JP4664517B2 - Mobile radio system and base station - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile radio system that employs a communication method such as a CDMA (Code Division Multiple Access) communication method and controls the transmission power level of a base station according to information received from a mobile station.
[0002]
[Prior art]
In a mobile radio system employing a CDMA communication system, signals in the same frequency band are used for radio communication between a base station and a plurality of mobile stations.
The base station spreads a code having a random pattern called a spreading code assigned to each communication channel into a wideband signal over the signal of the channel and transmits the code.
[0003]
On the other hand, the mobile station receives a wideband signal in which a plurality of channels are mixed, and applies the same spreading code as the code used for spreading on the base station side to the received signal, thereby obtaining the signal of the desired channel. It can be taken out.
[0004]
Thus, in a mobile radio system employing the CDMA communication system, signals of a plurality of channels are spread and multiplexed in the same frequency band, so in order to increase the number of channels, the transmission power level per channel is It is necessary to make it as small as possible.
[0005]
However, since the distance between the base station and each mobile station is not constant, and the radio wave propagation environment is different for each mobile station, the transmission power level of the base station required to obtain a constant reception quality in each mobile station is It will be different for each mobile station.
[0006]
For this reason, in the current system, the reception quality of the channel received by each mobile station is determined, and if the desired quality is satisfied, the base station is requested to reduce the transmission power level of the channel. On the contrary, if the desired quality is not satisfied, the base station is requested to increase the transmission power level of the channel. The base station transmits each mobile station at a transmission power level according to the request, thereby transmitting each channel at a necessary and sufficient transmission power level, so that each mobile station has a certain reception quality. Obtainable.
[0007]
By the way, a mobile radio system employing a CDMA communication system can be used for radio communication such as broadcast transmission for transmitting the same information to a plurality of mobile stations. In this case, the data for broadcast is spread and transmitted by the base station using a common spreading code among a plurality of mobile stations, and the plurality of mobile stations are despread using the common spreading code, thereby The mobile station can receive the same broadcast signal.
[0008]
Even in this case, although the reception quality differs depending on the mobile station depending on the positional relationship between the base station and the mobile station, the transmission power is slightly excessive so that the mobile station can receive even some distance from the base station. You must send by level.
[0009]
However, as described above, when the base station transmits a broadcast signal at a certain transmission power level, the reception quality is excessive for a mobile station relatively close to the base station, and the mobile station is relatively far from the base station. Therefore, the reception quality is too low.
[0010]
For this reason, even when there is no mobile station that receives the broadcast signal or when most mobile stations are close to the base station, transmission is performed at the same transmission power level. The ratio of the power level of the broadcast signal to the transmission power level becomes larger than necessary, and as a result, there is a problem in that the use efficiency of the frequency band is lowered.
[0011]
[Problems to be solved by the invention]
In the conventional mobile radio system, the base station transmits the broadcast signal at a constant transmission power level regardless of the distribution state of the mobile station. There is a problem that the ratio of the power level becomes larger than necessary, and as a result, the utilization efficiency of the frequency band is lowered.
[0012]
The present invention has been made to solve the above-described problem, and transmits a broadcast signal at an optimal transmission power level regardless of the distribution state of mobile stations, thereby reducing the use efficiency of a frequency band used for communication. An object is to provide a mobile radio system and a base station that can be prevented.
[0013]
[Means for Solving the Problems]
To achieve the above object, the present invention according to claim 1 connects a base station connectable to a network and a mobile station to a CDMA wireless communication, and the base station is common to a plurality of mobile stations. In the mobile radio system that transmits the radio signal, the mobile station receives the common radio signal and detects the reception quality, and the reception quality detection means detects the reception quality, and determines the reception quality detection means to the base station. And a transmission means for transmitting control information for requesting an increase or decrease in the transmission power of a common radio signal. The base station receives reception information from a plurality of mobile stations, and the reception means receives the control information. Based on the control information from the plurality of mobile stations, control means for controlling the transmission power of the common radio signal is provided.
[0014]
In the mobile radio system having the above configuration, the mobile station receives a radio signal transmitted from the base station to a plurality of mobile stations in common, obtains the quality thereof, and determines the quality of the radio signal to the base station according to the quality. The base station is configured to control the transmission power of a common radio signal based on the control information from a plurality of mobile stations.
