KR20150022483A - Cell identification allocating apparatus and control method thereof - Google Patents

Abstract

The present invention relates to a cell identification allocating apparatus and to an operation method thereof. The cell identification allocating apparatus includes: a macro cell confirming unit which confirms at least one macro cell adjacent to a specific cell based on the adjacent cell information related to the specific cell; and a small cell confirming unit which confirms each small cell within at least one macro cell. The present invention for assigning physical cell ID (PCI) on the small cells can assign optimal PCI without collision by allocating the PCI without collision (overlap) in consideration of all small cells within the specific macro cell among the cells adjacent to the small cells regardless of interlocking and an information exchange of the macro cell and of a management server for managing the same.

Description

TECHNICAL FIELD [0001] The present invention relates to a cell identification information allocating apparatus and a cell identification information allocating apparatus,

The present invention relates to a method of allocating cell identification information to a cell, and more particularly, to a method of allocating cell identification information (PCI) to a small cell, The present invention relates to a cell identification information allocating apparatus and an operating method of a cell identification information allocating apparatus capable of allocating collisionless optimal cell identification information (PCI) without exchanging information.

In the recent LTE network, a network environment in which different cell sizes are located in the same area has emerged. In this network environment, various types of small base stations having a smaller coverage as well as a general macro base station are arranged / The base stations form macro cells and small cells in the overlapped area and provide wireless communication services to the users.

On the other hand, cell identification information such as a physical cell ID (PCI) is assigned to each of the macro cell and the small cell.

However, since the cell identification information (PCI) has a limited range, cell identification information (PCI), which is duplicated in two or more cells, can sometimes be allocated without being assigned to each cell.

Here, in the case of allocating the overlapping cell identification information (PCI) to two or more neighboring cells, since the cell can not distinguish two or more cells using the overlapping cell identification information (PCI), the uplink and / An error may occur in data transmission / reception.

Further, in the case of a macro cell including two or more small cells to which redundant cell identification information (PCI) is allocated, among the two or more small cells, for example, the small cell A and the small cell B, a small cell A And the other small cell B does not register as a neighbor cell. Therefore, if the terminal connected to the macro base station moves to the small cell B, the macro base station can not register the small cell B registered as a neighbor cell A handover is requested to the small base station of the cell A, which may result in a handover failure eventually.

Therefore, in allocating the cell identification information (PCI) with limited use range to the cell, particularly, the small cell, it is possible to prevent transmission / reception errors of the uplink and / or downlink data at least, There is a need for a scheme for allocating collisionless optimal cell identification information (PCI) so that it can be normally registered as a collision-free cell.

Therefore, according to the present invention, in assigning the cell identification information (PCI) to a small cell, optimal cell identification information (PCI) without collision can be obtained without interworking and information exchange with the management server side for managing macro cells or macro cells, In order to reduce the overhead.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an apparatus and method for allocating cell identification information (PCI) to a small cell, A cell identification information allocating apparatus and an operation method of a cell identification information allocating apparatus capable of allocating collisionless optimal cell identification information (PCI) without interworking and information exchange.

According to a first aspect of the present invention, there is provided an apparatus for assigning cell identification information, comprising: a macro cell check unit for checking at least one macro cell adjacent to a specific cell based on neighbor cell information associated with a specific cell; A small cell check unit for checking each small cell existing in the at least one macro cell; And assigning specific cell identification information different from the cell identification information allocated to each of the identified small cells to the specific cell so that the specific cell identification information not yet allocated in the at least one macro cell is assigned to the specific cell And the cell identification information to be transmitted.

Preferably, the macro cell exclusive range allocable only to the macro cell in the entire range of the cell identification information is distinguished, and the macro cell check unit identifies the range of the macro cell exclusive range among the adjacent cells of the specific cell identified in the neighbor cell information It can be confirmed that at least one neighboring cell having cell identification information is the at least one macro cell.

Preferably, the small-cell checking unit may determine, based on a previously stored neighbor list for each small cell, a small cell registering the at least one macro cell as a neighbor cell in a neighbor list as a small-sized cell existing in the at least one macro cell Cell.

Preferably, a small-cell dedicated range that can be allocated only to small cells in the entire range of the cell identification information is distinguished, and the specific cell identification information includes at least one of a cell allocated to each small cell identified among the small- And cell identification information other than the identification information.

Preferably, if the remaining cell identification information is not included among the cell identification information in the small cell exclusive range, the cell identification information allocation part may determine that the signal reception intensity among the at least one macro cell is the most It is possible to identify a specific macrocell at a low level and assign cell identification information of a specific small cell existing in the specific macrocell to the specific cell.

Preferably, the specific small cell may be any one of small cells existing in the specific macrocell, excluding small cells adjacent to the specific cell identified in the neighboring cell information.

