JP2008172764A - Mobile communication system, mobile terminal in mobile communication system, control program thereof, and transmission power control method in mobile communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform adequate transmission power control depending on a change in a communication status when communication is performed by using a Stand Alone-DCCH in a W-CDMA wireless system. <P>SOLUTION: In the W-CDMA wireless system 1, the reception quality of a common channel is measured, and when a Stand Alone-DCCH state occurs, transmission power control corresponding to the common channel is performed in which a target SIR is determined depending on the reception quality of the common channel. Therefore, even in the Stand Alone-DCCH state in which Blind transport format detection is used, it is possible to set the target SIR in accordance with a reception status of a user equipment 20, enabling the adequate transmission power control depending on the change in the communication status. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a mobile communication system that provides a communication service to a mobile terminal, a mobile terminal in the mobile communication system, a control program therefor, and a transmission power control method in the mobile communication system.

In recent years, mobile communication systems using W-CDMA (Wideband-Code Division Multiple Access) as a multiple access method have been used.
In a mobile communication system using W-CDMA (hereinafter referred to as “W-CDMA radio system” as appropriate), transmission power control (transmission power control) is performed in order to maintain communication quality at a predetermined level. Yes.
In addition, in order to maintain communication quality more stably under various environments, a closed loop transmission power control having a double loop structure including an inner loop control and an outer loop control may be performed as transmission power control.

FIG. 3 is a schematic diagram showing the concept of closed-loop transmission power control with a double loop structure.
As shown in FIG. 3, in the closed loop transmission power control of the double loop structure, the signal to interference noise ratio (Reception SIR: Signal to Interference Ratio) of the received radio signal in the mobile terminal (UE) is the target in the inner loop control. Instruct the opposite base station to increase or decrease the transmission power so as to match the received SIR (target SIR). In the outer loop control, the target SIR in the inner loop control is increased or decreased so that the reception block error rate (reception BLER) of the user data in the mobile terminal matches the target reception BLER (target BLER). .

Here, in the stand-alone communication state (StandAlone-DCCH state) using blind transport format detection as defined in 3GPP 25.212 Annex-A, only DCCH is set, and DTCH Is not set.
Specifically, when a call button is pressed from an IDLE state in a mobile terminal, radio resource control (RRC: Radio Resource Control) is established in a connection procedure performed with a base station. . At this time, only the DCCH is set as the dedicated physical channel, and the DTCH is not set. Also, the mobile terminal performs blind transport format detection for DCCH.
Then, in the subsequent connection procedure, a radio bearer (RAB: Radio Access Bearer) is established.

Then, DTCH is set in addition to DCCH, and the connection procedure is completed.
In this connection procedure, the state where only the DCCH is set and the DTCH is not set is the stand-alone communication state.
In this stand-alone communication state, CRC (Cyclic Redundancy Check) is not transmitted, so that BLER in the received signal cannot be calculated. In other words, since the mobile terminal always waits for data, determines that there is data when the CRC result is OK, and performs the process of decoding the received data, if DTCH is not set, The CRC result cannot be determined. As a result, BLER cannot be measured.

Then, a situation occurs in which the outer loop control for matching the reception BLER and the target BLER cannot be performed.
For such a situation, as a method for determining the target SIR in the stand-alone communication state, a method in which a predetermined specific target SIR value is fixedly used in the StandAlone-DCCH section (see Patent Document 1), or individual physical for control A method for determining a target SIR based on a reception data error rate of a pilot signal in a channel (DPCCH) (see Patent Document 2) has been proposed.
JP 2003-318818 A JP 2004-274117 A

However, when a predetermined fixed value is used as the target SIR in the outer loop control, the target SIR is not changed. Therefore, even though the reception quality is reduced, a certain amount of power is not required, and the data A situation in which data transmission / reception fails, or conversely, even though reception quality is improved, excessive transmission power is required, resulting in increased power consumption and interference with other communications. May occur.
Also, when determining the target SIR based on the reception data error rate of the pilot signal in the control dedicated physical channel, the pilot signal of the control dedicated physical channel (DPCCH) is transmitted discretely, and the amount of information is Therefore, the set target SIR may not be an appropriate value.

