KR20020036093A - Power control method between base station and mobile station in the mobile communication system - Google Patents

Abstract

PURPOSE: A method for controlling an electric power between a base station and a mobile station in a mobile communication system is provided to remove interference in accordance with using a conventional booster and make a telephone call possible in a remote place by considering a path loss between a base station and a mobile station. CONSTITUTION: A base station separates service areas into many areas based on a characteristic of the base station and a position of a mobile station, that is, a critical distance in accordance with path loss between the base station and the mobile station(S1). The base station judges whether the mobile station is moved from the current service area out of the separated areas to new area using an RTD value(S2). If the mobile station is moved to new area, the base station adjusts a digital gain value of a channel element which is servicing the corresponding area moved by the mobile station out of channels in a channel card and adjusts a digital gain value of a channel element which is servicing the previous area, thus an electric transmission power of a base station is controlled according to service areas(S3). The base station transmits base station information for controlling an electric transmission power of the mobile station to the mobile station(S4). The mobile station selects an electric transmission power of the first area and an electric transmission power of the second area using the information being transmitted in the base station(S5).

Description

Power control method between base station and mobile station in mobile communication system {POWER CONTROL METHOD BETWEEN BASE STATION AND MOBILE STATION IN THE MOBILE COMMUNICATION SYSTEM}

The present invention relates to a power control method between a base station and a mobile station in a mobile communication system. In particular, a service area is classified in consideration of a path loss between a base station and a mobile station, and the transmission power of the base station and the mobile station are classified according to the divided service areas. The present invention relates to a power control method between a base station and a mobile station in a mobile communication system capable of making long-distance calls without using separate equipment by performing power control in forward and reverse directions by increasing and decreasing transmission power.

In general, a mobile communication system employing a code division multiple access (CDMA) scheme includes a mobile station, a base station for wirelessly transmitting and receiving data to and from the mobile station, and controlling data wireless transmission and reception with the mobile station, and transmitting and receiving data to and from the base station. It consists of a control station and an exchange station that control data transmission and reception.

In the mobile communication system configured as described above, in order for the mobile station to receive the service from the base station, a threshold level at which the base station receives the base station transmit power on the forward path or the mobile station transmit power on the reverse path is constant. It should be ideal.

However, in the conventional mobile communication system, as the distance between the base station and the mobile station increases due to transmission loss on the path between the base station and the mobile station, the reception level decreases as the distance increases.

In addition, even in the case of a base station serving a long distance using an extended base station or a new CSM5000 chipset made by Qualcomm, a signal is received very weakly due to a path loss in both the forward and reverse directions at a distance of 50 km or more. In addition, the coverage of the base station is not only limited by signal power, but also has a problem of making long distance calls difficult.

Accordingly, conventionally, in order to solve the problems as described above, all mobile stations attach a separate additional device such as a booster in order to be able to make a call from a long distance.

However, in the above case, since the mobile station always transmits a signal to the base station using the booster regardless of the distance, the mobile station has a problem of causing great interference to other mobile station users in the reverse propagation environment.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to divide a service area in consideration of a path loss between a base station and a mobile station, and increase and decrease the transmit power of the base station and the transmit power of the mobile station by the divided service areas. And it provides a power control method between the base station and the mobile station in the mobile communication system by performing the power control in the reverse direction to eliminate the interference caused by the use of the conventional booster and to make a call at a long distance.

1 is a diagram illustrating a service area classification state according to a path loss between a base station and a mobile station of the present invention;

2 is a block diagram of a channel card in a base station according to the present invention;

3 is a flowchart illustrating a power control method between a base station and a mobile station in a mobile communication system according to the present invention;

<Description of the symbols for the main parts of the drawings>

10: base station

20: mobile station

11: Channel Card

In order to achieve the above object, a power control method between a base station and a mobile station in a mobile communication system according to the present invention includes a service area division step of dividing a service area into a plurality of areas by considering a path loss between the base station and the mobile station; Determination result of the mobile station to determine whether the mobile station is moved from the current service area to the other service area of the service area divided in the service area classification step using the RTD value, and the mobile station determination step When the mobile station moves out of the current service area and moves to another service area, the digital gain value of the channel element serving the area where the mobile station is located before the mobile station moves while adjusting the digital gain value of the channel element serving the mobile area to which the mobile station has moved is moved. Base station by service area by adjusting A base station information transmission step of transmitting a base station information for controlling a transmission power of a mobile station to a mobile station after performing a digital gain value adjusting step of a channel element controlling a transmission power, a digital gain value adjusting step of the channel element, and the mobile station; The transmission power control step of the mobile station for adjusting the transmission power of the mobile station for each service area divided by the base station by using the base station information transmitted in the base station information transmission step.

