JPH08139669A - Radio communication system - Google Patents

Abstract

PURPOSE: To provide a radio communication system for performing effective transmission output control for reducing power consumption at a system where plural radio base stations at different transmission levels exist. CONSTITUTION: Concerning the radio communication system composed of plural radio base stations 20-23 at the different transmission output levels and one or plural radio mobile stations 24-27 to be connected by a radio channel so as to make possible the transmission output control, this system is provided with a means for transmitting identification codes corresponding to the transmission output levels from the radio base stations 20-23, at the radio mobile stations 24-27, the plural radio base stations at the different transmission output levels are discriminated from the identification codes, and the optimum transmission output levels are set.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio communication system for controlling transmission output in a system having a plurality of radio base stations having different transmission levels.

[0002]

2. Description of the Related Art Regarding the second generation cordless telephone system, the "2nd generation cordless telephone system standard (RC
R STD-28) ". According to this standard, the transmission output level in a wireless mobile station normally starts communication from the maximum level first, and is then controlled to an appropriate level by an instruction from the wireless base station.

On the other hand, in order to effectively use the wireless channel, for example, Japanese Patent Laid-Open No. 3-73625 (H04B7).
/ 26), a communication system in which a small zone is provided in a large zone is considered. By the way, according to the above-mentioned standard, since the information regarding the transmission level of the wireless base station is not transmitted from the base station, it is not possible for the mobile station side to judge at what transmission output level a signal is output from each wireless base station. Can not. Therefore, when there are multiple wireless base stations with different transmission levels, there is no method for determining which base station the wireless mobile station should connect to. Must be MAX.

[0004]

However, in any case, the initial value of the transmission output level of the wireless mobile station is set to M.
When set to the AX value, it is disadvantageous in terms of power consumption. Also, if the initial value of the transmission output level of the wireless mobile station is set to a small value, connection will not be possible if the wireless mobile station is located at the edge of the service zone of the wireless base station when connecting to a wireless base station with a large transmission output level. There is a high possibility that

According to the present invention, in a wireless mobile station, a plurality of wireless base stations having different transmission levels are discriminated and an optimum transmission output level is set, so that the above-mentioned problems can be prevented and low power consumption can be achieved. Provide the system.

That is, according to the above-mentioned standard, a CS-ID (originating identification code / destination identifying code) is defined as information for discriminating a radio base station, and the usage of this information is particularly determined. There is no additional ID or the like, and this is used to solve the above-mentioned problem.

[0007]

A radio communication system of the present invention includes a transmission output composed of a plurality of radio base stations having different transmission output levels and one or a plurality of radio mobile stations connected by radio channels. In a controllable wireless communication system, the wireless base station comprises means for transmitting an identification code according to the transmission output level, and the wireless mobile station comprises means for determining the transmission level of the wireless base station from the identification code. The transmission output level of its own station is set to an appropriate value (initial value) according to the transmission level of the wireless base station.

The radio base station can dynamically set the identification code according to the transmission output level, and the radio mobile station can switch the communication channel from the radio base station to a different radio base station. When it is performed, the transmission output level of the own station can be set to an appropriate value (initial value) according to the transmission level of the wireless base station of the switching destination.

Further, in the wireless mobile station, it is possible to preferentially connect the wireless base station having a low transmission output level among the connectable wireless base stations.

[0010]

In the wireless communication system of the present invention, a wireless mobile station discriminates a plurality of wireless base stations having different transmission levels and sets an optimum transmission output level, which is very effective for low power consumption. Is. Further, in the wireless mobile station, the lower the transmission output level, the lower the transmission output level, the lower the transmission output level is, so that among the connectable wireless base stations,
By preferentially connecting the wireless base station having a low transmission output level, the power consumption can be further reduced.

[0011]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a configuration example of a wireless base station of a wireless communication system according to an embodiment of the present invention.

