automatically sets a location ID (eg, TAI) through the following process.

First, the femto base station 160 may determine the base station identification information (eg, PCI) for the base station 150 by measuring a signal received from the base station 150 of the neighboring macro cell at the time of initial installation (S110). . PCI is a physical identifier unique to each base station that is easily physically identifiable.

The femto base station 160 measures base station identification information (eg, PCI) of the neighboring macro cell and then, along with its femtocell ID (unique identification information of the femto base station) and location information, base station identification information (eg, of the neighboring macro cell). The information request message REQ including the PCI is transmitted to the femto management server 140 through the femto gateway 130 (S120). The location information of the femto base station 160 is GPS location information (including latitude, longitude, altitude, etc.) measured by the femto base station 160 using a Global Positioning System (GPS) module, and the femto base station 160 is femto The location information of the femto base station 160 may be various information such as a corresponding physical port number when the gateway 130 is connected, or a unique location information identifier preset for the femto base station 160. The reason for sending base station identification information (e.g. PCI) of neighboring macro cells together with location information such as GPS is that even if the location is geographically determined by the GPS module, etc. This is because it is difficult to know due to the irregular nature of wireless coverage due to attenuation.

The femto management server 140 may transmit a response message (RSP) for the information request message (REQ) of the femto base station 160 to the femto base station 160, the location ID request unit 141 of the femto management server 140 ) Transmits a TAI request message including the location information of the femto base station 160 and the base station identification information (eg, PCI) of the neighboring macro cell to the macro management server 120 included in the information request message (REQ). A location ID (eg, TAI) may be requested to the macro management server 120 on the controller S121. The location ID requested by the macro management server 120 is tracking area identity (TAI) information, which is an identifier of a cell area covered by the femto base station 160, and is an identifier of a cell area covered by the base station 150 of a neighboring macro cell. It is set to the same location ID as the location ID.

The macro management server 120 receiving the TAI request message from the location ID requesting unit 141 may extract a location ID (eg, TAI) corresponding to the base station 150 of the corresponding macro cell from a database (not shown). (S130, S131). For example, the macro management server 120 corresponds to base station identification information (eg, PCI) and location information managed in a database in order to prevent ambiguity due to duplication of PCI, which may be equally allocated to base stations of other macrocells. From the location ID list, the ID of the corresponding macro cell that matches the location information (eg, PCI) and the base station identification information transmitted by the location ID request unit 141 is first checked (S130), and the corresponding ID of the corresponding macro cell is determined. The location ID (eg, TAI) may be extracted from the database (S131). The macro management server 120 transmits the location ID (eg, TAI) corresponding to the corresponding base station identification information (eg, PCI) searched in this manner to the femto management server 140 on the network (S132). .

For example, the database managed by the macro management server 120 includes a list of base station identification information (eg, PCI), location information of the femto base station 160, and location ID (eg, TAI) for each macro cell ID. The macro management server 120 may store the macro information in which the location information of the femto base station 160 matches among the IDs of the macro cell having the corresponding base station identification information (eg, PCI) according to the TAI request message. The location ID (eg, TAI) of the ID of the cell may be retrieved and transmitted to the femto management server 140. In some cases, each location information managed in a database managed by the macro management server 120 may be managed in a range of location values, and the macro management server 120 may include location information (eg, GPS) included in a TAI request message. A range of position values (eg, a range of GPS position information, a range of physical port numbers) of an ID of a corresponding macro cell in which location information, a physical port number, or a preset unique location information identifier is managed in a database. The location information may be determined to coincide with each other in the range of the preset unique location information identifier.

On the other hand, the setting management unit 143 of the femto management server 140 that receives the location ID (eg, TAI) corresponding to the base station identification information (eg, PCI) of the neighboring macro cell from the macro management server 120, this is a database ( 142) (S133). In this manner, the configuration manager 143 may store and manage the location ID (eg, TAI) corresponding to each base station of the macro cell for each of the plurality of femto base stations in the database 142.

