JP2001244878A - Cdma mobile communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress the difference in speech quality between the cells in a down line when traffic and radio environment are uneven. SOLUTION: Base stations BS1 and BS2 send the same signals to a mobile station MS-A in a software handoff area. The mobile station receives the signals from the base stations while putting them together in one and sends the communication quality information SIR-Inf of the received signals to the base stations. The base station control parts 14 and 24 of the base stations BS1 and BS2 control mobile station power control parts 12 and 22 corresponding to the mobiles station in the software handoff area to suppress transmitting power if the communication quality of the downstream line becomes worse. Even when the received signal power RPt of the mobile station decreases below a prescribed value RPo and a signal PC-Inf indicating increase in the transmitting power is sent to the base stations BS1 and BS2, the base station having the deteriorated communication quality in the down line suppresses the transmitting power to the mobile station and the base station having excellent communication quality bears the transmitting power to the mobile station. The ratio of the load of the transmitting power on the mobile stations is controlled to suppress the communication quality difference between cells.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a code division multiple access (CDMA) mobile communication system, and more particularly to transmission power control in a downlink.

[0002]

2. Description of the Related Art In recent years, C using a spread spectrum system has been developed.
Attention has been paid to the DMA mobile communication system. In the CDMA mobile communication system, since all stations use the same frequency, soft handoff is generally adopted. The soft handoff is a technique for realizing a smooth handoff by connecting a mobile station near a cell boundary to a plurality of base stations at the same time, and is characterized in that instantaneous interruption of communication at the time of a hard handoff can be prevented. In the CDMA mobile communication system, since the same frequency is used, soft handoff can be easily realized.

[0005] One method of soft handoff in the CDMA mobile communication system will be described with reference to FIG. In FIG. 5, BS1, BS2, and BS3 denote base stations, and a signal (referred to as a pilot signal) for identifying the base station is constantly transmitted from each base station. The mobile station compares the received power of each pilot signal and selects a base station having the largest received power as a connection destination base station. In the figure, the base station BS
Assuming that the pilot signal transmission power in 1 is PP1, the reception power is represented as PP1 × R ^−K × α. Here, R is the distance from the base station, K is the attenuation constant, and α is the attenuation due to a building or the like.

A mobile station located near a cell boundary (a position at which pilot signal reception power from a plurality of adjacent base stations is the same) designates a plurality of base stations as connection destinations. The following several methods have been proposed for this designation. As shown in the figure, the lower limit L_low of the soft handoff level is set, and the pilot signal reception power is set to the lower limit L.
A method for selecting a base station that is _low or more, a method for setting an upper limit L_up of a soft handoff level as shown, and a method for selecting a base station in which pilot signal reception power is between a lower limit L_low and an upper limit L_up, or And a method of setting a limit to the time in the soft handoff state. FIG. 5 illustrates an example of a method of selecting a base station whose pilot signal reception power is equal to or more than a lower limit L_low as a connection destination,
The area determined in this way is a soft handoff area.

[0005] Signal combining between a mobile station in the soft handoff area and a plurality of base stations connected to the mobile station is performed, for example, as follows. In the uplink, a signal from a mobile station in a soft handoff state is received and demodulated by a plurality of connected base stations. The demodulated signal is transmitted to a control station (or an exchange) that controls the base station. The control station compares the communication quality or the power of the signals sent from the plurality of base stations, and selects a signal with good communication quality or high power. That is, in the uplink, signals from mobile stations in a soft handoff state are selectively combined. On the other hand, in the downlink, the same signal is transmitted from a plurality of connected base stations to a mobile station in a soft handoff state. The mobile station corrects the phase and delay time of each signal and combines them. That is, on the downlink, maximum ratio combining of signals transmitted simultaneously from a plurality of base stations is performed.

A conventional downlink transmission power control for a mobile station in such a soft handoff state will be described with reference to FIG. Regarding such transmission power control in the downlink, Kojiro Hamabe and Naomasa Yoshida, "Downlink capacity of DS / CDMA system using soft handover", IEICE Communication Society Conference 1995- 4-3. In FIG. 6, MS_A is a mobile station in the soft handoff area,
BS1 and BS2 are base stations connected to the mobile station MS_A. The same signal is transmitted from base stations BS1 and BS2 to mobile station MS_A. The transmission power of the signal for MS_A at each base station is TP1, TP2
And Generally, TP1 and TP2 have the same power. Mobile station MS_A
Receives signals from both base stations, corrects their phases and delay times, and combines them. The signal power after the combination is measured, and is set as the signal power RPt. The signal power RPt is compared with a reference value RPo preset as a power reference value. The power control information generator (PC Information) 1 of the mobile station MS_A creates transmission power information (PC_Inf) for increasing the transmission power when the signal power RPt is lower than the comparison between the two, and generates the transmission power information (PC_Inf). If it is higher, transmit power information (PC_Inf) for lowering the transmit power is created and transmitted to each of the base stations BS1 and BS2 through the uplink as shown by the broken line in the figure.

