JP2004228774A - Private mobile communication system - Google Patents

Abstract

Provided is a private mobile communication system capable of eliminating a restriction on an installation place of a base station and expanding a movement range of a mobile terminal capable of performing communication.
A main unit having a private branch exchange function, a base station, and a mobile terminal management server are connected to a LAN. The mobile terminal management server 50 has a table showing the correspondence between the ID of each mobile terminal and the ID of the accommodation main device. The base stations 11 and 41 acquire and store the ID of the host device of the mobile terminal located in the communication area of the base station from the table of the mobile terminal management server 50, and store the ID according to the stored ID of the host device. The mobile terminal communicates with the main device to which the mobile terminal is accommodated. It can be configured to include an IP network.
[Selection] Fig. 2

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a private mobile communication system, and more particularly, to a private mobile communication system capable of expanding a moving range of a mobile terminal as an extension terminal.
[0002]
[Prior art]
FIG. 10 is a block diagram showing a conventional private mobile communication system. This private mobile communication system A includes a main device 10 having a private branch exchange function, and dedicated cables 21, 22, 23,. , 2n and fixed terminals 31, 32,... Each of the base stations 11, 12, 13,... Has an area A1, A2, A3,.
[0003]
A mobile terminal such as a mobile terminal receives a service of the main device 10 via the base stations 11, 12, 13,... By registering in advance as a subscriber in the main device 10, and receives areas A1, A2,. .. Can be communicated with other mobile terminals and fixed terminals 31, 32,. This system can provide services to mobile terminals located in areas A1, A2, A3,...
[0004]
FIG. 10 shows a mobile terminal PSA-1 located in the area A2. The mobile terminal PSA-1 receives the service of the main device 10 via the base station 12, and receives the areas A1, A2, A3, .. Can communicate with other mobile terminals and fixed terminals 31, 32,. Other mobile terminals and fixed terminals 31, 32, ... are also registered in the main device 10 in advance.
[0005]
The mobile terminal PSA-1 is positioned as an extension terminal of the main device 10, and the base stations 11, 12, 13,... Are imaged as access points of the main device 10 defined in the main device 10.
[0006]
As described above, in the private mobile communication system A, the mobile terminals registered in advance in the main device 10 and located in the areas A1, A2, A3,... Or between the mobile terminals and the fixed terminals 31, 32,. Communication is possible.
[0007]
[Problems to be solved by the invention]
As described above, in the conventional private mobile communication system, all the base stations constituting the system are accommodated in the main unit, and the main unit and the base station are connected by the dedicated cable. The number of stations is limited by the hardware of the main unit (the number of ports accommodated in the connection interface), and the installation position of the base station is limited by the wiring length of the dedicated cable. Cannot be installed. Therefore, there has been a problem that the moving range of the mobile terminal capable of communicating is limited.
[0008]
In order to solve this problem, it is conceivable to combine a plurality of private mobile communication systems and enable communication in the entire area in which the areas communicable with each of the systems are combined.
[0009]
For example, as shown in FIG. 11, the main device 10 of the private mobile communication system A and the main device 40 of the private mobile communication system B are connected by a dedicated line 60, and communication via the dedicated line 60 is enabled. The private mobile communication system A has the same configuration as that shown in FIG. 10, and the private mobile communication system B has a main device 40 and a plurality of private devices connected to the main device 40 by dedicated cables 51, 52,. , And fixed terminals 71,... .. Are communication areas of the base stations 41, 42,.
[0010]
However, in this configuration, when the mobile terminal PSA-1 moves from the service areas A1, A2,... Of the main device 10 to the service areas B1, B2,. To enable communication, it is necessary to register the mobile terminal PSA-1 in both the main units 10 and 40 in advance.
[0011]
In addition, the carrier of the mobile terminal needs to know which mobile device is within the service area of which main device. Requires special operation to switch the system depending on whether or not to receive the service. Further, when the mobile terminal moves to a different service area of the main device during communication, communication cannot be continued.
[0012]
The own mobile terminal is registered in each main device, and the main device is provided with an automatic transfer function (pseudo-roaming) to automatically transfer communication between different systems, thereby registering the own mobile terminal. It is conceivable to enable communication from a service area of a main device other than the main device. However, in this case, if there are many main devices passing through, it takes a long time until an incoming call arrives, which causes a problem in use.
[0013]
The present invention eliminates the necessity of accommodating a base station in the main apparatus so that the number of base stations is not limited by the hardware of the main apparatus, and the mobile terminal of the own mobile terminal can receive a signal from the main apparatus registered in advance. Provided is a private mobile communication system capable of receiving a service via a network, eliminating a restriction on an installation location of a base station, and expanding a movable range of a mobile terminal capable of performing communication. The purpose is.
[0014]
[Means for Solving the Problems]
In order to solve the above problems, the present invention includes a plurality of main devices having a private branch exchange function, a plurality of base stations, and a mobile terminal management server, each of the plurality of main devices serving as an extension terminal. The mobile terminal is registered as an accommodation main device that performs private exchange for communication of the mobile terminal, and each of the plurality of base stations identifies the ID of the mobile terminal located in its own communication area by the mobile terminal. Notifying the management server, acquiring and storing the ID of the accommodation main device of the mobile terminal from the mobile terminal management server, and providing the mobile terminal to the accommodation main device in accordance with the stored ID of the accommodation main device. The first characteristic lies in that the communication is performed.
[0015]
Further, in the present invention, the mobile terminal management server includes a table indicating a correspondence between the ID of each mobile terminal and the ID of the main device to which each mobile terminal is accommodated, and the ID of the mobile terminal notified from the base station. The second characteristic is that the table is searched by using the method described above to obtain the ID of the main apparatus to which the mobile terminal is accommodated, and the ID is notified to the base station.
[0016]
Further, the present invention has a third feature in that the main device simply provides a path for communication of a mobile terminal other than the mobile terminal registered in the main device. A fourth feature is that the network is configured as a network including an IP network.
[0017]
Further, the present invention provides that a single base station is installed in a service area overlapping with at least two main apparatuses, is located in the service area, and is registered in one of the at least two main apparatuses. The fifth feature is that the communication of the mobile terminal is performed via the single base station.
[0018]
According to the first feature, the number of base stations is not limited by the hardware of the main device, and the main device in which its own mobile terminal is registered as a plurality of base stations constituting a network as access points. Since the service can be received, restrictions on the installation location of the base station can be eliminated, and the moving range of the mobile terminal can be expanded. Although the base stations are collectively accommodated in the mobile terminal management server, the accommodation form is only a logical definition and has no physical restriction, so that the number of installed base stations can be easily increased.
[0019]
According to the second feature, the mobile terminal management server includes a table indicating the correspondence between the IDs of the mobile terminals and the IDs of the main devices to which the mobile terminals are accommodated. It is possible to easily acquire and store the ID of the accommodation main device. Further, according to the third feature, the main apparatus only provides a path for communication of mobile terminals other than the mobile terminal registered in the main apparatus, so that the path can be set by simple control, and the main apparatus can set the path. There is no increase in delay due to passing through the device.
[0020]
Further, according to the fourth feature, it is possible to communicate over a wide range with a remote place via the IP network. Further, according to the fifth feature, the base station can be shared by a plurality of main devices, so that the base station can be used efficiently and the cost for constructing the system can be reduced.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram conceptually showing the present invention and a conventional private mobile communication system in comparison with each other. As shown in FIG. , 1n, the main unit 40 and the base stations 41, 42,..., 4m are independent from each other, and each is one closed system A, B. The resources are managed for each group, and communication is possible only within each group.
[0022]
On the other hand, as shown in FIG. 1B, the private mobile communication system of the present invention accommodates base stations 11, 12,..., 1n, 41, 42,. A mobile terminal management server (hereinafter, referred to as a PS management server) that manages the relation between the mobile terminal and the accommodating main devices 10 and 40 in which each base station is treated as an access point to a network and is registered. A server 50 is provided to manage resources on a network. This allows the mobile terminal to communicate via any base station.
[0023]
FIG. 2 is a block diagram of a first embodiment of the private mobile communication system according to the present invention according to the concept of FIG. 1 (b). The main devices 10 and 40 and the PS management server 50 are connected to the LAN 70. The base station 11 and the fixed terminal 31 are connected to the main device 10, and the base station 41 is connected to the main device 40. FIG. 2 is simplified, and more main units can be connected to the LAN 70, and more base stations and fixed terminals can be connected to the main units 10 and 40. Further, a base station can be directly connected to the LAN 70.
[0024]
Each of the main devices 10 and 40 is provided with a private branch exchange function of a call and performs a service to a terminal registered as a subscriber by itself, and becomes a main device to accommodate the terminal according to the registration. Therefore, the terminal can perform communication such as an extension call with another terminal by using the private branch exchange function of the main device of the accommodation destination. Each of the main devices 10 and 40 has a function of passing an inquiry to the PS management server 50 or a notification of a call request to another main device when there is a call request from an unregistered mobile terminal. Is provided.
[0025]
The base stations 11 and 41 have, for example, a function of terminating the Um point interface of the RCR STD-28, which is a domestic standard for the radio interface of the second generation cordless telephone system, and store the ID of the accommodation main device. If there is a call control request from a mobile terminal whose accommodating main device is known, the subsequent call control sequence is performed without inquiring of the PS management server 50 about the accommodating main device of the mobile terminal. Is performed directly with the accommodation main device.
[0026]
However, when there is a call control request from a mobile terminal whose accommodation destination main device is unknown, the base stations 11 and 41 inquire the PS management server 50 of the accommodation destination main device of the mobile terminal, and It acquires and stores the ID of the accommodation main device from the management server 50, specifies the accommodation main device according to the stored ID, and directly performs the subsequent call control sequence with the identified accommodation main device. The ID of the accommodation destination main device may be the IP address of the main device.
[0027]
The PS management server 50 has a role of indicating the correspondence between the mobile terminal and the accommodation main device in which the mobile terminal is registered. For example, the correspondence between the ID of the mobile terminal and the ID of the accommodation main device is provided. Is provided. This management table is created when the user of the mobile terminal registers in advance as a subscriber in the main device to receive the service.
[0028]
FIG. 3 shows a specific example of the management table. The first line in the figure shows that the mobile terminal of PS-ID “1” is registered in the main device of IP address “192.168.0.1”, that is, the accommodation destination main of mobile terminal “1”. The device indicates that the main device is “192.168.0.1”.
[0029]
When receiving an inquiry about the accommodation terminal using the ID of the mobile terminal as a parameter, the PS management server 50 searches the management table with the ID of the mobile terminal and obtains the ID of the accommodation main device of the mobile terminal. Is returned as a response.
[0030]
Next, an example of the operation of the first embodiment will be described with reference to the flowcharts of FIGS. The mobile terminal PSA-1 is, for example, a portable terminal. Here, it is assumed that the main device to which the mobile terminal PSA-1 is accommodated is the main device 10, and the ID of the main device is an IP address.
[0031]
FIG. 4 is an explanatory diagram of the location registration sequence. The base stations 11 and 41 transmit radio waves at a predetermined cycle. When the mobile terminal PSA-1 enters the communication area of the base station 11 and receives radio waves from the base station 11, it notifies the base station 11 of a location registration request (S1).
[0032]
The base station 11 notifies the PS management server 50 of the ID of the mobile terminal PSA-1 via the LAN 70, and inquires of the accommodation destination main device (S2). This inquiry is an autonomous function of the base station. In response to this inquiry, the PS management server 50 searches the management table with the ID of the mobile terminal PSA-1, and returns the base station receiving the IP address of the main device to which the mobile terminal PSA-1 is accommodated, in this example, the main device 10 as a response. 11 (S3). The base station 11 stores this IP address.
[0033]
Thereafter, the base station 11 directly executes the location registration control with the main device 10. That is, first, the base station 11 notifies the main device 10 of a location registration request (S4). Thereafter, the main device 10 and the mobile terminal PSA-1 notify each other via the base station 11 of an authentication record request (S5, S6), an authentication response (S7, S8), and a location registration acceptance (S9, S10).
[0034]
Through the above steps S1 to S10, the base station 11 stores the IP address of the host apparatus 10 that accommodates the mobile terminal PSA-1. This location registration sequence need only be executed when the mobile terminal PSA-1 enters the communication area of each base station. In addition, it is preferable that the storage of the main device ID in the base station be cleared within a certain time after the storage, in order to prevent memory over.
[0035]
Similarly, when the mobile terminal PSA-1 moves and enters the communication area of the base station 41, the base station 41 stores the IP address of the main device 10 to which the mobile terminal PSA-1 is accommodated by steps S1 to S14. I do.
[0036]
FIG. 5 is an explanatory diagram of the transmission sequence. In the case where the base station 11 has already stored the IP address of the main device 10 that accommodates the mobile terminal PSA-1, an inquiry to the PS management server 50 in transmission control is made. Not done. When the mobile terminal PSA-1 makes a call and notifies the call setting (S11), the base station 11 notifies the main device 10 of the call setting according to the stored IP address of the main device 10 (S12). The device 10 returns a call setting acceptance via the base station 11 (S13, S14).
[0037]
After that, the main device 10 and the mobile terminal PSA-1 communicate with each other via the base station 11 an authentication request (S15, S16) for authentication for confirming whether or not the mobile terminal is legitimate, and an authentication response (S17, S18). , Call (S19, S20), and response (S21, S22). As described above, at the time of originating a call, if the base station 11 has already stored the IP address of the host apparatus 10 that accommodates the mobile terminal PSA-1, the base station 11 does not make an inquiry to the PS management server 50, but directly , And transmission control with the main device 10.
[0038]
If the base station 11 does not store the IP address of the main device 10 because the mobile terminal PSA-1 has not notified the location registration request, the call setting request from the mobile terminal PSA-1 is not stored. At this point, the IP address of the host device 10 may be obtained by inquiring of the PS management server 50 about the host device of the mobile terminal PSA-1.
[0039]
Through the above steps S11 to S21, the mobile terminal PSA-1 receives the service of the main device 10 via the base station 11, and communicates with, for example, the fixed terminal 31 connected to the main device 10 (S23). ) Will be able to.
[0040]
Similarly, when the mobile terminal PSA-1 is located in the communication area of the base station 41 and makes a call within that range, the mobile terminal PSA-1 is also connected to the main device 10 via the base station 41, the main device 40 and the LAN 70. Service is available. In this case, the main device 40 merely provides a path, and from the viewpoint of the main device 10, the combination of the base station 31 and the main device 40 is equivalent to one base station accommodated therein. is there. As described above, the main device merely provides a path for communication of a mobile terminal other than the mobile terminal receiving the service from itself.
[0041]
FIG. 6 is an explanatory diagram of the incoming call sequence and the disconnection sequence. When a call setting to mobile terminal PSA-1 is requested from another mobile terminal or fixed terminal, main device 10 notifies mobile terminal PSA-1 via base station 11 of the incoming call based on the incoming call (S24). , S25). On the other hand, the mobile terminal PSA-1 notifies an incoming call response (S26, S27).
[0042]
Thereafter, main device 10 and mobile terminal PSA-1 notify each other of call setting (S28, S29) and call setting acceptance (S30, S31) via base station 11, and further call (S32, S33) and answer. (S34, S35) and the response confirmation (S37, S38) are notified. As described above, when the base station 11 has already stored the IP address of the host apparatus 10 of the mobile terminal PSA-1 at the time of the incoming call, the base station 11 does not make an inquiry to the PS management server 50 but directly , And performs incoming call control with the main device 10.
[0043]
If the base station 11 does not store the IP address of the main device 10 at the time of the incoming call, the PS management server 50 stores the mobile terminal PSA-1 when the mobile terminal PSA-1 receives an incoming call response. What is necessary is just to obtain the IP address of the main device 10 by inquiring the destination main device.
[0044]
Through the above steps S24 to S37, the mobile terminal PSA-1 receives the service of the main device 10 via the base station 11, and communicates with, for example, the fixed terminal 31 connected to the main device 10 (S37). ) Will be able to.
[0045]
When the communication is completed, the mobile terminal PAS-1 and the main device 10 notify the base station 11 of disconnection (S38, S39), release (S40, S41), and release completion (S42, S43). Steps 38 to S43 are a disconnection sequence that is executed when the communication ends. As described above, at the time of disconnection, the base station 11 has already stored the IP address of the main device 10 that accommodates the mobile terminal PSA-1, so the base station 11 does not make an inquiry to the PS management server 50, but directly The cutting control with the device 10 is performed.
[0046]
Next, a so-called handover operation when the mobile terminal PSA-1 moves from the communication area of the base station 11 to the communication area of the base station 41 during communication with the partner terminal will be described with reference to FIG. .
[0047]
While the mobile terminal PSA-1 is receiving the service of the main device 10 and communicating (S44), it moves from the communication area of the base station 11 and enters the communication area of the base station 41, and receives radio waves from the base station 41. Upon receiving the notification, the mobile terminal PAS-1 notifies the base station 41 of the call setting (S45), and the base station 41 inquires of the PS management server 50 via the LAN 70 about the main device to which the mobile terminal PSA-1 is to be accommodated. (S46).
[0048]
In response to this inquiry, the PS management server 50 searches the management table with the ID of the mobile terminal PSA-1, and returns the base station receiving the IP address of the main device to which the mobile terminal PSA-1 is accommodated, in this example, the main device 10 as a response. 41 is returned (S47). The base station 41 notifies the main apparatus 10 of the call setting according to the IP address (S48).
[0049]
Subsequently, the main device 10 notifies the mobile terminal PAS-1 of the call setting acceptance via the base station 41 (S49, S50), and notifies the base station 11 of the completion of the release (S51). A response is notified to the mobile terminal PAS-1 via the communication terminal 41 (S52, S53). As described above, at the time of handover, when the base station 41 does not store the IP address of the main device to which the mobile terminal PSA-1 is accommodated, the base station 41 sends the mobile terminal PAS-1 The host main device is inquired and the IP address of the host main device 10 is acquired and stored. After that, handover control is directly performed with the main device 10.
[0050]
Note that the base station 41 stores the IP address of the main device 10 to which the mobile terminal PSA-1 is accommodated, for example, because the mobile terminal PAS-1 was previously in the communication area of the base station 41. In this case, the inquiry to the PS management server 50 is unnecessary.
[0051]
By the above steps S45 to S53, the mobile terminal PSA-1 can continuously receive the service of the main device 10 even when moving from the communication area of the base station 11 to the communication area of the base station 41. It is possible to continuously communicate with the fixed terminal 31 connected to the device 10 (S54). In this case, the location registration for the mobile terminal PSA-1 previously stored in the base station 11 may be deleted.
[0052]
FIG. 8 is a block diagram of a second embodiment of the private mobile communication system according to the present invention. The present embodiment is an example in which the main devices 10 and 40 having a private branch exchange function, the PS management server 50, the IP network 80, the LANs 81, 82 and 83, and the like are provided. It is what made possible.
[0053]
The main device 10, the base stations 11 to 13 and the fixed terminals 31 and 32 are connected to the LAN 81, the main device 40, the base station 41 and the fixed terminal 71 are connected to the LAN 72, and the base station 90 is connected to the LAN 73. The LANs 71 to 73 are connected to the IP network 80 via routers 84 to 86, respectively. Also, the PS management server 50 is connected to the IP network 80 via the router 87. Here, mobile terminals PSA-1, PSA-2 and fixed terminals 31, 32 are registered in advance in main device 10 as subscribers, and mobile terminal PSB-1, fixed terminal 71 are registered in advance in main device 40 as subscribers. Suppose
[0054]
Although the operation of the second embodiment is basically the same as that of the first embodiment, an example will be briefly described. The base stations 11 to 13 and 41 transmit radio waves at a predetermined cycle. When the mobile terminal PSA-1 enters the communication area of the base station 12 and receives a radio wave from the base station 12, the mobile terminal PSA-1 uses the PS management server 50 connected to the IP network 80 to perform the same operation as in the first embodiment. By the steps, the base station 12 stores the ID of the main device 10 that accommodates the mobile terminal PSA-1.
