KR102182793B1 - Method and Apparatus for allocating tracking area in mobile communication system - Google Patents

Abstract

The present invention relates to a tracking area allocation method in a mobile communication system, and the tracking area allocation method in a mobile communication system according to an embodiment of the present invention includes a tracking area code (TAC) and a tracking area list (Tracking Area Code). Area List, TAL) The first step of acquiring configuration information, the second step of acquiring handover information for each base station or cell, and the handover ratio between the TAC using the TAC and TAL configuration information and the handover information And a fourth step of allocating a neighboring tracking area code (Neighboring TAC, N-TAC) for a specific TAC or a specific TAL based on the handover weight. Accordingly, the present invention has an advantage of allocating a more optimized N-TAC based on inter-TAC handover statistics.

Description

TECHNICAL FIELD [Method and Apparatus for allocating tracking area in mobile communication system]

The present invention relates to a method and apparatus for allocating a tracking area in a mobile communication system, and in detail, an optimal N-TAC based on handover statistics between tracking area codes (TAC) in a mobile communication system. A tracking area allocation method and apparatus capable of allocating (Neighbor-TAC) are provided.

The coverage area of a mobile communication system is typically divided into a plurality of cells formed by grouping them into one or more base stations. Here, the base station may be composed of at least one cell, and handover between base stations or cells may be performed according to the movement of the terminal.

A mobile terminal located in each cell can access a mobile communication system by establishing a wireless communication link, often referred to as a radio interface, with a base station associated with that cell.

When the mobile terminal moves between cells constituting the mobile communication system, the mobile terminal may provide current location information to the mobile communication system through a location update message.

When a call connection to a specific mobile terminal is requested, the mobile communication system initiates a paging procedure for finding a destination terminal based on previously received location information corresponding to the mobile terminal.

In general, the mobile communication system may attempt a second paging procedure-hereinafter, secondary paging-when a destination terminal is not found through a first paging procedure-hereinafter, primary paging -. At this time, the target location at the time of the first paging is called a TAL (Tracking Area List), and the target location at the time of the second paging is the TAL and the N-TAC (Neighbor-Tracking Area Code).

A mobile communication service provider can group several base stations to define a TAC, and group several TACs to register a TAL on the system.

At this time, it is important to effectively set the TAC, TAL and N-TAC in order to increase the success rate of receiving a paging message at the destination terminal.

The paging message and the location update message are the overhead of the mobile communication system, and reducing the number of paging messages and location update messages is very important for improving overall system performance and capacity.

However, in the prior art, TAC, TAL, and N-TAC allocation was entirely dependent on the experience of the system operator, and there was a problem in that a lot of time and effort were required for effective tracking area code allocation.

The present invention has been devised to solve the problems of the prior art, and an object of the present invention is to provide a method for allocating a neighbor tracking area code (N-TAC) in a mobile communication system.

Another object of the present invention is to provide a method of allocating N-TACs based on handover statistics between TACs in a mobile communication system.

Another object of the present invention is to provide a tracking area allocation method capable of automatically recommending an optimal N-TAC for a specific TAC or TAL using handover statistics between TACs in a mobile communication system.

Another object of the present invention is to provide a tracking area allocation algorithm capable of determining whether a tracking area list (TAL) is optimally configured based on handover statistics between TACs in a mobile communication system.

Still another object of the present invention is to provide a tracking area allocation method capable of identifying a region with insufficient optimization based on the proportion of handover between TACs.

Another object of the present invention is to provide an apparatus and a recording medium supporting the above methods.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems that are not mentioned will be clearly understood by those of ordinary skill in the technical field to which the present invention belongs from the following description. I will be able to.

The present invention provides a tracking area allocation method and apparatus and system in a mobile communication system.

A method of allocating a tracking area in a mobile communication system according to an embodiment of the present invention includes a first step of acquiring a tracking area code (TAC) and a tracking area list (TAL) configuration information, and a base station. Or a second step of acquiring handover information in units of cells, a third step of calculating a handover weight between the TACs using the TAC and TAL configuration information and the handover information, and specifying the handover weight A fourth step of allocating a neighboring tracking area code (Neighboring TAC, N-TAC) for a TAC or a specific TAL may be included.

Here, the TAC may include at least one base station, and the TAL may include at least one TAC.

The handover weight can be calculated only for TACs belonging to different TALs.

In particular, TAC(s) in which the specific TAC or the handover ratio with the specific TAL exceeds a predetermined first reference value may be included in the N-TAC.

In addition, when there is a TAC in which the specific TAC or the handover ratio with the specific TAL exceeds a predetermined second reference value, it may be determined that the design of the specific TAC or the specific TAL is not optimized.

In addition, when there is a TAC whose handover weight with the specific TAC or the specific TAL exceeds a predetermined second reference value, a predetermined notification message indicating that the design of the specific TAC or the specific TAL is not optimized is displayed on the screen. It can also be displayed on.

