JP2002118515A - Mobile communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile communication system which increases the simultaneous connection number of mobile stations, by effectively using idle transmission power (the difference between total assigned transmission power SMP and real-time total transmission power SRP) in a base station. SOLUTION: Whether the real-time total transmission power SRP in the base station exceeds a first threshold TH1 or not is monitored. When the transmission power SRP exceeds the TH1, the assigned transmission power in a mobile station in a part is reduced in such a way that the transmission power SRP (the maximum value of the transmission power SRP) does not exceed maximum total transmission power BMP. At this time, assigned transmission power MP3 in a mobile station MS3 is reduced to a value MP3', and assigned transmission power MP4 in a mobile station MS4 is reduced to a value MP4'.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a CDMA (Code D)
As in a mobile communication system employing ivision Multiple Access (code division multiple access), a mobile station and a base station monitor each other's reception quality and control each transmission power to perform power control. The present invention relates to a body communication system.

[0002]

2. Description of the Related Art In a mobile communication system employing CDMA, power control is performed between a mobile station and a base station to monitor the communication quality of each other and control the transmission power of each.

[0003] Radio waves are attenuated as the transmission distance increases. When the distance between the mobile station and the base station is large, the mutual transmission power is increased. When the distance between the mobile station and the base station is small, mutual transmission power can be reduced, and excess power consumption can be suppressed. In addition, since the surrounding environment of a mobile station changes with movement, the intensity of a received radio wave changes every moment.

[0004] Therefore, in a mobile communication system employing CDMA, the communication quality between a mobile station and a base station is monitored, and the transmission power of each is controlled in real time. In a mobile communication system employing CDMA,
By performing such power control, communication quality between the mobile station and the base station is kept substantially constant.

[0005] Between a mobile station and a base station in such a mobile communication system, for example, 9.6 Kb in the case of voice communication.
In the case of ps and data communication, different transmission speeds are used depending on the type of service, such as 128 Kbps. Furthermore, even for the same voice communication, a plurality of transmission speeds (for example, 9.
(6 Kbps, 4.8 Kbps, 2.4 Kbps, 1.2 Kbps), the minimum transmission speed necessary to maintain communication quality can be used. The assigned transmission power (maximum transmission power) that can be transmitted between the mobile station and the base station is determined in advance in accordance with a required transmission rate determined at the time of subscription contract of the mobile station.

In the base station, the maximum total transmission power that can be simultaneously transmitted from the base station to a plurality of mobile stations is predetermined in order to prevent interference with other stations. The number of mobile stations that can be simultaneously connected to the base station is limited so that the total transmission power does not exceed the maximum total transmission power.

FIG. 5 shows mobile stations MS1-M in the base station.
It is explanatory drawing of the transmission power of the downlink of S3. In FIG.
BMP is the maximum total transmission power of the base station. FIG. 5 (a)
, The mobile stations MS1, MS2, and MS3 connected to the base station have the maximum transmission powers (assigned transmission powers) MP1, MP2, and MP3 determined according to the respective required transmission rates. Assigned. Also, the mobile stations MS1, MS2 and MS3 have the minimum transmission power L required to maintain the connection with the base station.
P1, LP2 and LP3 are reserved.

[0008] From the base station to the mobile stations MS1, MS2 and M
The transmission power transmitted to S3 changes in real time by power control. As shown in the real-time transmission power of FIG.
1, the total transmission power SRP of the transmission powers RP1, RP2 and RP3 actually used by MS2 and MS3 is:
It becomes smaller than the total allocated transmission power SMP of the allocated transmission powers MP1, MP2 and MP3. The difference between the total allocated transmission power SMP and the real-time total transmission power SRP is the free transmission power. The SLP is the minimum total transmission power of the mobile stations MS1, MS2 and MS3 and the minimum total transmission power of the mobile stations MS1, MS2 and MS3.