Thereafter, the configuration manager 143 transmits a parameter configuration message including the corresponding location ID (eg, TAI) transmitted by the macro management server 120 to the corresponding femto base station 160 having the femto cell ID. The femto base station 160 may control to set the same location ID (eg, TAI) as the base station 150 of the neighboring macro cell as its own location ID (eg, TAI) (S140).

Accordingly, the femto base station 160 that receives the parameter setting message from the configuration manager 143 sets the same location ID (eg, TAI) as its location ID (eg, TAI) as the base station 150 of the neighboring macro cell. It is made (S150).

Accordingly, the mobile terminal can register the location using the same location ID as the location ID (eg, TAI) of the base station of the neighboring macro cell even in the femtocells in the macro cell. Therefore, even when a mobile terminal moves between a macro cell and a femtocell or moves between femtocells on the network, the femto management server 140 may control the location registration update not to be performed in the same cell area.

As described above, in the present invention, the macro management server 120 accurately classifies macrocells based on base station identification information (eg, PCI) and location information to correspond to a location ID (eg, TAI) corresponding to the base station 150 of the macro cell. By extracting the, the femto management server 140 is based on the femtocell ID (unique identification information of the femto base station), the femto base station 160 accurately matches the same location ID (eg, TAI) as the base station 150 of the macro cell You can control the setting automatically. Accordingly, the femto base station 160 automatically sets the same TAI as the macro cell adjacent to its femtocell so as not to cause paging for location registration update when the terminal moves between the macro cell and the femtocell or femtocells. Network load due to paging can be reduced.

The femto gateway, femtocell management server, macro management server, and the functions used in the method according to the embodiment of the present invention described above can be implemented as computer readable codes on a computer readable recording medium. Do. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the computer-readable recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, a hard disk, a removable storage device, And the like. In addition, it is understood that the computer readable recording medium can be distributed over network coupled computer systems and stored and executed in the form of computer readable code in a distributed fashion.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

Macro Management Server (120)
Femto gateway (130)
Femto management server (140)
Location ID request unit (141)
Database (142)
Configuration Manager (143)

Claims (7)

Receiving a femtocell ID, location information, and the base station identification information transmitted by a femto base station after measuring base station identification information of a neighboring macro cell and requesting a location ID to a macro management server on a network; And
The location ID corresponding to the base station identification information transmitted from the macro management server according to the request is managed as the location ID of the femto cell, and the location ID is transmitted to the femto base station to be the same location ID as the base station of the neighboring macro cell. Controlling to set as
Femtocell management method comprising a. The method of claim 1,
Method for femtocell management characterized in that the terminal prevents the location registration update during the movement between the macro cell and femtocell or the femtocells on the network by the location registration using the location ID of the base station of the neighboring macro cell. The method of claim 1,
The base station identification information is femtocell management method, characterized in that the physical identifier (PC) information of the physical identifier of the macro cell. The method of claim 1,
The location ID is femtocell management method, characterized in that the tracking area identity (TAI) information that is an identifier of the cell area covered by the femto base station. The method of claim 1,
The macro management server receives the location information and the base station identification information included in the request, and converts the location ID of the corresponding macro cell to which the location information and the base station identification information match from a database, the location ID corresponding to the base station identification information. Femtocell management method characterized in that the search as. The method of claim 1,
The location information may be GPS location information measured by the femto base station using a GPS module, a physical port number of which the femto base station is connected to a femto gateway, or a unique location information identifier preset for the femto base station. Way. A location ID request unit for receiving a femtocell ID, location information, and base station identification information transmitted by a femto base station after measuring base station identification information of a neighboring macro cell and requesting a location ID to a macro management server on a network; And
The location ID corresponding to the base station identification information transmitted from the macro management server according to the request is managed as the location ID of the femto cell, and the location ID is transmitted to the femto base station to be the same location ID as the base station of the neighboring macro cell. Setting manager to control setting as
Femtocell management server comprising a.

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