Here, the first reference value and the second reference value may be set through a predetermined user interface screen.

If there are a plurality of allocated N-TACs, priority may be given based on the handover weight.

In addition, the configuration information includes pool identification information indicating which pool (POOL) each of the TAC and the TAL belongs to, but the specific TAC or TAC belonging to the same pool as the specific TAL belongs to the N-TAC. Can be assigned.

In addition, information on the number of the N-TACs to be allocated through a predetermined user interface screen may be set.

In addition, the tracking area allocation method may further include displaying a predetermined user interface screen configured to select the allocated N-TAC.

In addition, the tracking area allocation method may further include receiving the specific TAC or the specific TAL through a predetermined user interface screen.

An apparatus for allocating a tracking area in connection with a mobile communication system according to another embodiment of the present invention includes a tracking area code (TAC) and a tracking area list (TAL) configuration information and a base station or cell unit. A handover statistics processing module that calculates a handover ratio between the communication unit that receives handover information of the TAC from the mobile communication system and the TAC and TAL configuration information and the handover information, and the handover ratio is based on Thus, it may include an N-TAC recommendation module that allocates a neighboring tracking area code (Neighboring TAC, N-TAC) for a specific TAC or a specific TAL.

Here, when the specific TAC or the handover weight with the specific TAL exceeds a predetermined suitability determination criterion, the tracking area allocation device indicates that the design of the specific TAC or the specific TAL is not optimized. It may further include a suitability determination module to determine.

Here, the configuration information includes pool identification information indicating which pool each of the TAC and the TAL belongs to, but in the same pool as the specific TAC or the specific TAL by the N-TAC recommendation module The TAC to which it belongs may be assigned to the N-TAC.

If there are a plurality of allocated N-TACs, the N-TAC recommendation module may assign a recommendation priority based on the handover weight.

In addition, the handover weight can be calculated only for TACs belonging to different TALs.

In addition, TAC(s) in which the handover ratio with the specific TAC or the specific TAL exceeds a predetermined N-TAC recommended reference value may be allocated to the N-TAC.

Here, the mobile communication system may be any one of a Long Term Evolution (LTE) system, an LTE-Advanced system, a Wideband Code Division Multiple Access (WCDMA) system, and a High Speed Packet Access (HSPA) system.

A tracking area allocation system according to another embodiment of the present invention includes a mobility management entity (MME) that is connected to at least one base station to provide a mobility management function and a call control function of a terminal including handover. Element management system (Element Management) that collects handover information in units of the base station or cell in conjunction with the MME and maintains tracking area code (TAC) and tracking area list (TAL) configuration information System, EMS) and the EMS by acquiring the handover information and the TAC and the TAL configuration information to calculate the handover ratio between the TACs, and tracking a neighbor corresponding to a specific TAC or a specific TAL based on the handover ratio It may be configured to include a tracking area allocation device that allocates a Neighboring Tracing Area Code (N-TAC).

The aspects of the present invention are only some of the preferred embodiments of the present invention, and various embodiments reflecting the technical features of the present invention are detailed description of the present invention to be described below by a person of ordinary skill in the art. Can be derived and understood based on

A method and apparatus for allocating a tracking area according to the present invention, and effects on the system will be described as follows.

First, the present invention has the advantage of providing a tracking area allocation method capable of automatically recommending an optimal N-TAC using handover statistics between TACs in a mobile communication system.

Second, the present invention has the advantage of being able to effectively extract N-TAC optimized for a specific TAL or TAC.

Third, the present invention has an advantage of providing a tracking area allocation algorithm capable of determining whether a tracking area list (TAL) is optimally configured based on handover statistics between TACs in a mobile communication system.

Fourth, the present invention has the advantage of minimizing the effort and cost required for N-TAC allocation by providing an automated N-TAC allocation method and system thereof.

The effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those of ordinary skill in the art from the following description. will be.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings are provided to aid understanding of the present invention and provide embodiments of the present invention together with a detailed description. However, the technical features of the present invention are not limited to a specific drawing, and features disclosed in each drawing may be combined with each other to constitute a new embodiment.
1 is a diagram showing the structure of an LTE system defined in the 3GPP standard.
2 is a diagram illustrating a tracking area allocation system according to the present invention.
3 is an internal configuration diagram of an apparatus for allocating a tracking area according to an embodiment of the present invention.
4 is a conceptual diagram illustrating a TAC/TAL/N-TAC allocation method according to an embodiment of the present invention.
5 is a diagram illustrating a data structure of a tracking area configuration information database according to an embodiment of the present invention.
6 is a statistical table of inter-TAC handover proportions in which inter-TAC handover proportions are recorded according to an embodiment of the present invention.
7 is a flowchart illustrating a procedure for recommending an N-TAC for a designated TAL in a tracking area allocation apparatus according to an embodiment of the present invention.
8 is a flowchart illustrating a procedure for recommending an N-TAC for a designated TAC in a tracking area allocation apparatus according to an embodiment of the present invention.