[0007] In each of the base stations BS1 and BS2, a mobile station power control unit (MS Power C) for controlling transmission power to the mobile station MS_A.
ontrol) 12 and 22, based on the transmitted transmission power information (PC_Inf), controls the transmission power of the signal directed to the mobile station MS_A, and the mobile station MS transmitted from the signal transmission units 11 and 21.
Update the transmission power TP1 and TP2 of the signal for _A. Base station BS
1. Since the transmission power information (PC_Inf) transmitted to BS2 is common, the amount of update of the signal power for mobile station MS_A in each base station is the same, and both updated transmission powers TP1 and TP2 have the same value. It doesn't matter. In the example shown in FIG. 6, the measured value RPt of the combined signal power and the reference power value RPo
The transmission power information (PC_Inf) is created by comparing the transmission power information (PC_Inf). The communication quality of the combined signal is measured, and the measured value is compared with a preset reference quality value, thereby obtaining the transmission power information described above. The information (PC_Inf) may be created.

[0008]

In an actual mobile communication system, the amount of traffic (total number of mobile stations and total amount of data)
Is greatly affected by the environment (high-rise buildings, roads, etc.) and population distribution of the place, and the cell shape is also uneven for each cell. Therefore, the traffic volume handled by one cell is uneven for each cell. Becomes Such non-uniformity causes a difference in communication quality between cells, and lowers the efficiency of the entire system. Further, when there is a communication quality difference between cells as described above, it is not always efficient that the connected base station bears the same transmission power for the mobile station in the soft handoff area. That is, it is expected that the soft handoff region is near the cell boundary, the mobile station position is far from the base station, and interference from the adjacent base station is large. For this reason, the base station imposes large power on the mobile station in the soft handoff state. In a base station in which the downlink communication quality is degraded, applying power to mobile stations in the soft hand-off area causes further degradation of communication quality.

Accordingly, the present invention provides a CDMA mobile communication system capable of suppressing deterioration of downlink communication quality, reducing a communication quality difference between cells, and improving the efficiency of the entire system. It is intended to provide.

[0010]

In order to achieve the above object, a CDMA mobile communication system according to the present invention transmits the same signal from a plurality of base stations on a downlink to mobile stations in a soft handoff area. In the CDMA mobile communication system having the configuration, the transmission power from the plurality of base stations to the mobile station in the soft handoff area is made different to eliminate a difference in communication quality between the plurality of base stations. Things. Further, in a CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to mobile stations in a soft hand-off area, the base station deteriorates the communication quality of the downlink. The mobile station within the soft hand-off area connected to the base station.

Further, in a CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to mobile stations in a soft handoff area,
The base station is configured to, when the total transmission power of the downlink is equal to or more than a predetermined value, limit transmission power to a mobile station in the soft handoff region connected to the base station. . Furthermore, in a CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to mobile stations in a soft handoff region, each of the base stations has a communication quality on the downlink. The control station is configured to transmit information on the total transmission power to a control station that has jurisdiction over the base station, and the control station has a communication quality or a total transmission power on the downlink from each base station under the jurisdiction. The base station is configured to create and transmit, to each base station, information for controlling transmission power to mobile stations in a soft handoff area connected to the base station.

Further, in a CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to a mobile station in a soft handoff area, the mobile station in the soft handoff area includes: The communication quality of signals from the plurality of base stations transmitting the same signal to the own station is measured, and according to the measured communication quality, the plurality of base stations are individually Is configured to create and transmit information for instructing an increase or decrease in the transmission power to the transmission. Furthermore, in a CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on the downlink to mobile stations in the soft handoff area, the mobile station in the soft handoff area is The amount of interference from the plurality of base stations transmitting the same signal to the plurality of base stations is measured, and the transmission power to the own station is increased or decreased for each of the plurality of base stations according to the measured amount of interference. Is generated and transmitted.