Reference numeral 1 is an RF / IF unit which performs frequency conversion. A modulation / demodulation unit 2 performs π / 4 shift four-phase QPSK modulation / demodulation. 3 is a digital signal processing circuit unit, which is a TDMA
Performs digital signal processing such as processing. These RF / I
The F unit 1, the modulation / demodulation unit 2, and the digital signal processing circuit unit 3 constitute one functional block, and perform transmission / reception processing of CCH (common control channel). Also, 4, 5, 6 are RF /
An IF section, a modulation / demodulation section, a digital signal processing circuit section,
The same configuration as 1, 2, and 3 is used to perform TCH (speech channel) transmission / reception processing. In the wireless base station, a plurality of functional blocks of the RF / IF unit 4, the modulation / demodulation unit 5, and the digital signal processing circuit unit 6 are mounted depending on the required capability. Since one functional unit can process four slots per carrier, four mobile stations can be connected. The embodiment of FIG. 1 is an example in which the functional blocks of the RF / IF unit 4, the modulation / demodulation unit 5, and the digital signal processing circuit unit 6 are one block, and actually two or more blocks may be mounted. Reference numeral 7 denotes a line control circuit unit, which is a block for controlling connection with a PSTN (public telephone network) or ISDN. 8
Is a control circuit unit, which is a block for managing the entire radio base station. Here, call control and CS-ID setting management according to the transmission output level according to the present invention are performed. Reference numeral 9 is an antenna for both transmission and reception. Although not shown in the figure, in addition to this, functional blocks such as a power supply block actually exist.

FIG. 2 is a block diagram showing a configuration example of a wireless mobile station of a wireless communication system according to an embodiment of the present invention.

Reference numeral 10 is an RF / IF unit which performs frequency conversion. Reference numeral 11 denotes a modulation / demodulation unit, which is a π / 4 shift 4-phase QPS
Performs K modulation and demodulation. A digital signal processing circuit unit 12 performs digital signal processing such as TDMA processing. 1
0, 11, 12 form one functional block, and CC
It performs transmission / reception processing of H (common control channel) and transmission / reception processing of TCH (speech channel). A control circuit unit 13 is a block that manages the entire wireless mobile station. Here, the control of the call, the monitoring process of the connectable wireless base station, and the transmission output level setting management of the own station are performed based on the monitoring result and the transmission output level determination result of the CS-ID. Reference numeral 14 is an antenna for both transmission and reception. Although omitted in the figure,
In addition to this, there are actually functional blocks such as a power supply block.

FIG. 3 is a block diagram showing the control unit 13 in FIG.

Reference numeral 15 denotes a microprocessor, which has an RF /
Performs control of the IF unit 10, control of the digital signal processing circuit unit 12, call control, monitor processing of connectable wireless base stations, determination processing of the transmission output level of the wireless base station according to the present invention, transmission output control processing, etc. . Reference numeral 16 is a program memory, and the microprocessor 15 operates based on this program according to a flowchart described later. A work memory 17 stores various data.

Reference numeral 18 denotes a monitor table memory of a receivable radio base station used in the present invention, which stores CS-ID which is identification information sent from the base station and electric field strength of the base station. . The CS-ID is as shown in FIG.
This is a signal composed of 42 bits, which is a 9-bit carrier identification code, a 16-bit paging area number, and a 17-bit
It is composed of a bit-added ID. In the present invention, the CS-ID (identification information) defined in the above-mentioned standard is used in order to discriminate the radio base stations having different transmission output levels. Of these, the usage method is not particularly determined. The ID can be used to set the difference in the transmission output level of the wireless base station.

Reference numeral 19 is a radio base station data table memory for establishing a link channel used in the present invention.

Next, the operation of the present invention will be described. Figure 5
FIG. 1 is a diagram showing an embodiment of a wireless communication system according to the present invention. Reference numerals 20 and 21 are radio base stations having high transmission power levels, and 28 and 29 are respective service zones. Reference numerals 22 and 23 are radio base stations having a low transmission output level, and reference numerals 30 and 31 are respective service zones. 24-27 are all wireless mobile stations. As a typical example of the present invention, the wireless mobile station 24 is a wireless base station
Connection with 0 or 22 is possible. In this case, since the transmission output level of the wireless base station is lower in the wireless base station 22, the wireless mobile station 24 is connected to the wireless base station 22. Similarly, the wireless mobile station 25 can be connected to the wireless base station 21 or 23, but the wireless base station 23 can be connected to the wireless base station 21 or 23.
And the connection is made.

FIG. 6 is a flow chart showing a transmission output control process in the wireless mobile station according to an embodiment of the present invention. In step S1, monitoring of the wireless base station is started. In step 2, a carrier frequency for monitoring the radio base station is set. In step 3, a connectable CS-ID is acquired. That is, the CS-ID of the wireless base station in which the electric field strength is higher than a certain level is acquired, and in step 4, the acquired data is used as a monitor table of the receivable wireless base station, as shown in FIG. It is stored in the memory 18. In FIG. 7, the electric field strength is stored as 6-bit data.