[0015]
Therefore, according to the mobile radio system having the above configuration, even if the distribution of mobile stations located in the radio zone of the base station changes, the common radio signal is transmitted with the optimum transmission power according to the requests of a plurality of mobile stations. Since transmission can be performed while controlling the level, it is possible to prevent a decrease in utilization efficiency of a frequency band used for communication.
[0016]
In order to achieve the above object, the present invention according to claim 5 is a base station that is connected to a mobile station by CDMA radio communication and transmits a common radio signal to a plurality of mobile stations. Receiving means for receiving control information for increasing or decreasing the transmission power of a common radio signal from a plurality of mobile stations, and a common radio signal based on control information from a plurality of mobile stations received by the receiving means And a control means for controlling the transmission power.
[0017]
In the base station configured as described above, control information for increasing or decreasing the transmission power of radio signals transmitted in common to a plurality of mobile stations is received from the plurality of mobile stations, and based on this control information, The transmission power is controlled.
[0018]
Therefore, according to the base station configured as described above, even if the distribution of mobile stations located in the radio zone of the base station changes, the common radio signal is transmitted at an optimum transmission power level in response to requests from a plurality of mobile stations. Therefore, it is possible to prevent a decrease in utilization efficiency of a frequency band used for communication.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 shows the configuration of a base station according to the first embodiment of the present invention. In the following description, only the configuration related to the present invention will be described, and other configurations related to connection with a mobile communication network, etc. Description of is omitted.
[0020]
This base station includes communication signal transmission units 11 to 1m (m> 3), broadcast signal transmission unit 20, multiplexing unit 30, antenna sharing unit 40, antenna 50, reception unit 60, detection unit 71, and control unit 101. I have.
[0021]
The communication signal transmission unit 11 generates a CDMA radio frequency communication signal based on the communication data transmitted to the mobile station PS1 as a communication partner, and outputs the communication signal to the multiplexing unit 30.
[0022]
Similarly, the communication signal transmitters 12 to 1m generate CDMA radio frequency communication signals based on the communication data transmitted to the mobile stations PS2 to PSm, which are communication partners, respectively. Output.
[0023]
The broadcast signal transmission unit 20 generates a CDMA radio frequency broadcast signal based on broadcast data transmitted to all the mobile stations PS1 to PSm located in the radio zone of the base station, The data is output to the multiplexing unit 30.
Also, the broadcast signal transmission unit 20 increases or decreases the transmission power level of the broadcast signal step by step by a certain level (hereinafter referred to as one power unit) in accordance with an instruction from the control unit 101 described later. .
[0024]
The multiplexing unit 30 multiplexes the communication signals generated by the communication signal transmission units 11 to 1 m and the broadcast signal generated by the broadcast signal transmission unit 20 by RF synthesis and outputs the resultant to the antenna sharing unit 40. To do.
[0025]
The antenna sharing unit 40 is for sharing the antenna 50 for transmission and reception. The antenna sharing unit 40 radiates the radio frequency signal multiplexed by the multiplexing unit 30 to the space through the antenna 50 and allows the antenna 50 to The radio frequency signal received from the space is output to the receiving unit 60.
[0026]
The receiving unit 60 performs frequency conversion of a radio frequency reception signal input through the antenna sharing unit 40 into a baseband signal, and then performs despreading processing to extract data transmitted from the mobile stations PS1 to PSm. .
[0027]
In addition, the reception unit 60 extracts transmission power control information from the data and outputs the transmission power control information to the detection unit 71. This transmission power control information is sent from each of the mobile stations PS1 to PSm.
[0028]
Each of the mobile stations PS1 to PSm detects the reception quality of the broadcast signal received from the base station, and if the detected reception quality is less than a predetermined reference level, the request for increasing the transmission power of the broadcast signal The transmission power control information including the above is generated and transmitted.
[0029]
On the other hand, each of the mobile stations PS1 to PSm detects the reception quality of the broadcast signal received from the base station, and if the detected reception quality exceeds a predetermined reference level, the transmission power of the broadcast signal is reduced. The transmission power control information including the request to be generated is generated and transmitted.
[0030]
The mobile stations PS1 to PSm generate and transmit the transmission power control information including a request to increase or decrease the transmission power of the communication signal according to the reception quality of the communication signal received from the base station. This is the same as in the prior art.