Further, in a CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to a mobile station in a soft handoff area, the mobile station in the soft handoff area includes: Measure the communication quality of the pilot signal from the plurality of base stations transmitting the same signal to the own station, according to the measured communication quality of the pilot signal, for the plurality of base stations,
It is configured to individually create and transmit information instructing its own station to increase or decrease the transmission power. Furthermore, in a CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to mobile stations in a soft handoff region, each base station has a downlink communication quality at its own station or The mobile station in the soft handoff area is configured to broadcast information indicating the total transmission power of the mobile station to the mobile station, and the mobile station in the soft handoff region is broadcast from the plurality of base stations transmitting the same signal to the mobile station. Based on the downlink communication quality or the total transmission power, the plurality of base stations are individually configured to create and transmit information for instructing the base station to increase or decrease the transmission power. .

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, with reference to FIG. 1, the manner of controlling transmission power for a mobile station in a soft-off handoff area in a CDMA mobile communication system according to the present invention will be described. In FIG. 1, MS_A is a mobile station located in the soft handoff area, and BS1 and BS2 are base stations connected to the mobile station MS_A. From the base stations BS1 and BS2, the mobile station MS_A
The same signal is transmitted for The base station allocates transmission power to each mobile station so that all connected mobile stations have the same downlink communication quality. As described above, the mobile station MS_A corrects the phase and delay time of the same signal received from the base stations BS1 and BS2, combines them, and receives them. When the mobile station is located outside of the soft handoff area, the single base station to which the mobile station is connected bears the transmission power required to satisfy the predetermined communication quality at the mobile station. However, when the mobile station is located in the soft handoff area, a plurality of base stations connected to the mobile station share the burden.

Here, it is assumed that the traffic of the cell of the base station BS1 is small and the communication quality in the downlink is good, and the traffic of the cell of the base station BS2 is large and the communication quality is deteriorated. . In such a case, conventionally, for the mobile station MS_A in the soft handoff area, both base stations BS1 and BS2 connected to the mobile station MS_A bear transmission power at the same rate, and TP1 = TP2. On the other hand, in the present invention, TP1> TP2 is controlled so that the burden ratio of the base station BS1 having good downlink communication quality is increased and the burden ratio of the base station BS2 having deteriorated communication quality is reduced. By varying the transmission power from a plurality of base stations to mobile stations in the soft handoff area in this way, it is possible to reduce the transmission power TP2 for the mobile station MS_A in the base station BS2 having deteriorated communication quality in the downlink. It is possible to improve the deterioration of the communication quality in the base station BS2. Further, the decrease in signal reception power at the mobile station MS_A due to this is caused by the base station BS1 having good communication quality.
Can be compensated for by an increase in the transmission power TP1 for the mobile station MS_A, and a predetermined communication quality can be secured in the mobile station MS_A. In the base station BS1, although the communication quality is slightly degraded due to the increase in the transmission power TP1 for the mobile station MS_A, the communication quality is good and can be tolerated. Further, thereby, the difference in communication quality between the cell of the base station BS1 and the cell of the base station BS2 is reduced, and the efficiency of the entire system can be improved.

Hereinafter, embodiments for realizing such control of the present invention will be described. FIG. 2 is a diagram illustrating an outline of a configuration of the CDMA mobile communication system according to the first embodiment of the present invention. In this figure, MS
_A is a mobile station in the soft handoff area, and BS1 and BS2 are base stations connected to the mobile station (MS_A). As described above, the same signal is transmitted from base stations BS1 and BS2 to mobile station MS_A located in the soft handoff area. The transmission power of the signal for mobile station MS_A at each base station is
1, TP2. The mobile station MS_A receives signals from both base stations, corrects their phases and delay times, and combines them. Then, the signal power after the combination is measured, and the measured value is set as the signal power RPt. The signal power RPt is compared with a reference value RPo preset as a power reference value. Mobile station MS_
The power control information generating unit 1 of A creates transmission power information (PC_Inf) for increasing the transmission power when the signal power RPt is lower, and transmits the signal when the signal power RPt is higher. Create transmission power information for lowering the power and, as indicated by the dashed line in the figure,
Transmit to BS1 and BS2. Here, the signal power RPt and the reference value RPo
, Transmission power information (PC_Inf) may be created based on the result of comparison between the measured value of the communication quality of the combined received signal and a predetermined reference quality.