  Here, as a target SIR update method in the StandAlone-DCCH section by outer loop control, even when control information does not exist, a signal to which only CRC is added is transmitted from the base station to the mobile terminal, and the BLER of the dedicated channel is measured. Although a method is conceivable, unnecessary power is consumed by transmitting a signal in spite of the absence of control information, and the number of CRC checks for blind transport format detection under the StandAlone-DCCH situation is The place that has been completed by one CRC check is doubled.

Thus, when blind transport format detection is used in the stand-alone communication state, it is difficult to perform appropriate transmission power control according to the communication state.
An object of the present invention is to perform appropriate transmission power control according to a communication situation when blind transport format detection is used in a stand-alone communication state.

In order to solve the above problems, the present invention provides:
A base station having a predetermined communicable area and a mobile terminal that communicates with the base station when belonging to the communicable area, the base station and the mobile terminal being common to a plurality of mobile terminals Communication using a common channel (for example, CPICH in a W-CDMA radio system) and an individual channel (for example, DCH in a W-CDMA radio system) individually set for each mobile terminal. The terminal is a mobile communication system that performs transmission power control for changing transmission power in the base station based on reception quality of a data transfer channel (for example, DTCH in a W-CDMA radio system) in a dedicated channel, the mobile communication system The terminal measures a reception quality of a channel in which a predetermined code is continuously transmitted among the common channels. The communication quality measurement means (for example, the common channel quality measurement unit 22 in FIG. 1) and the data transfer channel in the dedicated channel are not set, but only in the control channel in the dedicated channel (for example, DCCH in the W-CDMA radio system). Stand-alone state detecting means (for example, the control unit 24 in FIG. 1 that executes the flowchart shown in FIG. 2) for detecting whether or not the stand-alone communication state in which control information is transmitted and received, and the stand-alone state detecting means. When the stand-alone communication state is detected by the common channel reception quality control means for changing the transmission power in the base station based on the reception quality of the common channel measured by the common channel reception quality measuring means ( (For example, transmission power control corresponding to the common channel in FIG. 2) A transmission power control means for stand-alone transmission (for example, the control unit 24 in FIG. 1 that executes the flowchart shown in FIG. 2), and the base station performs the movement according to transmission power control performed by the mobile terminal. It is characterized in that the transmission power of the dedicated channel for the terminal is changed.

The present invention also provides:
A base station having a predetermined communicable area and a mobile terminal that communicates with the base station when belonging to the communicable area, the base station and the mobile terminal being common to a plurality of mobile terminals Communication using a common channel that is used for each mobile terminal and a dedicated channel that is individually set for each mobile terminal, and the mobile terminal determines the transmission power in the base station based on the reception quality of the data transfer channel in the dedicated channel. A mobile terminal in a mobile communication system that performs transmission power control to be changed, wherein a common channel reception quality measuring unit that measures a reception quality of a channel in which a predetermined code is continuously transmitted among the common channels, and data transfer in a dedicated channel A stand-alone device in which no channel is set and control information is transmitted and received only on the control channel of the individual channel. Stand-alone state detecting means for detecting whether or not the communication state is present, and the common channel measured by the common channel reception quality measuring means when the stand-alone communication state is detected by the stand-alone state detecting means And a stand-alone transmission power control means for performing transmission power control corresponding to a common channel for changing the transmission power in the base station based on the reception quality of the base station.

The present invention also provides:
A base station having a predetermined communicable area and a mobile terminal that communicates with the base station when belonging to the communicable area, the base station and the mobile terminal being common to a plurality of mobile terminals Communication using a common channel that is used for each mobile terminal and a dedicated channel that is individually set for each mobile terminal, and the mobile terminal determines the transmission power in the base station based on the reception quality of the data transfer channel in the dedicated channel. A control program for a mobile terminal in a mobile communication system that performs transmission power control to be changed, a common channel reception quality measurement function for measuring a reception quality of a channel in which a predetermined code is continuously transmitted among the common channels, and an individual channel The data transfer channel is not set, and control information is sent and received only on the control channel of the dedicated channel. Measured by the common channel reception quality measurement function when the stand-alone communication state is detected by the stand-alone state detection function that detects whether or not the stand-alone communication state is present, and the stand-alone state detection function. The computer is realized with a stand-alone transmission power control function for performing transmission power control corresponding to a common channel for changing transmission power in the base station based on reception quality of a common channel.

