JP2003124861A - Common-use mobile communication system and standby channel acquiring method of common-use mobile communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a common-use mobile communication system and a standby channel acquiring method of the common-use mobile communication system which shorten the time of transition from the ending of communication of a system that a mobile terminal is using until when the mobile terminal enters a standby state on another system. SOLUTION: A 1st mobile communication system 100 informs the mobile terminal 300 of standby channel information corresponding to its own system and standby channel information corresponding to the other mobile communication system 200. When failing to acquire a standby channel corresponding to the 1st mobile communication system 100 at the end of communication, the mobile terminal 300 tries to acquire a standby channel corresponding to the 2nd mobile communication system 200 according to the standby channel information corresponding to the 2nd mobile communication system 200.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a shared mobile communication system in which a mobile communication service provided by a plurality of mobile communication systems is used by a mobile terminal, and a standby channel acquisition method in the shared mobile communication system.

[0002]

2. Description of the Related Art As a typical example of a small zone mobile communication system, a digital mobile phone system (PDC: Personal Digital C), which is currently provided with a commercial service in Japan.
ellular) 800MHz band system and 1.5GHz
There is a bandwidth system.

These 800M can be operated by a single mobile terminal.
A common method is conceivable in which both the communication service by the Hz band system and the communication service by the 1.5 GHz band system can be used. When this shared system is realized, the 800 MHz band system and the 1.5 GHz band system perform communication with a mobile terminal using the mobile communication service provided by the own system during communication by the mobile terminal. The information of the standby channel (standby channel information) to be captured after the completion of is notified as system information. Then, the mobile terminal captures the standby channel at the end of communication based on the notified standby channel information.

By the way, in the shared mobile communication system as described above, each system notifies only the standby channel information corresponding to its own system. For this reason, when the standby channel corresponding to the notified standby channel information cannot be captured due to some restrictions, the mobile terminal uses the perch channel from the other system to perform standby by using the other system. It is necessary to search for a standby channel corresponding to another system based on the standby channel information included in the captured perch channel information, and transit to the standby state.

[0005]

However, it takes a lot of time when the mobile terminal transitions to the standby state using another system after the communication is terminated by the above-mentioned method. Also, when a mobile terminal searches for a perch channel from another system, it consumes a lot of power. Therefore, it is required to reduce the time from the end of communication of the mobile terminal to the transition to a standby state using another system and the reduction of power consumption in the mobile terminal.

The present invention solves the above-mentioned problems, and an object thereof is to shorten the time from the end of communication in a system in which a mobile terminal is in use to the transition to a standby state in another system. Another object of the present invention is to provide a shared mobile communication system in which the power consumption of the mobile terminal is reduced, and a standby channel acquisition method in the shared mobile communication system.

[0007]

In order to achieve the above object, the present invention provides, as set forth in claim 1, a shared use of a mobile communication service provided by a plurality of mobile communication systems by a mobile terminal. In the mobile communication system, each of the mobile communication systems specifies standby channel information for identifying a standby channel corresponding to the own system with respect to a mobile terminal communicating using the mobile communication service provided by the own system. And standby channel information notifying means for notifying standby channel information for specifying a standby channel corresponding to another mobile communication system, wherein the mobile terminal is notified from the mobile communication system that provides the mobile communication service being used. Standby channel information corresponding to the mobile communication system and another mobile communication system Based on the corresponding standby channel information comprises channel acquisition unit waiting to capture the channel waiting at the communication end.

[0008] In such a shared mobile communication system, the mobile terminal transmits not only the standby channel information corresponding to the mobile communication system that provides the mobile communication service being used but also other mobile communication systems. Corresponding standby channel information is also notified, so if the standby channel corresponding to the mobile communication system that provides the mobile communication service in use cannot be acquired at the end of communication, immediately respond to another mobile communication system. The standby channel can be captured and transitioned to the standby state.

Therefore, a perch channel from another mobile communication system is searched, and a standby channel corresponding to another mobile communication system is captured based on the standby channel information included in the captured perch channel information. It is possible to shorten the time from the end of communication in the mobile communication system in use to the transition to the standby state in another mobile communication system, as compared with the case of adopting the procedure. Further, since the mobile terminal can specify the standby channel corresponding to another mobile communication system based on the notified standby channel information, it is not necessary to search for a perch channel from another mobile communication system. , The power consumption can be reduced.