Each of the base stations BS1 and BS2 has a mobile station power control section (MS Power Control) 12,..., 13 and 22,..., 23 for controlling the transmission power for the mobile station connected to the base station. The mobile station power control unit 12 controls the transmission power for the mobile station MS_A in the base station BS1, and the mobile station power control unit 22 in the base station BS2.
Controls transmission power for the mobile station MS_A. The transmission power information transmitted from the mobile station MS_A (PC
_Inf) are supplied to the mobile station power control units 12 and 22, respectively. The mobile station power control units 12 and 22 each receive a signal transmission unit (Signal Trans) based on the received transmission power information (PC_Inf).
mitter) The transmission powers TP1 and TP2 of the signals for mobile station MS_A transmitted from 11 and 21 are updated.

Further, the mobile station (MS_A) measures the communication quality of the signal received and combined from each base station, and creates communication quality information (SIR_Inf) in the communication quality information generation unit (SIR Inf).
2) is provided to notify the measured base station (BS1, BS2) of the communication quality information (SIR_Inf). The base stations (BS1, BS2) are provided with base station controllers (BS Control) 14, 24. The base station controllers 14 and 24 calculate the downlink communication quality at the base station based on the communication quality information (SIR_Inf) notified from all the mobile stations connected to the base stations,
If the calculated communication quality is lower than a predetermined downlink communication quality guarantee value, the mobile station power control unit (MSP) managing the mobile station in the soft handoff state.
ower control) is issued to prohibit further increase of the transmission power for the mobile station or to reduce the transmission power for the mobile station. For example, when a difference value between the calculated communication quality and the guaranteed value of the communication quality is larger than a first threshold, increase of transmission power to a mobile station in a soft handoff state is prohibited, and the first When the threshold value is larger than the second threshold value which is larger than the threshold value, the transmission power to the mobile station in the soft handoff state is reduced.

Here, it is assumed that the power of the received signal is weak in mobile station MS_A, and transmission power information (PC_Inf) is transmitted to base stations BS1 and BS2 so as to increase the transmission power for the mobile station MS_A. At this time, it is assumed that the communication quality at the base station BS1 has deteriorated and the downlink communication quality value at the base station BS1 calculated by the base station control unit 14 has deteriorated from the communication quality guarantee value. In this case, the base station control unit 14 controls the mobile station power control unit 12, which controls the power of each mobile station,
.., 13 of mobile stations MS_A in soft handoff state
The mobile station power control unit 12 that manages the
A command to prohibit further increase in transmission power for MS_A or a command to decrease transmission power to mobile station MS_A is transmitted. As a result, the transmission power TP1 of the signal for the mobile station MS_A transmitted from the base station BS1 becomes constant or decreases regardless of the transmission power information (PC_Inf) from the mobile station MS_A. Thus, by limiting the transmission power to the mobile station in the soft handoff state, the base station BS1
, The increase of the total transmission power is suppressed, and the further deterioration of the communication quality in the base station BS1 is suppressed or improved.

On the other hand, it is assumed that the adjacent base station BS2 has good downlink communication quality. At this time, the mobile station MS
_A based on the transmission power information (PC_Inf) from base station BS2
Then, the transmission power TP2 of the signal for the mobile station MS_A is increased.
That is, the base station BS2 having good communication quality bears a large amount of power to the mobile station MS_A in the soft handoff state, instead of the base station BS1 having deteriorated communication quality.
As a result, the total transmission power increases at the base station BS2,
Although the communication quality is degraded, it is acceptable if the communication quality falls within the guaranteed value range. The above operation is autonomously performed by each base station for all mobile stations in the connected soft handoff area. As a result, a communication quality difference between the base stations BS1 and BS2 is suppressed.

As described above, by controlling the power burden on the mobile station in the soft handoff area according to the communication quality of the downlink, it is possible to suppress the difference in communication quality between cells. In the above description, a guaranteed value of the communication quality of the downlink in each base station is set, and when the calculated communication quality value is lower than the communication quality guaranteed value, transmission to the mobile station in the soft handoff state is performed. Although the power is suppressed, an average value of communication quality measurement values at a plurality of base stations (for example, all base stations) in the system may be used instead of the communication quality guarantee value. That is, when the measured value of the communication quality is degraded from the average value of the measured values of the communication quality in the plurality of base stations, as described above, the control is performed so as to suppress the transmission power for the mobile station in the soft handoff state. I just need.