Hereinafter, an apparatus and various methods to which embodiments of the present invention are applied will be described in more detail with reference to the drawings. The suffixes "module" and "unit" for components used in the following description are given or used interchangeably in consideration of only the ease of preparation of the specification, and do not have meanings or roles that are distinguished from each other by themselves.

Mobile devices described herein include mobile phones, smart phones, laptop computers, digital broadcasting terminals, personal digital assistants (PDAs), portable multimedia players (PMPs), Navigation or the like can be used. However, it should be noted that the configuration according to the embodiment described in the present specification can be applied to a fixed terminal such as a digital TV or a desktop computer, except when applicable only to a mobile terminal.

In addition, the mobile terminal according to the present invention may be designed to conform to various mobile communication standards. For example, the mobile station that satisfies the LTE (Long Term Evolusion) / LTE -A (Advanced) module, TD-SCDMA LTE, IEEE 802.16e and IEEE 802.20 standard according to the standard of 3GPP (3 ^rd Generation Partnership Project) A wireless Internet module-including, for example, a Wimax module, etc.-may be mounted.

In general, in 3GPP and 3GPP2 standards, a transmission link from a base station to a mobile terminal is a downlink or a forward link, and a transmission link from a mobile terminal to a base station is an uplink or a reverse link. Is defined as.

The base station according to the present invention may include a NodeB applied to WCDMA (Wideband Code Division Multiple Access), an enhanced NodeB (ENB) applied to LTE and LTE-A, etc., according to the installed technology standard. It may include a base station, a Pico base station, a femto base station, and a remote radio head (RRH).

The mobile communication system according to the present invention is any of a Long Term Evolution (LTE) system, an LTE-Advanced system, a Wideband Code Division Multiple Access (WCDMA) system, or a High Speed Packet Access (HSPA) system according to the technology standard applied to the system. It can be one.

Hereinafter, a mobile terminal, a base station, and a system designed to conform to the 3GPP LTE/LTE-A standard will be described as an example.

Hereinafter, the structure of the LTE system will be briefly described.

1 is a diagram showing the structure of an LTE system defined in the 3GPP standard.

1, the radio access network of the LTE system as shown is a next-generation base station (Evolved Node B, hereinafter, ENB, Node B or base station) 105, 110, 115, 120 and a mobility management entity (125, Mobility) Management Entity, MME) and S-GW (Serving-Gateway) 130. The user equipment (hereinafter referred to as UE or mobile terminal) 135 may access the external network through ENBs 105 to 120 and SGW 130.

In FIG. 1, ENBs 105 to 120 correspond to the existing NodeBs of the Universal Mobile Telecommunications System (UMTS) system and may provide more advanced functions. The ENB is connected to the UE 135 through a radio channel and can provide higher transmission efficiency and complex functions than the existing NodeB.

In the LTE system, all user traffic including real-time services such as VoIP (Voice over IP) through the Internet protocol are serviced through a shared channel, so status information such as buffer status, available transmission power status, and channel status of UEs A device that collects and performs scheduling is required, and ENB (105 ~ 120) is in charge of this. One ENB typically controls multiple cells. In order to implement a transmission rate of 100 Mbps, the LTE system uses orthogonal frequency division multiplexing (OFDM) as a radio access technology in a 20 MHz bandwidth.

The S-GW 130 is a device that provides a data bearer, and creates or removes a data bearer under the control of the MME 125.

The MME 125 is a device in charge of a mobility management function for a terminal as well as a control function related to various call processing, and may be connected to a plurality of base stations. Here, the mobility management function may include an inter-cell, inter-eNB, and inter-system (inter-RAT (Radio Access Technology)) handover function. In addition, the MME 125 authenticates the UE 135, controls access to the network, and provides a function of allocating radio resources necessary for a call according to a predefined radio resource management (RRM) strategy. I can. In particular, the MME 125 may provide the UE 135 with a function of allocating or reallocating information on the tracking area.

2 is a diagram illustrating a tracking area allocation system according to the present invention. In more detail, FIG. 2 is a diagram for explaining a tracking area allocation system for allocating an optimized N-TAC in conjunction with an Element Management System (EMS) of the LTE MME 125.

The EMS 210 of the LTE MME 125 is a server for managing the MME 125 of the LTE network, and collects failure alarm and statistical information corresponding to the MME 125, and the MME 125 subunit (Sub -Unit)-Here, the lower unit may perform a function of collecting and managing configuration and status information of ENBs 105 to 120.

Here, the configuration and status information is configuration and resource allocation information on how the ENB(s) connected to the corresponding MME 125 is configured, and unique identification information assigned to each ENB-hereinafter, referred to as "base station identifier", a business card- And a tracking area code identifier (TAC Identifier, TAC ID) to identify which TAC is included in the corresponding ENB, and a Tracking Area List Identifier (TAL ID) to identify a TAL consisting of at least one TAC. ), etc.