Further, according to a second aspect of the present invention, in the shared mobile communication system, the standby channel acquisition means is a standby mode corresponding to the mobile communication system which provides the mobile communication service being used. When the channel cannot be acquired, the standby channel corresponding to the other mobile communication system is acquired.

Further, according to the present invention, as in claim 3, in the shared mobile communication system, each mobile communication system is provided by its own system among cells configured by another mobile communication system. The standby channel information notifying means grasps the standby channel corresponding to the cell including the position of the mobile terminal using the mobile communication service and the periphery thereof in the area, and the standby channel information notifying means is the grasped standby channel. The information regarding the above is included in the standby channel information and notified.

Among the standby channels corresponding to other mobile communication systems, the standby channel that can be captured by the mobile terminal is the standby channel corresponding to the cell including the position of the mobile terminal or its periphery in the area. Therefore, by including only the information on the standby channel corresponding to the cell including the position of the mobile terminal or its periphery in the area in the standby channel information, the information on the standby channel can be reduced to the minimum necessary. As well as reducing the amount of information, the time required for the mobile terminal to acquire the standby channel is shortened.

According to a fourth aspect of the present invention, in the shared mobile communication system, each mobile communication system has a standby channel specified by standby channel information corresponding to another mobile communication system. When a plurality of standby channels are present, acquisition order determination means for determining the acquisition order of the plurality of standby channels is provided, and the standby channel acquisition means attempts to acquire the standby channels according to the determined acquisition order. did.

According to a fifth aspect of the present invention, in the shared mobile communication system, the acquisition order determining means sets a plurality of standby channels corresponding to another mobile communication system to the other mobile channels. The acquisition order is determined in descending order of the overlapping area between the cell formed by the base station transmitting each standby channel corresponding to the communication system and the cell formed by the base station transmitting the standby channel corresponding to the own system. I did it.

When a mobile terminal attempts to acquire any of a plurality of standby channels corresponding to another mobile communication system, a cell formed by a base station transmitting the standby channel corresponding to the other mobile communication system is used. The larger the overlapping area with the cell configured by the base station transmitting the standby channel corresponding to the mobile communication system in use, the more configured the base station transmitting the standby channel corresponding to the other mobile communication system is. Since the mobile terminal is more likely to be in the cell, the probability of acquisition is also increased. Therefore, by determining the acquisition order in this way, it becomes possible to further shorten the time required for acquiring the standby channel in the mobile terminal.

Further, in order to achieve the above object, the present invention provides a shared mobile communication system in which a mobile communication service provided by a plurality of mobile communication systems is utilized by a mobile terminal. In the standby channel capturing method, each of the mobile communication systems identifies a standby channel corresponding to its own system to a mobile terminal communicating with the mobile communication service provided by the own system. Information and standby channel information for identifying a standby channel corresponding to another mobile communication system, and the mobile terminal notifies the mobile communication system notified from the mobile communication system that provides the mobile communication service being used. Corresponding listening channel information and waiting corresponding to other mobile communication systems Based on the only channel information, and so as to capture the channel waiting at the communication end.

Further, according to the present invention as set forth in claim 7, in the standby channel capturing method in the shared mobile communication system, the mobile terminal is a mobile communication system which provides the mobile communication service being used. When the corresponding standby channel cannot be acquired, the standby channel corresponding to the other mobile communication system is acquired.

Further, according to the present invention as described in claim 8, in the method for capturing a standby channel in the shared mobile communication system, each of the mobile communication systems includes a cell configured by another mobile communication system. Grasping the standby channel corresponding to the cell including the position of the mobile terminal using the mobile communication service provided by the local system and its periphery in the area, and including the information on the grasped standby channel in the standby channel information. I will notify you.

Further, according to the present invention as set forth in claim 9, in the standby channel capturing method in the shared mobile communication system, each of the mobile communication systems is specified by the standby channel information corresponding to another mobile communication system. When there are a plurality of standby channels to be acquired, the acquisition order of the plurality of standby channels is determined, and the mobile terminal attempts to acquire the standby channel according to the determined acquisition order.