Next, a second embodiment of the present invention will be described. In the first embodiment, each base station determines the communication quality of its own downlink on the basis of the communication quality information (SIR_Inf) measured and notified by each mobile station connected to the base station. Although it was calculated, in this embodiment, each base station, based on its own total transmission power value,
The power burden on mobile stations within the soft handoff area is controlled. A second embodiment of the present invention will be described with reference to FIG. In this embodiment, the communication quality information generation unit 2 in the mobile station MS_A does not need to be provided, and the base station control units (BS Control) 14 and 24 in the base stations BS1 and BS2 have the base station Signal transmission unit (Signal Transmisster) 11, 2
1 transmits total transmission power information (Total P_Inf) which is the sum of transmission power to each mobile station to which the base station is connected.

The base station controllers 14 and 24 compare the total transmission power information (Total P_Inf) with a preset value of the total transmission power set in advance, and transmit the total transmission power notified from the signal transmitters 11 and 21. If the power is equal to or higher than the predetermined value, it is determined that the communication quality at the base station has deteriorated. Then, the base station control unit (for example, the base station control unit 14 of the base station BS1) that determines that the communication quality is degraded, controls the power of the mobile stations (12,...). , 1
Of the mobile stations (MS_3) in the soft handoff state,
For the mobile station power control unit (12) managing A),
A command to prohibit the mobile station (MS_A) from further increasing the transmission power or a command to decrease the transmission power to the mobile station (MS_A) is transmitted. As a result, the mobile station (MS
_A), the transmission power (TP1) of the signal is constant or decreases regardless of the transmission power information (PC_Inf) from the mobile station (MS_A). Also in this case, whether to prohibit or decrease the transmission power to the mobile station (MS_A) may be determined based on the difference between the total transmission power and a predetermined value. . In this way, by setting a limit on the transmission power to the mobile station in the soft handoff state, an increase in the total transmission power at the base station determined to have degraded communication quality is suppressed, and the The above deterioration is suppressed or improved.

On the other hand, if the total transmission power at the adjacent base station (BS2) is smaller than the predetermined value and the downlink communication quality is good, an instruction to increase the transmission power from the mobile station (MS_A) is issued. The base station (BS2) transmits the transmission power (TP) of the signal for the mobile station (MS_A) according to the transmission power information (PC_Inf)
2) increase. That is, the base station (BS1) having good communication quality bears much power for the mobile station (MS_A) in the soft handoff state, instead of the base station (BS1) having deteriorated communication quality. At this time, the total transmission power increases in the base station (BS2), and the communication quality deteriorates. However, it is acceptable if the total transmission power is within the guaranteed value range. The above operation is autonomously performed by each base station for all mobile stations in the connected soft handoff area. As a result, a communication quality difference between the base stations BS1 and BS2 is suppressed.

As described above, the difference in communication quality between cells can be suppressed by controlling the power burden on the mobile station in the soft handoff area according to the total downlink transmission power in each base station. Becomes According to this embodiment, each mobile station does not need to measure the communication quality of a signal from each base station and notify communication quality information (SIR_Inf) to each base station. Can be simplified.

In each of the above-described embodiments, each base station autonomously controls the transmission power. However, a control station in charge of the base station can control the transmission power collectively. Next, a description will be given of a third embodiment of the present invention in which a control station having control over a base station performs collective control. FIG. 3 is a diagram showing a schematic configuration of the third embodiment of the present invention. In FIG. 3, reference numeral 30 denotes a plurality of base stations BS1, B
A control station that controls S2, BS3,... The control station 30 receives the communication quality information (SIR_Inf) calculated as described above or the total transmission power information (Total P_Inf) from each base station under its control.
The control station 30 that has received the communication quality information or the total transmission power information, the base station whose communication quality has deteriorated below the guaranteed value, or the base station whose total transmission power has increased above the predetermined value,
The power distribution information (Po) instructing the mobile station in the soft handoff state to prohibit any further increase in the transmission power or instruct the mobile station to reduce the transmission power.
wer Alloc_Inf) and transmit it.

The base station control unit (BS Control) of the base station to which the power distribution information has been transmitted is transmitted to the mobile station power supply corresponding to the connected mobile station in the soft handoff state in the same manner as described above. A command to prohibit further increase in transmission power to the mobile station or a command to decrease transmission power to the mobile station is transmitted to a control unit (MS Power Control). This, as in the previous case,
An increase in the total transmission power at the base station determined to have deteriorated communication quality is suppressed, and further deterioration or suppression of communication quality is suppressed or improved. Further, transmission power to the mobile station is borne by an adjacent base station having good communication quality, and a difference in communication quality between cells can be suppressed.