Hereinafter, a power control method between a base station and a mobile station in a mobile communication system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a service area classification according to a path loss between a base station and a mobile station of the present invention, wherein the base station 10 includes two or more service areas according to the characteristics of the base station 10 and the location of the mobile station 20. In this case, the base station 10 divides the service area in consideration of the path loss between the base station 10 and the mobile station 20.

That is, in FIG. 1, the service area between the base station 10 and the mobile station 20 is divided into an area 1 and an area 2 based on the threshold distance according to the path loss.

Here, the base station 10 uses a round trip delay (RTD) value of a signal transmitted from the base station 10 to the mobile station 20 so that the mobile station 20 uses the base station 10. The distance to the mobile station 20 can be determined how far away it is from the mobile station 20.

The base station 10 that is aware of the location of the mobile station 20 as described above to increase or decrease the transmission power of the base station 10 when the mobile station 20 moves out of the current service area to another new service area. To control.

2 is a block diagram of a channel card in a base station according to the present invention. In the case of a channel card 11 in a base station 10 developed for an extended base station, a plurality of channel elements are included. In this case, two channel elements are used for one mobile station 20 user.

That is, as shown in FIG. 1, when the mobile station 20 moves from area 1 to area 2 while the service area of the base station 10 is divided into area 1 and area 2, the base station 10 moves to area 2. By increasing the digital gain value of the second channel element in the serving channel card 11 and reducing the digital gain value of the first channel element serving the area 1 relatively, there is no change in the transmission power of the entire base station. On the other hand, the transmission power for the channel element for each user of the mobile station 20 is different depending on the distance to solve the problem caused by the path loss to the mobile station user at a sufficiently long distance to enable the call.

The power control method between the base station and the mobile station in the mobile communication system of the present invention as described above will be described in more detail with reference to FIG.

First, in the service area classification step (S1), the base station 10 services the base station 10 based on the characteristics of the base station 10 and the position of the mobile station 20, that is, the threshold distance according to the path loss between the base station 10 and the mobile station 20. The area is divided into several areas (usually two areas).

After the service area classification step S1, the mobile station 20 proceeds to the step of determining whether to move (S2), and the base station 10 locates the current mobile station 20 in the service area divided in the service area classification step S1. It is determined using the RTD value whether the mobile station 20 moves out of the service area to another new service area.

As a result of determining whether the mobile station 20 moves (S2), when the mobile station 20 moves out of the current service area and moves to another new service area, the mobile station 20 proceeds to the digital gain value adjusting step S3 of the channel element. (10) adjusts the digital gain value of the channel element serving the area where the mobile station 20 has moved among the channel elements in the channel card 11, and at the same time locates the area where the mobile station 20 was located before the mobile station 20 moved. By controlling the digital gain value of the channel element serving, the transmission power of the base station is controlled for each service area.

That is, if the mobile station 20 is further away from the base station 10, the mobile station 20 services the area where the mobile station 20 is located before increasing the digital gain value of the channel element serving the corresponding area to which the mobile station 20 has moved. When the mobile station 20 decreases the digital gain value of the channel element, and the mobile station 20 approaches the base station 10, the mobile station 20 decreases the digital gain value of the channel element serving the corresponding area to which the mobile station 20 has moved. The digital gain of the channel element serving the area located before this movement is increased.

As described above, in the present invention, the mobile station 20 adjusts the digital gain value of the channel element in the channel card 11 serving the corresponding area for each moving service area.

At this time, the digital gain value of the channel element is adjusted by software or by setting of a parameter stored in the PLD of the base station 10.

In the present invention, in the case of the CSM5000 chipset newly made by Qualcomm, since a channel element can theoretically reach 120 km, in this case, the mobile station 20 located in close proximity to the user of the mobile station 20 located at a long distance is provided. ) The transmission power of the base station is controlled by storing the digital gain value of the user in the PLD so as to select each mode.