Further, according to a tenth aspect of the present invention, in the standby channel capturing method in the shared mobile communication system, each of the mobile communication systems has a plurality of standby channels corresponding to other mobile communication systems. , In order of increasing overlap area between a cell configured by a base station transmitting each standby channel corresponding to the other mobile communication system and a cell configured by a base station transmitting a standby channel corresponding to the own system, The capture order was decided.

[0021]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing a configuration example of a shared mobile communication system according to an embodiment of the present invention. The shared mobile communication system 1 shown in the figure includes a gateway switch 10, a first mobile communication system 100, a second mobile communication system 200, and a mobile terminal 300 that uses a mobile communication service provided by the first mobile communication system 100. Equipped with.

Of these, the first mobile communication system 100
Is, for example, a digital mobile phone type 800 MHz band system, and includes an exchange 110 and a wireless line control device 120.
-1, 120-2 (hereinafter, these wireless line control devices 12
0-1, 120-2 are collectively referred to as "radio line control device 120" as appropriate), base stations 130-1, 130-2,
130-3 (these base stations 130-1, 130-2, 1
30-3 are collectively referred to as “base station 130”).

The exchange 110 is connected to the gateway exchange 10, and the radio line control devices 120-1 and 120-2 are connected to the exchange 110. In addition, the base stations 130-1, 13
0-2 and 130-3 are connected to the radio network controller 120-2. A base station is also connected to the radio network controller 120-1, but it is omitted in FIG.

On the other hand, the second mobile communication system 200 is
For example, it is a digital mobile phone type 1.5 GHz band system, and includes an exchange 210, a wireless line controller 220-
1, 220-2 (hereinafter, these wireless line control devices 220
-1, 220-2 are collectively referred to as "Wireless line control device 2".
20 "), base stations 230-1, 230-2, 2
30-3 (these base stations 230-1, 230-2, 23
0 to 3 are collectively referred to as “base station 230”).

The exchange 210 is connected to the gateway exchange 10, and the radio line control devices 220-1 and 220-2 are connected to the exchange 210. In addition, the base stations 230-1 and 23
0-2 and 230-3 are connected to the radio network controller 220-2. A base station is also connected to the radio network controller 220-1, but it is omitted in FIG.

In this shared mobile communication system 1, the first mobile communication system 100 provides the mobile terminal 300 using the mobile communication service provided by the first mobile communication system 100,
The mobile terminal 300 notifies the own system and the second mobile communication system 200 of the standby channel information for specifying the corresponding standby channel, and the mobile terminal 300, based on this standby channel information, at the end of the communication, the first mobile communication system 1
Capturing a standby channel corresponding to 00 or a standby channel corresponding to the second mobile communication system 200,
Transition to the standby state.

FIG. 2 is a diagram showing an example of the configuration of the radio network controller 120. As shown in FIG.
20 is a transmitting / receiving unit 121, 122, a signal analyzing unit 123,
The control unit 124 and the information management unit 125 are provided. The wireless line control device 220 also has a similar configuration.

The transmission / reception unit 121 transmits / receives signals to / from the subordinate base station 130. The transmission / reception unit 122 transmits / receives signals to / from the exchange 110. Signal analysis unit 123
Analyzes the signals received by the transmission / reception units 121 and 122. The control unit 124 controls the signal transmission. The information management unit 125 manages the standby channel information corresponding to the first mobile communication system (own system) 100 and the second mobile communication system (other system) and the standby channel information table.

FIG. 3 is a diagram showing an example of the standby channel information table. The standby channel information table includes, for each cell (cell of the own system) configured by the base station 130 in the first mobile communication system 100, information on the standby channel corresponding to the cell (for example, frequency of the standby channel), A cell configured by a base station 230 in the second mobile communication system 200 that includes the position of the mobile terminal 300 in the cell or its periphery in the area, specifically, a base in the first mobile communication system 100. A base station 230 in the second mobile communication system 200 that has an area that overlaps the cell formed by the station 130.
For identifying a standby channel corresponding to a cell (cell of another system) configured by. The information on the standby channel corresponding to the cell configured by the base station 230 in the second mobile communication system 200 overlaps the corresponding cell and the cell configured by the base station 130 in the first mobile communication system 100. The areas to be processed are arranged in descending order. According to the figure, for example, the information on the standby channel corresponding to the cell of the other system having the area overlapping with the cell A of the own system is X1 and X2. Further, the cell corresponding to X1 has a larger overlapping area with the cell configured by the base station 130 in the first mobile communication system 100 than the cell corresponding to X2.