[0031]
The detecting unit 71 determines whether the transmission power control information transmitted from each of the mobile stations PS1 to PSm requests an increase or a decrease in the transmission power of the broadcast signal, and transmits the broadcast signal. The ratio of those requiring an increase in power is detected, and this ratio is notified to the control unit 101 as the increase request ratio Rd.
[0032]
The control unit 101 performs overall control of each unit of the base station, and performs communication control between the base station and the mobile stations PS1 to PSm and mobile communication of the mobile stations PS1 to PSm communicating with the base station. In addition to normal control functions such as control to connect to the system network, the broadcast signal transmission unit 20 is controlled to increase or decrease the transmission power level of the broadcast signal according to the increase request ratio Rd notified from the detection unit 71. This is a new control function.
[0033]
Next, the operation of the base station having the above configuration will be described.
In the following description, description of normal control operations such as communication control between the mobile stations PS1 to PSm and control for connecting the mobile stations PS1 to PSm to the network of the mobile communication system is omitted.
[0034]
Here, the operation of the transmission power level control of the broadcast signal according to the present invention will be described. FIG. 2 is a flowchart for explaining the above-described control. This process is executed by the control unit 101 every time a predetermined control cycle Tc arrives.
[0035]
When the predetermined control period Tc arrives, first, in step 2a, the increase request ratio Rd is fetched from the detection unit 71, and the process proceeds to step 2b.
In Step 2b, it is determined whether or not the increase request ratio Rd is higher than a threshold thD. Here, when the increase request ratio Rd is higher than the threshold thD, the process proceeds to Step 2c. On the other hand, when the increase request ratio Rd is equal to or less than the threshold thD, the process proceeds to Step 2d.
[0036]
In step 2c, the broadcast signal transmission unit 20 is instructed to increase the transmission power level of the broadcast signal by one power unit, and the process ends.
As a result, the broadcast signal transmission unit 20 increases the transmission power level of the broadcast signal by one power unit.
[0037]
On the other hand, in step 2d, the broadcast signal transmission unit 20 is instructed to decrease the transmission power level of the broadcast signal by one power unit, and the process ends.
As a result, the broadcast signal transmission unit 20 decreases the transmission power level of the broadcast signal by one power unit.
[0038]
As described above, in the base station configured as described above, when the ratio Rd of the mobile stations PS1 to PSm that require an increase in the transmission power of the broadcast signal is higher than the threshold thD, the transmission of the broadcast signal is performed. The power level is increased by one power unit. On the other hand, when the ratio Rd is equal to or less than the threshold thD, the transmission power level of the broadcast signal is decreased by one power unit.
[0039]
Therefore, according to the base station configured as described above, if the increase request ratio Rd is changed as shown in FIG. 3A, for example, the transmission power level of the broadcast signal is set as shown in FIG. Increased or decreased.
[0040]
For this reason, even if the distribution of mobile stations changes, the broadcast signal can be controlled to an optimal transmission power level and transmitted according to the ratio Rd of mobile stations that request an increase in transmission power. It is possible to prevent a decrease in band utilization efficiency.
[0041]
FIG. 4 shows the configuration of a base station according to the second embodiment of the present invention. In the following description, only the configuration related to the present invention will be described, and other configurations related to connection with a mobile communication network, etc. Description of is omitted.
[0042]
This base station includes communication signal transmission units 11 to 1m (m> 3), broadcast signal transmission unit 20, multiplexing unit 30, antenna sharing unit 40, antenna 50, reception unit 60, detection unit 71, and power detection unit 80. And a control unit 102.
[0043]
The communication signal transmission unit 11 generates a CDMA radio frequency communication signal based on the communication data transmitted to the mobile station PS1 as a communication partner, and outputs the communication signal to the multiplexing unit 30 and the power detection unit 80.
[0044]
Similarly, the communication signal transmission units 12 to 1m generate CDMA radio frequency communication signals based on the communication data transmitted to the mobile stations PS2 to PSm as communication partners, and the multiplexing unit 30 Output to the power detection unit 80.
[0045]
The broadcast signal transmission unit 20 generates a CDMA radio frequency broadcast signal based on broadcast data transmitted to all the mobile stations PS1 to PSm located in the radio zone of the base station, The data is output to the multiplexing unit 30 and the power detection unit 80.
Also, the broadcast signal transmission unit 20 increases or decreases the transmission power level of the broadcast signal step by step by a certain level (hereinafter referred to as one power unit) in accordance with an instruction from the control unit 102 described later. .