In addition, the EMS 210 according to the present invention may collect handover information of the UE 135 in the coverage area managed by the MME 125. Here, the handover information may be collected on a base station or cell basis.

The system operator can check fault alarm and statistics information, configuration and status information of sub-units of EMS 210, handover information of base stations or cells through a predetermined user interface screen through a console connected to the EMS 210. .

In addition, the EMS 210 may provide the handover information collected at a predetermined period to the tracking area allocation apparatus 200. As another example, the EMS 210 may provide handover information in units of base stations or cells collected based on a predetermined request message from the tracking area allocation apparatus 200.

In addition, the EMS 210 may provide TAC and TAL allocation information for lower ENBs to the tracking area allocation apparatus 200.

When receiving the current TAC and TAL allocation information received from the EMS 210 and handover information in units of base stations or cells, the tracking area allocation apparatus 200 according to the present invention is based on the received handover information in units of base stations or cells. Thus, the ratio of handover between TACs and the handover ratio between the target TAL for which N-TAC is recommended and the candidate TAC (Candidate TAC) not included in the target TAL is calculated, and the optimized N-TAC can be extracted by comparing this with a predetermined reference value. have.

At this time, the extracted N-TAC and the target TAL must be included in the same pool (POOL). If the pool to which the extracted N-TAC belongs and the pool to which the target TAL belongs are not the same, the corresponding N-TAC may be displayed on the console screen as an unoptimized TAC.

Here, the pool (POOL) may be configured and allocated in advance by the system operator in consideration of the type and installation area of ENB equipment included in the corresponding TAC, and a network design method of a service provider. Also, the pool (POOL) may be configured by grouping a predetermined number of MMEs 125 geographically adjacent to each other. It should be noted that the above example is only an embodiment, and the pool (POOL) may be configured differently according to the configuration of the operator network and the service strategy.

In addition, the tracking area allocation apparatus 200 may determine that the design of the corresponding TAL or TAC is not optimized when the handover ratio between TACs having different TALs exceeds a predetermined suitability determination reference value. That is, it can be determined that the ENB included in the corresponding TAL or TAC is a poorly optimized area. Therefore, it is necessary to redesign the TAL or TAC for the areas where optimization is insufficient.

In the above example, it is described that the tracking area allocation apparatus 200 receives handover information in units of base stations or cells from the EMS 210, but this is only one embodiment, and according to another embodiment of the present invention. The tracking area allocation apparatus 200 may directly receive a handover-related message from the MME 125 to collect handover information in units of base stations or cells.

To this end, although not shown in FIG. 2, a predetermined wired or wireless communication line for message transmission/reception may be configured between the MME 125 and the tracking area allocation device 200. Here, the MME 125 and the tracking area allocation apparatus 200 may transmit/receive messages through at least one of IP communication, ATM communication, and Wi-Fi communication on a communication line.

3 is an internal configuration diagram of an apparatus for allocating a tracking area according to an embodiment of the present invention.

3, the tracking area allocation apparatus 200 includes a control unit 300 and a communication unit 310, a handover statistics processing module 320, a suitability determination module 330, an N-TAC recommendation module 340, and a user At least one lower module(s) of the screen processing module 350, the tracking area configuration information DB (Tracking Area Configuration Database, 360), the handover weight statistics DB 370, the input module 380, and the display module 390 It can be composed of.

The controller 300 controls the overall input/output of the device and the operation of the lower module. Detailed functions of the control unit 300 will be made clearer through description of a lower module to be described later.

The communication unit 310 provides a function of transmitting/receiving a message or signal to/from an external device through a predetermined wired or wireless communication line, and an external device using any one of IP communication, ATM communication, and Wi-Fi communication. Can communicate with the device.

Here, the external device may include an EMS 210, an MME 125, and the like. Particularly, the communication unit 310 may obtain TAC and TAL configuration information, and handover information for each base station or cell from the EMS 210.

The handover statistics processing module 320 calculates handover statistics between TACs using the TAC and TAL configuration information received from the EMS 210 and handover information in units of base stations or cells, and stores them in the handover statistics DB 370. I can. Here, the handover statistics processing module 320 may collect only handover statistics between TACs belonging to different TALs. That is, handover statistics between TACs belonging to the same TAL may not be collected.

Here, the handover statistics between TACs may include information on the number of handover attempts between TACs. In addition, the handover statistics between TACs may include a handover ratio to the second to Nth TACs among the total handover attempts in the first TAC.

For example, when the total number of handover attempts in the first TAC is 10000, of which 2000 are handover attempts to the second TAC, the handover ratio between the first TAC and the second TAC is 20% [(2000 /10000)*100]. In the same way, the handover weights for the third to Nth TACs may be calculated.

