KR20130004656A - Method and apparatus for assigning physical cell identifier of radio access network - Google Patents

Abstract

PURPOSE: A PCI(Physical Cell Identity) assigning method of a radio access network which is capable of appropriately assigning physical cell identity is provided to calculate a PCI reuse distance in consideration of traffic distribution and cell distribution by topographical factors when increasing cells in a radio access network. CONSTITUTION: A PCI reuse distance calculation unit(302) calculates an average distance between specific cells and the number(N) of adjacent cells having handover possibility according to the PCI assigning request of the specific cells. The PCI reuse distance calculation unit calculates a PCI reuse distance based on the calculated average distance between the specific cells and the adjacent cells. A PCI assigning unit(303) assigns PCI to the specific cell based on the PCI reuse distance calculated by the PCI reuse distance calculation unit. [Reference numerals] (301) Interface; (302) PCI reuse distance calculation unit; (303) PCI allocation unit

Description

Method and apparatus for assigning PCI in wireless access network {Method and Apparatus for assigning Physical Cell Identifier of Radio Access Network}

The present invention relates to a physical cell identity (PCI) allocation method and apparatus for a wireless access network. In particular, when expanding a cell in a long term evolution (LTE) network, PCI is considered in consideration of traffic distribution and cell distribution due to geographical factors The present invention relates to a PCI allocation method and apparatus for a wireless access network capable of properly allocating PCI by automatically calculating a reuse distance.

In general, when 504 PCIs (0 to 503) used to distinguish cells in an LTE system are reused within a certain distance, handover failure due to PCI collision and confusion and Call drop occurs.

If PCI auto-allocation is not provided during cell expansion, the system operator should allocate PCI per cell to account for any collision and congestion potential, and allocate PCI per cell by fixing the PCI reuse distance to several tens of kilometers. It was. However, depending on the traffic distribution and the topographical factors, the cell distribution is very diverse. Therefore, proper PCI allocation is difficult with fixed PCI allocation criteria.

The present invention was created in view of the above-mentioned matters, and calculates PCI (Physical Cell Identity) reuse distance in consideration of cell distribution due to traffic distribution and geographic factors when expanding cells in a wireless access network. The purpose of the present invention is to provide a PCI allocation method and apparatus for a wireless access network capable of allocating PCI appropriately.

PCI allocation method of a wireless access network according to the present invention to achieve the above object,

a) calculating, based on a PCI allocation request of a specific cell, an average distance (D) between the specific cell and N neighbor cells for N cells that are likely to be handover adjacent to the specific cell;

b) calculating a PCI reuse distance (S) based on the average distance (D) between the calculated specific cell and N adjacent cells; And

c) Based on the calculated PCI reuse distance (S), characterized in that it comprises the step of assigning the PCI of a specific cell.

Here, in step a), the average distance D between a specific cell and N adjacent cells may be expressed by the following mathematical relationship when the specific cell is handed over to N adjacent cells. .

Here, D _i represents a distance from a specific cell to the i-th neighboring cell.

In addition, the PCI reuse distance (S) in step b) is a collision (PCI redundancy between adjacent cells) and congestion (a) in the average distance (D) between the specific cell and the N adjacent cells calculated in the step a) It may be calculated as a value (S = W × D) multiplied by a weight W taking into consideration PCI overlap between neighbors.

In addition, in this case, when the PCI is insufficient, a cell close to the specific cell is allocated to not overlap first.

In addition, the PCI allocation device of the wireless access network according to the present invention in order to achieve the above object,

According to the PCI allocation request of a specific cell, with respect to the N cells with the possibility of handover adjacent to the specific cell, an average distance (D) between the specific cell and the N adjacent cells is calculated, and the calculated specific cell A PCI reuse distance calculator configured to calculate a PCI reuse distance S based on an average distance D between N and N adjacent cells; And

On the basis of the PCI reuse distance (S) calculated by the PCI reuse distance calculation unit, it is characterized in that it comprises a PCI allocator for allocating PCI of a specific cell.

According to the present invention, when expanding the LTE (Long Term Evolution) cells (cell), by calculating the PCI (Physical Cell Identity) reuse distance in consideration of the traffic (traffic) distribution and cell distribution due to geographic factors The advantage is that PCI can be properly allocated.

