JPH07240965A - Multi-address communication system - Google Patents

Abstract

PURPOSE:To provide the multi-address communication system for enabling communication even to a slave station in a radio area provided with no representative slave station. CONSTITUTION:This system is composed of lines 11-13 for general communication, a line 12 for multi-address communication, and plural transmitters/receivers 14-1 to 14-3 provided corresponding to respective plural radio areas. In the case of multi-address communication, the line 12 for multi-address communication and the plural transmitters/receivers 14-1 to 14-3 are connected corresponding to a control signal, and the multi-address communication is executed with slave stations 5-1 to 5-5 existent in plural radio areas 6-1 to 6-3. For example, the slave station 5-1 in the radio area 6-1 is defined as the representative slave station, and the other slave stations 5-2 to 5-5 execute only the reception.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a broadcast communication system in a cellular system, and more particularly to a broadcast communication system capable of broadcasting to slave stations in a plurality of wireless areas by using a communication protocol of a general telephone network. Regarding the information communication system.

[0002]

2. Description of the Related Art Generally, in wireless communication, it is conceivable to increase the transmission power of a wireless base station and a wireless mobile station to raise the antenna and raise the receiving sensitivity to widen the service area. Although one radio base station can cover a wide area, it is expensive, and the radio frequency used in this area has a drawback that the effective efficiency of the radio frequency is poor because it cannot be used again unless the user goes far away. Therefore, the service area is divided into small areas, each divided area is provided with a radio base station that covers only the area, and by repeatedly using the same frequency between radio base stations that do not cause interference,
A small zone system was considered to improve economy and use efficiency of radio frequencies. A system that employs a small zone system in which the service area is divided into small zones and the same frequency is repeatedly used is called a cellular system, and is used for car phones and the like. The cellular system is described, for example, in "Car Phone," supervised by Moruji Kuwahara (Corona Publishing Co., February 10, 1985), Chapter 4, "Small Zone Construction Method".

Broadcast communication is a function of simultaneously transmitting the same information such as a message, voice and image to a plurality of parties. In broadcast communication, usually, a plurality of destinations are designated in advance or at the time of transmission. For example, a system such as a facsimile machine, VAN, or electronic mail is equipped with a broadcast communication service function using a storage means. The broadcast communication method in the conventional wireless communication system is
As shown in FIG. 7, the master station 1 first transmits a message to the base station (radio base station) 2, and the base station 2 transmits each message from the base station antenna 3-1 to each slave station 5 in the destination radio area 6-1. −
The broadcast message was wirelessly transmitted to 1 to 5-3. Here, 4-1 is a downlink wireless line, and f1 is its frequency. In this case, there is an advantage that the number of wireless lines in the downlink direction from the master station 1 to the slave stations 5 can be one wireless line of the same frequency f1 regardless of the number of slave stations. As described above, the conventional broadcast communication system has a great merit that a call signal from a master station can be simultaneously transmitted to a plurality of slave stations within the same radio area by one radio channel.
In many cases, a broadcast-only system that does not connect to the general telephone network is built. This is one-to-one with the conventional general telephone network.
This is because there is no communication protocol that realizes the line connection between one master station and many slave stations, because the communication of 1 to n (n ≧ 2) is not considered. As a conventional document regarding broadcast communication, see, for example, “Mobile communication in the ISDN era” supervised by Yasuhiko Yasuda (Ohm Co., July 25, 1992) pp. 29, "MCA System", pp. There are 34 "teleterminal systems".

The cellular system employs a communication protocol conforming to the communication protocol of the general telephone network for connecting to the general telephone network. When implementing a broadcast communication service in a cellular system, when performing non-telephone communication such as FAX to a large number of receiving stations, a method of sequentially using the broadcast by the function of the terminal can be considered. In addition, a method of utilizing the three-party communication function is also conceivable for a small number of voice communication. However, it cannot be said that these methods effectively utilize the merit of the broadcast communication in the wireless system. Japanese Patent Application No. 5-2769 is a representative slave station response method for performing broadcast communication in a cellular system without converting a protocol from a general telephone network (that is, with a communication protocol corresponding to one to one).
No. 24 is proposed. In this method, one of a plurality of wireless slave stations to be broadcast is set as a representative slave station, and this representative slave station is provided with a one-to-one communication means with the master station, so that a child other than the representative slave station The station is characterized by having the same station information as the representative slave station and the remaining means except the one-to-one communication means of the representative slave station.