In addition, when the handover information received from the EMS 210 is information on the number of handover attempts between two different base stations, the handover information is a first base station identifier and a second base station identifier for identifying the two base stations. It may include.

If, when the first base station identifier is included in the first TAC and the second base station identifier is included in the second TAC, the handover statistics processing module 320 according to the present invention is used between the first TAC and the second TAC. Statistics on the number of handover attempts can be collected. Thereafter, the handover statistics processing module 320 may calculate a handover ratio between TACs based on statistics on the number of handover attempts between TACs collected during a predetermined period.

As another example, when the handover information received from the EMS 210 is information on the number of handover attempts between two different cells, the handover information is a first cell identifier and a second cell identifier for identifying the two cells. It may include a cell identifier.

If, when the first cell identifier is included in the first TAC and the second cell identifier is included in the second TAC, the handover statistics processing module 320 according to the present invention is used between the first TAC and the second TAC. Statistics on the number of handover attempts can be collected. Thereafter, the handover statistics processing module 320 may calculate a handover ratio between TACs based on statistics on the number of handover attempts between TACs collected during a predetermined period.

TAC suitability determination module 330, when the proportion of handover between TACs generated by the handover statistics processing module 320 exceeds a predetermined suitability determination reference value, the design of the corresponding TAC or the TAL to which the corresponding TAC belongs is not optimized. It can be judged as. In general, if the proportion of handover between TACs that do not belong to the same TAL is excessively high, it can be determined that the design of the TAL is not optimized.

For example, when the suitability determination criterion value is set to 30%, the TAC suitability determination module 330, when the proportion of handover between TACs exceeds 30%, the design of the corresponding TAC or the TAL including the corresponding TAC is not appropriate. It can be judged as. If it is determined that it is not suitable, the TAC suitability determination module 330 may notify the control unit 300 that the corresponding TAC or the corresponding TAL is not properly designed, and the notification details are displayed on the display module 390 It can be displayed in the form of an alarm message through.

The TAC suitability determination module 330 checks whether the TAC extracted by the N-TAC recommendation module 340, which will be described later, belongs to the same pool as the TAL targeted for N-TAC recommendation, and the corresponding TAC recommends N-TAC. You can also judge whether it is suitable as an object. In this case, the determination result may be displayed on the screen in the form of an alarm message through the display module 390.

The N-TAC recommendation module 340 extracts TACs in which the proportion of handover between TACs generated by the handover statistics processing module 320 exceeds a predetermined N-TAC recommendation reference value, and gives priority to the extracted TACs. can do. The N-TAC recommendation module 340 may assign a higher priority in the order of the N-TAC recommendation target TAL or the TAC having a high handover ratio from the TAC.

At this time, the assigned priority information may be configured as a predetermined user interface screen and displayed through the display module 390, and the system operator may select N-TAC based on the priority information displayed on the screen. The N-TAC recommendation module 340 according to the present invention may recommend N-TAC for a specific TAC or N-TAC for a specific TAL according to the type of equipment.

In addition, the system operator can designate the TAL or TAC for which N-TAC recommendation is required through a predetermined user interface screen, and the N-TAC recommendation module 340 is assigned a priority for the designated TAL or TAC. Field) can be recommended.

In addition, the system operator can designate the number of N-TACs to be recommended through a predetermined user interface screen, and the N-TAC recommendation module 340 recommends N-TAC(s) given priority by a specified number. May be.

The user screen processing module 350 may configure a user interface screen according to a control signal from the controller 300 or an external user input signal. In this case, the configured screen may be displayed on the screen through the display module 390.

The tracking area configuration information DB 360 may record TAC and TAL configuration information received from the EMS 210. In addition, the tracking area configuration information DB 360 may include information for identifying which pool (POOL) the corresponding TAC and TAL are included.

The handover statistics DB 370 records handover statistics between TACs generated by the handover statistics processing module 320 described above. The structure of the handover statistics DB 370 will be described in detail with reference to FIG. 6 to be described later.

The tracking area configuration information DB 360 and the handover statistics DB 370 are a flash memory type, a hard disk type, a multimedia card micro type, and a card type. Memory (for example, SD or XD memory), RAM (Random Access Memory, RAM), SRAM (Static Random Access Memory), ROM (Read-Only Memory, ROM), EEPROM (Electrically Erasable Programmable Read-Only Memory) , Programmable Read-Only Memory (PROM) magnetic memory, magnetic disk, and optical disk may be composed of at least one type of storage medium.

The input module 380 is a module that receives a user input through an external input means such as a keyboard and a mouse. The user may search or input desired information through the input module 380 on a predetermined user interface screen. For example, the user uses the input module 380 to designate TALs or TACs for which N-TAC recommendation is required, or various parameters used in the N-TAC recommendation algorithm-for example, N-TAC recommendation number information, N- It is also possible to set-including TAC recommendation criterion information and conformity determination criterion information.