[0009]

FIG. 6 is an explanatory diagram of the downlink transmission power of the mobile stations MS1 to MS4 in the base station. In the base station shown in FIG. 5, if an attempt is made to permit connection to a mobile station MS4 requesting a new connection, FIG.
As shown in the allocated transmission power of (a), the mobile station MS
1, total allocated transmission power SM of MS2, MS3 and MS4
P ′ exceeds the maximum total transmission power BMP of the base station. As shown in the real-time transmission power of FIG. 6B, the total transmission power SRP ′ of the transmission powers RP1, RP2, RP3 and RP4 actually used by the mobile stations MS1, MS2, MS3 and MS4 is the maximum total transmission power. Power BM
Even if it does not exceed P, the total allocated transmission power SMP '
, The total transmission power SRP ′ is equal to the maximum total transmission power BM
It is determined that P may exceed P. Therefore, the connection is not permitted to the mobile station MS4.

As described above, in the conventional mobile communication system that performs power control, a mobile station that requests a new connection based on the total allocated transmission power, despite the fact that there is an idle transmission power, is actually provided. Since connection permission is determined, there is a problem that the available transmission power cannot be used effectively.

Therefore, the present invention monitors the total transmission power in a base station in real time, and when the total transmission power to be monitored exceeds a predetermined threshold value, the downlink allocated transmission power of some mobile stations ( It is an object of the present invention to provide a mobile communication system capable of effectively utilizing idle transmission power and reducing the number of simultaneous connections of mobile stations by reducing the maximum transmission power.

[0012]

According to a first aspect of the present invention, there is provided a mobile communication system comprising: a plurality of mobile stations; and a base station for performing wireless communication with a mobile station within a range where radio waves can reach. The base station monitors the total downlink transmission power transmitted from the base station to the mobile station, and the monitored total transmission power exceeds a predetermined threshold smaller than the maximum total transmission power transmittable from the base station. Monitoring means for outputting an excess power signal; mobile station selection means for selecting a mobile station capable of reducing the transmission rate when the excess power signal is output by the monitoring means; and the mobile station selection means. A base station transmission rate changing means for transmitting a base station transmission rate change request for reducing the transmission rate to the mobile station selected by the mobile station, and changing the transmission rate with the mobile station. Is the transmission transmitted from the base station. When the speed change request is received, it is characterized in that it has a mobile station transmission rate changing means for changing the transmission rate between the base station.

A mobile communication system according to a second aspect of the present invention is the mobile communication system according to the first aspect, wherein the base station is configured such that after the transmission rate between the base station and the mobile station is changed by the base station transmission rate changing means. Monitoring the total downlink transmission power transmitted from the base station to the mobile station, and when the monitored total transmission power falls below a second threshold smaller than the first threshold, a power recovery signal Second monitoring means for outputting
When the power recovery signal is output by the second monitoring means,
A base station transmission rate recovery unit for transmitting a transmission rate recovery request for returning the transmission rate to the mobile station selected by the mobile station selection unit and returning the transmission rate to the mobile station; The mobile station has a mobile station transmission rate recovery unit for returning a transmission rate to the base station when the transmission rate recovery request transmitted from the base station is received. Things.

According to a third aspect of the present invention, there is provided a mobile communication system comprising: a plurality of mobile stations; a plurality of base stations for performing wireless communication between mobile stations within a range where radio waves can reach; And a mobile communication control station concentrating via a communication line, wherein the base station monitors the total downlink transmission power transmitted from the base station to the mobile station, and the monitored total transmission power is
A first monitoring means for transmitting an excess power signal to the mobile communication control station when a first threshold value smaller than a maximum total transmission power transmittable from the base station is transmitted; When the transmission rate change request for reducing the transmission rate for the mobile station selected by the mobile communication control station is responded to by the mobile communication control station in response to the excess power signal, A base station transmission rate changing means for transmitting a request to the corresponding mobile station and changing a transmission rate between the mobile station and the mobile station, wherein the mobile communication control station transmits the request from the first monitoring means. Mobile station selecting means for selecting a mobile station capable of reducing the transmission rate when an excess power signal is received; and a transmission rate for reducing the transmission rate for the mobile station selected by the mobile station selecting means. A control station transmission rate changing means for responding to the base station with a change request, wherein the mobile station transmits the request to the base station when the transmission rate change request transmitted from the base station is received. A mobile station transmission rate changing means for changing the speed is provided.