[0046]
The multiplexing unit 30 multiplexes the communication signals generated by the communication signal transmission units 11 to 1 m and the broadcast signal generated by the broadcast signal transmission unit 20 by RF synthesis and outputs the resultant to the antenna sharing unit 40. To do.
[0047]
The antenna sharing unit 40 is for sharing the antenna 50 for transmission and reception. The antenna sharing unit 40 radiates the radio frequency signal multiplexed by the multiplexing unit 30 to the space through the antenna 50 and allows the antenna 50 to The radio frequency signal received from the space is output to the receiving unit 60.
[0048]
The receiving unit 60 performs frequency conversion of a radio frequency reception signal input through the antenna sharing unit 40 into a baseband signal, and then performs despreading processing to extract data transmitted from the mobile stations PS1 to PSm. .
[0049]
In addition, the reception unit 60 extracts transmission power control information from the data and outputs the transmission power control information to the detection unit 71. This transmission power control information is sent from each of the mobile stations PS1 to PSm.
[0050]
Each of the mobile stations PS1 to PSm detects the reception quality of the broadcast signal received from the base station, and if the detected reception quality is less than a predetermined reference level, the request for increasing the transmission power of the broadcast signal The transmission power control information including the above is generated and transmitted.
[0051]
On the other hand, each of the mobile stations PS1 to PSm detects the reception quality of the broadcast signal received from the base station, and if the detected reception quality exceeds a predetermined reference level, the transmission power of the broadcast signal is reduced. The transmission power control information including the request to be generated is generated and transmitted.
[0052]
The mobile stations PS1 to PSm generate and transmit the transmission power control information including a request to increase or decrease the transmission power of the communication signal according to the reception quality of the communication signal received from the base station. This is the same as in the prior art.
[0053]
The detecting unit 71 determines whether the transmission power control information transmitted from each of the mobile stations PS1 to PSm requests an increase or a decrease in the transmission power of the broadcast signal, and transmits the broadcast signal. The ratio of those requiring an increase in power is detected, and this ratio is notified to the control unit 102 as an increase request ratio Rd.
[0054]
The power detection unit 80 detects the power levels of the communication signal generated by the communication signal transmission units 11 to 1m and the broadcast signal generated by the broadcast signal transmission unit 20, respectively. A power ratio Rp of the power level of the broadcast signal to the combined power level is obtained. This power ratio Rp is notified to the control unit 102.
[0055]
The control unit 102 performs overall control of each part of the base station, and performs communication control between the base station and the mobile stations PS1 to PSm and mobile communication of the mobile stations PS1 to PSm communicating with the base station. In addition to the normal control function such as control to connect to the network of the system, the broadcast signal transmission unit 20 is set according to the increase request ratio Rd notified from the detection unit 71 and the power ratio Rp notified from the power detection unit 80. A control function for controlling and increasing / decreasing the transmission power level of the broadcast signal is newly provided.
[0056]
Next, the operation of the base station having the above configuration will be described.
In the following description, description of normal control operations such as communication control between the mobile stations PS1 to PSm and control for connecting the mobile stations PS1 to PSm to the network of the mobile communication system is omitted.
[0057]
Here, the operation of the transmission power level control of the broadcast signal according to the present invention will be described. FIG. 5 is a flowchart for explaining the above-described control. This process is executed by the control unit 101 every time a predetermined control cycle Tc arrives.
[0058]
When the predetermined control period Tc arrives, first, in step 5a, the power ratio Rp is taken from the power detector 80, and the process proceeds to step 5b.
In step 5b, it is determined whether or not the power ratio Rp is greater than a threshold value thP. If the power ratio Rp is greater than the threshold thP, the process proceeds to step 5c. On the other hand, if the power ratio Rp is equal to or less than the threshold thP, the process proceeds to step 5d.
[0059]
In step 5c, th1 is set as the threshold thD, and the process proceeds to step 5e.
On the other hand, in step 5d, th2 (<th1) is set as the threshold thD, and the process proceeds to step 5e.
[0060]
In Step 5e, the increase request ratio Rd is fetched from the detection unit 71, and the process proceeds to Step 5f.
In step 5f, it is determined whether or not the increase request ratio Rd is higher than a threshold value thD. If the increase request ratio Rd is higher than the threshold thD, the process proceeds to step 5g. On the other hand, if the increase request ratio Rd is equal to or less than the threshold thD, the process proceeds to step 5h.