Preferably, the cell identification information may be a Physical Cell ID (PCI) that can be assigned to two or more cells.

According to a second aspect of the present invention, there is provided a method for operating a cell identification information allocating apparatus, the method comprising the steps of: determining, based on neighbor cell information associated with a specific cell, Identification step; A small cell checking step of checking each small cell existing in the at least one macro cell; And assigning specific cell identification information different from the cell identification information allocated to each of the identified small cells to the specific cell so that the specific cell identification information not yet allocated in the at least one macro cell is assigned to the specific cell And a cell identification information allocation step of allowing the cell identification information to be stored.

Preferably, the macro cell exclusive range allocable only to the macro cell is distinguished in the entire range of the cell identification information, and the macro cell checking step comprises: The at least one neighboring cell having the cell identification information of the at least one macro cell can be identified as the at least one macro cell.

Preferably, the small-cell checking step may be a step of checking whether the small cell which has previously registered the at least one macro cell as a neighbor cell in the neighbor list is present in the at least one macro cell It can be confirmed that it is a small cell.

Preferably, a small-cell dedicated range that can be allocated only to small cells in the entire range of the cell identification information is distinguished, and the specific cell identification information includes at least one of a cell allocated to each small cell identified among the small- And cell identification information other than the identification information.

Preferably, if there is no remaining cell identification information among the cell identification information of the small cell exclusive range, checking the specific macrocell having the lowest signal reception intensity among the at least one macro cell based on the neighboring cell information ; And allocating, to the specific cell, cell identification information of a specific small cell that is one of remaining small cells excluding the adjacent cell of the specific cell identified in the neighboring cell information among the small cells existing in the specific macro cell .

According to the cell identification information allocating apparatus and the method of operating the cell identification information allocating apparatus of the present invention, in allocating the cell identification information to the small cell, It is possible to allocate optimal cell identification information (PCI) without collision even without exchange.

1 is an exemplary view showing an environment in which macro cells and small cells coexist.
2 is a configuration diagram illustrating a communication system including a cell identification information allocating apparatus according to a preferred embodiment of the present invention.
3 is a block diagram showing a configuration of a cell identification information allocating apparatus according to a preferred embodiment of the present invention.
4 is a control flowchart of a communication system including a cell identification information allocating apparatus according to a preferred embodiment of the present invention.
5 is a flowchart illustrating an operation method of a cell identification information allocating apparatus according to an exemplary embodiment of the present invention.

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

Prior to description of the present invention, an environment in which macro cells and small cells coexist will be described with reference to FIG.

In recent LTE networks, a network environment in which base stations with different cell sizes are located in the same area has emerged. In this network environment, various types of small base stations having a smaller coverage as well as a general macro base station are arranged / The base stations form macro cells and small cells in the overlapped area and provide wireless communication services to the users.

1, the macro base station 10 and the macro base station 20 are arranged (installed), the small base stations 1, 2 and 6 are provided in the macro cell C10 formed by the macro base station 10, and the macro cells C20 The small base stations 3, 4 and 5 are installed.

Accordingly, small cells C1, C2, C3, C4, C5, and C6 formed by various small base stations exist in the macro cell C10 and the macro cell C20.

Of course, each macro base station and each small cell may form one cell or several cells. Hereinafter, for convenience of description, it will be described with reference to FIG. 1 that each macro base station and each small cell form one cell.

Cell identification information such as a physical cell ID (PCI) is assigned to each of the macro cells C10 and C20 and each of the small cells C1, C2, C3, C4, C5 and C6. do.

However, since the cell identification information (PCI) has a limited range, cell identification information (PCI), which is duplicated in two or more cells, can sometimes be allocated without being assigned to each cell.

At this time, when a communication service provider installs a macro base station, it is common to systematically install the macro base station according to a special installation plan. Therefore, it is unlikely that the macro cell of the macro base station is allocated the overlapping cell identification information (PCI).

However, since small-sized base stations such as femto base stations and pico base stations are often randomly installed at the request of subscribers or regions where data demand is expected to be high without a special installation plan by a communication service provider, There is a relatively high possibility that redundant cell identification information (PCI) is allocated to the cell.

Therefore, in the present invention, a method for allocating the optimal cell identification information (PCI) without collision in assigning the cell identification information (PCI) to a small cell is proposed. In particular, It is proposed to allocate the optimal cell identification information (PCI) without collision without any interworking and information exchange with the management server side.

2 is a diagram illustrating a communication system including a cell identification information allocating apparatus according to a preferred embodiment of the present invention.

As shown in FIG. 2, the communication system in which the present invention is reflected includes a plurality of small base stations 100 and a cell identification information allocating apparatus 200 of the present invention.