FIG. 4 is a diagram showing a configuration example of the mobile terminal 300. As shown in the figure, the mobile terminal 300 includes a wireless unit 3
01, signal analysis unit 302, control unit 303, storage unit 304
Equipped with.

Radio section 301 transmits and receives signals to and from base station 130. The signal analysis unit 302 includes the wireless unit 301.
Analyze the signal received by. Control unit 303
Controls the signal transmission. The storage unit 304 stores the standby channel information notified from the radio network controller 120.

Hereinafter, the mobile terminal 300, which is communicating using the mobile communication service provided by the first mobile communication system 100, sets the standby channel corresponding to the second mobile communication system 200 at the end of communication. The processing of each unit of the shared mobile communication system 1 at the time of capturing and transiting to the standby state will be described.

The control unit 124 in the radio network controller 120 included in the first mobile communication system 100 preliminarily provides information on the area of a cell formed by the base station 130 included in the first mobile communication system 100. And information about the standby channel corresponding to the cell,
Base station 23 configured in the second mobile communication system 200
The standby channel information table shown in FIG. 3 is generated based on the information on the area of the cell configured by 0 and the information on the standby channel corresponding to the cell, and stored in the information management unit 125.

Alternatively, the second mobile communication system 200
Control unit 124 in the wireless line controller 220 configured as
Notifies the wireless channel control device 120 configured in the first mobile communication system 100 of information regarding the area of the cell configured by the subordinate base station 230 and information regarding the standby channel corresponding to the cell. The control unit 124 in the radio network controller 120 notifies the notified information, the information about the area of the cell configured by the base station 130 configured in the first mobile communication system 100, and the standby channel corresponding to the cell. The standby channel information table shown in FIG. 3 is generated based on the information regarding the above information and stored in the information management unit 125.

The control unit 124 in the wireless line controller 120
When the mobile terminal 300 connected to the subordinate base station 130 is communicating, the mobile terminal 3 refers to the standby channel information table stored in the information management unit 125,
00 corresponds to a standby channel corresponding to a cell configured by the subordinate base station 130 to which the 00 is connected and a cell configured by the base station 230 in the second mobile communication system 200 having an area overlapping with the cell. The standby channel information including the information about the standby channel corresponding to the cell configured by the subordinate base station 130 to which the mobile terminal 300 is connected, and the first channel having the area overlapping with the cell. Two
And standby channel information including information on the standby channel corresponding to the cell configured by the base station 230 in the mobile communication system 200.

If there is a plurality of pieces of information about the standby channel corresponding to the cell formed by the base station 230 in the second mobile communication system 200, the control unit 124 in the radio network controller 120 waits. According to the arrangement order in the channel information table, information for specifying the order of the information regarding each standby channel is included.

Next, the control unit 124 in the radio network controller 120 notifies the mobile terminal 300 in communication of the generated standby channel information as system information.

The control unit 303 in the mobile terminal 300 stores the notified standby channel information in the storage unit 304. Then, after the communication is completed, the control unit 303 in the mobile terminal 300 recognizes the frequency of the standby channel transmitted from the base station 130 in the first mobile communication system 100 based on the stored standby channel information. , Attempts to capture the standby channel transmitted from the base station 130 in the first mobile communication system 100.

When the standby channel transmitted from the base station 130 in the first mobile communication system 100 is acquired, the mobile terminal 300 determines that the first mobile communication system 1
The mobile communication service provided by 00 is used, in other words, while being connected to the first mobile communication system 100, the mobile terminal shifts to the standby state.

On the other hand, when the standby channel transmitted from the base station 130 in the first mobile communication system 100 is not captured, the control unit 303 in the mobile terminal 300.
Based on the standby channel information stored in the storage unit 304, the base station 23 in the second mobile communication system 200.
The base station 23 in the second mobile communication system 200 that recognizes the frequency of the standby channel transmitted from
Attempts to seize the listen channel sent from 0.