The display module 390 displays and outputs information processed by the tracking area allocation apparatus 200. For example, the display module 390 displays a UI (User Interface) or GUI (Graphic User Interface) to designate a TAL or TAC for which N-TAC recommendation is required, or to set a parameter used in an N-TAC recommendation algorithm. can do. In addition, the display module 390 may display a UI and a GUI for inquiring the databases 360 to 370 described above.

The display module 390 includes a liquid crystal display, a thin film transistor-liquid crystal display, an organic light-emitting diode, a flexible display, and a three-dimensional display. 3D display) may include at least one.

When the display module 390 and a sensor for detecting a touch motion (hereinafter, referred to as'touch sensor') form a mutual layer structure (hereinafter, abbreviated as'touch screen'), the display module 390 is an output device In addition, it can be used as an input device.

4 is a conceptual diagram illustrating a TAC/TAL/N-TAC allocation method according to an embodiment of the present invention.

TAC may be defined to be composed of at least one ENB, and TAL may be composed of at least one TAC. N-TAC for a specific TAC or TAL cannot be assigned in the same TAL. Accordingly, the handover statistics between TACs according to the present invention may be valid only between the TACs included in different TALs.

The N-TAC recommendation method according to the present invention can flexibly recommend N-TAC for TAC or TAL designated by a user. Referring to FIG. 4, it can be seen that N-TAC for TAL12000 is TAC9002, and N-TAC for TAC8001 and TAC8002 are TAC9001 and TAC7001, respectively. At this time, it can be seen that TAC9001 and TAC9002 are included in TAL14000, and TAC7001 is included in TAL13000. That is, the N-TAC for TACs included in TAL12000 or TAL12000 should be selected from TAL(s) other than TAL12000.

5 is a diagram illustrating a data structure of a tracking area configuration information database according to an embodiment of the present invention.

Referring to FIG. 5, reference numeral 510 is an example of a TAC configuration information table. Here, the TAC configuration information table is a TAC identifier field for uniquely identifying a specific TAC, an ENB list field for identifying ENB(s) included in the corresponding TAC, and a cell for identifying cell(s) included in the corresponding TAC. (Cell) list field, TAL identifier field to identify the TAL to which the TAC belongs, N-TAC identifier field to identify the currently allocated N-TAC corresponding to the TAC, and identify the pool to which the TAC belongs It may be configured to include at least one of the POOL identifier fields to be used.

Reference numeral 520 is an example of a TAL configuration information table. Here, the TAL configuration information table includes a TAL identifier field for uniquely identifying a corresponding TAL, a # of TAC field indicating the number of TACs included in the corresponding TAL, and the first to Nth TACs included in the corresponding TAL. It may be configured to include at least one of the first to Nth identifier fields for identifying.

Reference numeral 530 is an example of an N-TAC allocation information table in units of TALs. Here, the N-TAC allocation information table in units of TAL is a TAL identifier field for identifying the corresponding TAL, a TAC list field for identifying TACs belonging to the corresponding TAL, and N-TAC for identifying the currently allocated N-TAC for the corresponding TAL. It may be configured to include at least one of a -TAC identifier field, an N-TAC POOL identifier field for identifying a POOL corresponding to the corresponding N-TAC, and a TAL POOL identifier field for identifying a POOL corresponding to the corresponding TAL.

6 is a statistical table of inter-TAC handover proportions in which inter-TAC handover proportions are recorded according to an embodiment of the present invention.

As shown in FIG. 6, the handover weight statistics table 610 between TACs shows handover statistics within the same TAC and handover statistics between TACs belonging to the same TAL as "same TAC" and "same TAL", respectively. Can be. In other words, it means that no separate handover statistics are collected.

Referring to FIG. 6, in the TAC8000, since TAC8000 to TAC8002 correspond to the same TAC or the same TAL, separate handover statistics between TACs are not collected. On the other hand, since TAC8000 belongs to different TALs from TAC7001, TAC9001, and TAC9002, it can be seen that handover statistics are collected between TACs.

The tracking area allocation apparatus 200 according to the present invention may check which TAL each TAC belongs to by referring to the TAL configuration information table 520.

In addition, the tracking area allocation apparatus 200 may check whether the inter-TAC handover proportion exceeds a predetermined suitability determination reference value by referring to the inter-TAC handover proportion statistics table 610. As an example, referring to FIG. 6, when the suitability determination criterion value is set to 30%, it is shown that the handover ratio between TAC7001 and TAC9002 exceeds 30%. Accordingly, the tracking area allocation apparatus 200 may determine that the design of the corresponding TAC or the TAL to which the corresponding TAC belongs is not suitable.