A plurality of small base stations 100 includes a base station device that provides a communication service, such as a voice call service or a data service, to a terminal located in its coverage area, i.e., a cell. The plurality of small base stations 100 may include a femto base station apparatus, a pico base station apparatus, and the like, which form small cells such as femtocells and picocells.

The cell identification information allocating apparatus 200 according to the present invention manages information about each small base station (hereinafter, referred to as small base station-specific information) through interworking and information exchange with the above-described small base stations 100 .

For example, the cell identification information allocating apparatus 200 may allocate, to each of the plurality of small base stations 100, cell unique information (ECGI: E-UTRAN Cell Global Identifier), cell identification information (PCI ), And continuously updates / stores the Naver list, it is possible to manage information per small base station.

Referring to FIG. 1, the cell identification information allocating apparatus 200 includes cell specific information (ECGI) for a small cell C1 formed by the small base station 1, cell identification information Information (PCI), and Naver list.

When the neighboring cell information related to a specific cell is received, the cell identifying information allocating apparatus 200 identifies at least one macro cell adjacent to the specific cell based on neighboring cell information.

Here, the specific cell may be a newly installed small cell.

Hereinafter, for convenience of description, it is assumed that a small base station 7 forming a small cell 7 is newly installed in Fig. 1.

When the operation after the new installation is started, the small base station 7 collects information on neighboring cells, that is, neighboring cells.

For example, when the operation after the new installation is started, the small base station 7 transmits information on neighboring neighbor cells, that is, information on each neighboring cell, for example, neighboring cell (s), through an NMM (Network Monitor Mode) Cell specific information (ECGI), cell identification information (PCI), and RSRP (Reference Signal Received Power).

1, if the small base station 7 is installed in a region where macro cells C10 and macro cells C20 overlap each other and is installed close to a small cell C6 of a small base station 6 installed in the base station, , The macro cell C20, and the small cell C6.

Accordingly, the small base station 7 provides neighbor cell information composed of information on each neighboring cell collected as described above, that is, macrocell C10, macrocell C20, and small cell C6, to the cell identification information allocating apparatus 200. [

Therefore, the cell identification information assigning apparatus 200 of the present invention receives neighboring cell information related to a specific cell, that is, the small cell C7, and then, based on the received neighboring cell information, can confirm.

At this time, the cell identification information allocating apparatus 200 will check the neighboring cells of the small cell C7, that is, the macrocell C10, the macrocell C20, and the macrocell C10 and the macrocell C20 among the small cell C6 based on the neighboring cell information.

Then, the cell identification information assigning apparatus 200 identifies each of the small cells existing in the at least one macro cell, that is, the macro cell C10 and the macro cell C20 confirmed in the above-described manner.

Thereafter, the cell identification information assigning apparatus 200 allocates specific cell identification information (PCI) different from the cell identification information (PCI) allocated to each small cell identified above to the small cell C7, The macro cell C10 and the specific cell identification information PCI which is not previously allocated in the macro cell C20 can be allocated to the small cell C7.

Hereinafter, a configuration of a cell identification information allocating apparatus according to a preferred embodiment of the present invention will be described in detail with reference to FIG.

The cell identification information allocating apparatus 200 of the present invention includes a macro cell verifying unit 210 for verifying at least one macro cell adjacent to the specific cell based on neighbor cell information related to a specific cell, A small cell identifying unit (220) for identifying each small cell existing in the macro cell, and a specific cell identifying unit for assigning specific cell identification information different from the cell identifying information allocated to each small cell identified, to the specific cell, And a cell identification information allocation unit 230 for allowing the specific cell identification information not allocated in the macro cell to be allocated to the specific cell.

The macro cell check unit 210 identifies at least one macro cell adjacent to the specific cell based on neighbor cell information related to the specific cell.

Here, the specific cell may be a newly installed small cell.

Hereinafter, for convenience of description, it is assumed that a small base station 7 forming a small cell 7 is newly installed in Fig. 1.

For example, when the operation after the new installation is started, the small base station 7 transmits information on each neighboring cell, i.e., each neighboring cell, such as cell specific information (ECGI) of each neighboring cell, through the NMM or NL function, , Cell identification information (PCI), signal reception strength (RSRP), and the like.

1, if the small base station 7 is installed in a region where macro cells C10 and macro cells C20 overlap each other and is installed close to a small cell C6 of a small base station 6 installed in the base station, , The macro cell C20, and the small cell C6.

Accordingly, the small base station 7 provides neighbor cell information composed of information on each neighboring cell collected as described above, that is, macrocell C10, macrocell C20, and small cell C6, to the cell identification information allocating apparatus 200. [

Therefore, the cell identification information assigning apparatus 200 of the present invention receives neighbor cell information related to a specific cell, that is, the small cell C7.