According to a fourth aspect of the present invention, in the mobile communication system according to the third aspect, the base station is provided after the transmission rate with the mobile station is changed by the base station transmission rate changing means. Monitoring the total downlink transmission power transmitted from the base station to the mobile station, and recovering power when the monitored total transmission power becomes smaller than a second threshold smaller than the first threshold. Second monitoring means for transmitting a signal to a mobile communication control station; and a transmission rate for the mobile station selected by the mobile station selection means in response to the power recovery signal transmitted by the second monitoring means. When the transmission rate recovery request for returning is returned from the mobile communication control station, the base station transmits the response transmission rate recovery request to the corresponding mobile station, and restores the transmission rate with the mobile station. Station transmission speed recovery means The mobile communication control station, when receiving a power recovery signal transmitted from the second monitoring means, performs transmission for returning a transmission rate to the mobile station selected by the mobile station selection means. A control station transmission rate recovery unit that responds to the base station with a rate recovery request, wherein the mobile station transmits to the base station when the transmission rate recovery request transmitted from the base station is received. It is characterized by having a mobile station transmission speed recovery means for restoring the speed.

A mobile communication system according to a fifth aspect of the present invention is the mobile communication system according to any one of the first to fourth aspects, wherein the mobile station selecting means transmits a mobile station that has requested burst transmission to a transmission speed. Is preferentially selected as a mobile station capable of reducing.

According to a sixth aspect of the present invention, there is provided the mobile communication system according to any one of the first to fourth aspects, wherein the mobile station selecting means includes an assigned transmission power corresponding to a used transmission rate. A mobile station having a large difference from the actually used transmission power is preferentially selected as a mobile station capable of reducing the transmission speed.

A mobile communication system according to a seventh aspect of the present invention is the mobile communication system according to any one of the first to fourth aspects, wherein the mobile station selecting means sets a newly connected mobile station at a low transmission rate. The mobile station is preferentially selected as a mobile station that can perform the operation.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the mobile communication system according to the present invention will be described below with reference to the drawings.

The mobile communication system according to the embodiment of the present invention monitors the total transmission power in the base station in real time, and when the monitored total transmission power exceeds a predetermined threshold, a part of the mobile communication system is monitored. By reducing the downlink transmission power (maximum transmission power) of the station, the available transmission power is effectively used and the number of simultaneous connections of the mobile station is increased.

FIG. 1 is a diagram schematically illustrating a method of controlling the total transmission power in the base station. In FIG. 1, BMP is
This is the maximum total transmission power of the downlink of the base station. Also, SMP,
SMP ′ is the total downlink transmission power of the base station,
RP (SRP ') is the total real-time downlink transmission power of the base station. TH1 is a first threshold value for determining whether or not the total downlink transmission power SRP of the base station is close to the maximum total transmission power BMP.

The base station monitors whether the total downlink transmission power SRP exceeds a first threshold value TH1. When the total transmission power SRP exceeds the first threshold TH1, the allocated transmission power is reduced so that the total allocated transmission power SMP (the maximum value of the total transmission power SRP) does not exceed the maximum total transmission power BMP. The transmission power allocated to some of the mobile stations that can perform is reduced.

