KR20060023870A - Mobile communication system and method for controlling a transmission power of access data by mobile terminal - Google Patents

Abstract

In a method of controlling access data transmission power of a mobile terminal in a mobile communication system of the present invention, allocating a predetermined number of media access control (MAC) indexes for controlling access data transmission power of at least one mobile terminal, the mobile terminals Determining a MAC index for the mobile terminals with reference to the preamble transmitted from the mobile station, determining a power control bit (PCB) for the mobile terminals with reference to the received power of the access data transmitted from the mobile terminals, and And transmitting the determined PCB information to each of the mobile terminals by covering a determined Walsh cover corresponding to the determined MAC index so that the mobile terminals transmit access data at a power corresponding to the determined PCB.

CDMA, 1x EV-DO, Access Channel, Power Control, Transmit, Access Data, Receive Power

Description

MOBILE COMMUNICATION SYSTEM AND METHOD FOR CONTROLLING A TRANSMISSION POWER OF ACCESS DATA BY MOBILE TERMINAL             

1 is a conceptual diagram illustrating a transmission power control method for access data between various mobile terminals and a base station belonging to a group in a same cell in a mobile communication system to which the present invention is applied;

FIG. 2 is a diagram illustrating signals transmitted from one mobile terminal and a base station based on time for controlling access transmission power of the mobile terminals in FIG. 1;

3 is a diagram illustrating a configuration of an access channel for setting between a base station and a mobile terminal in FIGS. 1 and 2;

4 is a diagram illustrating an example of allocation of a MAC channel according to the present embodiment;

5 is a table showing standard definitions of Access Cycle Duration and Capsule Length Max shown in [Equation 1], and

6 to 10 are diagrams illustrating an example of allocating a MAC channel with reference to Equations 1,2,3,4.

The present invention relates to a method for adjusting the access data transmission power of a mobile terminal in a mobile communication system, and more particularly, a preamble transmitted from a mobile station by a base station in a 1x EV-DO (Evolution Data Optimized) mobile communication system. The present invention relates to a method for adjusting a transmission power of access data performed by a mobile terminal to access a base station.

In general, in a mobile communication system, a mobile station and a base station perform a process of establishing an access channel for call setup. The time that a mobile terminal accesses a base station for establishing an access channel mainly plays a part in the time required for establishing a call as a whole.

In a code division multiple access (CDMA) mobile communication system, the access channel setup time may vary greatly depending on how quickly the base station detects access data transmitted from the mobile terminal.

Currently, the access channel setting adopted by the CDMA mobile communication system is a method in which the mobile station attempts random access to the base station to establish an access channel with the base station. In this case, when a collision occurs between access data transmitted by the mobile station to the base station, the base station cannot detect the collision-prone access data. Accordingly, since the mobile stations that have transmitted the collision-prone access data have not received the response signal for the access data from the base station, they retransmit the access data to the base station. In this process, the base station may shorten the overall call setup time as the detection probability of the access data transmitted from the mobile terminal increases. In addition, the mobile terminals may set a high power of the access data to transmit to the base station in order to increase the reception efficiency of the base station.

Such high power access data may act as an interference signal to traffic signals of other mobile terminals in the CDMA mobile communication system. Accordingly, the overall communication service capability of the CDMA mobile communication system may be reduced, and in severe cases, the existing call connected to the base station may be disconnected. Therefore, in order to increase the reception capability of the base station, it is impossible to increase the power of the random access data.

The reserved access mode, currently defined in the 1x CDMA mobile communication system standard, is designed to reduce the interference caused by high power access data to other traffic signals. Specifically, a mobile terminal attempting to access a base station transmits preamble information and header information to the base station at high power for a short time. After receiving the preamble information and the header information having the high power, the base station refers to these information, and then, through the Early Acknowledgment Channel Assignment Message (EACAM), the base station includes power information that will be used for subsequent data transmission to the corresponding mobile station. Allocate Common Control Channel. Accordingly, the mobile terminal transmits access data to the base station at the power set through the allocated RCCCH.                         

Such a designated access mode can reduce the interference of high power access data to traffic of other mobile terminals for a long time.

On the other hand, in the 1x Evolution Data Optimized (EV-DO) mobile communication system, an access method such as a designated access mode of the 1x CDMA mobile communication system is not defined. Therefore, in the x EV-DO mobile communication system, a method for reducing traffic interference due to transmission of high power access data has not been proposed.