The macro cell check unit 210 identifies at least one macro cell adjacent to the small cell C7 based on the neighbor cell information received from the small base station 7. [

To be more specific, the range of the cell identification information (PCI) usable is limited. For example, the entire range of available cell identification information (PCI) may be 0 to N (e.g., N = 503).

(For example, 0 to M) that can be allocated only to macro cells are distinguished in the entire range of the limited cell identification information (PCI), and a small cell exclusive range (for example, M to N ) Can be distinguished.

1, cell identification information (PCI) within a macro cell exclusive range (for example, 0 to M) is already allocated to macro cells C10 and C20, and macro cell C10 and macro cell C20 , Cell identification information (PCI) already in a small cell exclusive range (e.g., M to N) will be allocated.

The macro cell check unit 210 checks at least one adjacent cell having the cell identification information PCI of the macro cell exclusive range (for example, 0 to M) among the neighbor cells of the small cell C7 identified in the neighbor cell information , It can be confirmed that the macro cell is the at least one macro cell.

1, the macrocell check unit 210 extracts macrocells from among adjacent cells, that is, macrocells C10, macrocells C20, and small cells C6 based on neighboring cell information received from the small base station 7 It can be confirmed that the adjacent cell having the cell identification information PCI of the range (for example, 0 to M) is a macro cell.

Therefore, the macrocell check unit 210 will check the macrocell C10 and the macrocell C20 among the adjacent cells of the small cell C7, that is, the macrocell C10, the macrocell C20, and the small cell C6.

The small cell check unit 220 checks each small cell existing in at least one macro cell identified by the macro cell check unit 210. [

1, the small cell check unit 220 checks each small cell existing in the macro cell C10 and / or the macro cell C20 checked by the macro cell check unit 210. In other words,

More specifically, as described above, the cell identification information assigning apparatus 200 can manage information for each small base station.

The small cell check unit 220 checks whether the macro cell C10 and / or the small cell check cell 210 checked by the macro cell check unit 210 based on the small-cell-specific neighbor list included in the small- It can be confirmed that the small cell in which the macrocell C20 is registered as a neighbor cell in the neighbor list is a small cell existing in the macrocell C10 and / or the macrocell C20.

This means that if the macrocell C10 is a small cell that has already registered in the neighbor list as a neighbor cell, the small cell is at least a macrocell C10 and at least a part of the cell region, which is registered as a neighbor cell in at least a neighbor list of the macrocell C10 Lt; RTI ID = 0.0 > cell. ≪ / RTI >

More specifically, the small cell check unit 220 checks the cell specific information (EGCI) of the macro cell C10 and the macro cell C20 checked by the macro cell check unit 210. This can be confirmed from the above-described neighbor cell information.

The small cell check unit 220 searches for a small cell which has previously registered at least one of the cell specific information (EGCI) of the macro cell C10 and the macro cell C20 in the neighbor list, based on the neighbor list for each small cell.

1, the small cell check unit 220 is a small cell that registers at least one of the cell specific information (EGCI) of the macro cell C10 and the macro cell C20 in the neighbor list, , C2, C3, C4, C5, and C6.

Thus, the small cell check unit 220 can check the searched small cells C1, C2, C3, C4, C5, and C6 as small cells existing in the macrocell C10 and / or the macrocell C20.

The cell identification information designation unit 230 assigns specific cell identification information (PCI) different from the cell identification information (PCI) assigned to each small cell identified by the small cell identification unit 220 to the small cell C7, C7, that is, macro cell C10 and specific cell identification information (PCI) not previously allocated in the macro cell C20 can be allocated to the small cell C7.

Here, the specific cell identification information (PCI) is the identification information (PCI) of the small cell exclusive use range (for example, M to N) , And the cell identification information (PCI) allocated to C3, C4, C5, and C6.

In other words, the cell identification information designation unit 230 determines that the small cells C1, C2, C3, C4, and C5 (small cells) exist in the macro cell C10 and / , And C6, cell identification information (PCI) assigned to each of the small cells C1, C2, C3, C4, C5, and C6 is excluded from the cell identification information (PCI) And confirms remaining cell identification information (PCI).

When there is remaining assignable cell identification information (PCI), the cell identification information assigning unit 230 assigns any of the remaining cell identification information (PCI) to the small base station 7 as the specific cell identification information (PCI) So that specific cell identification information (PCI) can be assigned to the small cell C7 formed by the small base station 7.

On the other hand, cell identification information (PCI) other than the cell identification information (PCI) assigned to each of the small cells C1, C2, C3, C4, C5 and C6 among the cell identification information (PCI) (PCI). In this case, it may be the case that all the cell identification information (PCI) of a small cell exclusive range (for example, M to N) is allocated to the small cells existing in the macro cell C10 and / or the macro cell C20.