For example, it is assumed that mobile stations MS1, MS2 and MS3 are connected to the base station as shown in the allocated transmission power before the change in FIG. 1 (b). Mobile station MS1, M
The total allocated transmission power SMP of S2 and MS3 is smaller than the maximum total transmission power BMP of the base station, and their real-time total transmission power SRP is smaller than the first threshold TH1. For this reason, the assigned transmission powers (maximum transmission powers) MP1, MP2, and MP3 determined according to the respective requested transmission rates are allocated to the mobile stations MS1, MS2, and MS3 as they are.

Further, it is assumed that a new connection is requested by the mobile station MS4. The total allocated transmission power SMP 'of the mobile stations MS1, MS2, MS3 and MS4 exceeds the maximum total transmission power BMP of the base station. In the conventional mobile communication system, the connection is not permitted to the mobile station MS4. On the other hand, in the mobile communication system of the present embodiment, it is monitored whether the total transmission power SRP has exceeded the first threshold value TH1, and the total transmission power SRP does not exceed the first threshold value TH1. At times, the connection is also permitted to the mobile station MS4.

It is assumed that the connection is also permitted to the mobile station MS4 and the allocated transmission power MP4 has been allocated. Then, as shown in the real-time transmission power of FIG. 1A, when the total real-time transmission power SRP 'of the mobile stations MS1, MS2, MS3 and MS4 exceeds the first threshold value TH1, these mobile stations A mobile station capable of reducing the allocated transmission power is selected from the stations MS1, MS2, MS3, and MS4.

As shown in FIG. 1C, the mobile stations MS3 and MS4 are selected, and the total allocated transmission power SMP '(the maximum value of the real-time total transmission power SRP') is selected. ) Does not exceed the maximum total transmission power BMP so that the allocated transmission power MP3 of the mobile station MS3 is M
P3 'and the allocated transmission power MP of the mobile station MS4.
4 is reduced to MP4 '. In order to reduce the allocated transmission power of the mobile station, the transmission speed of the mobile station is reduced.

It is sufficient that one or more mobile stations are selected to reduce the allocated transmission power (reduce the transmission rate). However, in an actual mobile communication system,
The number of mobile stations simultaneously connected to the base station is large. Therefore, it is desirable that a plurality of mobile stations be selected so as to reduce the transmission speed.

As described above, in the mobile communication system according to the embodiment, it is monitored whether or not the real-time total transmission power SRP exceeds the first threshold value TH1, and the total transmission power SRP is monitored.
When the RP exceeds the first threshold TH1, the allocated transmission power of some mobile stations is set so that the total transmission power SMP (the maximum value of the real-time total transmission power SRP) does not exceed the maximum total transmission power BMP. Smaller. Therefore, it is possible to effectively use the idle transmission power and increase the number of simultaneous connections of the mobile station. Hereinafter, details of the mobile communication system according to this embodiment will be described.

FIG. 2 is a schematic configuration diagram of a mobile communication system according to an embodiment of the present invention. As shown in FIG. 2, the mobile communication system according to the present embodiment includes a plurality of mobile stations (MSs) using mobile communication services.
on) 10 and the mobile station 1 which is arranged so as to constitute the service area of the mobile communication service and is within the range of radio waves.
Base stations (BTSs) that perform wireless communication with
transmission station) 20.

In this mobile communication system, a location area (an area in which several base stations 20 are put together)
A plurality of base station controllers (BSCs) 30 for concentrating base stations 20 in a base station via communication lines
And a plurality of mobile switching centers (MSs) for relaying between the mobile communication control station 30 and an existing network 60 such as a public telephone network or an ISDN network.
C; mobile switching center) 40. The mobile switching center 40 is also connected to other mobile switching centers 40.

Further, the mobile communication system has a DB
(Database) group 50 is provided. The DB group 50 includes a database (not shown) for registering the location of each mobile station 10 and a database (not shown) for registering charging information of each mobile station 10.
And so on.