In step 5, it is judged whether or not the monitoring of the radio base station is completed, and if it is not completed, the processing from step 3 is repeated. When finished, the process of step 6 is performed. In step 6, the monitor table data of the receivable radio base station created in step 4 is used, and data having a low transmission output level of the radio base station and a large electric field strength are selected in order, and shown in FIG. Create a data table like
It is stored in the memory 19. In this embodiment, as a link channel establishment radio base station data table, as shown in FIG. 8, five data tables are stored in the memory. It is assumed that the upper 3 bits of the additional ID indicating the output level of the base station have a smaller output level as the data becomes larger.

In step 7, using the link channel establishing radio base station data table created in step 6, frame synchronization is performed with a designated carrier number for the radio base station to establish the link channel. . The transmission output level of the wireless mobile station at this time is set to an optimum level from the transmission output level of the wireless base station, and the process ends. For example, when connecting to a radio base station with a small service zone, the transmission output level of the radio mobile station is set to a value that is a few dB lower than that of a radio base station with a large service zone. This can prevent unnecessary power consumption of the wireless mobile station.

[0023]

As is apparent from the above description, the present invention has a transmission output composed of a plurality of radio base stations having different transmission output levels and one or a plurality of radio mobile stations connected by radio channels. In a controllable wireless communication system, a wireless base station is provided with means for transmitting an identification code according to a transmission output level, and a wireless mobile station discriminates a plurality of wireless base stations having different transmission levels from the identification code. And set the optimum transmission output level. In a wireless mobile station, when a call channel is switched from a wireless base station to a different wireless base station, the transmission output level of its own station is set to an optimum value according to the transmission level of the switching destination wireless base station. It can also be set.

Further, in the wireless mobile station, of the connectable wireless base stations, the wireless base station having a low transmission output level is preferentially connected.

With such a radio communication system, it is very effective in reducing power consumption in a radio mobile station,
The lower the transmission output level is, the lower the transmission output level may be. Therefore, by preferentially connecting the wireless base station having the lower transmission output level among the connectable wireless base stations, the power consumption can be further reduced. validate.

[Brief description of drawings]

FIG. 1 is a schematic configuration block diagram of a radio base station according to an embodiment of the present invention.

FIG. 2 is a schematic configuration block diagram of a wireless mobile station according to an embodiment of the present invention.

FIG. 3 is a block diagram showing a control unit in a wireless mobile station according to an embodiment of the present invention.

FIG. 4 is a CS transmitted from a base station according to an embodiment of the present invention.
It is a figure which shows -ID.

FIG. 5 is a diagram illustrating an operation of the wireless communication system according to the embodiment of the present invention.

FIG. 6 is a flowchart showing a transmission output control process of a wireless mobile station according to an embodiment of the present invention.

FIG. 7 is a diagram showing monitor table memory data of the wireless mobile station of the present invention.

FIG. 8 is a diagram showing link base station establishing wireless base station data table memory data of the wireless mobile station of the present invention.

[Explanation of symbols]

1 RF / IF section 2 Modulation / demodulation section 3 Digital signal processing circuit section 4 RF / IF section 5 Modulation / demodulation section 6 Digital signal processing circuit section 7 Line control circuit section 8 Control section 9 Transmit / receive antenna 10 RF / IF section 11 Modulation / demodulation section 12 Digital Signal processing circuit unit 13 Control unit 14 Transmission / reception antenna 15 Microprocessor 16 Program memory 17 Work memory 18 Receivable radio base station monitor table memory 19 Link channel establishment radio base station data table memory 20, 21 Radio base station (transmission output: large) 22, 23 Radio base station (transmission output: small) 24, 25, 26, 27 Radio mobile station 28 Service zone of radio base station 20 Service zone of radio base station 21 30 Service zone of radio base station 22 Service of radio base station 23 Zone

Claims (4)

[Claims] 1. A radio communication system capable of transmission output control, comprising: a plurality of radio base stations having different transmission output levels; and one or a plurality of radio mobile stations connected by radio channels. From the station, there is provided means for transmitting an identification code according to the transmission output level, and in the wireless mobile station, means for judging the transmission level of the wireless base station from the identification code, and the transmission level of the wireless base station. A wireless communication system characterized by setting the transmission output level of its own station to an appropriate value (initial value) in accordance with the above. 2. The wireless communication system according to claim 1, wherein the wireless base station dynamically sets an identification code according to a transmission output level. 3. In the wireless mobile station, when a communication channel is switched from a wireless base station to a different wireless base station, the transmission output level of the local station is changed according to the transmission level of the switching destination wireless base station. Is set to a suitable value (initial value). 4. The radio according to claim 1, wherein the radio mobile station preferentially connects the radio base station having a low transmission output level among the connectable radio base stations. Communications system.