However, even in this case, the cell identification information (PCI) must be allocated to the small cell C7 so that the small base station 7 can normally provide the communication service to the terminal located in the small cell C7.

Accordingly, if there is no remaining cell identification information (PCI) that can be allocated, the cell identification information designation unit 230 determines that the signal reception strength (RSRP) among the macro cells C10 and macro cells C20 is the most Identify low specific macrocells.

For example, if the small base station 7 is installed closer to the center of the macrocell C10 as shown in FIG. 1, the signal strength of the macrocell C10 (RSRP) and the signal strength of the macrocell C20 The reception strength (RSRP) will be lowest.

The fact that the signal reception intensity RSRP of the macrocell C20 is the lowest means that the macrocell C20 is farther away from the macrocell C10 than the small cell C7, C4, C5 existing in the macrocell C20 rather than C2, C6, and C6.

Accordingly, the cell identification information designation unit 230 can identify the macrocell C20 as the specific macrocell having the lowest signal reception intensity (RSRP) among the macrocells C10 and C20 based on the above-described neighboring cell information.

Thereafter, the cell identification information designation unit 230 can assign the cell identification information (PCI) of a specific small cell existing in a specific macro cell, that is, the macro cell C20, to the small cell C7.

At this time, it is preferable that the specific small cell is one of the small cells existing in the specific macro cell, that is, the small cell existing in the macro cell C20, excluding the adjacent cell of the small cell C7 identified in the above-described neighbor cell information.

That is, the cell identification information designation unit 230 extracts the cell identification information of the small cell C7, which is identified in the above-described neighbor cell information, among the small cells C3, C4 and C5 of FIG. 1, Cells other than the macro cell C10, the macro cell C20, and the small cell C6 are checked.

At this time, since the adjacent cells included in the small cells C3, C4, and C5 do not exist in the macrocell C20 in the adjacent cells of the small cell C7, that is, the macrocell C10, the macrocell C20, and the small cell C6, Are small cells C3, C4, and C5.

Therefore, the cell identification information assignment module 230 assigns the cell identification information (PCI) of a specific small cell (for example, the small cell C3), which is one of the remaining small cells, that is, the small cells C3, C4 and C5, to the small cell C7 can do.

In the above description, the small base station 7 newly installed in the area where the macro cell C10 and the macro cell C20 are overlapped has been described, but this is only an embodiment.

For example, in the state where the small cells C1, C2, C3, C4, C5, and C7 are already installed in FIG. 1, a case where the small base station 6 is newly deployed and a small cell C6 is newly formed will be briefly described as follows.

The macro cell check unit 210 identifies at least one macro cell adjacent to the small cell C6 on the basis of the neighbor cell information received from the small base station 6. [

That is, based on the neighboring cell information received from the small base station 7, the macrocell checking unit 210 determines a macrocell exclusive range (for example, 0 to M Can be confirmed to be a macro cell.

Therefore, the macrocell check unit 210 will identify the macrocell C10 among the adjacent cells of the small cell C6, that is, the macrocell C10 and the small cell C7.

The small cell check unit 220 checks each small cell existing in the macro cell C10 checked by the macro cell check unit 210. [

That is, the small cell check unit 220 determines whether the small cell, that is, the small cell (small cell) that has previously registered the cell specific information (EGCI) of the macrocell C10 in the neighbor list, based on the small- C1, C2, and C7 can be searched, and the searched small cells C1, C2, and C7 can be identified as small cells existing in the macrocell C10.

When the small cell check unit 220 confirms the small cells C1, C2, and C7 as small cells existing in the macrocell C10 as described above, the cell identification information assignment unit 230 sets the small cell exclusive range (e.g., (PCI) other than the cell identification information (PCI) assigned to each of the small cells C1, C2, and C7 among the cell identification information (PCI) (PCI) is transmitted to the small base station 6, and the specific cell identification information (PCI) is transmitted to the small cell C6 formed by the small base station 6. Then, . ≪ / RTI >

At this time, if there is no allocable remaining cell identification information (PCI), the cell identification information designation unit 230 determines that the macro cell C10 is adjacent to the small cell C6, To the small base station 6 as the above-mentioned specific cell identification information (PCI), and transmits the specific cell identification information (PCI) to the small cell C6 formed by the small base station 6 You will be able to assign it.

Meanwhile, in the above description, the cell identification information allocating apparatus 200 of the present invention directly stores (manages) information for each small base station, but this is only an embodiment. For example, a separate small base station management server (not shown) for managing information for each small base station is configured. The cell identification information allocating apparatus 200 of the present invention is connected to a small base station management server (not shown) It is also possible to refer to (or utilize) information for each base station.

