KR100287895B1 - Sector Operation Method of Base Station in Communication System - Google Patents

Abstract

The present invention relates to a sector varying method of a base station in a communication system capable of varying the number of sectors of the base station or adjusting the width of the sector according to the amount of channel setting request. The sector variable method of the base station in the communication system according to the present invention comprises the steps of detecting the change of the parameters related to the user environment change in the base station itself, the base station variable in the sector of the base station according to the result of the parameter Is made of. Therefore, the sector of the base station is varied according to the amount of channel setting request to provide a higher quality communication service.

Description

Sector Operation Method of Base Station in Communication System

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sector varying method of a base station in a communication system, and more particularly, to a sector varying method of a base station such that the number of sectors of the base station varies according to traffic volume and is suitable for adjusting the width of each sector.

In general, one of the important factors determining the capacity of a call in a mobile communication system is interference. Among these interferences, interference by other users coming through the antenna has a great effect on the capacity. For this reason, the concept of sectorization has been introduced in a mobile communication system in which a service area is divided into a plurality of cells to provide a communication service. The communication method using the sectorization concept uses a directional antenna that receives only a user signal input within a predetermined angle, unlike the conventional method using an omni antenna that receives a user signal in 360 degrees. Thus, one cell is divided into several sectors to serve. Therefore, by using this method, the interference by other user signals can be greatly reduced, and eventually the capacity of the call can be increased.

In such a conventional technique, when this method is applied to an actual system, the number of sectors of one base station 10 is divided into three sector areas 21 to 23 as shown in FIG. In this case, three antennas, each having a width of 120 degrees, are used. Thus, one antenna is responsible for one sector. However, three or more sectors are possible if necessary.

2 is a block diagram of a sector operating circuit in a conventional base station.

Referring to FIG. 2, a base station apparatus currently used includes a plurality of directional antennas ANT1-ANTn, up-converted transmission signals, amplified at a predetermined amplification ratio, and transmitted to the antennas ANT1-ANTn through a filter, and also an antenna ANT1. And a plurality of frequency adjusting units 31 to 33 for down-converting the received signal received from the ANTn through a filter and a low noise amplifier, and a channel signal processing unit 40 for distributing channel signals or controlling radio frequency devices. do. Here, in one frequency adjuster 31 to 33, the antenna is in charge of one sector area, and the channel signal processor 40 distributes signals to and from each frequency adjuster 31 to 33.

However, in this conventional technique, the number of sectors is fixed when the base station is installed in the system. Therefore, in the related art, even if the area of the base station requires a lot of channel setting at any time, the channel capacity cannot be increased by adjusting the number of sectors or the width of the sectors of the base station. Therefore, even if the user environment requires a lot of channel settings, there is a problem that can not be solved properly.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for changing a sector of a base station in a communication system that can vary the number of sectors of a base station or adjust the width of a sector according to a channel setting request. will be.

According to an aspect of the present invention for achieving the above object, the sector variable method of the base station in the communication system detects a change in the parameter associated with the change of the user environment in the base station itself, the base station is a result value of the parameter According to the step of varying the sector of the base station.

Preferably, the parameter is a parameter related to the change in the total number of subscribers in the base station and each sector, the change in the total amount of channel power in the base station and each sector, and the change in the average Eb / No in the base station and each sector.

Also, varying the sector of the base station means varying the number of sectors, the width of the sector, or a combination of directional antennas provided in the base station.

1 shows one base station divided into three sector areas.

2 is a block diagram of a sector operating circuit in a conventional base station.

3 is a block diagram illustrating a channel signal processor shown in FIG. 2;

4A and 4B are block diagrams of a sector operating circuit in a base station according to the present invention.

5 is a view showing a sector variable state of the base station according to the present invention.

6 is a block diagram of a channel signal processor according to the present invention;

7 to 9 are diagrams illustrating a sector varying state of a base station according to an embodiment of the present invention.

* Description of Symbols for Important Parts of Drawings *

300a-300n: frequency adjusting unit 400: channel signal processing unit

410: wireless distribution module 420: modem unit

430: sector combiner 430a-430n: sector combiner

440 control unit ANT1-ANTn antenna

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation of the present invention according to an embodiment of the present invention.

4A and 4B are block diagrams of a sector operating circuit in a base station according to the present invention.