When there are a plurality of standby channels transmitted from the base station 230 in the second mobile communication system 200, the control unit 303 in the mobile terminal 300 is
Attempts are made to capture the standby channels of the corresponding standby channels one by one in an order based on the information that specifies the order of information regarding each standby channel.

When the standby channel transmitted from the base station 230 in the second mobile communication system 200 is captured, the control unit 303 in the mobile terminal 300 is the transmission source of the captured standby channel. 2 transmits a location registration request to the base station 230 in the mobile communication system 200. After that, a predetermined process regarding location registration is performed between the mobile terminal 300 and the second mobile communication system 200. As a result, the mobile terminal 300 transitions to the standby state while using the mobile communication service provided by the second mobile communication system 200, in other words, being connected to the second mobile communication system 200. To do.

On the other hand, if the standby channel transmitted from the base station 230 in the second mobile communication system 200 has not been captured, the mobile terminal 300 ends the process for capturing a series of standby channels. .

Next, referring to the sequence diagram of FIG.
Mobile terminal 30 communicating using the mobile communication service provided by the first mobile communication system 100.
The operation of the shared mobile communication system 1 when 0 acquires the standby channel corresponding to the second mobile communication system 200 at the end of communication and transits to the standby state will be described.

In the following, the mobile terminal 300 is a cell formed by the base station 130-3 in the first mobile communication system 100 and the second mobile communication system 20.
0 exists in the area where the cells formed by the base stations 230-1 and 230-2 overlap and the base station 13
0-3 and the cell formed by the base station 230-1 overlap the base station 13
An example will be given of a case where it is larger than the overlapping area of the cell configured by 0-1 and the cell configured by the base station 230-2.

The mobile terminal 30 using the mobile communication service provided by the first mobile communication system 100.
0 requests the mobile communication system 100 to set up a communication line in order to perform communication. After the request for setting the communication line is made, a predetermined process for setting the communication line is performed between the mobile terminal 300 and the mobile communication system 100 (step 101).

Next, the radio network controller 120-2 refers to the standby channel information table to obtain information on the standby channel corresponding to the cell constituted by the subordinate base station 130-3 to which the mobile terminal 300 is connected. Base station 230-1, 230 in the second mobile communication system 200 having the included standby channel information (own system standby channel information) and the area overlapping the cell.
-2 to generate standby channel information (standby channel information of other system) including information on the standby channel corresponding to the cell configured by -2, and the mobile terminal 3 uses these standby channel information as system information.
00 (step 102).

Mobile terminal 300 and mobile communication system 100
Communication is performed (step 103), and when the communication is terminated (step 104), the mobile terminal 300
Based on the standby channel information corresponding to the mobile communication system 100, an attempt is made to capture the standby channel that is constantly transmitted from the base station 130-3 in the first mobile communication system 100 shown in step 105 (step 10).
7). However, for some reason, the base station 130-3
If the standby channel transmitted from the mobile station 300 has not been acquired (step 108), the mobile terminal 300 next detects the standby channel transmitted from the base station 230-1 at step 106 and the base station 230- In this order, the acquisition of the standby channel that is constantly transmitted from 2 is tried (step 109).

When the standby channel transmitted from the base station 230-1 or the base station 230-2 is captured (step 110), the mobile terminal 300 determines the base station which is the transmission source of the captured standby channel. A location registration request is transmitted to 230-1 or base station 230-2 (step 111). After that, the mobile terminal 300 and the second
A predetermined process relating to location registration is performed between the mobile communication system 200 and the mobile communication system 200 (step 112), and the mobile terminal
0 is in a state of being connected to the second mobile communication system 200 and transits to a standby state.

As described above, in the shared mobile communication system 1, the first mobile communication system 100 communicates with the mobile terminal 300 communicating with the mobile communication service provided by the first mobile communication system 100. The corresponding standby channel information and the corresponding standby channel information to the other mobile communication system 200 are notified, and the mobile terminal 300
At the end of communication, first, based on the standby channel information corresponding to the first mobile communication system 100, an attempt is made to capture the standby channel corresponding to the first mobile communication system 100, and if the standby channel cannot be captured, immediately. Based on the standby channel information corresponding to the second mobile communication system 200, an attempt is made to capture the standby channel corresponding to the second mobile communication system 200, and if it is captured, the standby state is entered.