FIG. 3 is a block diagram of a main part of the mobile communication system shown in FIG. As shown in FIG.
Is provided with a DB (database) 51 for registering a usable transmission speed of the mobile station 10, a transmission speed currently used by the mobile station 10, a change in the transmission speed of the mobile station 10, and the like. When the total downlink transmission power SMP in the base station 20 exceeds the first threshold value TH1, the DB 51
It is used when selecting a mobile station 10 capable of reducing the transmission speed.

The base station 20 comprises a total transmission power monitoring means 21,
A transmission speed changing unit 22 and a transmission speed recovery unit 23 are provided.

The total transmission power monitoring means 21 monitors the total downlink transmission power SRP transmitted from the base station 20 to the mobile station 10, and monitors the total transmission power SRP to be monitored by the first threshold T.
When exceeding H1, an excess power signal is output. When the total transmission power SRP to be monitored becomes smaller than a second threshold value TH2 smaller than the first threshold value after the transmission of the excess power signal, the total transmission power monitoring means 21 performs power recovery. Output a signal. The second threshold value TH2 is a threshold value for determining whether the total transmission power SRP has a sufficient margin. The excess power signal and the power recovery signal output by the total transmission power monitoring means 21 are transmitted to the mobile communication control station 30.

The transmission rate changing means 22 transmits a transmission rate change request for reducing the transmission rate to the mobile station 10 selected by the mobile communication control station 30 in response to the excess power signal transmitted to the mobile communication control station 30. Is transmitted from the mobile communication control station 30, transmits the transmitted transmission rate change request to the corresponding mobile station 10, and changes the transmission rate with the mobile station 10.

The transmission rate recovery means 23 receives a transmission rate recovery request for returning the transmission rate to the mobile station 10 whose transmission rate has been changed, in response to the power recovery signal transmitted to the mobile communication control station 30. When a response is received from the mobile communication control station 30, the transmitted transmission rate change request is transmitted to the corresponding mobile station 10, and the transmission rate is returned to the original with the mobile station 10.

The mobile communication control station 30 includes a mobile station selection unit 3
1. Transmission rate changing means 32 and transmission rate recovery means 33
Is provided.

When the excess power signal transmitted from the base station 20 is received, the mobile station selecting means 31 refers to the DB 51 and selects the mobile station 10 whose transmission speed can be reduced. The transmission rate changing means 32 is a mobile station selecting means 3
The base station 20 responds to the base station 20 with a transmission rate change request for reducing the transmission rate for the mobile station 10 selected in Step 1. The transmission rate recovery unit 33 refers to the DB 50 when the power recovery signal transmitted from the base station 20 is received,
The base station 20 responds to the base station 20 with a transmission rate recovery request for restoring the transmission rate for the mobile station 10 selected (changed in transmission rate) by the mobile station selecting means 31.

The mobile station 10 comprises a transmission rate changing means 11 and a transmission rate recovery 12. Transmission speed changing means 11
Changes the transmission rate with the base station 20 when the transmission rate change request transmitted from the base station 20 is received.
When the transmission rate recovery request transmitted from the base station 20 is received, the transmission rate recovery unit 12 restores the transmission rate with the base station 20.

Mobile station selecting means 31 of mobile communication control station 30
Is, for example, the mobile station 10 that has requested burst transmission.
May be preferentially selected as the mobile station 10 capable of reducing the transmission speed. By reducing the transmission speed of the mobile station 10, the transmission power that temporarily increases due to bursty transmission is suppressed, so that the total downlink transmission power SRP of the base station 20 does not exceed the threshold value TH1. , A connection opportunity can be given to another mobile station 10 requesting a new connection.

The mobile station selecting means 31 can reduce the transmission speed of the mobile station 10 having a large difference between the assigned transmission power corresponding to the used transmission speed and the actually used transmission power. It is preferable to preferentially select as a possible mobile station 10. Thereby, the idle transmission power (the difference between the maximum total transmission power BMP and the real-time total transmission power SMP)
And other mobile stations 10 requesting a new connection
Can be given the opportunity to connect.