4A and 4B, the sector operation circuit of the present invention largely converts a plurality of directional antennas (ANTa-ANTn), a transmission signal and amplifies the signal at a predetermined amplification ratio, and sends them to the antennas ANT1-ANTn through a filter. In addition, a plurality of N frequency adjusting units 300a to 300n for down-converting the received signals received from the antennas ANT1-ANTn through the filter and the low noise amplifier, and channel signals for distributing channel signals or controlling radio frequency devices. It consists of a processing unit 400.

Here, the wireless distribution module 410 provided in the channel signal processing unit 400 allocates the frequency adjusting units 300a-300n to the number of sectors according to the change in the service environment of the plurality of frequency adjusting units 300a-300n. Therefore, the frequency adjusting units 300a to 300n can be woven together so that the number of sectors can be changed to an arbitrary M number, and the frequency adjusting units 300a to 300n can be assigned to one sector. That is, the module changes the number of sectors and the number of frequency adjusters 300a-300n per sector according to the change of service environment as shown in FIG. 4B. In this case, the plurality of frequency adjusting units 300a-300n belonging to the same sector are bundled as necessary to combine the signals coming in and out of the frequency adjusting units 300a-300n.

The operation of changing the number or angle of sectors according to the change of the service environment in the base station having the sector operating circuit of the present invention configured as described above will be described below.

First, the number N of the frequency adjusting units 300a to 300n must be greater than or equal to the number M of sectors supported by the base station. In the present invention, the antenna used is a directional antenna. If one antenna is allocated to each of the frequency adjusting units 300a to 300n, a directional antenna having a beam width of 360 / N degrees may be used. In this case, one frequency adjuster is responsible for one direction from 360 degrees divided by N.

An example of a method of allocating the number of frequency adjusting units 300a to 300n according to the number of sectors in FIG. 4B is described. In FIG. 4B, the number of frequency adjusters 300a-300n per sector is variable, and it can be seen that the number of sectors can vary depending on the situation.

5 is a diagram illustrating a sector variable state of a base station according to the present invention.

5 shows that the number of sectors in one cell can be easily varied. The number M of sectors in one cell does not exceed the number N of the frequency adjusting units 300a to 300n.

6 is a block diagram of a channel signal processing unit according to the present invention.

In FIG. 6, the channel signal processing unit 400 is composed of a plurality of modems, which are in charge of one code channel to code / decode transmission / reception information, divide a channel into Walsh codes, and spread / despread in PN order. The modem unit 420 and a plurality of sector combiners 430a to 430m which are in charge of one sector, the sector combiner 430 for combining signals corresponding to each sector, and the modem unit 420 The controller 440 performs overall channel control including the function of controlling the signals to go to the corresponding sector combiner 430a-430m, and the N frequency adjusters 300a-300n are connected to the corresponding sector combiner 430a-430m. It is composed of a wireless distribution module 410 for controlling.

When the base station transmits data, the sampled CDMA code channel signals from the modem unit 420 are sent to each sector combiner 430a-430m to be transmitted to the corresponding sector under the control of the controller 440. The sector combiners 430a-430m combine the signals from the modem unit 420 and send the sampled transmission signals to the frequency adjusters 300a-300n under the control of the wireless distribution module 410. The frequency adjusters 300a-300n convert the signals received from the sector combiners 430a-430m into analog signals and load them on a carrier to transmit them through the directional antennas ANT1-ANTn.

On the other hand, when receiving data from the base station, the radio frequency signal received by the frequency adjusting unit (300a-300n) is lowered to the baseband signal and sampled by the sector combiner (430a-430m) under the control of the wireless distribution module 410 The sector combiner 430a-430m combines the signals from the frequency adjuster and sends the combined signals to the modem unit 420 under the control of the controller.

The following are some things to consider in a system that performs these actions:

First, when varying the number of sectors of a base station, the base station may have the following parameters: (1) change in the total number of subscribers in the base station and each sector, 2) change in total channel power in the base station and each sector, and 3) average in the base station and each sector. The number of sectors is varied by detecting a change in Eb / No change).