As described above, in the cell identification information allocating apparatus 200 according to the present invention, when allocating the cell identification information (PCI) to the newly installed (formed) small cell, only the small cell and the adjacent cell (Redundant) cell identification information (PCI) is allocated in consideration of all the small cells existing in the macro cell among the cells adjacent to the small cell. , It is possible to allocate optimal cell identification information (PCI) without collision.

In addition, as described above, the apparatus 200 for allocating cell identification information according to the present invention is capable of allocating the neighbor cell information automatically received in association with the newly installed (formed) small cell and the small cell- It is possible to allocate optimal cell identification information (PCI) without collision to a newly installed (formed) compact cell without any interworking and information exchange with the management server side managing the macro cell or the macro cell. .

Hereinafter, an operation method of the cell identification information allocating apparatus according to the present invention will be described with reference to FIG. 4 to FIG. Hereinafter, for convenience of description, description will be given with reference to Figs. 1 to 3 described above.

First, with reference to FIG. 4, a control flow of a communication system including a cell identification information allocating apparatus according to the present invention will be described. Hereinafter, for convenience of explanation, it is assumed that a small base station 7 forming a small cell 7 is newly installed in FIG. 1.

When the operation after the new installation is started, the small base station 7 transmits information about neighboring neighboring cells, that is, neighboring cells such as the cell specific information (ECGI) of neighboring cells, cell identification information PCI), signal reception strength (RSRP), and the like (S10).

1, if the small base station 7 is installed in a region where macro cells C10 and macro cells C20 overlap each other and is installed close to a small cell C6 of a small base station 6 installed in the base station, , The macro cell C20, and the small cell C6.

Accordingly, the small base station 7 provides neighbor cell information composed of information on each neighboring cell collected as described above, that is, macrocell C10, macrocell C20, and small cell C6, to the cell identification information allocating apparatus 200 (S20) .

Therefore, the cell identification information assigning apparatus 200 of the present invention receives neighboring cell information related to a specific cell, that is, the small cell C7, and then, based on the received neighboring cell information, (S30).

At this time, the cell identification information allocating apparatus 200 will check the neighboring cells of the small cell C7, that is, the macrocell C10, the macrocell C20, and the macrocell C10 and the macrocell C20 among the small cell C6 based on the neighboring cell information.

Then, the cell identification information assigning apparatus 200 identifies each of the small cells existing in each of the at least one macro cell identified above, that is, the macrocell C10 and the macrocell C20, (PCI) (S40).

Thereafter, the cell identification information assigning apparatus 200 transmits specific cell identification information (PCI) different from the cell identification information (PCI) allocated to each small cell identified above to the small-sized base station 7, Specific cell identification information (PCI) can be assigned to the small cell C7 (S50).

Hereinafter, a method of operating the cell identification information allocating apparatus according to the preferred embodiment of the present invention will be described in detail with reference to FIG.

The method for operating the apparatus 200 for assigning cell identification information according to the present invention identifies at least one macro cell adjacent to the specific cell based on neighbor cell information associated with the specific cell.

Here, the specific cell may be a newly installed small cell.

Hereinafter, for convenience of description, it is assumed that a small base station 7 forming a small cell 7 is newly installed in Fig. 1.

For example, if the small base station 7 is installed in the area where the macrocells C10 and C20 overlap each other and is installed close to the small cell C6 of the small base station 6 as shown in Fig. 1, Information about the cell C10, the macro cell C20, and the small cell C6 can be collected.

Accordingly, the small base station 7 provides neighbor cell information composed of information on each neighboring cell collected as described above, that is, macrocell C10, macrocell C20, and small cell C6, to the cell identification information allocating apparatus 200. [

Therefore, the operation method of the cell identification information allocating apparatus 200 according to the present invention receives neighbor cell information related to a specific cell, that is, the small cell C7 (S100).

Accordingly, the method of operating the cell identification information allocating apparatus 200 according to the present invention checks at least one macro cell adjacent to the small cell C7 based on neighbor cell information received from the small base station 7 (S110).

More specifically, in the case of FIG. 1, the cell identification information (PCI) within the macro cell exclusive range (for example, 0 to M) is already allocated to the macro cell C10 and the macro cell C20, And cell identification information (PCI) already in a small cell exclusive range (e.g., M to N) are already allocated to the macro cell C20.

Therefore, the method of operating the cell identification information allocating apparatus 200 according to the present invention is a method of allocating cell identification information (PCI) of a macro cell exclusive range (for example, 0 to M) among neighbor cells of the small cell C7 identified in the neighbor cell information Can be identified as the at least one macro cell.

1, an operation method of the cell identification information allocating apparatus 200 according to the present invention is a method of allocating cell ID information to neighboring cells, that is, macrocells C10, macrocells C20, It can be confirmed that the adjacent cell having the cell identification information PCI of the macro cell exclusive range (for example, 0 to M) among the small cells C6 is a macro cell.