The operation of the representative slave station response system will be briefly described with reference to FIG. In the figure, first, the master station 1 transmits a message to the base station 2 according to the communication protocol of the general telephone network 9 (PSTN), and the base station 2 is a representative slave station located in the wireless area 6-1 from the base station antenna 3-1. 7. Send broadcast message to 7. Here, 4-1 is a downlink radio line, f1 is its frequency, 8 is an uplink radio line, and F1 is its frequency. At that time, other slave stations 5-1 and 5- other than the representative slave station 7
2 intercepts signals transmitted between the master station 1 and the representative slave station 7. Further, the slave stations 5-1 and 5-2 do not send a response signal to the master station 1. In this representative slave station response method, the slave station 5-in the area 6-2 having no representative slave station
4 cannot receive the message transmitted by the base station 2.

[0006]

As described above, in the above-mentioned representative slave station response method, broadcast can be performed from the master station to a plurality of slave stations without protocol conversion within the wireless area having the representative slave station. It is only for the child station. That is,
The master station 1 communicates with the representative slave station 7 via the base station 2 in a one-to-one correspondence, and the other slave stations 5-1 and 5-2 in the wireless area 6-1 to which the representative slave station 7 belongs. However, there is a problem that the broadcast communication cannot be performed to the slave station 5-4 in the wireless area 6-2 to which the representative slave station 7 does not belong because the broadcast communication is performed in the form of intercepting it. It was The purpose of the present invention is to
It is an object of the present invention to solve the above-mentioned problems and to provide a broadcast communication method capable of communicating with a slave station in a wireless area that does not have a representative slave station in the representative slave station response method in a cellular system.

[0007]

In order to solve the above-mentioned problems, the broadcast communication system of the present invention is an exchange station (exchange) 1
0 for communication with the wireless base station 11-
1 to 11-3 or the broadcast communication line 12, and a plurality of transmission / reception devices 14-1 to 14-3 corresponding to a plurality of wireless areas 6-1 to 6-3 to the wireless base station.
And each of the transmission / reception devices 14-1 to 14-3 is individually connected to the general communication lines 11-1 to 11-3 by a control signal from the exchange 10 or all the transmission / reception devices are broadcast. Switching means for switching whether to connect to the communication line 12 is provided, and when there is a broadcast communication request from the master station, the exchange station connects the master station and the wireless base station with the broadcast communication line. , By controlling the switching means so as to connect a plurality of transmitters / receivers of the wireless base station to the broadcast communication line, the master station broadcasts to the slave stations in a plurality of wireless areas. It is characterized by that. (Claim 1) In addition, the wireless base station is provided with a plurality of transmitting / receiving devices corresponding to each of the plurality of wireless areas and a broadcast transmitting / receiving device capable of transmitting / receiving the same signal to / from the plurality of wireless areas. The transceiver device and general communication line of
When the broadcast transmission / reception device and the broadcast communication line are directly connected and the master station requests broadcast communication, the exchange station connects the master station and the wireless base station with the broadcast communication line. By doing so, it is characterized in that the master station performs broadcast communication to the slave stations in a plurality of wireless areas. (Claim 2)

[0008]

The present invention can be applied to a general communication line, a broadcast communication line,
By providing a plurality of transmission / reception devices provided corresponding to each of a plurality of wireless areas, and switching means for switching these lines and a plurality of transmission / reception devices depending on the communication mode, a plurality of general communication lines from the exchange can be provided. From the master station by connecting to a plurality of transmitting / receiving devices provided corresponding to each of the wireless areas, or by collectively connecting the broadcast communication lines from the exchange to the plurality of transmitting / receiving devices. It has become possible to broadcast to slave stations in the wireless area. (Claim 1) Further, the wireless base station is provided with a plurality of transmitting / receiving devices respectively corresponding to a plurality of wireless areas and a broadcast transmitting / receiving device capable of transmitting / receiving the same signal to / from a plurality of wireless areas. When the transmitter / receiver and the general communication line are directly connected to each other and the broadcast transmitter / receiver and the broadcast communication line are directly connected, and the master station requests the broadcast communication, the broadcast communication line and the communication line are directly connected to it. By using the broadcast transmitting / receiving device, it becomes possible to perform broadcast communication from the master station to slave stations in a plurality of wireless areas. (Claim 2)

[0009]

【Example】

(Embodiment 1) FIG. 1 shows Embodiment 1 of the present invention (corresponding to claim 1). In the figure, one base station 2 has three wireless areas 6-1 to 6-1 and three stations (5-
1 to 3), one station (5-4) exists in the wireless area 6-2, and one station (5-5) exists in the wireless area 6-3. Further, the same components as those in FIG. 8 are designated by the same reference numerals. The operation of this embodiment will be described below.
The exchange 10 is provided with a broadcast communication line 12 in addition to the general communication lines 11-1 to 11-3.
The exchange 10 and the broadcast communication line 12 are connected by requesting the broadcast communication from the exchange 10 at the exchange by the (PSTN) communication protocol. The broadcast communication request from the master station 1 to the exchange 10 can be easily realized, for example, by setting a broadcast communication telephone number in advance. The base station 2 causes the transmission / reception devices 14-1 to 14-3 to transmit the broadcast line 1 by the broadcast line switching signal from the control line 13.
It has the function of connecting to 2.

The transmitter / receivers 14-1 to 14-3 can transmit / receive signals to / from the slave stations existing in the wireless areas 6-1 to 3 via the base station antennas 3-1 to 3 respectively. . That is, the transmitter / receiver 14-1 transmits / receives signals to / from the slave stations 5-1 to 3 existing in the wireless area 6-1 via the base station antenna 3-1 and the channel 4-1 (frequency f1). The transmission / reception device 14-2 transmits / receives a signal to / from the slave station 5-4 existing in the wireless area 6-2 via the base station antenna 3-2 and the channel 4-2 (frequency f2). The transceiver 14-3 has a base station antenna 3-
3, signals are transmitted / received to / from the slave stations 5-5 existing in the wireless area 6-3 via the channel 4-3 (frequency f3). Here, the frequencies f1 to f3 of the respective channels are different (f1 ≠ f2 ≠ f3).

Next, the operation sequence of the first embodiment will be described in detail with reference to FIG. This figure shows the above-mentioned Japanese Patent Application No. 5-2.
The following is an example of a sequence when the representative slave station response method proposed in No. 76924 is applied to the present invention (however, the representative slave station is the slave station 5-1 existing in the wireless area 6-1. ). The master station 1 communicates with the representative slave station 5-1 using the communication protocol used in the general telephone network 9. That is, the master station 1 receives a dial tone from the general telephone network 9 after calling the terminal on-hook, and the representative slave station 5
Switch 10 by dialing a telephone number of -1
Initiate broadcast communication to. The exchange 10 sends back the activation completion signal by receiving the activation signal from the general telephone network 9 and then detects that the broadcast communication is activated by receiving the selection signal from the general telephone network 9. The line is connected to the information communication line 12. Further, at the time point 18, the broadcast line switching signal 19 is transmitted to the base station 2 using the control line 13, and the ringing tone is transmitted to the master station 1.

When the base station 2 receives the broadcast line switching signal 19 from the exchange 10, the base station 2 connects the broadcast communication line 12 to each of the transmission / reception devices 14-1 to 14-3. Broadcast line 12
When the transmission / reception devices 14-1 to 14-3 are connected to the line,
The exchange 10 sends a calling signal 20 to the base station 2. The base station 2 uses the transceivers 14-1 to 14-3 to transmit the call signal 20. At this time, the downlink channels 4-1 to 3-1 must have different frequencies. In this example, channel 4-1 has frequency f1 and channel 4-2 has frequency f1.
2, when the frequency of the channel 4-3 is f3 (f1 ≠ f2 ≠
f3). Since the slave stations 5-1 to 3 are in the wireless area 6-1, they use the channel 4-1. The slave station 5-4 uses the channel 4-2 and the slave station 5-5 uses the channel 4-3. . Upon receiving the calling signal 20 from the base station 2, the representative slave station 5-1 transmits a response 21 and shifts to the communication mode. In this case, the slave stations 5-2 to 5 have the same slave station information as that of the representative slave station 5-1, and by receiving the call signal 20, it is detected that the own station is called, and the master station It does not respond to 1 and shifts to the communication mode.

When the communication is completed and the master station 1 goes on hook to complete the communication, the master station 1 sends a restoration signal to the general telephone network 9, and the general telephone network 9 sends an end signal. The exchange 10 sends an end signal 23 at time 22. The base station 2 sends the end signal 23 using the transceivers 14-1 to 14-3. When the representative slave station 5-1 receives the call end signal 23 from the base station 2, the representative slave station 5-1 transmits the restoration signal 24 and completes the broadcast communication. When the disconnection signal is transmitted from the exchange 10 to the general telephone network 9, the recovery completion signal is returned from the general telephone network 9 to the exchange 10. On the other hand, when the slave stations 5-2 to 5 receive the end signal 23, the slave stations 5-2 to 5 complete the broadcast communication without making a response. In addition, when it is not the broadcast communication, communication is individually performed via the general communication lines 11-1 to 11-3, the transmission / reception devices 14-1 to 14-3, and the base station antennas 3-1 to 3-3.

(Embodiment 2) FIG. 3 shows the construction of Embodiment 2 in which the construction of Embodiment 1 is applied to a cellular system using satellites. In the figure, one base station 2 is provided with three wireless areas 6-1 to 3 through an artificial satellite 17, and three stations (5-1 to 3) and wireless area 6-2 are provided in the wireless area 6-1. 1 shows a case where one station (5-4) has a slave station of one station (5-5) in the wireless area 6-3. Further, the same reference numerals are given to the same components as those in FIG. The operation of this embodiment will be described below. The exchange 10 in the exchange includes a broadcast communication line 12 in addition to the general communication lines 11-1 to 11-3, and the master station 1 connects to the exchange 10 by the communication protocol of the general telephone network 9 (PSTN). When the broadcast communication is requested, the exchange 10 and the broadcast communication line 12 are connected. The broadcast communication request from the master station 1 to the exchange 10 can be easily realized, for example, by setting a broadcast communication telephone number in advance. The base station 2 has a function of connecting the transmission / reception devices 14-1 to 14-3 to the broadcast communication line 12 by a broadcast line switching signal from the control line 13. The transceivers 14-1 to 14-3 can transmit and receive signals to and from the slave stations existing in the wireless areas 6-1 to 3 via the base station antennas 3-1 to 3 and the artificial satellites 17, respectively. is there. The operation sequence in this case is the same as that in the case of the above-described first embodiment, and therefore will be omitted.

(Third Embodiment) FIG. 4 shows a third embodiment of the present invention (corresponding to claim 2). In the figure, one base station 2 includes three wireless areas 6-1 to 6-1. Three stations (5-1 to 3) in the wireless area 6-1 and one station (5- in the wireless area 6-2.
4) shows a case where one station (5-5) has a slave station in the wireless area 6-3. Further, the same reference numerals are given to the same parts as those in FIG. The operation of this embodiment will be described below. The exchange 10 in the exchange includes a broadcast communication line 15 in addition to the general communication lines 11-1 to 11-3, and the master station 1 connects to the exchange 10 by the communication protocol of the general telephone network 9 (PSTN). On the other hand, when the broadcast communication is requested, the exchange 10 and the broadcast communication line 15 are connected. The broadcast communication request from the master station 1 to the exchange 10 can be easily realized, for example, by setting a broadcast communication telephone number in advance. In this embodiment, the base station 2 uses the broadcast communication line 15
It is characterized in that it is provided with a broadcast transmission / reception device 16 connected to. The broadcast transmitter / receiver 16 is connected to the base station antennas 3-1 to 3 corresponding to the wireless areas 16-1 to 16-3, and transmits / receives signals to / from slave stations existing in the respective wireless areas. Is possible.

Next, the operation sequence of the third embodiment will be described in detail with reference to FIG. This figure shows the above-mentioned Japanese Patent Application No. 5-2.
The following is an example of a sequence when the representative slave station response method proposed in No. 76924 is applied to the present invention (however, the representative slave station is the slave station 5-1 existing in the wireless area 6-1. ). The master station 1 communicates with the representative slave station 5-1 using the communication protocol used in the general telephone network 9. That is, the master station 1 receives a dial tone from the general telephone network 9 after calling the terminal on-hook, and the representative slave station 5
Switch 10 by dialing a telephone number of -1
Initiate broadcast communication to. The exchange 10 sends back a start-up completion signal by receiving a start-up signal from the general telephone network 9 and then detects that the broadcast communication is started by receiving a selection signal from the general telephone network 9 for broadcast communication. Line 1
Line connection to 5. When the broadcast communication line 15 and the broadcast transmission / reception device 16 are connected, the exchange 10
Sends a ringing tone to the master station 1 and sends a ringing signal 20 to the base station 2
Send to.

The base station 2 uses the broadcast transmitter / receiver 16 to send out a calling signal 20. At this time, downlink channel 4
-1 to 3 must have different frequencies.
In this example, channel 4-1 is frequency f1, channel 4-
2 is the frequency f2 and the channel 4-3 is the frequency f3 (f1 ≠ f2 ≠ f3). Since the slave stations 5-1 to 3 exist in the wireless area 6-1, they use the channel 4-1.
The slave station 5-4 has a channel 4-2, and the slave station 5-5 has a channel 4
-3 is used. At this time, the downlink channels 4-1 to 3-1 must have different frequencies. In this example, channel 4-1 has frequency f1 and channel 4-2 has frequency f1.
2, when the frequency of the channel 4-3 is f3 (f1 ≠ f2 ≠
f3). Since the slave stations 5-1 to 3 are in the wireless area 6-1, they use the channel 4-1. The slave station 5-4 uses the channel 4-2 and the slave station 5-5 uses the channel 4-3. . Upon receiving the calling signal 20 from the base station 2, the representative slave station 5-1 transmits a response 21 and shifts to the communication mode. In this case, the slave stations 5-2 to 5 have the same slave station information as that of the representative slave station 5-1, and by receiving the call signal 20, it is detected that the own station is called, and the master station It does not respond to 1 and shifts to the communication mode.

When the communication is completed and the master station 1 goes on-hook to complete the communication, a recovery signal is sent from the master station 1 to the general telephone network 9 and an end signal is transmitted from the general telephone network 9. The exchange 10 sends an end signal 23 at time 22. The base station 2 sends the end signal 23 using the transceivers 14-1 to 14-3. When the representative slave station 5-1 receives the call end signal 23 from the base station 2, the representative slave station 5-1 transmits the restoration signal 24 and completes the broadcast communication. When the disconnection signal is transmitted from the exchange 10 to the general telephone network 9, the recovery completion signal is returned from the general telephone network 9 to the exchange 10. On the other hand, when the slave stations 5-2 to 5 receive the end signal 23, the slave stations 5-2 to 5 complete the broadcast communication without making a response. In addition, when it is not the broadcast communication, communication is individually performed via the general communication lines 11-1 to 11-3, the transmission / reception devices 14-1 to 14-3, and the base station antennas 3-1 to 3-3.

(Embodiment 4) FIG. 6 shows the configuration of Embodiment 4 in which the configuration of Embodiment 3 is applied to a cellular system using satellites. In the figure, one base station 2 is provided with three wireless areas 6-1 to 3 through an artificial satellite 17, and three stations (5-1 to 3) and wireless area 6-2 are provided in the wireless area 6-1. 1 shows a case where one station (5-4) has a slave station of one station (5-5) in the wireless area 6-3. Further, the same reference numerals are given to the same parts as those in FIG. The operation of this embodiment will be described below. The exchange 10 in the exchange includes a broadcast communication line 15 in addition to the general communication lines 11-1 to 11-3, and the master station 1 connects to the exchange 10 by the communication protocol of the general telephone network 9 (PSTN). On the other hand, when the broadcast communication is requested, the exchange 10 and the broadcast communication line 15 are connected. The broadcast communication request from the master station 1 to the exchange 10 can be easily realized, for example, by setting a broadcast communication telephone number in advance. The base station 2 includes a broadcast transmitter / receiver 16 connected to the broadcast communication line 15. The broadcast transmitter / receiver 16 is connected to the base station antennas 3-1 to 3 corresponding to the wireless areas 16-1 to 3 and is connected to the artificial satellite 17.
It is possible to transmit and receive a signal to / from a slave station existing in each wireless area via the. The operation sequence is the same as in the case of the above-described third embodiment, and will be omitted.

[0020]

As described above, according to the broadcast communication system of the present invention, it is possible to set different channels for a plurality of wireless areas and perform broadcast communication. Therefore, in the representative slave station response method, there is a remarkable effect that the slave stations are scattered in a plurality of wireless areas, and even the slave stations in a wireless area without a representative slave station can perform broadcast communication. .

[Brief description of drawings]

FIG. 1 is a diagram showing a first embodiment (corresponding to claim 1) of the present invention.

FIG. 2 is a diagram showing an operation sequence according to the first embodiment of the present invention.

FIG. 3 is a diagram showing a second embodiment in which the first embodiment is applied to a cellular system using satellites.

FIG. 4 is a diagram showing a third embodiment (corresponding to claim 2) of the present invention.

FIG. 5 is a diagram showing an operation sequence according to the third embodiment of the present invention.

FIG. 6 is a diagram showing a fourth embodiment in which the third embodiment is applied to a cellular system using satellites.

FIG. 7 is a diagram showing a conventional example of a broadcast communication system in a wireless communication system.

FIG. 8 is a diagram for explaining a representative slave station response method and its problems.

[Explanation of symbols]

1: parent station, 2: base station (wireless base station), 3-1 to 3-1-
3: base station antenna, 4-1 to 4-3: downlink channel,
5-1 to 5-5: slave station, 6-1 to 6-3: wireless area,
7: Representative slave station, 8: Upstream channel, 9: General telephone network (public network), 10: Switch, 11-1 to 11-3: General communication line, 12: Broadcast communication line, 13: Control line , 14
-1 to 14-3: Transmission / reception device, 15: Broadcast communication line,
16: Broadcast transmitter / receiver, 17: Satellite

Claims (2)

[Claims] 1. In a broadcast communication method in which a master station broadcasts to a slave station in a plurality of wireless areas via a general telephone network, an exchange station, and a wireless base station, the exchange station communicates with a wireless base station. The wireless base station has a plurality of transmitting / receiving devices corresponding to each of the plurality of wireless areas, and has means for connecting between the plurality of wireless areas by one or more general communication lines or one broadcast communication line. At the same time, it has a switching means for switching between each of the transmission / reception devices individually connected to the general communication line or all of the plurality of transmission / reception devices connected to the broadcast communication line under the control of the exchange. When there is a request for broadcast communication from the master station, the exchange station connects the master station and the radio base station with a broadcast communication line, and connects with the plurality of transceiver devices of the radio base station. I'll connect the communication line As described above, the broadcast communication system is characterized in that the master station carries out the broadcast communication to the slave stations in a plurality of wireless areas by controlling the switching means. 2. In a broadcast communication system in which a master station broadcasts to a slave station in a plurality of wireless areas via a general telephone network, an exchange station, and a radio base station, the exchange station communicates with a radio base station. The wireless base station has a plurality of transmitting / receiving devices and a plurality of transmitting / receiving devices corresponding to each of the plurality of wireless areas, and has means for connecting between the plurality of wireless areas by one or more general communication lines or one broadcast communication line. A broadcast transmitter / receiver capable of transmitting and receiving the same signal to and from the wireless area, and the plurality of transmitter / receivers and the general communication line are connected to each other, and the broadcast transmitter / receiver and the broadcast communication device are connected to each other. When the master station has a request for broadcast communication, the exchange station connects the master station and the radio base station with a broadcast communication line, and the master station To slave stations in multiple wireless areas. The broadcast communication method is characterized in that the broadcast communication is performed.