In addition, the tracking area allocation apparatus 200 may recommend an N-TAC for a designated TAC using the inter-TAC handover weight statistics table 610 and a preset N-TAC recommendation reference value. As an example, referring to drawing number 610, in the case of TAC8001, it is shown that the proportion of handover between TACs for each of TAC7001, TAC9001, and TAC9002 is 7%, 14%, and 9%, respectively. If the N-TAC recommendation standard is 10%, only TAC9001 days can be recommended as N-TAC for TAC8001. As another example, in the case of TAC8002, it is shown that the proportion of handover between TACs for each of TAC7001, TAC9001, and TAC9002 is 6%, 13%, and 15%, respectively. At this time, it can be seen that TAC9001 and TAC9002 satisfy the N-TAC recommendation criteria, and TAC9002 may be given a higher recommendation priority than TAC9001.

7 is a flowchart illustrating a procedure for recommending an N-TAC for a designated TAL in a tracking area allocation apparatus according to an embodiment of the present invention.

Referring to FIG. 7, the tracking area allocation apparatus 200 may receive TAC and TAL configuration information from the EMS 210 (S701).

In addition, the tracking area allocation apparatus 200 may receive handover information in units of base stations or cells from the EMS 210 at a predetermined period (S703).

Thereafter, the tracking area allocation apparatus 200 collects handover statistics between TACs using the received TAC and TAL configuration information and handover information and stores them in a predetermined database (S705).

If a TAL to be recommended for N-TAC is designated by a user through a predetermined user interface screen, the tracking area allocation device 200 calculates a handover ratio between the designated TAL and the TAC that does not belong to the designated TAL (S707). .

The tracking area allocation apparatus 200 extracts TAC(s) whose calculated handover weight is equal to or greater than a predetermined reference value, and determines whether the extracted TAC and the designated TAL belong to the same pool (POOL) (S709 to S711).

As a result of the determination, when belonging to the same pool, the tracking area allocation device 200 will not optimize the TAL when the handover ratio with the designated TAL among the TACs extracted in step 709 exceeds a preset suitability determination reference value. It is also possible to display a predetermined notification message indicating that there is no indication on the screen (S715). In this case, the tracking area allocation apparatus 200 may exclude the non-optimized TAC from the recommended target N-TAC.

Thereafter, the tracking area allocation apparatus 200 may recommend the extracted TAC as an N-TAC for a designated TAL (S717). If there are a plurality of N-TACs to be recommended, the tracking area allocation apparatus 200 may give priority based on the handover weight calculated in step 707.

In addition, the tracking area allocation apparatus 200 may configure a predetermined user interface screen including N-TAC information to be recommended and priority information assigned to each N-TAC and display it on the display screen. In this case, the user may actually select the N-TAC to be used for the designated TAL among the recommended N-TACs on the user interface screen.

In step 711 described above, if it does not belong to the same pool, the tracking area allocation apparatus 200 may exclude the extracted TAC from the recommendation target N-TAC (S713).

8 is a flowchart illustrating a procedure for recommending an N-TAC for a designated TAC in a tracking area allocation apparatus according to an embodiment of the present invention.

Referring to FIG. 8, the tracking area allocation apparatus 200 may receive TAC and TAL configuration information from the EMS 210 (S801).

In addition, the tracking area allocation apparatus 200 may receive handover information in units of base stations or cells from the EMS 210 at a predetermined period (S803).

Thereafter, the tracking area allocation apparatus 200 collects handover statistics between TACs using the received TAC and TAL configuration information and handover information and stores them in a predetermined database (S805).

If a TAC to be recommended for N-TAC is designated by a user through a predetermined user interface screen, the tracking area allocation device 200 calculates the handover ratio between the designated TAC and the TAC that does not belong to the TAL of the designated TAC ( S807).

The tracking area allocation apparatus 200 extracts TAC(s) whose calculated handover weight is equal to or greater than a predetermined reference value, and determines whether the extracted TAC and the designated TAC belong to the same pool (POOL) (S809 to S811).

As a result of the determination, when belonging to the same pool, the tracking area allocation apparatus 200, if the proportion of handover with the designated TAC among the TACs extracted in step 809 exceeds a predetermined conformity determination reference value, the related TAC and the related TAC A predetermined notification message indicating that the TAL to which it belongs is not optimized may be displayed on the screen (S815). In this case, the tracking area allocation apparatus 200 may exclude the corresponding TAC from the recommended target N-TAC.

Thereafter, the tracking area allocation apparatus 200 may recommend the extracted TAC as an N-TAC for a designated TAC (S817). If there are a plurality of N-TACs to be recommended, the tracking area allocation apparatus 200 may assign priority based on the handover weight calculated in step 807.

In addition, the tracking area allocation apparatus 200 may configure a predetermined user interface screen including N-TAC information to be recommended and priority information assigned to each N-TAC and display it on the display screen. In this case, the user may directly select the N-TAC corresponding to the designated TAC from among the recommended N-TACs on the user interface screen.

In step 811 described above, when not belonging to the same pool, the tracking area allocation apparatus 200 may exclude the extracted TAC from the recommendation target N-TAC (S813).