Therefore, the operation method of the apparatus 200 for assigning cell identification information according to the present invention will identify the macro cell C10 and the macro cell C20 among the adjacent cells of the small cell C7, that is, the macro cell C10, the macro cell C20, and the small cell C6 .

The operation method of the apparatus 200 for assigning cell identification information according to the present invention checks each small cell existing in at least one macro cell identified in step S110 (S120).

More specifically, as described above, the cell identification information assigning apparatus 200 can manage information for each small base station.

The operation method of the apparatus 200 for allocating cell identification information according to the present invention further comprises a step of determining whether or not the macrocells C10 and C10 identified in step S110 are included in the small- / Or the small cell in which the macrocell C20 is registered as a neighbor cell in the neighbor list is a small cell existing in the macrocell C10 and / or the macrocell C20.

More specifically, the operation method of the cell identification information allocating apparatus 200 according to the present invention checks the cell specific information (EGCI) of the macro cell C10 and the macro cell C20 confirmed in step S110. .

Accordingly, in the operation method of the apparatus 200 for assigning cell identification information according to the present invention, at least one of the cell specific information (EGCI) of the macro cell C10 and the macro cell C20 is registered in the neighbor list on the basis of the neighbor list for each small cell Search for a small cell.

1, an operation method of the cell identification information allocating apparatus 200 according to the present invention is a method of allocating at least one of cell specific information (EGCI) of a macro cell C10 and a macro cell C20 to a neighbor list As a small cell, it will search for small cells C1, C2, C3, C4, C5, C6.

Therefore, the operation method of the apparatus 200 for allocating cell identification information according to the present invention is to check the searched small cells C1, C2, C3, C4, C5, and C6 as small cells existing in the macrocell C10 and / .

The operation method of the cell identification information allocating apparatus 200 according to the present invention allocates specific cell identification information PCI different from the cell identification information PCI allocated to each small cell identified in step S120 to the small cell C7, Specific cell identification information (PCI) not allocated in at least one macro cell adjacent to the cell C7, that is, the macro cell C10 and the macro cell C20, can be allocated to the small cell C7.

In other words, in the operation method of the apparatus 200 for allocating cell identification information according to the present invention, the small cells C1, C2, C3, C4, and C4 as small cells existing in the macrocells C10 and / C5, and C6, cell identification information (PCI) assigned to each of the small cells C1, C2, C3, C4, C5, and C6 is checked (S130).

The operation method of the apparatus 200 for allocating cell identification information according to the present invention is a method for allocating the small cells C1, C2, C3, C4, C5, and C5 among the cell identification information (PCI) (PCI) other than the cell identification information (PCI) assigned to the cell C6 (S140).

The operation method of the apparatus 200 for allocating cell identification information according to the present invention is a method for allocating any one of the remaining cell identification information PCI to the specific cell It is possible to allocate specific cell identification information (PCI) to the small cell C7 formed by the small base station 7 by transmitting it to the small base station 7 as the identification information (PCI) (S160).

On the other hand, if there is no remaining cell identification information (PCI) that can be allocated (No in S150), the operation method of the apparatus 200 for allocating cell identification information according to the present invention is to use the macro cell C10 and the macro cell The specific macrocell having the lowest signal reception intensity (RSRP) in C20 is identified (S170).

For example, if the small base station 7 is installed closer to the center of the macrocell C10 as shown in FIG. 1, the signal strength of the macrocell C10 (RSRP) and the signal strength of the macrocell C20 The reception strength (RSRP) will be lowest.

Therefore, the operation method of the cell identification information allocating apparatus 200 according to the present invention is characterized in that, based on the above-described neighboring cell information, macrocells C10 and macro cells C20 as the specific macrocells having the lowest signal reception intensity (RSRP) can confirm.

The operation method of the apparatus 200 for assigning cell identification information according to the present invention can allocate the cell identification information (PCI) of a specific small cell existing in a specific macro cell, that is, the macro cell C20, to the small cell C7 (S180) .

At this time, it is preferable that the specific small cell is one of the small cells existing in the specific macro cell, that is, the small cell existing in the macro cell C20, excluding the adjacent cell of the small cell C7 identified in the above-described neighbor cell information.

That is, the operation method of the apparatus 200 for allocating cell identification information according to the present invention is a method of identifying (identifying) among the small cells C3, C4, and C5 in the specific macrocell, The macro cells C10, the macro cells C20, and the small cells C6 are checked.

At this time, since the adjacent cells included in the small cells C3, C4, and C5 do not exist in the macrocell C20 in the adjacent cells of the small cell C7, that is, the macrocell C10, the macrocell C20, and the small cell C6, Are small cells C3, C4, and C5.