[0061]
In step 5g, the broadcast signal transmission unit 20 is instructed to increase the transmission power level of the broadcast signal by one power unit, and the process ends.
As a result, the broadcast signal transmission unit 20 increases the transmission power level of the broadcast signal by one power unit.
[0062]
On the other hand, in step 5h, the broadcast signal transmission unit 20 is instructed to decrease the transmission power level of the broadcast signal by one power unit, and the process ends.
As a result, the broadcast signal transmission unit 20 decreases the transmission power level of the broadcast signal by one power unit.
[0063]
As described above, in the base station configured as described above, when the power ratio Rp of the broadcast signal power level to the combined power level of all the radio frequency signals to be transmitted is larger than the threshold thP, the threshold thD is set to th1. On the other hand, when the power ratio Rp is equal to or smaller than the threshold thR, the threshold thD is set to th2 smaller than th1.
[0064]
When the ratio Rd of the mobile stations PS1 to PSm that require an increase in the transmission power of the broadcast signal is higher than the threshold thD, the transmission power level of the broadcast signal is increased by one power unit, On the other hand, when the ratio Rd is equal to or less than the threshold thD, the transmission power level of the broadcast signal is decreased by one power unit.
[0065]
Therefore, according to the base station having the above configuration, when the power ratio Rp becomes larger than the threshold thP as shown in FIG. 6B by increasing the transmission power of the broadcast signal, for example, as shown in FIG. Thus, the value of the threshold thD is set to a value as large as th1, and the increase in the power ratio Rp is suppressed, so that the transmission power level of the broadcast signal is increased or decreased.
[0066]
Thus, since the threshold thD for increasing or decreasing the transmission power level of the broadcast signal is made variable according to the power ratio Rp, the broadcast signal occupies the total power level of the radio signal transmitted from the base station. When the transmission power level ratio Rp is small, the threshold thD is decreased to increase the number of mobile stations that satisfy the broadcast signal reception quality. Conversely, when the ratio Rp is large, the threshold thD By increasing the value, the transmission power level of the broadcast signal can be decreased, the ratio Rp can be decreased, and the influence on other channels can be reduced.
[0067]
The present invention is not limited to the above embodiment.
For example, in the second embodiment, the threshold value for increasing / decreasing the transmission power level of the broadcast signal is made variable according to the power ratio Rp. Instead, for example, the third embodiment shown in FIG. The number of mobile stations that receive the broadcast signal transmitted by the base station may be detected by the base station configured as shown in FIG.
[0068]
In the base station shown in FIG. 7, the detection unit 72 detects the increase request ratio Rd in the same manner as the detection unit 71, and transmits the broadcast signal transmitted from the base station based on the transmission power control information. , M is detected.
[0069]
Then, the control unit 103 sets a value of a threshold thD for determining increase / decrease of the broadcast signal according to the number M of mobile stations, compares the threshold thD with the increase request ratio Rd, and according to the comparison result Then, the broadcast signal transmission unit 20 is controlled to increase or decrease the transmission power level of the broadcast signal.
[0070]
In such a control, when the number M of the mobile stations exceeds a certain value, the threshold thD is set low so that the power ratio Rp is increased. For example, the reception quality of the mobile station of 90% or more is desired. The mobile station whose reception quality does not reach the desired level is moved to the radio zone of another base station so that the reception quality becomes the desired level. This can balance the entire system.
[0071]
In addition, the threshold value may be varied by combining the number M of mobile stations receiving the broadcast signal and the power ratio Rp.
In addition, it goes without saying that the present invention can be similarly implemented even if various modifications are made without departing from the gist of the present invention.
[0072]
【The invention's effect】
As described above, in the present invention, a mobile station receives a radio signal transmitted from a base station to a plurality of mobile stations in common, obtains the quality thereof, and determines the quality according to the quality. Control information for increasing or decreasing the transmission power of the radio signal is transmitted, and the base station controls the transmission power of the common radio signal based on the control information from a plurality of mobile stations.
[0073]
Therefore, according to the present invention, even if the distribution of mobile stations located in the radio zone of the base station changes, the common radio signal is controlled to the optimum transmission power level according to the requests of a plurality of mobile stations. Therefore, it is possible to provide a mobile radio system capable of preventing a decrease in the efficiency of use of a frequency band used for communication.