Therefore, the mobile terminal 300 can recognize the standby channel corresponding to the other mobile communication system 200 before the end of the communication, and the other mobile communication system 2
More than when the procedure of searching for a perch channel from 00 and capturing a standby channel corresponding to another mobile communication system 200 based on the standby channel information included in the captured perch channel information is used.
It is possible to shorten the time from the end of communication in the mobile communication system 100 in use to the transition to the standby state in another mobile communication system 200. Further, since the mobile terminal 300 can specify the standby channel corresponding to the other mobile communication system 200 based on the notified standby channel information, the mobile terminal 300 searches for the perch channel from the other mobile communication system 200. There is no need, and power consumption can be reduced.

In the above-described embodiment, the mobile terminal 300, which is communicating using the mobile communication service provided by the first mobile communication system 100, has the second mobile communication system 200 when the communication is completed. The case has been described in which the standby channel corresponding to is captured and transitions to the standby state. However, the second mobile communication system 200
Also, in the case where the mobile terminal 300 performing communication using the mobile communication service provided by, acquires the standby channel corresponding to the first mobile communication system 100 at the end of communication, and transits to the standby state. Similarly, the present invention can be applied. In this case, the second
The respective units in the mobile communication system 200 perform the same processing as the respective units in the first mobile communication system 100 in the above-described embodiment, and the respective units in the first mobile communication system 100 perform the second processing in the above-described embodiment. Mobile communication system 2
The same processing as that of each unit in 00 may be performed.

Further, in the above-described embodiment, the shared mobile communication system 1 includes the first mobile communication system 100 and the second mobile communication system 100.
However, the present invention can be similarly applied to a shared mobile communication system having three or more mobile communication systems.

In the above embodiment, the control unit 124 in the radio network controller 200 corresponds to the standby channel information notifying unit, the standby channel grasping unit and the acquisition order determining unit, and corresponds to the control unit 303 in the mobile terminal 300. Corresponds to the standby channel capturing means.

[0055]

As described above, according to the invention of the present application, the mobile terminal determines not only the standby channel information corresponding to the mobile communication system that provides the mobile communication service being used but also other mobile stations. Since the standby channel information corresponding to the communication system is also notified, if the standby channel corresponding to the mobile communication system that provides the mobile communication service being used cannot be acquired at the end of communication, another mobile communication system is immediately transmitted. It is possible to capture the standby channel corresponding to and to transit to the standby state. Therefore, a procedure of searching for a perch channel from another mobile communication system and capturing a standby channel corresponding to the other mobile communication system based on the standby channel information included in the captured perch channel information is adopted. Compared with the case, the time from the end of communication in the mobile communication system in use to the transition to the standby state in another mobile communication system can be shortened. Further, since the mobile terminal can specify the standby channel corresponding to the other mobile communication system based on the notified standby channel information, it is not necessary to search the perch channel from the other mobile communication system. , The power consumption can be reduced.

[Brief description of drawings]

FIG. 1 is a diagram illustrating a configuration example of a shared mobile communication system.

FIG. 2 is a diagram showing a configuration example of a wireless line control device.

FIG. 3 is a diagram showing an example of a standby channel information table.

FIG. 4 is a diagram showing a configuration example of a mobile terminal.

FIG. 5 is a sequence diagram showing an example of operation of the shared mobile communication system.

[Explanation of symbols]

1 shared mobile communication system 100 1st mobile communication system 110,210 Exchange 120-1,120-2,220-1,220-2 Radio | wireless line control apparatus 121,122 Transmission / reception part 123,302 Signal analysis part 124,303 Control Part 125 Information management parts 130-1, 130-2, 130-3, 230-1, 2
30-2 base station 200 second mobile communication system 300 mobile terminal 301 radio section 304 storage section

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Takashi Nagano             2-11-1, Nagatacho, Chiyoda-ku, Tokyo Stock             Ceremony company NTT Docomo F term (reference) 5K067 AA14 AA43 DD34 EE02 EE10                       GG11 HH21 JJ13