Therefore, the method of operating the cell identification information allocating apparatus 200 according to the present invention is a method of allocating cell identification information (PCI) of a specific small cell (for example, a small cell C3) which is one of the remaining small cells, that is, the small cells C3, Can be assigned to the small cell C7.

As described above, according to the method of operating the cell identification information allocating apparatus according to the present invention, when assigning the cell identification information (PCI) to a small cell, It is possible to allocate optimal cell identification information (PCI) without collision even without exchange of information.

The method of operating the cell identification information allocating apparatus according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to the cell identification information allocating apparatus and method of operating the cell identification information allocating apparatus according to the present invention, in allocating the cell identification information (PCI) to a small cell, a separate interworking with the management server side for managing the macro cell or the macro cell It is possible to assign optimal cell identification information (PCI) with no collision without exchanging information. Therefore, as the technology overcomes the limitations of the existing technology, But it is an invention that is industrially applicable because it can be practically carried out clearly.

100: Multiple small base stations
200: Cell identification information allocation device

Claims (12)

A macro cell check unit for checking at least one macro cell adjacent to the specific cell based on neighbor cell information related to the specific cell;
A small cell check unit for checking each small cell existing in the at least one macro cell; And
Specific cell identification information different from the cell identification information allocated to each small cell identified is assigned to the specific cell and the specific cell identification information not previously allocated in the at least one macro cell is assigned to the specific cell Wherein the cell identification information allocation unit comprises: The method according to claim 1,
The macro cell exclusive range allocable only to the macro cell is distinguished in the entire range of the cell identification information,
Wherein the macrocell check unit comprises:
Wherein at least one neighboring cell having cell identification information in the macro cell exclusive range among adjacent cells of the specific cell identified in the neighbor cell information is identified as the at least one macro cell Device. The method according to claim 1,
The small-
Characterized in that a small cell existing in the neighbor list as the neighbor cell is identified as a small cell existing in the at least one macro cell based on the previously stored neighbor list for each small cell Identification information allocation device. The method according to claim 1,
A small cell dedicated range that can be allocated only to small cells in the entire range of cell identification information is distinguished,
The specific cell identification information may include:
Wherein the cell identification information is any one of cell identification information excluding cell identification information allocated to each small cell identified among the cell identification information of the small cell exclusive range. 5. The method of claim 4,
The cell identification information allocation unit,
If there is no remaining cell identification information among the cell identification information in the small cell exclusive range, a specific macrocell having the lowest signal reception strength among the at least one macrocell is identified based on the neighboring cell information, And allocates cell identification information of a specific small cell existing in the specific cell to the specific cell. 6. The method of claim 5,
In the specific small cell,
Wherein the cell identification information is any one of small cells existing in the specific macro cell excluding the adjacent cells of the specific cell identified in the neighbor cell information. The method according to claim 1,
Wherein the cell identification information is a Physical Cell ID (PCI) that can be assigned to two or more cells in a redundant manner. A macro cell checking step of checking at least one macro cell adjacent to the specific cell based on neighbor cell information related to the specific cell;
A small cell checking step of checking each small cell existing in the at least one macro cell; And
Specific cell identification information different from the cell identification information allocated to each small cell identified is assigned to the specific cell and the specific cell identification information not previously allocated in the at least one macro cell is assigned to the specific cell And a cell identification information allocation step of allocating the cell identification information to the cell identification information. 9. The method of claim 8,
The macro cell exclusive range allocable only to the macro cell is distinguished in the entire range of the cell identification information,
The macrocell checking step may include:
Wherein at least one neighboring cell having cell identification information in the macro cell exclusive range among adjacent cells of the specific cell identified in the neighbor cell information is identified as the at least one macro cell Method of operation of the device. 9. The method of claim 8,
The small-cell checking step may include:
Characterized in that a small cell existing in the neighbor list as the neighbor cell is identified as a small cell existing in the at least one macro cell based on the previously stored neighbor list for each small cell And an operation method of the identification information allocating apparatus. 9. The method of claim 8,
A small cell dedicated range that can be allocated only to small cells in the entire range of cell identification information is distinguished,
The specific cell identification information may include:
Wherein the cell identification information is any one of cell identification information excluding cell identification information allocated to each small cell identified among the cell identification information of the small cell exclusive range. 12. The method of claim 11,
Identifying a specific macro cell having the lowest signal reception intensity among the at least one macro cell based on the neighboring cell information if the remaining cell identification information is not included in the cell identification information in the small cell exclusive range; And
Assigning to the specific cell the cell identification information of a specific small cell that is any of the small cells excluding the adjacent cells of the specific cell identified in the neighboring cell information among the small cells existing in the specific macro cell Wherein the cell identification information is allocated to the cell identification information.

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