Further, the mobile station selecting means 31 can preferentially select a newly connected mobile station as a mobile station whose transmission speed can be reduced. As in the so-called first-in first-out manner, the transmission rate can be changed in a time series.

FIG. 4 is a sequence diagram showing a transmission rate changing operation of the mobile communication system of this embodiment. The total transmission power SRP of the base station 20 in real time by the total transmission power monitoring means 21 of the base station 20 is set to a first threshold TH.
It is monitored whether the number has exceeded 1 (step S). Total transmission power SRP monitored by total transmission power monitoring means 21
Exceeds the threshold value TH1, the total transmission power monitoring means 21
, An excess power signal is issued and transmitted from the base station 20 to the mobile communication control station 30. The monitoring of the total transmission power SRP is temporarily stopped by the total transmission power monitoring means 21 (step S2).

When the excessive power signal transmitted from the base station 20 is received by the mobile communication control station 30, the mobile station selecting means 3
1, the DB 51 is referred to, and the mobile station 10 capable of reducing the transmission speed is selected (step S3).
Transmission of data to the selected mobile station 10 is temporarily stopped by the transmission rate changing means 32 (step S).
4). A communication stop request is issued by the transmission rate changing means 32 and transmitted from the mobile communication control station 30 to the mobile station 10 via the base station 20. At this time, the transmission at the initial transmission rate X is temporarily stopped by the transmission rate changing means 22 of the base station 20. Hereinafter, the mobile communication control station 30
The data to be transmitted to the mobile station 10 received at the mobile communication control station 30 is buffered (step S
5).

When the communication stop request transmitted from the mobile communication control station 30 is received by the mobile station 10 via the base station 20, the transmission and reception at the original transmission rate X is stopped by the transmission rate changing means 11 ( Step S6). A communication stop response is issued by the transmission rate changing unit 11 and transmitted from the mobile station 10 to the mobile communication control station 30 via the base station 20.
At this time, reception of data at the initial transmission rate X is temporarily stopped by the transmission rate changing means 22 of the base station 20. Thereafter, data to be transmitted from the mobile station 10 to the base station 20 is buffered in the mobile station 10 (step S
7).

When the communication stop response transmitted from the mobile station 10 is received by the mobile communication control station 30 via the base station 20, the reception of data at the transmission rate X is stopped by the transmission rate changing means 32. Transmission speed Y smaller than transmission speed X
Starts receiving data (step S8). A transmission rate change request and a communication start request are issued by the transmission rate changing means 32, and the mobile communication control station 30 sends the base station 2
0 to the mobile station 10. At this time, reception of data at the transmission rate Y is started by the transmission rate changing means 22 of the base station 20 (step S9).

When the transmission rate change request and the communication start request transmitted from the mobile communication control station 30 are received by the mobile station 10 through the base station 20, the transmission / reception of data at the transmission rate Y is performed by the transmission rate changing means 11. It is started (step S10). At the same time, a communication start response is issued by the transmission rate changing means 11 and transmitted from the mobile station 10 to the mobile communication control station 30 via the base station 20. At this time, transmission of data at the transmission rate Y is started by the transmission rate changing means 22 of the base station 20 (step S11).

When the communication start response transmitted from the mobile station 10 is received by the mobile communication control station 30 via the base station 20, data transmission at the transmission rate Y is started by the transmission rate changing means 32. Thereby, transmission and reception at the transmission rate Y is performed between the mobile station 10, the base station 20, and the mobile communication control station 30 (step S12). A transmission rate change completion signal is issued by the transmission rate changing means 32 and transmitted from the mobile communication control station 30 to the base station 20 (step S).
13).

When the transmission rate change completion signal transmitted from the mobile communication control station 30 is received by the base station 20, the monitoring of the total transmission power SRP is restarted by the mobile station selecting means 31 (step S14).