After the digital gain value adjusting step S3 of the channel element, the base station information transmission step S4 is performed, and the base station 10 transmits the base station information for controlling the transmission power of the mobile station 20 to the mobile station 20.

After the base station information transmission step S2, the process proceeds to the transmission power control step S5 of the mobile station 20, and the mobile station 20 receives the base station information transmitted in the step S4 and uses the base station information. The transmission power of the mobile station 20 is adjusted for each service area classified by (10).

In this case, the transmission power in the mobile station 20 is characterized by the characteristics of the components owned by the mobile station 20 and the transmission power of the class 3 mobile station (the transmission power of the class 3 mobile station is limited to 200mW to 1000mw). For example, the maximum transmit power is limited to about 23 dBm (200 mW) in the region 1 shown in FIG. 1, and the maximum transmit power is limited to 28 dBm (630 mW) in the region 2.

That is, the transmission power difference between the area 1 and the area 2 is 5 dBm, so that the signal can be transmitted with sufficient transmission power in the area 1 and the area 2.

As in step S5, the mobile station 20 itself is predetermined in software so that the transmission power in the area 1 and the transmission power in the area 2 can be selected using the information transmitted from the base station 10.

Accordingly, even if the mobile station 20 is far from the base station 10, it is possible to make a call without attaching a separate equipment such as a booster to the mobile station 11.

As described above, in the present invention, the transmission power of the base station and the mobile station is controlled according to the position of the mobile station. That is, when the base station and the predetermined distance or more from the base station, the base station adjusts the transmission power level by a predetermined setting to compensate for the path loss. In this case, the transmit power at the mobile station compensates for the path loss on the reverse path by increasing the power of the mobile station by adjusting the transmit power threshold of the mobile station.

As described above, the present invention divides the service area in consideration of the path loss between the base station and the mobile station, and performs forward and reverse power control by increasing and decreasing the transmit power of the base station and the transmit power of the mobile station for each divided service area. By doing so, it is possible to eliminate the interference caused by the use of a conventional booster and to make a call from a long distance. Accordingly, the advantages of the system can be established even in regions such as coastal areas and desert areas.

In addition, the base station having a wider area can adjust the transmission power according to the position of the mobile station, thereby widening the service area of the base station.

Claims (4)

A service area division step of the base station dividing the service area into multiple areas in consideration of the path loss between the base station and the mobile station; Determining whether to move the mobile station, using an RTD value, to determine whether the mobile station moves out of the current service area to another service area among the service areas classified in the service area classification step; As a result of the determination of whether the mobile station moves, if the mobile station moves out of the current service area and moves to another service area, it is located before the mobile station moves while adjusting the digital gain value of the channel element serving the corresponding area moved by the mobile station. Adjusting the digital gain value of the channel element controlling the transmission power of the base station for each service area by adjusting the digital gain value of the channel element serving the area; A base station information transmitting step of transmitting base station information for controlling the transmission power of the mobile station to the mobile station after performing the digital gain value adjusting step of the channel element; A step of controlling a transmission power of the mobile station for adjusting the transmission power of the mobile station for each service area classified by the base station by using the base station information transmitted in the base station information transmission step. Power control method. The digital gain value adjusting step of the channel element according to claim 1, If the mobile station is further away from the base station, while increasing the digital gain value of the channel element serving the area to which the mobile station has moved, the digital gain value of the channel element serving the area where the mobile station was located before the mobile station is moved, If the mobile station is close to the base station, the digital gain value of the channel element serving the area where the mobile station was located before the mobile station is increased while reducing the digital gain value of the channel element serving the area where the mobile station has moved. A power control method between a base station and a mobile station in a mobile communication system. 4. The method of claim 1 or 3, wherein the digital gain value of the channel element is adjusted by software or by setting a parameter stored in a PLD of the base station. The method of claim 1, wherein in the transmission power control step of the mobile station, Power between the base station and the mobile station in the mobile communication system, which limits the maximum transmit power of the mobile station for each service area classified by the base station in consideration of the characteristics of the parts owned by the mobile station and the limitation of the transmit power of the class 3 mobile station. Control method.