1 is a flowchart illustrating an execution process of a PCI allocation method of a wireless access network according to the present invention.
2 is a diagram schematically illustrating calculating an average distance D between a specific cell and N adjacent cells according to the PCI allocation method of the radio access network according to the present invention.
3 is a view showing the configuration of a PCI allocation device of a wireless access network according to the present invention.

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

Here, the PCI allocation method of the wireless access network according to the present invention described below is a prerequisite to be stored in the memory of the SON (Self-Organizing & optimizing Network) server that is written as a software program and including the PCI allocation device of the wireless access network do.

Here, before describing the PCI allocation method of the wireless access network according to the present invention, the PCI allocation apparatus of the wireless access network according to the present invention will be described first.

3 is a diagram showing the configuration of a PCI allocation device of a wireless access network according to the present invention.

Referring to FIG. 3, the PCI allocation apparatus 300 of a wireless access network according to the present invention includes a PCI reuse distance calculator 302 and a PCI allocator 303.

The PCI reuse distance calculation unit 302, according to the PCI allocation request of a specific cell, with respect to the N cells that may be handover adjacent to the specific cell, the average distance (D) between the specific cell and N adjacent cells (D) ), And calculate the PCI reuse distance (S) based on the average distance (D) between the calculated specific cell and the N adjacent cells.

The PCI allocator 303 allocates PCI of a specific cell based on the PCI reuse distance S calculated by the PCI reuse distance calculator 302.

Here, the PCI allocation device 300 may further include an interface 301 for transmitting and receiving signals with an external device.

Then, the PCI allocation method of the wireless access network according to the present invention with respect to the PCI allocation device of the wireless access network of the present invention having the above configuration will be described.

1 is a flowchart illustrating an execution process of a PCI allocation method of a wireless access network according to the present invention.

1 to 3, a method for allocating a PCI in a wireless access network according to the present invention is a method for allocating a PCI (Physical Cell Identity) to a specific cell when a cell is expanded in a Long Term Evolution (LTE) network. As an example, the PCI allocating apparatus 300 of the radio access network has an average distance between a specific cell and N neighbor cells with respect to N cells that are likely to have a handover adjacent to the specific cell according to the PCI allocation request of the specific cell. (D) is calculated (step S110). The LTE base station is generally controlled by a server (not shown) called LSM (LTE System Management) (using an LSM server to collectively control / monitor a large number of LTE base stations), and when a new base station is installed through the LSM, Each cell is configured / managed. The administrator of the LSM server has to set the PCI of the cell when the cell is expanded, by interlocking the PCI allocation device 300 of the present invention and the LSM server, the PCI can be automatically assigned. The PCI allocation apparatus 300 of the present invention receives a PCI allocation request of a specific cell from the LSM server through the interface 301.

Here, in relation to the above, assume a base station having a hexagonal coverage having three sectors as shown in FIG. 2. Six primary neighbor base stations 202 and 12 secondary neighbor base stations 203 may be located adjacent to the base station 201, and each base station may have three cells. (0,1,2 It is assumed that the primary neighbor base station 202 and the secondary neighbor base station 203 are already installed and PCI is allocated to each cell, and the base station 201 is newly installed to expand the cell. Will be explained. Location information and PCI information of each base station, cell are stored in a separate database (not shown).

As the PCI allocation request of the cell 0 of the base station 201 (specific cell) from the LSM server is received through the interface 301, the PCI reuse distance calculation unit 302 of the PCI allocation apparatus 300 first refers to the database. Thus, for the neighboring N cells with the possibility of handover, the average distance D between the specific cell and the N neighboring cells is calculated.

The average distance D between a specific cell and N adjacent cells can be expressed by the following mathematical relationship.

Here, D _i represents a distance from a specific cell to the i-th neighboring cell.

The adjacent cell is determined by referring to a database, and the distance between the cells can be determined as the distance between the base stations having the cells, and the distance can be calculated by the positions of two adjacent base stations with reference to the database.