The operation of restoring the transmission speed of the mobile station 10 changes (decreases) the transmission speed of the mobile station 10.
This is the same as the operation, and a detailed description thereof will be omitted.

As described above, according to the embodiment, when the total downlink transmission power SRP monitored by the total transmission power monitoring means 21 of the base station 20 exceeds the first threshold TH1, some The transmission speed of the mobile station 10 is reduced, and the downlink transmission power of the mobile station 10 is reduced. As a result, the total allocated transmission power SMP of the base station 20 (the maximum value of the real-time total transmission power SRP) becomes the maximum total transmission power BMP.
Is controlled so as not to exceed, and a connection opportunity can be given to another mobile station 10 that newly requests a connection. Therefore, it is possible to effectively use the available transmission power of the base station 20 and increase the number of simultaneous connections of the mobile station.

The total transmission power monitoring means 2 of the base station 20
When the total downlink transmission power SRP monitored by 1 becomes smaller than the second threshold value TH2, the transmission speed of the mobile station 10 whose transmission speed has been reduced is restored. Therefore, when there is room in the total downlink transmission power SRP, high-speed communication can be performed at the requested transmission speed.

According to the present embodiment, the mobile communication system is configured to change the transmission speed of the mobile station 10 among the three mobile stations 10, the base station 20, and the mobile communication control station 30. However, the mobile communication system is not always constituted by these. For example, the base station 20 is directly connected to the mobile communication switching station 40 without the intervention of the mobile communication control station 30, and the transmission speed of the mobile station 10 is transmitted between the mobile station 10, the base station 20, and the mobile communication switching station 40. May be changed. Also, the transmission rate may be changed between the mobile station 10 and the base station 20.

[0054]

According to the present invention, when the total downlink transmission power monitored by the monitoring means of the base station exceeds the first threshold, the transmission speed of some mobile stations is reduced, Downlink transmission power is reduced. As a result, the total allocated transmission power of the base station is controlled so as not to exceed the maximum total transmission power, and a connection opportunity can be given to another mobile station that newly requests a connection. Therefore, the number of simultaneous connections of the mobile station can be increased by effectively utilizing the idle transmission power of the base station.

[Brief description of the drawings]

FIG. 1 is a diagram schematically illustrating a control method of a total transmission power in a base station.

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

FIG. 3 is a configuration diagram of a main part of the mobile communication system shown in FIG. 2;

FIG. 4 is a sequence diagram showing a transmission rate changing operation of the mobile communication system according to the embodiment.

FIG. 5 is an explanatory diagram of downlink transmission power of mobile stations MS1 to MS3 in a base station.

FIG. 6 is an explanatory diagram of downlink transmission power of mobile stations MS1 to MS4 in a base station.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 Mobile station, 11 Transmission speed change means, 12 Transmission speed recovery means, 20 Base station, 21 Total transmission power monitoring means, 22 Transmission speed change means, 23 Transmission speed recovery means, 30 Mobile communication control station, 31 Mobile station selection means , 32 transmission rate changing means, 33 transmission rate recovery means, 40 mobile switching center, 50 DB groups,
60 Existing network.

Claims (7)