The present invention also provides:
A base station having a predetermined communicable area and a mobile terminal that communicates with the base station when belonging to the communicable area, the base station and the mobile terminal being common to a plurality of mobile terminals Communication using a common channel that is used for each mobile terminal and a dedicated channel that is individually set for each mobile terminal, and the mobile terminal determines the transmission power in the base station based on the reception quality of the data transfer channel in the dedicated channel. A transmission power control method in a mobile communication system that performs transmission power control to be changed, wherein the mobile terminal measures reception quality of a channel in which a predetermined code is continuously transmitted among the common channels. And the data transfer channel in the dedicated channel is not set, and the control information is only in the control channel in the dedicated channel. A stand-alone state detecting step for detecting whether or not the stand-alone communication state is being transmitted and received, and the common channel reception quality measurement when the stand-alone communication state is detected in the stand-alone state detecting step. A stand-alone transmission power control step for performing transmission power control corresponding to a common channel for changing the transmission power in the base station based on the reception quality of the common channel measured in the step; A transmission power changing step of changing the transmission power of the dedicated channel for the mobile terminal in accordance with transmission power control.

According to these inventions, when the reception quality of the common channel is measured and a stand-alone communication state is established, the transmission power in the base station is increased according to the reception quality of the channel in which a predetermined code is continuously transmitted among the common channels. The transmission power control corresponding to the common channel to be changed is performed.
Therefore, even when blind transport format detection is used in a stand-alone communication state, it is possible to perform transmission power control in accordance with the reception status of the mobile terminal, and an appropriate transmission power according to changes in the communication status. Control can be performed.

Further, the stand-alone state detecting means detects the stand-alone communication state when radio resource control is established and a radio bearer is not established.
Therefore, after the radio resource control (RRC) is established, the period until the radio bearer (RAB: Radio Access Bearer) is established can be reliably detected as a stand-alone communication state.
In the mobile terminal, whether or not a radio bearer is established can be determined by whether or not radio bearer setup information (Radio Bearer Setup signal) transmitted from the base station is received in the connection procedure.
The common channel reception quality measuring means measures the reception quality of a common pilot channel as the common channel.

  This common pilot channel is always broadcasted to each mobile terminal and is used to measure the time base of the base station at the mobile terminal, and can be easily captured at the mobile terminal because no code spreading is performed. It is. Therefore, when the dedicated channel is in a stand-alone communication state and the reception quality of the dedicated channel cannot be measured, the reception quality of the dedicated channel is accurately estimated by using a common pilot channel that can be used as a reference that constantly indicates the reception status. It becomes possible to do.

Further, the common channel reception quality measuring means measures received RSCP as the reception quality of the common channel.
Therefore, it is possible to determine the reception quality of the common channel easily and at low cost using the parameters that are normally measured.
In addition, the common channel reception quality measuring means measures reception Ec / N0 as the reception quality of the common channel.
Therefore, it is possible to determine the reception quality of the common channel easily and at low cost using the normally calculated parameters.
The common channel reception quality measuring means measures a reception error rate as the reception quality of the common channel.
Therefore, it is possible to determine the reception quality of the common channel easily and at low cost using the parameters that are normally measured.

Further, the common channel reception quality measuring means measures reception SIR as reception quality of the common channel.
Therefore, it is possible to determine the reception quality of the common channel based on the parameters normally used for determining the reception quality in the transmission power control.
Further, it further comprises a common channel reception quality storage means for storing a measurement result by the common channel reception quality measurement means when the stand-alone communication state is detected,
The stand-alone transmission power control means compares the measurement result stored in the common channel reception quality storage means with the measurement result measured later by the common channel reception quality measurement means, and based on the comparison result The transmission power control is performed.
Therefore, it becomes possible to perform transmission power control more accurately reflecting changes in communication status.