An object of the present invention for solving the above problems is to provide a mobile terminal capable of reducing traffic interference of another mobile terminal caused by access data transmitted from a mobile terminal to a base station to establish an access channel in a mobile communication system. The present invention provides a method for adjusting transmission power for access data and a mobile communication system.

It is another object of the present invention to transmit access data of a mobile terminal that can minimize uplink traffic interference of another mobile terminal by using a lower power for access data transmitted by the mobile terminal to establish an access channel with a base station. The present invention provides a power control method and a mobile communication system.

According to an embodiment of the present invention, in the method for controlling access data transmission power of a mobile terminal in a mobile communication system, receiving an access request signal for setting an access channel from at least one mobile terminal, Measuring received power of an access request signal, comparing the measured received power with a preset reference range power value to determine access transmit power of the mobile terminals, and determining the determined access transmit power information for each of the mobile terminals; The method is achieved by a method for controlling access data transmission power of a mobile terminal, the method comprising transmitting to a mobile station.

Advantageously, said access request signal comprises a preamble and access data. The access transmission power information is power control bit (PCB) information used by the mobile terminals to transmit the access data.

In the method for controlling access data transmission power of the mobile terminal of the present embodiment, when the measured reception power is smaller than the reference range power value as a result of comparing the measured reception power with the reference range power value, the access transmission power is increased ( determine the PCB up). Also, the present embodiment determines the PCB to down the access transmission power when the measured reception power is greater than the reference range power value as a result of comparing the measured reception power with the reference range power value. The mobile communication system is a 1x EV-DO mobile communication system.

On the other hand, the above object is, according to another embodiment of the present invention, a method for controlling access data transmission power of a mobile terminal in a mobile communication system, a predetermined number of MAC index for controlling the access data transmission power of at least one mobile terminal Allocating a (Media Access Control index), determining a MAC index for the mobile terminals with reference to the preambles transmitted from the mobile terminals, and referring to the received power of the access data transmitted from the mobile terminals. Determining a power control bit (PCB) for the mobile terminals, and wherein the determined PCB information corresponds to the determined MAC index such that the mobile terminals transmit the access data at a power corresponding to the PCB determined to the mobile terminals; Covering a Walsh cover (walsh cover) to transmit to each of the mobile terminal It is accomplished by a data access transmission power control method of the mobile terminal.

Preferably, in the PCB determination step, the received power of the access data is compared with a predetermined reference range power value to determine the PCB for each of the mobile terminals according to the result.

On the other hand, the above object in the mobile communication system, according to an embodiment of the present invention, at least one mobile terminal for sequentially transmitting a preamble and access data at a predetermined time, and to the mobile terminals with reference to the preamble It is achieved by a mobile communication system including a base station for determining the MAC index for the mobile terminal to determine the power control bit (PCB) for the mobile terminal with reference to the received power of the access data.

As a result, the mobile terminals transmit the access data to the base station at a power corresponding to the PCB.

Preferably, the base station pre-allocates a predetermined number of media access control indexes (MACs) for the power control exclusively for the access data transmission power control of the mobile terminals.                     

The base station compares the received power of the access data with a predetermined reference range power value and determines the PCB for each of the mobile terminals according to the result. The base station determines the PCB to up the access transmit power if the received power of the access data is less than the reference range power value. Further, the base station determines the PCB to down the access transmit power if the received power of the access data is greater than the reference range power value.

According to the present invention, in the 1x EV-DO system, the base station transmits power information for use in transmitting the access signals of the mobile terminals to each of the mobile terminals, thereby transmitting the access data after the high power preamble transmission. By using the power adjusted accordingly it can minimize the interference to the traffic of other mobile terminals. In addition, the base station pre-allocates the MAC index for access power control of the mobile terminals, and allocates the MAC index to each of the mobile terminals with reference to the transmitted preamble for setting the access channel from the mobile terminals, and receives the received power of the access data. By determining a power control bit (PCB) for each mobile terminal with reference to the mobile terminals, the mobile terminals may attempt to access a power value that does not cause interference to traffic channels of other mobile terminals. .

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.                     

Prior to describing specific embodiments of the present invention, the present invention will be briefly described. The present invention discloses a method for controlling the access transmission power of a mobile terminal by a base station in a 1x EV-DO mobile communication system. In order to control the access power of the mobile terminal, the base station allocates and uses a certain number of media access control indexes (also referred to as MAC channels) exclusively for access power control of the mobile terminal. At this time, the base station determines and operates an access cycle slot length that can be distinguished by the assigned MAC index. That is, the base station allocates the number of MAC indexes corresponding to the number of access time slots distinguishable with respect to the access cycle slot length, exclusively for access power control of the mobile terminal. In this case, when the base station transmits a preamble and access data uplink from the mobile terminal in a corresponding access time slot (access point), the base station allocates a MAC index to the mobile terminal with reference to the preamble and refers to the received power of the access data. Determine the power control bit (PCB). At this time, the base station transmits the determined power control bit (PCB) information to the mobile terminal. Accordingly, the mobile terminal transmits the access data to the base station in correspondence with the decoded and decoded PCB information transmitted from the base station.

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

1 is a conceptual diagram illustrating a transmission power control method for access data between a plurality of mobile terminals belonging to a group and a base station in the same cell 100 in a mobile communication system to which the present invention is applied.

As shown in FIG. 1, the mobile communication system is simply composed of a base transceiver system (BTS) 120 and mobile terminals (MT) 140, 150, 160, and 170. The mobile communication system of the present invention refers to a 1x EV-DO mobile communication system. The present invention discloses a method for the base station 120 to control the transmission power of access data for each mobile terminal (140,150,160,170) for a push to talk (PTT) service between the mobile terminals (140,150,160,170). .

When the mobile terminals 140, 150, 160, 170 attempt to access the base station 120 to form an access channel for actual data transmission with the base station 120, the mobile station 140, 150, 160, 170 sequentially preambles and access data at the allocated transmission time. Transmit to base station 120. In this case, the mobile terminals 140, 150, 160, and 170 transmit the preamble to the base station 120 at high power.

Meanwhile, the base station 120 allocates a predetermined number of MAC indices of the available media access control indexes exclusively to access power control in order to control access power according to an access attempt of the mobile terminals 140, 150, 160, and 170.

The base station 120 determines an access cycle slot length so as to be distinguishable by the assigned MAC index and operates for access power control of the mobile terminals 140, 150, 160, and 170. That is, the base station 120 allocates as many MAC indexes as the number of access time slots that can be distinguished according to the access cycle slot length in advance exclusively for access power control.                     

When the base station 120 receives the preamble transmitted from the mobile terminals 140, 150, 160, 170, the base station 120 determines the MAC index for the mobile terminals 140, 150, 160, 170 that have transmitted the respective preambles.

When the base station 120 receives the access data transmitted from the mobile terminals 140, 150, 160, and 170, the base station 120 measures the received power for each access data. In this case, the base station 120 compares the measured received powers with reference to the set reference range power value. Accordingly, the base station 120 determines a power control bit (PCB) for allocating access transmission power to each of the mobile terminals 140, 150, 160, and 170 according to a result of comparing the reference range power value with the measured reception powers. . At this time, if the measured received power is lower than the reference range power, the base station 120 determines the PCB to up the access transmit power of the mobile terminal. If the measured received power is higher than the reference range power, the base station 120 determines the PCB to down the access transmit power of the mobile terminal.

The base station 120 transmits the determined PCB information to each of the mobile terminals 140, 150, 160, and 170 by covering a Walsh cover corresponding to the MAC index.

The mobile terminals 140, 150, 160, and 170 decode the PCB information transmitted from the base station 120 using a Walsh cover corresponding to the MAC index determined corresponding to the access time slot used by the mobile terminal. Accordingly, the mobile terminals 140, 150, 160, 170 transmit the access data at a power adjusted according to the decoded PCB value.

Accordingly, the base station 120 determines the MAC index for each of the mobile terminals 140,150,160,170 from the preamble transmitted from each of the mobile terminals 140,150,160,170, and measures the received power from the access data to determine the respective mobile terminals 140,150,160,170. By determining a power control bit (PCB) for the mobile terminals 140, 150, 160 and 170, the mobile terminals 140, 150, 160 and 170 receive and receive the PCB information assigned to them using the Walsh cover corresponding to the MAC index. Access data may be transmitted to the base station 120 at a power value corresponding to the information, thereby reducing interference of traffic channels of other mobile terminals.

FIG. 2 is a diagram illustrating signals transmitted from one mobile terminal 140 and a base station 120 based on time for controlling access transmission power of the mobile terminals 140, 150, 160, and 170 in FIG. 1.

As shown, the mobile terminal 140 transmits the preamble 210 and the access data 230 to the base station 120 in an access time slot previously known between the base station 120 and the mobile terminal 140.

The base station 120 allocates one of the MAC indexes among the MAC indexes allocated for controlling access transmission power of the mobile terminals to the mobile terminal 140 with reference to the preamble received from the mobile terminal 140 (220).

The base station 120 measures the received power from the access data received from the mobile terminal 140 and compares the measurement result with the reference range power to determine the PCB (240). The base station 120 transmits PCB information to the mobile terminal 140 using a Walsh cover corresponding to the MAC index assigned to the mobile terminal 140.                     

The mobile terminal 140 adjusts the power for transmission of the access data 250 by decoding the PCB information allocated to the self by using the Walsh cover corresponding to the MAC index received from the base station 120. Accordingly, the mobile terminal 140 transmits the access data 250 to the base station 120 at a power value corresponding to the decoded PCB information.

The base station 120 determines the PCB with reference to the received power of the access data received from the mobile terminal 140 (260). The base station 120 transmits to the PCB information mobile terminal 140 determined by referring to the received power of the access data 250. Accordingly, the mobile terminal 140 adjusts the transmission power of the access data to the base station 120 with the power value corresponding to the PCB information determined by referring to the received power of the access data 250.

FIG. 3 is a diagram illustrating a configuration of an access channel for setting between a base station and a mobile terminal in FIGS. 1 and 2. In the drawings, description will be made based on an access channel allocated to the mobile terminal 140. Therefore, the mobile terminals 150, 160, and 170 except for the mobile terminal 140 have the same access channel.

As shown, the access channel is configured to access the data frame 330 of the preamble length of preamble (preamble) frame 310 and the maximum frame length capsule (Capsule Length Max frame) of (Preamble Length frame).

The base station 120 receives the preamble from the mobile terminal 140 in the preamble section 310 and receives the access data from the mobile terminal 140 in the access data section 330 to access transmission power for the mobile terminal 140. To control.                     

Accordingly, the mobile terminal 140 can transmit the access data at the lowest transmission power that can satisfy the required call quality without making the transmission power larger than necessary. The lowest transmission power refers to maintaining the frame error rate (FER) and reverse link (RL) that can maintain the required call quality.

At this time, the base station 120 allocates the MAC channel of the EV-DO FL (Forward Link) in order to perform transmission power control of the mobile terminal 140 in the access data section 330. In addition, the index of the MAC channel, that is, the information on the MAC index, should be distinguishable according to the preamble transmission time point for setting the access channel for each mobile terminal.

In order to be able to classify MAC indexes according to the transmission time point, when the access data section of the access channel starting transmission every Access Cycle Duration overlaps with the access data section of the access channel transmitted from another mobile terminal, Index allocation is essential. Therefore, the number of MAC channel power necessary for controlling the access channel support can be calculated by Equation 1 below, the access parameters (Access Parameters).

Required MAC Channels = {( Capsule Length Max * 16-1 ) / Access Cycle Duration } + 1

Where {} is the flooring operator.

In addition, the MAC channel allocation according to the access channel transmission time is calculated by Equation 2 below.

Allocation MAC Index = FIRST_MAC_FOR_PWR_CNTRLD_ACH + △ MAC Index

Here, Δ MAC Index = ( Access Cycle Number / Access Cycle Duration ) mod (the number of MAC channels required).

FIRST_MAC_FOR_PWR_CNTRLD_ACH is a parameter indicating the first MAC index when consecutive MAC index allocation is possible.

Hereinafter, an example of a method of allocating a MAC index by the base station 120 to control the access transmission power of the mobile terminal will be described.

4 is a diagram illustrating an example of allocation of a MAC channel according to the present embodiment.

The figure shows an example of MAC channel allocation when Preamble Length = 1, Capsule Length Max = 3, Access Cycle Duration = 16, and FIRST_MAC_FOR_PWR_CNTRLD_ACH = 32. FIG. 6 illustrates a case where (the number of required MAC channels) = 3 and three MAC indexes for allocation = 32, 33, and 34.

A square marked with "#" represents a preamble transmission interval, and a general square following the square marked with "#" represents an access data transmission interval. The numbers at the top of the preamble transmission interval indicates the access cycle number (Cycle Access Number) starting the transmission. In addition, the solid line represents an access channel in which the MAC index is allocated and power control is performed in chronological order.

5 is a table showing standard definitions of the Access Cycle Duration 420 and Capsule Length Max 490 shown in Equation 1.

Based on the illustrated standard definition, the maximum value of the required number of MAC channels in Equation 1 may be expressed as Equation 3 below.

(Maximum Required Number of MAC Channels) _STANDARD = {15 * _16/1 } = 240

This is an extremely unrealistic number, and considering that the general Access Cycle Duration = 16 to 64 slots, the maximum value of the required number of MAC channels can be set as shown in Equation 4 below.

(Maximum required number of MAC channels) _{Access Cycle Duration = 16or64} = {15 * 16 / (16 or 64)} = 15 or 3

[Equation 4] can be limited to a maximum of 4 to 5 in consideration of the general case of the Capsule Length Max , and also considering the load side associated with the access channel element (Access Channel Element) allocation per modem .

When the required number of MAC channels (index) disclosed in Equations 1, 3, and 4 are calculated, the base station 120 must pre-allocate the number of MAC channels only for access power control of the mobile terminal. The base station 120 allocates a MAC channel for access power control in the following manner.

a) After defining FIRST_MAC_FOR_PWR_CNTRLD_ACH, assign consecutive MAC channels from FIRST_MAC_FOR_PWR_CNTRLD_ACH to FIRST_MAC_FOR_PWR_CNTRLD_ACH + (1)-1.

b) Pre-assign (discrete the number of MAC channels required) discontinuously and assign it using the mapping relationship of f (△ MAC Index).

With the conclusion set access parameters (Access Parameter) system design related to the MAC channel allocation it can be summarized by the following process.

1. Set Access Parameters

2. Calculate (the number of MAC channels required)

3. Assign MAC channel (index) corresponding to (the number of MAC channels required)

4. Using Equation 2, assign MAC index and determine Power Control Bit (PCB) of the corresponding MAC index.

6 to 10 are diagrams illustrating an example of allocating a MAC channel with reference to Equations 1,2,3,4.

FIG. 6 shows an example of MAC channel allocation in case of Preamble Length = 2, Capsule Length Max = 2, Access Cycle Duration = 64, and FIRST_MAC_FOR_PWR_CNTRLD_ACH = 32. FIG. 6 illustrates a case where (the required number of MAC channels) = 1 and one MAC Index = 32 for allocation.

FIG. 7 shows an example of MAC channel allocation when Preamble Length = 2, Capsule Length Max = 2, Access Cycle Duration = 32, and FIRST_MAC_FOR_PWR_CNTRLD_ACH = 32. FIG. FIG. 7 illustrates a case where (the number of required MAC channels) = 1 and one MAC Index = 32 for allocation.

8 illustrates an example of MAC channel allocation when Preamble Length = 2, Capsule Length Max = 3, Access Cycle Duration = 32, and FIRST_MAC_FOR_PWR_CNTRLD_ACH = 32. FIG. FIG. 8 illustrates a case where (the number of required MAC channels) = 2 and two MAC indexes = 32 and 33 for allocation.

FIG. 9 shows an example of MAC channel allocation when Preamble Length = 2, Capsule Length Max = 5, Access Cycle Duration = 32, and FIRST_MAC_FOR_PWR_CNTRLD_ACH = 32. FIG. In FIG. 9, the number of required MAC channels is 3, and three MAC indexes for allocation = 32, 33, and 34 are illustrated.

FIG. 10 illustrates an example of MAC channel allocation when Preamble Length = 2, Capsule Length Max = 5, Access Cycle Duration = 16, and FIRST_MAC_FOR_PWR_CNTRLD_ACH = 32. FIG. FIG. 10 illustrates a case where (the number of required MAC channels) = 5 and five MAC indexes for allocation = 32, 33, 34, 35, and 36.

FIRST_MAC_FOR_PWR_CNTRLD_ACH information (required channel number MAC) defined in the present invention are added to the access parameter (Parameter Access) may be transmitted to the mobile terminal. Another method in practicing the present invention may be a method of using a MAC index previously promised by the mobile station and the base station.

In the above, specific preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiment, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention attached to the claims. will be.

According to the present invention, in the 1x EV-DO system, the base station transmits power information for use in transmitting the access signals of the mobile terminals to each of the mobile terminals, thereby transmitting the access data after the high power preamble transmission. By using the power adjusted accordingly it can minimize the interference to the traffic of other mobile terminals.

In addition, the base station pre-allocates the MAC index for access power control of the mobile terminals, and allocates the MAC index to each of the mobile terminals with reference to the transmitted preamble for setting the access channel from the mobile terminals, and receives the received power of the access data. By determining a power control bit (PCB) for each mobile terminal with reference to the mobile terminals, the mobile terminals may attempt to access a power value that does not cause interference to traffic channels of other mobile terminals. .

In addition, in a 1x EV-DO mobile communication system, a base station determines a power control bit (PCB) for each mobile terminal by referring to a preamble and access data transmitted from the mobile terminals. By transmitting to the terminals to control each mobile terminal to transmit the access data based on the PCB, it is possible to adjust the transmission power of the access data performed by the mobile terminals to access the base station.

Claims (17)

A method of controlling access data transmission power of a mobile terminal in a mobile communication system, Receiving an access request signal for access channel establishment from at least one mobile terminal; Measuring a received power of the access request signal; Determining the access transmission power of the mobile terminals by comparing the measured reception power with a preset reference range power value; And And transmitting the determined access transmission power information to each of the mobile terminals. The method of claim 1, And the access request signal comprises a preamble and access data. The method of claim 2, And the access transmission power information is power control bit (PCB) information used by the mobile terminals when transmitting the access data. The method of claim 3, wherein As a result of comparing the measured received power and the reference range power value, And if the measured received power is less than the reference range power value, determining the PCB to up the access transmit power. The method of claim 3, wherein As a result of comparing the measured received power and the reference range power value, And if the measured received power is greater than the reference range power value, determining the PCB to down the access transmit power. The method according to any one of claims 1 to 5, The mobile communication system is a 1x EV-DO mobile communication system, characterized in that the access data transmission power control method of the mobile terminal. A method of controlling access data transmission power of a mobile terminal in a mobile communication system, Allocating a predetermined number of Media Access Control indexes (MACs) for controlling access data transmission power of at least one mobile terminal; Determining a MAC index for the mobile terminals with reference to the preamble transmitted from the mobile terminals; Determining a power control bit (PCB) for the mobile terminals with reference to the received power of the access data transmitted from the mobile terminals; And And transmitting the determined PCB information to each of the mobile terminals by covering the determined Walsh cover corresponding to the determined MAC index so that the mobile terminals transmit the access data at a power corresponding to the determined PCB. A method of controlling access data transmission power of a mobile terminal. The method of claim 7, wherein In the PCB determination step, And comparing the received power of the access data with a predetermined reference range power value and determining the PCB for each of the mobile terminals according to the result. The method of claim 8, In the PCB determination step, And if the received power of the access data is less than the reference range power value, determining the PCB to up the access transmit power. The method of claim 8, In the PCB determination step, And if the received power of the access data is greater than the reference range power value, determining the PCB to down the access transmit power. The method according to any one of claims 7 to 10, The mobile communication system is a 1x EV-DO mobile communication system, characterized in that the access data transmission power control method of the mobile terminal. In a mobile communication system, At least one mobile terminal for sequentially transmitting preamble and access data at a set time; And The base station determines a MAC index for the mobile terminals with reference to the preamble, and determines a power control bit (PCB) for the mobile terminals with reference to the received power of the access data to transmit to the mobile terminals. , As a result, the mobile terminals transmit the access data to the base station at a power corresponding to the PCB. The method of claim 12, The base station is a mobile communication system, characterized in that for allocating a predetermined number of MAC (Media Access Control index) for the power control dedicated to control the access data transmission power of the mobile terminal. The method of claim 13, The base station compares the received power of the access data with a predetermined reference range power value and determines the PCB for each of the mobile terminal according to the result. The method of claim 14, And the base station determines the PCB to up the access transmit power if the received power of the access data is less than the reference range power value. The method of claim 14, And the base station determines the PCB to down the access transmission power if the received power of the access data is greater than the reference range power value. The method according to any one of claims 12 to 16, The mobile communication system is a mobile communication system, characterized in that 1x EV-DO mobile communication system.

Images