[0028] As described above, the control station transmits a mobile station in a soft hand-off state to a base station whose communication quality is determined to be degraded based on the communication quality information or the total transmission power information. Power distribution that not only creates and transmits power distribution information (Power Alloc_Inf) that suppresses transmission power, but also instructs base stations adjacent to the base station to increase transmission power to mobile stations that are in a soft handoff state. Information (Power Alloc_Inf) may be created and transmitted.

That is, based on the communication quality information or the total transmission power information transmitted from each of the base stations, the control station determines a difference between the guaranteed value of the communication quality or a predetermined value of the total transmission power, The difference between the communication quality or the total transmission power between the base stations to be performed is determined, and the base station having the deteriorated communication quality is further increased in the transmission power for the mobile station in the soft hand-off state according to the result. Power distribution information (Powe
r Alloc_Inf), and power distribution information (Power Alloc_Inf) for increasing transmission power to a mobile station in a soft handoff state for a base station adjacent to the base station and in a good communication state. Create and communicate. Each base station controls the transmission power for the mobile station in the soft handoff state according to the power distribution information (Power Alloc_Inf) transmitted to each base station.

The power distribution information (Power Alloc_In)
f) may be information instructing to increase or decrease the transmission power for the mobile station in the soft handoff state by a predetermined amount, or may be information specifying the amount of increase or decrease. You may. As described above, according to the present embodiment, each base station bears a burden on a mobile station in the soft handoff area according to the downlink communication quality at each base station. It is possible to determine the power distribution to be performed.

Regarding still another embodiment of the present invention,
This will be described with reference to FIG. In this figure, MS_A is a mobile station in the soft handoff area, and BS1 and BS2 are the mobile stations (MS
_A). As mentioned above, the base station BS
1. The same signal is transmitted from BS2 to mobile station MS_A. The transmission power of the signal for mobile station MS_A at each base station is TP1 and TP2, respectively. The mobile station MS_A receives signals from both base stations, corrects their phases and delay times, and combines them. When performing the combining, a communication quality measurement unit (SIR Measurement) 3 measures the communication quality of each received signal. The measured communication quality of the received signal from the base station BS1 is SIR1t, the communication quality of the received signal from the base station BS2 is SIR2t, and the communication quality of the combined received signal is SIRt.

Power control information generator 1 in mobile station MS_A
Compares each communication quality measured by the communication quality measuring unit 3 with a preset communication quality default value SIRo, and for a plurality of connected base stations BS1 and BS2,
Transmission power information PC_Inf1 and PC_Inf2 are individually created and transmitted to the corresponding base stations via the uplink.
The power control information generation unit 1 compares the communication quality SIRt of the combined received signal with a predetermined value SIRo. When the communication quality SIRt of the received signal is lower than the default value SIRo, each base station The communication quality SIR1t and the SIR2t of the received signal are compared. As a result, when the difference between SIR1t and SIR2t is equal to or less than a predetermined value, transmission power information PC_Inf1 and PC_Inf2 for instructing both base stations BS1 and BS2 to increase transmission power for mobile station MS_A, respectively. I do.

When there is a difference between the communication qualities SIR1t and SIR2t of the signals received from the two base stations which is equal to or greater than a predetermined value, the transmission power information is not transmitted to the base station having the poor communication quality. The transmission power information for instructing the base station having the better communication quality to increase the transmission power for the own station (MS_A) is transmitted. For example, it is assumed that the number of mobile stations connected to base station BS1 increases and the total transmission power increases.
Because there is a certain limit on the total transmit power at the base station,
The base station BS1 cannot allocate sufficient transmission power TP1 to the mobile station MS_A, and the communication quality SIR1t of the signal from the base station BS1 deteriorates. In such a case, a difference equal to or greater than a predetermined value occurs between the communication qualities SIR1t and SIR2t of the signals received from the base stations BS1 and BS2, and the power control information generation unit 1 Transmission power information for (PC_Inf1)
Is transmitted, and transmission power information (PC_Inf2) for instructing to increase transmission power for the own station is transmitted only to the base station BS2 having good communication quality.

Further, there is a difference between the communication qualities SIR1t and SIR2t of the signals received from the two base stations which is greater than a second predetermined value which is larger than the predetermined value, and the communication quality of a certain base station is extremely deteriorated. In this case, transmission power information for instructing the base station to reduce the transmission power for the own station is transmitted. For example, assuming that the communication quality of the signal from the base station BS1 is extremely deteriorated, the power control information generation unit 1 instructs the base station BS1 to reduce the transmission power for the own station. The transmission power information (PC_Inf1) to be transmitted is transmitted. In addition, transmission power information (PC_Inf2) for instructing to increase the transmission power for the own station is transmitted to the base station BS2 having good communication quality as described above.

