JPH0748902B2 - Wireless communication system - Google Patents

Description

The present invention relates to a wireless communication system in which wireless channels are efficiently arranged in a multi-channel access system.

[Conventional technology]

Conventionally, in the multi-channel access wireless communication method, there are an MCA method using a large zone used for a commercial dispatch system and an MTS method using a small zone used for a car phone.

The MCA method is suitable for making a press talk call, but the repeated use of the wireless channel was limited.

[Problems to be solved by the invention]

As mentioned above, the large-zone method and the small-zone method have mutually contradictory drawbacks.
There was a drawback that communication and 1: 1 communication of car phones could not coexist.

The object of the present invention is, except for such drawbacks, 1: 1 and 1: n.
An object of the present invention is to provide an efficient wireless communication system capable of switching the communication of.

[Means for solving problems]

The configuration of the present invention includes a plurality of terminal stations, a plurality of wireless zones, and a plurality of wireless channels, the wireless channel is divided into a control channel and a call channel for access, and the wireless zone includes a plurality of access points. A plurality of small zones that repeatedly use the call channels, and a large zone that overlaps the plurality of small zones and uses a plurality of wireless channels different from the plurality of call channels, and configures each of the small zones. In a wireless communication system in which a control channel transceiver is provided only in the base station where it is arranged, and a control channel transceiver is not provided in the base station that is arranged in the large zone, a call signal from the terminal station If the includes a large zone or small zone designation, the corresponding call channel to be used in the large zone or small zone. Characterized in that to perform the specified Le.

〔Example〕

 Next, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a system configuration diagram of an embodiment of the present invention. The service area of this system is an area in the large zone indicated by the service area 35, and this area 35 is covered by the base station 15. The service area 35 is divided into small zone areas of service areas 31-34, and each area 31-34 is covered by a base station 11-14. At the time of arranging such base stations, the mobile station 21 operates the base stations 11, 15
Can communicate with both. Control station 40 is each base station
Control 11-15.

In this system, it is possible to use the same radio channel where the service areas do not overlap. In this figure, the base stations 11,13
And 12, 14 can use the same radio channel.

Now, assuming a 30CH call radio channel, the large zone 35
If all of them are placed in the base station 15, the call volume of about 25 erl can be processed if the call loss rate is 5%. On the other hand, small zones 31 to 3
If the wireless channels are placed only in the four base stations 11 to 14,
Since wireless channels can be used repeatedly in non-overlapping zones, 15CH can be placed in each small zone.
At this time, if the call loss rate is 5%, 10.5 ^erl x 4 zones = 4
Can handle 2erl traffic.

In this way, a large amount of call volume can be processed by repeatedly using the wireless channel in the small zone, but the call in this small zone is an effective method when making a 1: 1 call like an ordinary telephone line.

The small zone method is not effective for 1: n calls such as dispatch work. Now, when the mobile stations 21 to 23 talk by press talk, the base stations 11 to 13 simultaneously use the wireless channel, so that only the processing of 10.5erl can be performed. The large zone system is more efficient for such applications.

In actual business communication, it will be a mixture of 1: 1 telephone-like communication and 1: n press talk. For this reason 30
The CH wireless channel is divided and placed as follows.

10CH is divided into a large zone and 20CH is divided into small zones, and each of the base stations 11 to 14 has 10CH, and the base station 15 also has 10CH.
At this time, the call volume of 6.2 ^erl × 5 zones = 31 ^erl can be processed. At this time, the small zone wireless channel is used for 1: 1 communication, and the large zone wireless channel is used for press talk. At this time, when all the small-zone wireless channels are used, it is possible to assign the large-zone wireless channels even with 1: 1 communication.

FIG. 2 is a block diagram of an example of the mobile station of this embodiment.
In the figure, 1 is an antenna, 2 is a transmission / reception switch, 3 is a receiving unit, 4
Is a synthesizer, 5 is a transmission unit, 6 is a control unit, 7 is a call switch, 8 is a selection switch, 9 is a dial of a command desk, 18
Indicates a speaker and 19 indicates a microphone. When making a call, the number of the mobile station of the other party or the number of the command desk in the dispatch system is set by the dial 9. The selection switch 8 designates communication in the large zone or communication in the small zone, and the call switch 7 is turned on. The control unit 6 controls the transmission unit 5,
Send a call signal on the control channel. In the base station and the control station, the communication channel of the large zone or the small zone is designated according to the control signal. The mobile station detects the call channel from the received signal and switches to the designated channel to carry out the call.

FIG. 3 is a block diagram of an example of the base station and the control station of this embodiment. The large zone base station 15 includes an antenna 51, a duplexer 52, call transmitters 53 and 54, and call receivers 55 and 56. The small zone base station 11 includes a control transmitting unit 65 and a control receiving unit 66 in addition to the large zone base station device.

The control channel signal transmitted from the mobile station is received by the control receiver 66 and added to the controller 42 of the control station 40. The control unit 42 analyzes the signal, and if the signal specifies the large zone, the matrix switch 41 controls so that the signal of the receiving unit 55 of the large zone is connected to the transmitting unit 53.

This enables the mobile station 6 to perform press talk with other mobile stations 22 and 23. Then, the control channel transmission unit 65 is designated to switch to the communication channels 53 and 55 of the large zone. At this time, in the dispatch system, it is necessary to specify channel switching to the mobile stations 22 and 23 as well, so the base stations 12 and 1
The signal is also sent from 3.

On the other hand, if the signal from the mobile station designates the small zone, first, a process of assigning a call channel to the originating mobile station is performed. Next, a process of calling the called mobile station and assigning a call channel is performed. Then, the matrix switch 41 is operated to connect the originating mobile station and the terminating mobile station.

〔The invention's effect〕

As described above, the present invention enables more efficient wireless communication by coexisting a communication channel of a small zone and a communication channel of a large zone including a plurality of small zones.

[Brief description of drawings]

FIG. 1 is a system configuration diagram of an embodiment of the present invention, FIG. 2 is a block diagram of an example of a mobile station of the present embodiment, and FIG. 3 is a block diagram of an example of a base station and a control station of the present embodiment. . 1,51,61 ... Antenna, 2 ... Transmission / reception switch, 3 ... Reception part, 4 ... Synthesizer, 5 ... Transmission part, 6,42 ... Control part, 7 ... Call switch, 8 ... … Selection switch, 9 ……
Dial, 11 to 15 …… Base station, 18 …… Speaker, 19 ……
Microphone, 21-23,25 ... Mobile station, 31-35 ... Service area, 40 ... Control station, 41 ... Matrix switch, 43 ...
… Control lines, 44,45 …… Connecting lines, 52,62 …… Common devices.

Continuation of front page (51) Int.Cl. ⁶ Identification code Office reference number FI Technical indication location 7304-5K H04B 7/26 109 H 7304-5K H04Q 7/04 D

Claims (1)

[Claims] 1. A plurality of terminal stations, a plurality of wireless zones, and a plurality of wireless channels, wherein the wireless channels are divided into a control channel and a call channel for access, and the wireless zone is accessed by the plurality of calls. It is composed of a plurality of small zones in which the channels are repeatedly used and a large zone in which the plurality of small zones are overlapped with each other and a plurality of wireless channels different from the plurality of communication channels are used, and the small zones are arranged in each of the small zones. In the wireless communication system in which the control channel transceiver is provided only in the base station that is set, and the control channel transceiver is not provided in the base station that is arranged in the large zone, the call signal from the terminal station is transmitted. When the designation of the large zone or the small zone is included, the call channel used in the large zone or the small zone is correspondingly Wireless communication system, characterized in that to perform a constant.