Alternatively, as another method for calculating an average distance (D) between a specific cell and N neighbor cells, up to 32 neighbor information may be transmitted as a radio resource control (RRC) reconfiguration message in LTE. Equipment, and accordingly assuming 32 neighboring cells (see FIG. 2, 2 cells of a base station as a specific cell + 18 cells of a primary neighboring base station (6 base stations × 3 cells) + 2 12 cells (one cell per 12 base stations) = 32 of the neighboring base station approximately, D can be calculated by referring to the database as follows.

D = 1.35 R

Here, R is the minimum distance between the base station of the particular cell and the adjacent base station.

When the average distance D between the specific cell and the N neighbor cells is calculated in this way, the PCI reuse distance of the PCI allocation device 300 is based on the calculated average distance D between the specific cell and the N neighbor cells. The calculator 302 calculates the PCI reuse distance S (step S120).

Here, the PCI reuse distance (S) is a collision (PC overlap between the adjacent cells) and congestion (neighbor PCI) in the average distance (D) between the specific cell and the N adjacent cells calculated in the step S110 It can be calculated by multiplying the weight (W) considering the redundancy phenomenon, that is, S = W × D. At this time, the weight (W) has a numerical value (including natural number and decimal) within the range of approximately 2-4.

When the PCI reuse distance S is calculated by the above, the PCI allocation unit 303 of the PCI allocation device 300 allocates the PCI of the specific cell based on the calculated PCI reuse distance S (step S130). ). The assigned PCI is transmitted to the LSM through the interface 301 of the PCI allocation device 300, and stored in the database as the PCI of the specific cell. In addition, the assigned PCI is transmitted to a base station having a cell and configured and managed.

Here, PCI allocation refers to a database so that PCIs of cells within a radius of the PCI reuse distance (S = W × D) within a radius of a specific cell are preferably not overlapped to prevent collisions and congestion from occurring. Automatically generates the system by referring to the location information of the existing cell and the assigned PCI. In addition, in this case, if there is a lack of PCI and overlaps within the PCI reuse distance, the PCI setting is inevitable, the PCI allocation unit 303 may sequentially reduce the reuse distance so that the cell close to the specific cell is not overlapped preferentially. Allocates PCI for a specific cell.

As described above, a PCI allocation method and apparatus for a wireless access network according to the present invention may be considered in consideration of a traffic distribution and a cell distribution due to a geographic factor when expanding a LTE (Long Term Evolution) cell. Cell Identity) The advantage of PCI can be properly allocated by calculating the reuse distance.

As mentioned above, although the present invention has been described in detail with reference to the preferred embodiment, the present invention is not limited thereto, and it will be apparent to those skilled in the art that various changes and applications can be made without departing from the technical spirit of the present invention. Accordingly, the true scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the same should be construed as being included in the scope of the present invention.

201 ... Base station 202,203 ... Nearby base station
300 ... PCI allocator 301 ... interface
302 ... PCI reusable distance calculator 303 ... PCI allocator

Claims (4)

As a method for allocating a PCI (Physical Cell Identity) in a PCI allocation device of a wireless access network,
a) calculating, based on a PCI allocation request of a specific cell, an average distance (D) between the specific cell and N neighbor cells for N cells that are likely to be handover adjacent to the specific cell;
b) calculating a PCI reuse distance (S) based on the average distance (D) between the calculated specific cell and N adjacent cells; And
c) Allocating PCI of a specific cell based on the calculated PCI reuse distance (S).
The method of claim 1,
In the step b), the PCI reuse distance (S) is a collision (PCI overlapping between neighboring cells) and congestion (neighbors) in the average distance (D) between the specific cell and the N adjacent cells calculated in the step a). A PCI allocation method for a wireless access network calculated by multiplying a weight (W) taking into account PCI overlap between neighbors (S = W × D).
The method of claim 1,
When the PCI allocation, if the PCI is insufficient, the allocation of the cell close to the distance from the specific cell preferentially not allocated, PCI allocation method of a wireless access network.
According to the PCI allocation request of a specific cell, with respect to the N cells with the possibility of handover adjacent to the specific cell, an average distance (D) between the specific cell and the N adjacent cells is calculated, and the calculated specific cell A PCI reuse distance calculator configured to calculate a PCI reuse distance S based on an average distance D between N and N adjacent cells; And
And a PCI allocator configured to allocate PCI of a specific cell based on the PCI reuse distance S calculated by the PCI reuse distance calculator.

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