On the other hand, when the communication quality measurement value SIRt of the received signal is better than the default value SIRo, the power control information generation unit 1 sends the power control information generation unit 1 to the connected base stations BS1 and BS2,
_A) transmit transmission power information (PC_Inf1, PC_Inf2) for instructing to reduce transmission power.

The power control information generator 1 also compares the communication qualities SIR1t and SIR2t of the signals received from each of the base stations with a predetermined value SIRo. Then, when detecting that the communication quality of the received signal has deteriorated by a predetermined value or more from a predetermined value, transmission power information for reducing the transmission power for the own station is transmitted to the base station transmitting the signal. I do. For example, as described above, the number of mobile stations connected to the base station BS1 increases, and the communication quality SIR1t of a signal received from the base station BS1 is set to a predetermined value.
It is assumed that SIRo has deteriorated by a predetermined value or more. At this time, the power control information generating unit 1 determines that the downlink communication quality at the base station BS1 is degraded, and instructs the base station BS1 to reduce the transmission power directed to itself. Send information (PC_Inf1). Thereby, the base station control unit 14 of the base station BS1 issues a command to the transmission power control unit 12 corresponding to the mobile station MS_A to reduce the transmission power,
The transmission power for mobile station MS_A decreases. As a result, the communication quality SIRt of the combined received signal in the mobile station MS_A is degraded from the predetermined value SIRo. Therefore,
As described above, the power control information generation unit 1 includes the base station BS
The transmission power information (PC_Inf2) for instructing 2 to increase the transmission power is transmitted. The base station BS2 increases the transmission power for the mobile station MS_A according to the transmission power information (PC_Inf2).

Each mobile station autonomously performs the above operation. As a result, in the base station whose communication quality has deteriorated, the transmission power to the mobile station in the soft handoff state is suppressed, and further deterioration of the communication quality is suppressed or improved. On the other hand, in a base station having good communication quality, transmission power to a mobile station in a soft handoff state increases. As a result, a communication quality difference between the cells is suppressed.
As described above, according to this embodiment, the mobile station in the soft hand-off state individually creates and notifies the transmission power information according to the downlink communication quality of each base station to be connected, thereby achieving the communication quality. Can be suppressed.

In the above description, in the mobile station in the soft hand-off state, the communication quality measuring section 3 measures the communication qualities SIR1t and SIR2t of the signals received from the respective base stations. Alternatively, the total interference amount of each signal from each connected base station may be measured. In this case, the communication quality SIRt of the combined received signal
Is degraded from a predetermined value, the power control information generation unit 1 does not create transmission power information for the base station according to the measured amount of interference from each base station, Transmission power information for increasing the transmission power for the own station or transmission power information for decreasing the transmission power for the own station is created and transmitted. In addition, transmission power information for instructing a base station having a large measured interference amount to reduce transmission power is created and transmitted.

Further, the communication quality measuring section 3 may measure the communication quality of each pilot signal constantly transmitted from each base station. In this case, when the communication quality SIRt of the combined signal deteriorates from a predetermined value, transmission power information for the base station is not created according to the measured communication quality of the pilot signal from each base station. Alternatively, transmission power information for increasing the transmission power for the base station or transmission power information for decreasing the transmission power for the base station is generated and transmitted to the base station. Further, transmission power information for instructing the base station whose measured pilot signal communication quality has deteriorated to reduce the transmission power for the own station is generated and transmitted.

Further, each base station is controlled by the base station control unit 1
The mobile station may be notified of the downlink communication quality information or the total transmission power information of the base station calculated in steps 4 and 24 through a control channel or the like. In this case, the mobile station in the soft handoff state creates transmission power information (PC_Inf) for each base station based on downlink communication quality information or total transmission power information from each connected base station, and Notify stations. That is, when the communication quality of the combined received signal is lower than the default value, the mobile station in the soft handoff state has the base station whose downlink communication quality has deteriorated or the total transmission power has reached the default value. Do not transmit the transmission power information to the base station, or create and transmit transmission power information to reduce the transmission power for the own station, and there is a margin in the base station with good communication quality or the total transmission power For the base station, transmission power information for increasing the transmission power for the own station is created and transmitted. Also, for a base station whose downlink communication quality information or total transmission power has reached a predetermined value,
The transmission power information for instructing to reduce the transmission power for the own station is created and transmitted.