[0074]
Also, in the present invention, control information for increasing or decreasing the transmission power of radio signals transmitted in common to a plurality of mobile stations is received from a plurality of mobile stations, and transmission of a common radio signal is performed based on the control information. The power is controlled.
[0075]
Therefore, according to the present invention, even if the distribution of mobile stations located in the radio zone of the base station changes, the common radio signal is controlled to the optimum transmission power level according to the requests of a plurality of mobile stations. Therefore, it is possible to provide a base station capable of preventing a decrease in use efficiency of a frequency band used for communication.
[Brief description of the drawings]
FIG. 1 is a circuit block diagram showing the configuration of a first embodiment of a base station according to the present invention.
FIG. 2 is a flowchart for explaining the transmission power control operation of the broadcast signal of the base station shown in FIG. 1;
FIG. 3 is a diagram for explaining a transmission power control operation of the broadcast signal of the base station shown in FIG. 1;
FIG. 4 is a circuit block diagram showing a configuration of a second embodiment of a base station according to the present invention.
5 is a flowchart for explaining the transmission power control operation of the broadcast signal of the base station shown in FIG. 4;
6 is a diagram for explaining a transmission power control operation of a broadcast signal of the base station shown in FIG. 4;
FIG. 7 is a circuit block diagram showing the configuration of a third embodiment of a base station according to the present invention.
[Explanation of symbols]
11 to 1 m ... communication signal transmission unit 20 ... broadcast signal transmission unit 30 ... multiplexing unit 40 ... antenna sharing unit 50 ... antenna 60 ... reception unit 71, 72 ... detection unit 80 ... power detection unit 101, 102, 103 ... control Part PS1 to PSm ... Mobile station

Claims (6)

In a mobile radio system in which a base station and a mobile station that can be connected to a network are connected to CDMA (Code Division Multiple Access) wireless communication, and the base station transmits a common radio signal to a plurality of mobile stations,
The mobile station
Reception quality detection means for receiving the common radio signal and detecting the reception quality;
In accordance with the detection result of the reception quality detection means, transmission means for transmitting control information for requesting increase or decrease in transmission power of the common radio signal to the base station ;
With
The base station
Receiving means for receiving the control information from the plurality of mobile stations;
Control means for controlling the transmission power of the common radio signal based on control information from a plurality of mobile stations received by the receiving means ;
Equipped with,
The control means includes
Based on the control information received by the receiving means, an increase request ratio detecting means for detecting a ratio of mobile stations that request an increase in transmission power of the common radio signal;
A transmission power control means for increasing the transmission power of the common radio signal when the ratio detected by the increase request ratio detection means is larger than a preset threshold;
Comprising
A mobile radio system characterized by the above. The base station
Power ratio detection means for determining a ratio of the transmission power of the common radio signal to the total transmission power of the radio signals transmitted from the base station;
Threshold control means for setting the threshold according to the ratio detected by the power ratio detection means ;
The mobile radio system according to claim 1, further comprising: The base station
Mobile station number detection means for detecting the number of mobile stations receiving the common radio signal based on the control information received by the reception means;
Threshold control means for setting the threshold according to the number of mobile stations detected by the mobile station number detection means ;
The mobile radio system according to claim 1, further comprising: In a base station that connects to a mobile station by CDMA (Code Division Multiple Access) wireless communication and transmits a common wireless signal to a plurality of mobile stations,
Receiving means for receiving control information for increasing or decreasing the transmission power of the common radio signal from the plurality of mobile stations;
Control means for controlling the transmission power of the common radio signal based on control information from a plurality of mobile stations received by the receiving means ;
Equipped with,
The control means includes
Based on the control information received by the receiving means, an increase request ratio detecting means for detecting a ratio of mobile stations that request an increase in transmission power of the common radio signal;
A transmission power control means for increasing the transmission power of the common radio signal when the ratio detected by the increase request ratio detection means is larger than a preset threshold;
Comprising
A base station characterized by that. Power ratio detection means for determining the ratio of the transmission power of the common radio signal to the total transmission power of radio signals transmitted from the base station;
Threshold control means for setting the threshold according to the ratio detected by the power ratio detection means ;
The base station according to claim 4, comprising: Mobile station number detection means for detecting the number of mobile stations receiving the common radio signal based on the control information received by the reception means;
Threshold control means for setting the threshold according to the number of mobile stations detected by the mobile station number detection means ;
The base station according to claim 4, comprising:

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