Since these three parameters are measured by the base station, no additional hardware or software related to the measurement is required. Changes in these parameters can be grasped using existing base station functions. The base station reports this fact to the base station controller when these parameter values in one of the sectors fall above the upper threshold for increasing the number of sectors or fall below the lower threshold for decreasing the number of sectors. After receiving this report, the base station controller determines whether the base station is sector variable. If the base station controller decides not to make the sector variable, it gives the base station a sector unvarying command. Conversely, when the base station controller decides to vary the sector, it issues a sector variable command to the base station. If the base station controller determines to vary the sector, if the changed parameter value exceeds the upper threshold, it issues a sector segmentation (increase) command to the base station. However, if the changed parameter value exceeds the lower threshold, a sector merge (reduce) command is issued to the base station. The base station receiving this command varies the number of sectors according to the command, and informs the base station controller of this fact after completing the variable operation. Here, the upper and lower threshold values are threshold values predetermined according to the performance of the base station hardware so that the base station stores these values in advance.

Also, after the base station controller sends the sector variable command to the base station, the base station controller changes the sector information of the base station and sends the changed base station information to the mobile stations through the base stations associated with the base station controller. Mobile stations use this changed information for handoff. By performing the process of changing the base station information, the handoff procedure supported by the existing system can be used as it is.

Hereinafter, an embodiment of a sector varying method of a base station according to the present invention will be described with reference to FIGS. 7 to 9.

7 to 9 illustrate a sector variable method in a base station when a base station receives a sector variable command, and the base station selects one of a predetermined variable method according to parameters of all sectors to perform sector variable.

First, when a parameter of any one sector exceeds the upper threshold, one or several of the parameters of the sector 3 require sector division above the upper threshold, as shown in FIG. In the case where sectors 1 and 2 are not required for sector variation between upper and lower thresholds, the base station receiving the division command for the sector 3 of the base station controller divides sector 3 as shown in FIG. )

Second, as shown in FIG. 8, one or several of the parameters of the sector 3 require sector division beyond the upper threshold, and at the same time one sector 2 of two adjacent sectors 1, 2 is lower. When the sector variable is required to fall below the threshold, the base station receiving the division command for the sector 3 of the base station controller divides the sector 3 and merges the sector 3 into the sector 2 requiring the sector variable as shown in FIG. If sectors need to be merged to two adjacent sectors (1, 2), the area is merged to the smallest of the two sectors (1, 2), or the parameter value is merged to the smaller side.

Third, if the parameters of any one sector fall below the lower threshold, one or several of the parameters of sector 3 fall below the lower threshold and require sector merge, as shown in FIG. If one or more of the two adjacent sectors (3,4) fall below the lower threshold and sector 4 requires sector merge with sector (3), then the sector of the two sectors (3,4) is towards the smallest sector. Merges or merges toward smaller sectors.

At this time, if sector 3 requires sector merge, but if two adjacent sectors 3 and 4 are both higher than the lower threshold and do not require sector merge, then sector merge for sector 3 is not performed. .

In addition, unlike the case where the upper threshold is exceeded, the case of falling below the lower threshold does not perform sector merging as necessary (that is, in the second case).

According to the present invention as described above, after installing the number of sectors and the number of antennas to the maximum capacity when installing the system of the base station, the sector of the base station is varied according to the service situation. Therefore, even if the user environment requires a large number of channel settings, it can be appropriately solved to provide a better communication service.

Claims (6)

Detecting a change in a parameter related to a change in user environment by the base station itself; And the base station varies a sector of the base station according to a result of the parameter. The method of claim 1, wherein the parameter is a parameter related to a change in the total number of subscribers in the base station and each sector, a change in the total channel power amount in the base station and each sector, and a change in the average Eb / No in the base station and each sector. A sector variable method of a base station in a communication system. The method of claim 1, wherein varying a sector of the base station varies a number of sectors, a width of a sector, or a combination of directional antennas provided in the base station. The method of claim 1, wherein the sector variable step of the base station Reporting, by the base station, such parameter information to a base station controller when the parameter value in one of the sectors exceeds the upper threshold for increasing the number of sectors or falls below the lower threshold for decreasing the number of sectors; , Determining, by the base station controller, whether the sector of the base station is variable by receiving the parameter information; The base station controller provides a signal indicating whether to allow or disable the sector variable in accordance with the determination whether the sector variable; And the base station varies the number of sectors according to the signal provided by the base station controller. 5. The method of claim 4, wherein when the base station controller determines to change the sector, the sector division or increase command is issued to the base station when the changed parameter value exceeds the upper threshold value, or the sector merge when the changed parameter value exceeds the lower threshold value. Or issuing a decrease command to the base station. 6. The method of claim 5, wherein the upper or lower threshold is a threshold predetermined according to the performance of the hardware of the base station.