It is obvious to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit and essential features of the present invention.

Therefore, the detailed description above should not be construed as restrictive in all respects and should be considered as illustrative. The scope of the present invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the present invention are included in the scope of the present invention.

105: ENB 135: UE
125: MME 200: tracking area allocation device
210: EMS 320: handover statistics processing unit
330: conformance determination module 340: N-TAC recommendation module
360: tracking area configuration information DB 370: handover statistics DB

Claims (22)

In a method of allocating a tracking area in a mobile communication system,
A first step of obtaining configuration information of a tracking area code (TAC) and a tracking area list (TAL);
A second step of acquiring handover information for each base station or cell;
A third step of calculating a handover weight between the TACs using the TAC and TAL configuration information and the handover information; And
A fourth step of allocating a neighboring tracking area code (Neighboring TAC, N-TAC) for a specific TAC or a specific TAL based on the handover weight,
The configuration information includes pool identification information indicating which pool (POOL) each of the TAC and the TAL belongs to, but the specific TAC or TAC belonging to the same pool as the specific TAL is allocated to the N-TAC
How to allocate the tracking area. The method of claim 1,
The TAC is a tracking area allocation method including at least one base station. The method of claim 1,
The TAL is a tracking area allocation method including at least one of the TAC. The method of claim 1,
The handover weight is calculated only for TACs belonging to different TALs. The method of claim 1,
A tracking area allocation method in which the N-TAC includes TAC(s) in which the handover weight with the specific TAC or the specific TAL exceeds a predetermined first reference value. The method of claim 5,
When the specific TAC or the TAC with the handover ratio with the specific TAL exceeds a predetermined second reference value, it is determined that the design of the specific TAC or the specific TAL is not optimized. The method of claim 6,
A method of allocating a tracking area in which a predetermined notification message indicating that the design of the specific TAC or the specific TAL is not optimized is displayed on the screen. The method of claim 6,
The tracking area allocation method in which the first reference value and the second reference value are set through a predetermined user interface screen. The method of claim 1,
When there are a plurality of allocated N-TACs, a tracking area allocation method in which a recommendation priority is given based on the handover weight. delete The method of claim 1,
And receiving information on the number of the N-TACs to be allocated through a predetermined user interface screen. The method of claim 1,
And displaying a predetermined user interface screen configured to enable the assigned N-TAC to be selected. delete The method of claim 1,
And receiving the specific TAC or the specific TAL through a predetermined user interface screen. In the device for allocating a tracking area in connection with a mobile communication system,
A communication unit for receiving a tracking area code (TAC) and a tracking area list (TAL) configuration information and handover information in units of base stations or cells from the mobile communication system;
A handover statistics processing module for calculating a handover weight between the TACs using the TAC and TAL configuration information and the handover information; And
Including an N-TAC recommendation module for allocating a neighboring tracking area code (Neighboring TAC, N-TAC) for a specific TAC or a specific TAL based on the handover weight,
The configuration information includes pool identification information indicating which pool each of the TAC and the TAL belongs to, but TAC belonging to the same pool as the specific TAC or the specific TAL by the N-TAC recommendation module Is assigned to the N-TAC
Tracking area allocation device. The method of claim 15,
Further comprising a suitability determination module for determining that the design of the specific TAC or the specific TAL is not optimized when there is a TAC in which the specific TAC or the handover ratio with the specific TAL exceeds a predetermined suitability determination standard value. Tracking area allocation device. delete The method of claim 15,
When there are a plurality of allocated N-TACs, the N-TAC recommendation module assigns a recommendation priority based on the handover weight. The method of claim 15,
The handover weight is calculated only for TACs belonging to different TALs. The method of claim 15,
A tracking area allocation apparatus in which TAC(s) in which the handover ratio with the specific TAC or the specific TAL exceeds a predetermined N-TAC recommended reference value are allocated to the N-TAC. The method of claim 15,
The mobile communication system is any one of a long term evolution (LTE) system, an LTE-Advanced system, a wideband code division multiple access (WCDMA) system, and a high speed packet access (HSPA) system. A mobility management entity (MME) that is connected to at least one base station and provides a mobility management function and a call control function of a terminal including handover;
Element management system (Element Management) that collects handover information in units of the base station or cell in conjunction with the MME and maintains tracking area code (TAC) and tracking area list (TAL) configuration information System, EMS); And
The handover information and the TAC and the TAL configuration information are obtained from the EMS to calculate a handover ratio between the TACs, and a neighboring tracing area code corresponding to a specific TAC or a specific TAL based on the handover ratio (Neighboring Tracing Area Code, N-TAC) including a tracking area allocation device for allocating,
The configuration information includes pool identification information indicating which pool each of the TAC and the TAL belongs to, but TAC belonging to the same pool as the specific TAC or the specific TAL by the N-TAC recommendation module The tracking area allocation system allocated to the N-TAC.

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