[Claims] 1. A mobile station comprising: a plurality of mobile stations; and a base station that performs wireless communication with a mobile station within a range where radio waves can reach, wherein the base station transmits a downlink signal transmitted from the base station to the mobile station. Monitoring the total transmission power, and when the monitored total transmission power exceeds a first threshold that is smaller than the maximum total transmission power that can be transmitted from the base station;
A first monitoring unit that outputs an excess power signal; a mobile station selection unit that selects a mobile station capable of reducing a transmission rate when the excess power signal is output by the first monitoring unit; Transmitting a transmission rate change request for reducing the transmission rate to the mobile station selected by the mobile station selection means, and a base station transmission rate changing means for changing the transmission rate with the mobile station; A mobile communication system, comprising: a mobile station transmission rate changing means for changing a transmission rate with the base station when a transmission rate change request transmitted from the base station is received. . 2. The mobile communication system according to claim 1, wherein the base station transmits from the base station to the mobile station after a transmission rate between the base station and the mobile station is changed by a base station transmission rate changing unit. The total transmitted power to be monitored is monitored, and the monitored total transmitted power is the first
A second monitoring means for outputting a power recovery signal when the power recovery signal is smaller than a second threshold value smaller than the threshold value;
A base station transmission rate recovery means for transmitting a transmission rate recovery request for returning the transmission rate to the mobile station selected by the mobile station selection means and returning the transmission rate to the mobile station; The mobile station has a mobile station transmission rate recovery unit for returning the transmission rate to the base station when the transmission rate recovery request transmitted from the base station is received. Mobile communication system. 3. A mobile communication system comprising: a plurality of base stations for performing wireless communication between a plurality of mobile stations and mobile stations within a range where radio waves can reach; and a mobile communication system for concentrating base stations in a location area via a communication line. A base station, wherein the base station monitors a total downlink transmission power transmitted from the base station to the mobile station, and the monitored total transmission power is smaller than a maximum total transmission power transmittable from the base station. When the threshold of 1 is exceeded,
First monitoring means for transmitting an excess power signal to the mobile communication control station; and a transmission rate for the mobile station selected by the mobile communication control station in accordance with the excess power signal transmitted by the first monitoring means. A request to change the transmission speed to reduce
When responded from the mobile communication control station, transmits a response transmission rate change request to the corresponding mobile station, having a base station transmission rate change means to change the transmission rate with the mobile station, The mobile communication control station includes: a mobile station selection unit that selects a mobile station capable of reducing a transmission rate when an excessive power signal transmitted from the first monitoring unit is received; Control station transmission rate changing means for responding to the base station a transmission rate change request for reducing the transmission rate to the mobile station selected by the means, wherein the mobile station transmits the transmission transmitted from the base station. A mobile communication system comprising a mobile station transmission rate changing means for changing a transmission rate with the base station when a rate change request is received. 4. The mobile communication system according to claim 3, wherein the base station transmits from the base station to the mobile station after the transmission rate between the base station and the mobile station is changed by the base station transmission rate changing means. Monitoring the total downlink transmission power to be transmitted, and transmitting a power recovery signal to the mobile communication control station when the monitored total transmission power becomes smaller than a second threshold smaller than the first threshold. Second
And a transmission rate recovery request for returning the transmission rate to the mobile station selected by the mobile station selecting means in response to the power recovery signal transmitted by the second monitoring means. When responded from the communication control station, transmits a response transmission rate recovery request to the corresponding mobile station, having a base station transmission rate recovery means to restore the transmission rate between the mobile station, The mobile communication control station, when receiving the power recovery signal transmitted from the second monitoring means, issues a transmission rate recovery request for returning the transmission rate to the mobile station selected by the mobile station selection means. Control station transmission rate recovery means responding to the base station, the mobile station, when a transmission rate recovery request transmitted from the base station is received, based on the transmission rate with the base station Return mobile station transmission Mobile communication system characterized by having a degree recovery means. 5. The mobile communication system according to claim 1, wherein said mobile station selecting means moves a mobile station which has requested a burst-like transmission to a mobile station capable of reducing a transmission speed. A mobile communication system characterized by preferentially selecting a station. 6. The mobile communication system according to claim 1, wherein said mobile station selection means allocates an allocated transmission power corresponding to a used transmission rate and an actually used transmission power. A mobile communication system characterized by preferentially selecting a mobile station having a large difference from the mobile station as a mobile station capable of reducing the transmission speed. 7. The mobile communication system according to claim 1, wherein said mobile station selecting means sets a newly connected mobile station as a mobile station capable of reducing a transmission speed. A mobile communication system characterized by preferential selection.