  According to the present invention, even when blind transport format detection is used in the stand-alone communication state, it is possible to perform transmission power control in accordance with the reception status of the mobile terminal, and it is suitable according to changes in the communication status. Accurate transmission power control can be performed.

Hereinafter, an embodiment of a W-CDMA radio system to which the present invention is applied will be described with reference to the drawings.
FIG. 1 is a schematic diagram showing a base station and mobile terminals in a W-CDMA radio system 1 according to the present invention.
In FIG. 1, a W-CDMA wireless system 1 includes a base station 10 and a mobile terminal 20.
The base station 10 has a base station function in a mobile communication system using W-CDMA.
Specifically, the base station 10 establishes communication based on W-CDMA with the mobile terminal 20 in the communicable area of the base station 10, and performs common pilot channel (CPICH), common control physical channel (CCPCH), and dedicated physical Communication with the mobile terminal 20 is performed by a physical channel including a channel (DPCH).

Among these, the common pilot channel is a channel that continuously transmits the scramble code (PN code) of the base station 10, and this channel is broadcast to all the mobile terminals 20.
The common control physical channel is a channel that transmits broadcast information, control information such as a paging signal, or low-rate user data.
The dedicated physical channel is a channel that is assigned to each mobile terminal 20 and transmits / receives user data. In addition, a dedicated physical channel is assigned a DCH (Dedicated CHannel) in the transport channel, and a DCH is assigned a DCCH (Dedicated Control CHannel) and a DTCH (Dedicated Traffic CHannel) in the logical channel.

And the base station 10 transmits / receives user data with the mobile terminal 20 via DTCH, and transmits / receives control information via DCCH.
The mobile terminal 20 includes a transmission / reception unit 21, a common channel quality measurement unit 22, a BER (Bit Error Rate) measurement unit 23, and a control unit 24. The mobile terminal 20 includes a CPU (Central Processing Unit), a main memory, a nonvolatile storage device, and a display device as hardware, and the CPU reads various programs stored in the nonvolatile storage device. By executing, various functions are realized.

The transmission / reception unit 21 performs frequency conversion and demodulation processing based on W-CDMA and data decomposition on a radio signal received via an antenna, outputs the processing result to the control unit 24, and inputs from the control unit 24. The multiplexed signal is subjected to data multiplexing and modulation processing and frequency conversion based on W-CDMA, and the processing result is transmitted via an antenna.
The common channel quality measurement unit 22 measures the reception quality of a common channel (common pilot channel) in communication between the base station 10 and the mobile terminal 20 and outputs the measurement result to the control unit 24. The common pilot channel is used in the mobile terminal 20 to measure the time reference of the base station 10 and can be easily acquired in the mobile terminal 20 because no code spreading is performed.

Here, the reception quality measured by the common channel quality measurement unit 22 is, for example, RSCP (Received Signal Code Power), reception Ec / N0 (desired signal-to-noise power ratio), reception error rate (BER), or SIR. It is possible.
The BER measurement unit 23 measures the BER of the dedicated physical channel and outputs the measurement result to the control unit 24.
The control unit 24 controls the mobile terminal 20 as a whole, measures the reception SIR of the dedicated physical channel based on the BER measurement result input by the BER measurement unit 23, and uses the measurement result as a non-StandAlone-DCCH state. And a threshold value set for transmission power control (hereinafter referred to as “normal transmission power control”). Then, when the measured reception SIR exceeds the threshold, the control unit 24 transmits control information (TPC bit) that decreases the transmission power in the base station 10 by a set value. Moreover, the control part 24 transmits the control information which raises transmission power in the base station 10 only by the set value, when the measured reception SIR is less than a threshold value.

Further, the control unit 24 detects whether or not the DTCH in the dedicated physical channel is not set and the StandAlone-DCCH state (standalone communication state) in which only control information by the DCCH is transmitted / received. At this time, when the radio resource control (RRC) is established and the radio bearer (RAB) is not established in the connection procedure between the base station 10 and the mobile terminal 20, the control unit 24 stands alone. Detect communication status. Whether or not a radio bearer is established can be determined by whether or not radio bearer setup information (Radio Bearer Setup signal) transmitted from the base station 10 to the mobile terminal 20 in the connection procedure has been received.
In the StandAlone-DCCH state, blind transport format detection as defined in 3GPP 25.212 Annex-A may be performed.

In addition, the control unit 24 performs transmission power control processing for a StandAlone-DCCH state, which will be described later, and sets the reception quality of the common channel input by the common channel quality measurement unit 22 to the transmission power using the reception quality of the common channel. This is compared with a threshold value set for control (hereinafter referred to as “common channel threshold value”) (hereinafter, the transmission power control process for the StandAlone-DCCH state is referred to as “common channel compatible transmission power control”). Then, when the reception quality of the common channel exceeds the common channel threshold, the control unit 24 transmits control information (TPC bit) that decreases the transmission power in the base station 10 by a set value. Moreover, the control part 24 transmits the control information which raises the transmission power in the base station 10 only by the set value, when the reception quality of a common channel is less than the threshold value for common channels.
The control unit 24 transmits control information based on normal transmission power control to the base station 10 when not in the StandAlone-DCCH state, and control information based on common channel-compatible transmission power control when in the StandAlone-DCCH state. Is transmitted to the base station 10.

Next, the operation of the W-CDMA wireless system 1 will be described.
FIG. 2 is a flowchart showing common channel-compatible transmission power control processing executed by the control unit 24.
The transmission power control process corresponding to the common channel is started in response to the control unit 24 detecting the StandAlone-DCCH state.
When the transmission power control process corresponding to the common channel is started, the control unit 24 determines whether or not the target SIR needs to be changed, that is, determines the high reception quality of the common channel with respect to the common channel threshold. (Step S1).

When it is determined in step S1 that the target SIR does not need to be changed (for example, the common channel reception quality matches the common channel threshold), the current target SIR is maintained (step S2).
On the other hand, when it is determined in step S1 that the target SIR needs to be changed (for example, the reception quality of the common channel is higher or lower than the common channel threshold value), the control unit 24 sets the common channel threshold value and the common channel threshold value. The current target SIR is updated according to the relationship with the reception quality, and the target SIR is increased or decreased (step S3).

After Step S2 and Step S3, the control unit 24 determines whether or not the StandAlone-DCCH state is continued (Step S4). If it is determined that the StandAlone-DCCH state is continued, the control unit 24 proceeds to Step S1. If it is determined that the StandAlone-DCCH state is not continued, the common channel compatible transmission power control process is terminated.
With such an operation, when the StandAlone-DCCH state is not set, normal transmission power control processing (transmission power control processing based on the reception quality of the dedicated physical channel) is performed, and when the StandAlone-DCCH state is set, the common channel Corresponding transmission power control processing (transmission power control processing based on reception quality of the common channel) is performed.

As described above, the W-CDMA radio system 1 according to the present embodiment measures the reception quality of the common channel, and determines the target SIR according to the reception quality of the common channel when it enters the StandAlone-DCCH state. The transmission power control corresponding to the common channel is performed.
Therefore, even in the StandAlone-DCCH state in which blind transport format detection is used, the target SIR can be set according to the reception status of the mobile terminal 20, and accurate transmission power control can be performed according to changes in the communication status. Can be performed.
Further, since the common pilot channel is not subjected to code spreading by using the common pilot channel as in the present embodiment, it can be easily captured by the mobile terminal 20, so the reception quality is determined. Can be an appropriate standard for.

(Application 1)
In the above embodiment, the reception quality of the common channel is measured and the target SIR is determined based on the reception quality at each timing. However, when the controller 24 enters the StandAlone-DCCH state (that is, A common channel reception quality storage unit that stores the reception quality of the common channel (when DTCH is not set), and the control unit 24 receives the reception quality of the common channel input by the common channel quality measurement unit 22 And the reception quality stored in the common channel reception quality storage unit, it is possible to determine the target SIR according to the magnitude of the difference.
Thereby, it is possible to perform transmission power control more accurately reflecting changes in communication status.

(Application example 2)
In the control unit 24, as a method for updating the target SIR based on the reception quality of the common channel, the DCCH reception SIR is determined in consideration of CPICH Ec / N0, path loss, and reception RSCP and SF of the dedicated channel (DCH). By estimating, the deviation from the target SIR is determined, the target SIR is changed when the deviation is large, and the target SIR is maintained when the deviation is small. As a method of estimating the reception SIR of DCCH, a logical conversion method, a method of estimation based on experimental values or experience values can be used.

Specifically, as a method for determining the reception quality of the common channel, the following method can be used.
When the current Ec / N0 of the dedicated channel is +1 dB to +2 dB with respect to Ec / N0 T seconds ago, the target SIR is set to -1 dB.
When the current Ec / N0 of the dedicated channel is from -1 dB to -2 dB with respect to Ec / N0 T seconds ago, the target SIR is incremented by +1 dB.
When the current Ec / N0 of the dedicated channel is −2 dB to −3 dB with respect to Ec / N0 T seconds ago, the target SIR is +2 dB.
If the current Ec / N0 of the dedicated channel is -1 dB to +1 dB with respect to Ec / N0 T seconds ago, the target SIR is maintained if CPIC Ec / N0 is -4 dB to -8 dB.

Moreover, it can be set as the following methods.
When the current Ec / N0 of the dedicated channel is -2 dB to 0 dB, the target SIR is set to -1 dB.
When the current Ec / N0 of the dedicated channel is -8 dB to -10 dB, the target SIR is incremented by +1 dB.
When the current Ec / N0 of the dedicated channel is −10 dB to −12 dB, the target SIR is +2 dB.

Further, the following method can be used.
If the current Ec / N0 of the dedicated channel is +1 dB to +2 dB with respect to Ec / N0 T seconds ago and the current path loss is -1 dB to -3 dB with respect to the path loss T seconds ago, the target SIR is -1 dB. .
When the current Ec / N0 of the dedicated channel is -1 dB to -2 dB with respect to Ec / N0 before T seconds and the current path loss is +1 dB to +3 dB with respect to the path loss before T seconds, the target SIR is increased by +1 dB.
When the current Ec / N0 of the dedicated channel is −2 dB to −3 dB with respect to Ec / N0 before T seconds and the current path loss is +3 dB to +6 dB with respect to the path loss before T seconds, the target SIR is +2 dB.

It is the schematic which shows the base station and mobile terminal in W-CDMA radio system 1 concerning the present invention. It is a flowchart which shows the transmission power control process for StandAlone-DCCH state which the control part 24 performs. It is a schematic diagram which shows the concept of the closed loop transmission power control of a double loop structure.

Explanation of symbols

1 W-CDMA radio system, 10 base station, 20 mobile terminal, 21 transceiver unit, 22 common channel quality measurement unit, 23 BER measurement unit, 24 control unit

Claims (11)

A base station having a predetermined communicable area and a mobile terminal that communicates with the base station when belonging to the communicable area, the base station and the mobile terminal being common to a plurality of mobile terminals Communication using a common channel that is used for each mobile terminal and a dedicated channel that is individually set for each mobile terminal, and the mobile terminal determines the transmission power in the base station based on the reception quality of the data transfer channel in the dedicated channel. A mobile communication system that performs transmission power control to be changed,
The mobile terminal is a common channel reception quality measuring means for measuring reception quality of a channel in which a predetermined code is continuously transmitted among the common channels;
Stand-alone state detection means for detecting whether or not the data transfer channel in the individual channel is set, and whether or not the stand-alone communication state in which control information is transmitted and received only in the control channel in the individual channel;
A common power supply for changing the transmission power in the base station based on the reception quality of the common channel measured by the common channel reception quality measurement means when the stand-alone communication state is detected by the stand-alone state detection means. Stand-alone transmission power control means for performing channel-compatible transmission power control,
The mobile communication system, wherein the base station changes transmission power of a dedicated channel for the mobile terminal according to transmission power control performed by the mobile terminal.   The mobile communication according to claim 1, wherein the stand-alone state detecting unit detects the stand-alone communication state when radio resource control is established and a radio bearer is not established. system.   3. The mobile communication system according to claim 1, wherein the common channel reception quality measuring means measures reception quality of a common pilot channel as the common channel.   The mobile communication system according to any one of claims 1 to 3, wherein the common channel reception quality measurement unit measures reception RSCP as reception quality of the common channel.   The mobile communication system according to any one of claims 1 to 3, wherein the common channel reception quality measuring unit measures reception Ec / N0 as reception quality of the common channel.   The mobile communication system according to any one of claims 1 to 3, wherein the common channel reception quality measuring means measures a reception error rate as the reception quality of the common channel.   The mobile communication system according to any one of claims 1 to 3, wherein the common channel reception quality measurement unit measures reception SIR as reception quality of the common channel. A common channel reception quality storage means for storing a measurement result by the common channel reception quality measurement means when the stand-alone communication state is detected;
The stand-alone transmission power control means compares the measurement result stored in the common channel reception quality storage means with the measurement result measured later by the common channel reception quality measurement means, and based on the comparison result The mobile communication system according to claim 1, wherein transmission power control is performed. A base station having a predetermined communicable area and a mobile terminal that communicates with the base station when belonging to the communicable area, the base station and the mobile terminal being common to a plurality of mobile terminals Communication using a common channel that is used for each mobile terminal and a dedicated channel that is individually set for each mobile terminal, and the mobile terminal determines the transmission power in the base station based on the reception quality of the data transfer channel in the dedicated channel. A mobile terminal in a mobile communication system that performs transmission power control to be changed,
A common channel reception quality measuring means for measuring reception quality of a channel in which a predetermined code is continuously transmitted among the common channels;
Stand-alone state detection means for detecting whether or not the data transfer channel in the individual channel is set, and whether or not the stand-alone communication state in which control information is transmitted and received only in the control channel in the individual channel;
A common power supply for changing the transmission power in the base station based on the reception quality of the common channel measured by the common channel reception quality measurement means when the stand-alone communication state is detected by the stand-alone state detection means. A mobile terminal comprising: stand-alone transmission power control means for performing transmission power control corresponding to a channel. A base station having a predetermined communicable area and a mobile terminal that communicates with the base station when belonging to the communicable area, the base station and the mobile terminal being common to a plurality of mobile terminals Communication using a common channel that is used for each mobile terminal and a dedicated channel that is individually set for each mobile terminal, and the mobile terminal determines the transmission power in the base station based on the reception quality of the data transfer channel in the dedicated channel. A control program for a mobile terminal in a mobile communication system that performs transmission power control to be changed,
A common channel reception quality measurement function for measuring reception quality of a channel in which a predetermined code is continuously transmitted among the common channels;
A stand-alone state detection function for detecting whether or not the data transfer channel in the individual channel is set and the control information is transmitted / received only in the control channel in the individual channel is a stand-alone communication state;
Common that changes transmission power in the base station based on reception quality of a common channel measured by the common channel reception quality measurement function when the stand-alone communication state is detected by the stand-alone state detection function A control program for causing a computer to realize a stand-alone transmission power control function for performing transmission power control corresponding to a channel. A base station having a predetermined communicable area and a mobile terminal that communicates with the base station when belonging to the communicable area, the base station and the mobile terminal being common to a plurality of mobile terminals Communication using a common channel that is used for each mobile terminal and a dedicated channel that is individually set for each mobile terminal, and the mobile terminal determines the transmission power in the base station based on the reception quality of the data transfer channel in the dedicated channel. A transmission power control method in a mobile communication system that performs transmission power control to be changed,
In the mobile terminal,
A common channel reception quality measuring step of measuring reception quality of a channel in which a predetermined code is continuously transmitted among the common channels;
A stand-alone state detection step for detecting whether or not the data transfer channel in the individual channel is set and the control information is transmitted / received only in the control channel in the individual channel in a stand-alone communication state;
Common that changes transmission power in the base station based on reception quality of the common channel measured in the common channel reception quality measurement step when the stand-alone communication state is detected in the stand-alone state detection step Stand-alone transmission power control step for performing channel-compatible transmission power control,
In the base station,
A transmission power control method comprising: a transmission power changing step of changing transmission power of a dedicated channel for the mobile terminal in accordance with transmission power control performed by the mobile terminal.

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