[0041]

As described above, the CDMA of the present invention
According to the mobile communication system, in the downlink, it becomes possible to control the share ratio of the transmission power of the plurality of base stations to the mobile station in the soft handoff state, and it is possible to suppress the deterioration of the communication quality and the cell It is possible to realize a system having a small communication quality difference existing between them.

[Brief description of the drawings]

FIG. 1 is a diagram for explaining a basic operation of a CDMA mobile communication system according to the present invention.

FIG. 2 is a diagram illustrating a schematic configuration of a CDMA mobile communication system according to a first embodiment of the present invention.

FIG. 3 is a diagram showing a schematic configuration of another embodiment of the CDMA mobile communication system of the present invention.

FIG. 4 is a diagram showing a schematic configuration of still another embodiment of the CDMA mobile communication system of the present invention.

FIG. 5 is a diagram for explaining soft handoff.

FIG. 6 is a diagram for explaining a conventional CDMA mobile communication system.

[Explanation of symbols]

 MS_A Mobile station BS1, BS2 Base station PC_Inf Transmission power information Power Alloc_Inf Power distribution information SIR_Inf Communication quality information Total P_Inf Total transmission power information 1 Power control information generation unit 2 Communication quality information generation unit 3 Communication quality measurement unit 11, 21 Signal transmission unit 12, 13, 22, 23 Mobile station power control unit 14, 24 Base station control unit

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5K022 EE01 EE12 EE21 EE31 5K067 AA03 AA23 CC10 CC24 DD11 DD43 DD45 DD47 EE02 EE10 EE16 EE24 GG08 GG09 JJ35 JJ39

Claims (8)

[Claims] 1. A CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to a mobile station in a soft handoff area, wherein the plurality of mobile stations in the soft handoff area are A CDMA mobile communication system characterized in that a difference in communication quality between the plurality of base stations is eliminated by changing transmission power from the base station. 2. In a CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to a mobile station in a soft handoff area, the base station has a communication quality of the downlink. A CDMA mobile communication system configured to limit transmission power to a mobile station in the soft handoff region connected to the base station when is degraded. 3. A CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to mobile stations in a soft hand-off area, wherein the base station performs a total transmission of the downlink. A CDMA mobile communication system characterized in that when power is equal to or higher than a predetermined value, transmission power to a mobile station in the soft handoff region connected to the base station is limited. 4. A CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to mobile stations in a soft handoff area, wherein each of the base stations performs communication on the downlink. The base station is configured to transmit information relating to quality or its total transmission power to a control station that controls the base station, and the control station performs communication quality or total communication on the downlink from each base station under its control. On the basis of information on transmission power, for each of the base stations, it is configured to create and transmit information for controlling transmission power to mobile stations in a soft handoff region connected to the base station, CDMA mobile communication system. 5. In a CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to mobile stations in a soft handoff area, the mobile stations in the soft handoff area The communication quality of signals from the plurality of base stations transmitting the same signal to the station is measured, and according to the measured communication quality, for the plurality of base stations, individually, A CDMA mobile communication system configured to create and transmit information for instructing an increase or decrease in transmission power. 6. A CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to mobile stations in a soft handoff area, wherein the mobile station in the soft handoff area Measuring the amount of interference from the plurality of base stations transmitting the same signal to the station, and transmitting the transmission power to the base station individually to the plurality of base stations according to the measured amount of interference. A CDMA mobile communication system characterized in that it is configured to create and transmit information instructing an increase or decrease in the number of channels. 7. A CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to mobile stations in a soft handoff area, wherein the mobile station in the soft handoff area The communication quality of pilot signals from the plurality of base stations transmitting the same signal to the station is measured, and in accordance with the measured communication quality of the pilot signals, the plurality of base stations are individually Characterized in that it is configured to create and transmit information for instructing its own station to increase or decrease the transmission power.
MA mobile communication system. 8. A CDMA mobile communication system configured to transmit the same signal from a plurality of base stations on a downlink to mobile stations in a soft handoff area, wherein each of the base stations performs downlink communication at its own station. The mobile station in the soft handoff area is configured to notify the mobile station of information indicating the quality or the total transmission power of the local station, from the plurality of base stations transmitting the same signal to the local station. Based on the reported downlink communication quality or the total transmission power, each of the plurality of base stations is individually configured to generate and transmit information instructing an increase or decrease of transmission power to its own station. A CDMA mobile communication system, comprising: