JPH09215032A - Mobile object communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile object communication system free from radio interference even when another mobile station under speaking already exists in the adjacent zone. SOLUTION: When a mobile station 1 under speaking moves between adjacent zones and another mobile station 2 under speaking exists in the zone at the destination of move-in, at a 1st means, the speech line of the mobile station 1 that newly moves in is forcedly disconnected. When the mobile station 1 under speaking moves between the adjacent zones and the other mobile station 2 under speaking already exists in the zone at the destination of move-in, the speech line of a mobile station having lower priority between these mobile stations 1 and 2 is forcedly disconnected by a 2nd means.

Description

Detailed Description of the Invention

[0001]

The present invention relates to a plurality of base stations,
The present invention relates to a mobile communication system in which communication between mobile stations moving between these base stations is performed by sequentially switching each base station according to the movement of the mobile station, and particularly, a rail transportation system, etc. The present invention relates to a mobile communication system suitable for a transportation system using a dedicated track.

[0002]

2. Description of the Related Art A mobile communication system intended for railway vehicles is constructed, for example, as shown in FIG. In the system shown in FIG. 2, 1 is a mobile station for the A train, 2 is a mobile station for the B train, and 3 is a leaky coaxial cable (LCX), which is arranged along a track over a predetermined range for each base station. It can be replaced by an antenna.
Reference numeral 4 is an Nth base station, 5 is an N + 1th base station, 6 is a line controller, 7 is a C1 fixed station (operation panel), and 8 is a C2 fixed station (operation panel).

The mobile stations 1 and 2 are installed in respective trains, and the fixed stations 7 and 8 are connected to the leaky coaxial cables 3 of the base stations 4 and 5 under the control of the line controller 6. Two-way communication is performed by radio waves via.

While the train is moving, each mobile station 1, 2
Is a range of communication by the leaky coaxial cable 3 of each of the base stations 4 and 5, that is, by switching a base station to be a communication partner for each call zone (hereinafter referred to as a zone),
It enables continuous communication between each zone.

By the way, in such a mobile communication system, the procedure for continuing a call when a mobile station moves from a certain zone during a call to an adjacent zone has been conventionally performed as shown in FIG.
It was as shown. Now, at a certain point before time t _{0 in} FIG. 3, when the A train exists in the zone of the Nth base station 4, the fixed station 7 of the C1 calls the mobile station 1 of the A train, or If the mobile station 1 calls the fixed station 7, the line controller 6 verifies the individual number of the mobile station 1 by the MSK signal to establish a line connection, whereby both the base station 4 and the mobile station 1 enter the duplex state. The fixed station 7 and the mobile station 1 are ready for communication.

After that, the base station 4 constantly monitors the received signal strength from the mobile station 1, and holds the communication line on condition that the received signal strength is above a preset reference level. . Next, if the train A travels in the direction indicated by the arrow in FIG. 3 and the mobile station 1 approaches the zone of the adjacent N + 1th base station 5, then the adjacent base station 5 will also transmit from the mobile station 1 soon. Radio waves will be received.

When the received signal strength at the base station 5 at this time becomes equal to or higher than the above-mentioned reference level, the squelch of the receiver of the base station 5 opens. Therefore, using this squelch operation, at the time point t ₀ when it is opened, the received signal from the mobile station 1 and the number of the base station 5 are transmitted to the line controller 6 as shown in (a) of FIG. As a result, as a result, FIG.
As shown in FIG. 5, the line control device 6 can detect that a new incoming call arrives at the adjacent base station 5. However, at this point in time, the line by the previous N-th base station 4 is still alive, so the line control device 6 causes the new N +
The receiving line by the first base station 5 is not formed.

[0008] However, when the train A further travels and the mobile station 1 completely moves to the zone of the adjacent base station 5, the base station 4 in the previous zone receives the received signal strength from the mobile station 1 at the time point. At t ₁ , the level falls below the reference level, which closes the squelch of the radio of the base station 4 and, as shown in FIG. 3C, stops the transmission of the incoming signal from the base station 4 to the line control device 6. It

Therefore, at the time t ₁ when the squelch is closed, the line control device 6 stops the transmission to the base station 4 in the previous zone as shown in (d) of FIG. Three
As shown in (e) of (3), transmission is activated for the base station 5 in the new zone.

In other words, the line control device 6 in this prior art is such that when a communication line is formed via a certain base station, for example, the base station 4, the base station adjacent to this, for example, the base station 5, first As shown in (a) of FIG. 3, a received signal of a certain level or higher is detected, and thereafter, as shown in (c), the received signal from the base station 4 that has been obtained until then is at a certain level. It is configured to switch the line connection to the next adjacent base station 5 on the condition that the level has decreased below.

Next, a train number request signal is communicated to the mobile station 1 via the zone of the new base station 5 as shown in (f) of FIG. As shown in (g) of 3, the train number returned from the mobile station 1 is received, and this is collated with the train number of the mobile station talking in the previous zone. As shown in (h),
The voice line of the fixed station 7 is connected to the line of the new base station 5, and the call can be continued only by inserting a short interruption period T _S until the time t ₂ required for this connection change. .

However, when the train numbers do not match, the line connection is postponed and tracking is not performed. Although the above operation is performed when the mobile station 1 and the fixed station 7 are connected, the same operation is performed when the fixed station 8 is connected, and the fixed station 8 is simply replaced in place of the fixed station 7. All that is required is the same even when the mobile station 1 replaces the mobile station 2.

[0013]

The prior art does not take into consideration the case where there is a mobile station that is already in a call in an adjacent zone, and there is a problem that interference occurs when the mobile station moves. It was That is, if there is a mobile station in a call in a certain zone, the squelch of the receiver is already open in the base station in that zone, and therefore,
Even if another mobile station enters this zone from the adjacent zone and the radio wave from this mobile station is received, it does not affect the operation of the squelch that is already open. Then, new incoming call cannot be detected and no control is performed.

This will be explained with reference to FIG. 3. As described above, the line control device 6 in the prior art, when the communication line is formed with the mobile station 1 via a certain base station, for example, the base station 4, At a base station adjacent to this, for example, the base station 5, first, as shown in (a) of FIG. 3, a received signal of a certain level or higher is detected, and thereafter, as shown in (c) of FIG. It is configured to switch the line connection to the next adjacent base station 5 on condition that the received signal from the existing base station 4 has dropped below a certain level.

Therefore, even if the next adjacent base station 5 has another mobile station in its zone and a communication line is formed with this, even if the radio wave from the newly entering mobile station 1 is received. As shown in FIG. 3 (a), no new received signal is detected, and therefore no control is performed on the mobile station 1.

As a result, another mobile station that has newly entered also receives the radio wave of the same frequency from the base station in this zone and continues the call, and therefore, the mobile station already in the call is in communication. Interference will occur. An object of the present invention is to provide a mobile communication system that does not cause interference even when there is a mobile station that is already in a call in an adjacent zone.

[0017]

According to a first aspect of the present invention, there is provided:
The above purpose is to force the call line of the newly entering mobile station to be forcibly when another mobile station in the call exists in the zone to which the mobile station is currently entering when the mobile station in the call moves between adjacent zones. Achieved by being cut into.

Further, according to the second aspect of the present invention, the above object is to set a predetermined priority level for a call in each mobile station in advance, and to move a mobile station during a call between adjacent zones. When there is another mobile station that is already in a call in the destination zone, the call line of the mobile station with a lower priority among these mobile stations is forcibly disconnected. Is achieved in this way.

[0019]

BEST MODE FOR CARRYING OUT THE INVENTION The mobile communication system according to the present invention will be described in detail below with reference to the embodiments shown in the drawings. First, an example of a mobile communication system to which the present invention is applied is shown in FIG. 2, which is the same as the above-mentioned conventional art. Therefore, the embodiment of the present invention is different from the above-mentioned conventional art in the configuration of the line control device 6, and the control for continuing the call by the embodiment is the following in each of the first and second embodiments. The point is that it is configured as described.

First Embodiment First, referring to FIG. 1, a control procedure for continuation of a call, which is executed by the line controller 6 in the first embodiment of the present invention, will be described. Now, at a certain time t ₀ , as shown in FIG.
As shown in, the mobile station 1 of the A train is in the zone of the Nth base station 4 and is talking to the C1 fixed station 7.
It is assumed that the mobile station 2 of the train is talking within the zone of the N + 1th base station 5. In this case, since the mobile stations 1 and 2 and the base stations 4 and 5 are duplex, they always detect the reception input, and as a result, the reception signals are continuously transmitted from the base stations 4 and 5. , Are input to the line control device 6.

The line control device 6 is configured to store the train number and the base station number of the mobile station that started the call on the line when setting the line.

Next, the train A travels and the base station 4
If the vehicle enters the zone of the base station 5 from the zone 1), the level of the received signal at the base station 4 will be reduced accordingly. Then, at time t ₁ , if the level falls below the reference level, the squelch of the receiver of the base station 4 is closed at this point and the transmission of the reception signal is stopped.
As shown in (c), it is detected by the line controller 6.

Therefore, the line control device 6 determines that the base station 4
That the stop of the transmission of the reception signal from the base station is detected, and that before the time t _{1 when the} stop of the transmission is detected, the adjacent base stations 4, 5
It is configured to start a series of controls described below on condition that both parties are in a call state.

First, as shown in (e) and (i) of FIG. 1, a transmission stop signal is sent to the Nth base station 4 and a restoration signal is sent to the fixed station 7. As a result, the base station 4 stops the transmission and the fixed station 7 ends (ends the call).

Next, as shown in (j) of FIG. 1, via the N + 1th base station 5, the train number of the mobile station 1 which causes the stop of transmission of the reception signal from the base station 4 at this time, That is, the train number of the A train and a signal preset for instructing the mobile station to terminate the call, that is, a restoration signal is transmitted. Correspondingly, the communication devices of the mobile stations 1 and 2 have a function of identifying the train number and a function of ending the communication in response to the recovery signal.

At this point, in the zone of the base station 5,
Since both the A train and the B train exist, the train number and the recovery signal of the A train transmitted via the base station 5 are received by both the mobile stations 1 and 2. Therefore, first, the mobile station 1
Then, since the received train numbers match, a predetermined disconnection sound is output from the communication device to forcibly disconnect. On the other hand, mobile station 2
Then, since the received train numbers do not match, the call state remains and the call with the fixed station C2 is continued.

Therefore, according to the first embodiment, when a mobile station in a call moves between adjacent zones and another mobile station in a call exists in the zone of the approach destination, a new call is made. Since the communication line of the mobile station is forcibly cut off, it is possible to reliably prevent interference when the mobile station moves between zones.

Even in the mobile communication system according to the first embodiment, when no call is made with the mobile in the adjacent zone, for example, the zone of the mobile station 5 of N + 1th number, the conventional technique described in FIG. Similarly, the connection switching control between zones is performed by transmitting and receiving the train number request signal. Therefore, at this time, even when the mobile station moves between zones, continuous communication can be continued.

Second Embodiment Next, a second embodiment of the present invention will be described. According to the first embodiment of the present invention described above, when a mobile station in a call moves between adjacent zones and another mobile station in a call exists in the destination zone, a new call is made. Since the communication line of the mobile station is forcibly cut off, it is possible to reliably prevent the occurrence of interference when the mobile station moves between zones. However, at this time, in this embodiment, In No. 1, anyway, the line of the mobile station that has entered the adjacent zone is disconnected.

By the way, in such a mobile communication system intended for railway vehicles, there is an emergency call such as a train failure or a failure, a passenger safety or a sick person. Regarding communications, it is necessary to ensure that calls are always secured.

In the first embodiment, however, the line of the mobile station that has newly entered the adjacent zone is disconnected, so that the occurrence of interference can be certainly prevented, but the new zone is newly entered at this time. Even if the call at the mobile station was an emergency call, it would be forcibly disconnected if the zone changed anyway, and dissatisfaction remained with respect to securing calls as emergency communication.

In the second embodiment, it is possible to suppress the occurrence of interference and to sufficiently secure a call for emergency communication. Therefore, as described above,
Each mobile station sets a predetermined priority for the calls made in advance, and when a mobile station in a call moves between adjacent zones, another mobile station already in the call exists in the zone to which the call is made. In this case, the communication line of the mobile station with the lower priority set among these mobile stations is forcibly disconnected.

The control procedure for call continuation executed by the line controller 6 in the second embodiment will be described below with reference to FIG. First, the mobile stations 1 and 2 and the fixed stations 7 and 8 according to the second embodiment are each provided with an input device such as a switch for making an emergency call,
When making a call, when the call is an emergency call, the operator operates the input device.

When making an outgoing call, when this input device is operated, the calling signal is set to priority 1 indicating emergency communication, and when the input device is not operated, a normal call is made. Priority 2 indicating that there is is set.

Correspondingly, the line controller 6
Is configured to store the train number and the base station number of the mobile station that started the call on the line, as well as the priority of the call at that time when setting the line.

Therefore, at a certain time t ₀ , as shown in FIG. 4, the mobile station 1 of the A train is in the zone of the Nth base station 4 and talks with the C1 fixed station 7 ( Below, A
The mobile station 2 of the B train is in communication with the fixed station 8 of C2 in the zone of the base station 5 of N + 1 (hereinafter referred to as "call").
B call), and at this time, priority level 1 representing emergency communication is set for the A call by the above-mentioned input device, and on the other hand, the B call is transmitted as a normal call and its priority is given. Suppose that the ranking was 2.

In this case, the mobile stations 1, 2 and the base stations 4, 5
Since all of them are duplex, they always detect the reception input. As a result, the reception signals are continuously transmitted from the base stations 4 and 5 and are input to the line control device 6. At this time, the line control device 6 stores that the call A has the priority 1 and the call B has the priority 2.

Here, next, the train A runs and the base station 4
If the vehicle enters the zone of the base station 5 from the zone 1), the level of the received signal at the base station 4 will be reduced accordingly. Then, at time t ₁ , if the level falls below the reference level, the squelch of the receiver of the base station 4 closes at this point and the transmission of the reception signal is stopped.
As shown in (c), it is detected by the line controller 6.
The above operation is almost the same as that of the first embodiment described with reference to FIG.

Therefore, the line control device 6 uses the base station 4
That the stop of the transmission of the reception signal from the base station is detected, and that before the time t _{1 when the} stop of the transmission is detected,
If either of the two is in a call state, one of the call lines is disconnected. At this time, in the first embodiment, the mobile station that has newly entered the zone of the base station 5 anyway. In contrast to the configuration in which the first line is disconnected, in the second embodiment, at this time, the priority of each communication line is checked and the communication line with the lower priority is disconnected to cause interference. It is designed to suppress.

For this reason, the line control device 6 is shown in FIG.
Process (k) at time t ₁ when the stop of the received signal is detected
First, a transmission stop signal is sent to the base station that stopped the transmission of the received signal, that is, the base station 4 to stop the transmission operation, as shown in (e). Then, according to the data stored in advance, the call between the mobile station 1 of the A train and the fixed station 7 of the C1, that is, the A call, and the mobile station 2 of the B train and the fixed station 8 of the C2 are performed. , The priority of the B call is checked.

Then, at this time, as described above, the priority of the A call is 1 and the priority of the B call is 2. Therefore, the mobile station 2 of the B train and the fixed station 8 of the C2 number.
It can be seen that the call between the two has lower priority.

Therefore, the line control device 6 is then operated as shown in FIG.
As shown in (m), a recovery signal is sent to the fixed station 8 for B call having the lower priority to terminate the call, and as shown in (n), the mobile station 2 for B call is also mounted. The train number of the B train in progress and the recovery signal are sent to the base station 5 and transmitted to all mobile stations located in the zone of this base station 5.

At this point, in the zone of the base station 5,
Since both the A train and the B train exist, the train number and the recovery signal of the B train transmitted via the base station 5 are received by both the mobile stations 1 and 2. As described above, the communication devices of the mobile stations 1 and 2 have the function of identifying the train number,
It is equipped with a function to terminate the call in response to the restoration signal.

Therefore, first, in the mobile station 2 of the B train, since the received train numbers match, a predetermined disconnection sound is emitted from the communication device to forcibly disconnect. On the other hand, in the mobile station 1 of the A train, since the received train numbers do not match, the call state remains and the call with the fixed station 7 of C1, that is, the A call is continued.

Therefore, according to the second embodiment, it is possible to surely suppress the occurrence of interference and sufficiently secure a call for emergency communication. As a result, it is possible to quickly respond to an emergency situation. It can greatly contribute to the improvement of train operation and passenger safety.

[0046]

According to the present invention, a blocked section is set in a zone, upstream and downstream information is added to data transmission between a mobile station and a line controller, and a base station designation signal is used. Since it is possible to easily avoid the occurrence of interference without doing so, it is possible to simplify the control of the line and eliminate the need to use a filter or the like in the processing circuit, which is economically advantageous and has a configuration. Is also simplified, so reliability is also improved.

Further, in case of an emergency, prompt measures can be taken, the safety of train running is improved, and the sick person can be rescued without delay, so that passenger service can be easily improved.

[Brief description of drawings]

FIG. 1 is a sequence diagram for explaining a control process according to a first embodiment of a mobile communication system according to the present invention.

FIG. 2 is a configuration diagram showing an example of a mobile communication system to which the mobile communication system according to the present invention is applied.

FIG. 3 is a sequence diagram for explaining control processing according to a conventional example of a mobile communication system.

FIG. 4 is a sequence diagram for explaining a control process according to the second embodiment of the mobile communication system according to the present invention.

[Explanation of symbols]

 1 Mobile station for A train A 2 Mobile station for B train 3 Leaky coaxial cable (or antenna) 4 N base station 5 N + 1 base station 6 Circuit controller 7 C1 fixed station (control panel) 8 C2 Fixed station (operation panel)

Claims (2)

[Claims] 1. Communication between a plurality of base stations arranged along a moving route of a mobile station and a mobile station moving between these base stations is performed in sequence according to the movement of the mobile station. In a mobile communication system in which switching between stations is performed, when a mobile station in a call moves between adjacent zones and another mobile station in the call exists in the zone to which the call is made, a new entry is made. A mobile communication system characterized in that the communication line of the mobile station has been forcibly disconnected. 2. Communication between a plurality of base stations arranged along a moving route of a mobile station and a mobile station moving between these base stations is performed in sequence according to the movement of the mobile station. In a mobile communication system in which switching between stations is performed, the mobile station is provided with means for setting a predetermined priority order for a call, and when the mobile station in the call moves between adjacent zones, When there is another mobile station that is already in a call, the call line of the mobile station with a lower priority is set to be forcibly disconnected. And mobile communication system.