Claims (10)

[Claims] 1. A shared mobile communication system in which a mobile communication service provided by a plurality of mobile communication systems is used by a mobile terminal, wherein each mobile communication system uses a mobile communication service provided by its own system. Channel information notifying means for notifying mobile terminals communicating with each other by the standby channel information specifying the standby channel corresponding to the own system and the standby channel information specifying the standby channel corresponding to another mobile communication system. Wherein the mobile terminal is based on standby channel information corresponding to the mobile communication system and standby channel information corresponding to another mobile communication system notified from the mobile communication system that provides the mobile communication service being used. The standby channel at the end of communication Shared mobile communication system comprising a standby channel acquisition means that. 2. The shared mobile communication system according to claim 1, wherein the standby channel capturing means cannot capture a standby channel corresponding to the mobile communication system that provides the mobile communication service being used. , A shared mobile communication system for capturing a standby channel corresponding to the other mobile communication system. 3. The shared mobile communication system according to claim 1, wherein each mobile communication system uses a mobile communication service provided by its own system among cells configured by another mobile communication system. A standby channel grasping means for grasping a standby channel corresponding to a cell including the position of the mobile terminal and its periphery in the area, the standby channel information notifying means is provided with the information on the grasped standby channel. A shared mobile communication system in which information is included and notified. 4. The shared mobile communication system according to claim 1, wherein each mobile communication system has a plurality of standby channels specified by standby channel information corresponding to another mobile communication system. In this case, there is provided a capture order determination means for determining the capture order of the plurality of standby channels, and the standby channel capture means attempts to capture the standby channel according to the determined capture order. Communications system. 5. The shared mobile communication system according to claim 4, wherein the acquisition order determining means is a plurality of standby channels corresponding to other mobile communication systems, and each standby channel corresponding to the other mobile communication systems. A shared mobile communication system in which the acquisition order is determined in descending order of the overlapping area between the cell configured by the base station transmitting the message and the cell configured by the base station transmitting the standby channel corresponding to the own system. 6. A method for capturing a standby channel in a shared mobile communication system in which a mobile communication service provided by a plurality of mobile communication systems is used by a mobile terminal, wherein each mobile communication system provides a mobile service provided by its own system. A mobile terminal communicating using a communication service is notified of standby channel information for identifying a standby channel corresponding to its own system and standby channel information corresponding to another mobile communication system, wherein the mobile terminal is Based on standby channel information for identifying a standby channel corresponding to the mobile communication system notified from the mobile communication system providing the mobile communication service being used and standby channel information corresponding to another mobile communication system, Capture the standby channel at the end of communication Unishi was channel acquisition process waiting in a shared mobile communication system. 7. The standby channel capturing method in the shared mobile communication system according to claim 6, wherein the mobile terminal cannot capture a standby channel corresponding to the mobile communication system that provides the mobile communication service being used. In the shared mobile communication system, the standby channel capturing method is configured to capture the standby channel corresponding to the other mobile communication system. 8. The method for capturing a standby channel in a shared mobile communication system according to claim 6, wherein each mobile communication system is a cell configured by another mobile communication system.
The position of the mobile terminal using the mobile communication service provided by the own system and the standby channel corresponding to the cell whose periphery is included in the area are grasped, and the information on the grasped standby channel is included in the standby channel information. Method for capturing a standby channel in a shared mobile communication system. 9. The standby channel capturing method in a shared mobile communication system according to claim 6, wherein each mobile communication system is a standby channel specified by standby channel information corresponding to another mobile communication system. In the shared mobile communication system, when there are a plurality of channels, determine the acquisition order of the plurality of standby channels, and the mobile terminal attempts to acquire the standby channels according to the determined acquisition order. Standby channel acquisition method. 10. The method for capturing a standby channel in a shared mobile communication system according to claim 9, wherein each mobile communication system has a plurality of standby channels corresponding to another mobile communication system, said other mobile communication system. The acquisition order is determined in descending order of the overlapping area between the cell configured by the base station transmitting each corresponding standby channel and the cell configured by the base station transmitting the corresponding standby channel for the own system. Standby channel acquisition method in shared mobile communication system.