[0055]
Here, when the mobile terminal PSA-1 makes a call and notifies the call setting, the base station 12 notifies the main device 10 of the call setting in accordance with the ID of the accommodation destination main device 10 previously stored, and the main device 10 Returns a call setting acceptance via the base station 12. Hereinafter, the mobile terminal PSA-1 receives the service of the main device 10 via the base station 12 by the same steps as in the first embodiment, and, for example, communicates with the fixed terminal 31 connected to the main device 10. You will be able to communicate.
[0056]
Even when the mobile terminal PSA-1 is located in the communication area of the base station 41 or moves during communication and enters the communication area of the base station 41, the base station 41 performs the same steps as in the first embodiment. The mobile terminal PSA-1 acquires and stores the ID of the main device 10 to which the mobile terminal PSA-1 is accommodated from the PS management server 50, and receives the service of the main device 10 via the base station 41 and the IP network 80. be able to.
[0057]
The base station 90 is a single base station installed in a portion where the service area A1 of the main device 10 and the service area B1 of the main device 40 overlap. In the present invention, the base station is composed of a plurality of main devices. Since the access points are shared, there is no need to install a base station for each main device in a service area overlapping with a plurality of main devices. As described above, the base station 90 is not installed for a specific main apparatus, and distributes a service in response to a request from the main apparatus or a mobile terminal. , And the mobile terminal PSB-1 can receive the service of the main device 40 via the base station 90.
[0058]
9A and 9B show the present invention and a conventional base station arrangement in a service area A1 (B1) overlapping with the main units 10 and 40. FIG. 9A shows a conventional base station arrangement, in which the base stations 11 and 41 of the main apparatus 10 and the main apparatus 40 are separately installed in the service area A1 (B1), and the mobile terminals PSA-2 and PSB- 1 receive the services of the main units 10 and 40 via the base stations 11 and 41, respectively.
[0059]
On the other hand, in the present invention, the PS management server 50 has a table of a correspondence relationship between the IDs of the mobile terminals PSA-2 and PSB-1 and the IDs of the accommodating main devices 10 and 40, which are referred to. Therefore, as shown in FIG. 9B, a single base station 90 is installed in the service area A1 (B1) and shared by the main units 10 and 40, and the mobile terminals PSA-2 and PSB-1 are Each can receive the services of the main units 10 and 40 via the base station 90.
[0060]
If a private mobile communication system including an IP network is configured as in the second embodiment, a main unit located in a remote place can be considered as one multi-channel base station, and communication over a wide range can be performed. Will be possible. For example, even if you move to the Osaka area with a mobile terminal accommodated in the main unit located in the Tokyo area, use the exchange function of the main unit in the Tokyo area via the base station installed there can do.
[0061]
In addition, when using an IP network, there is no need to create dedicated and difficult software unlike the case where a dedicated line is used, so that there is an advantage that simple application software can be used.
[0062]
In the location registration sequence, in addition to storing the ID of the accommodation destination main device in the base station, information on which base station communication area the mobile terminal is currently located in may be stored in the main device. When a mobile terminal receives an incoming call from another mobile terminal or a fixed terminal, the information can be used to efficiently perform line connection control.
[0063]
【The invention's effect】
As is apparent from the above description, according to the present invention, the base station is not accommodated in the main device whose number of accommodations is limited by hardware (the number of accommodation ports of the connection interface), but is stored in the PS management server. Collectively accommodated, mobile terminals can receive the services of their accommodation destination main unit using a plurality of base stations constituting a network as access points, thereby eliminating restrictions on the number and locations of base stations installed. Thus, the moving range of the mobile terminal can be expanded. In addition, since the accommodation form of the base station in the PS management server is only a logical definition and has no physical limitation, the number of installed base stations can be easily increased.
[0064]
In addition, it is possible to easily specify the accommodation main device of the mobile terminal by using the table provided in the PS management server, and receive the service of the accommodation main device. In addition, since the main unit only provides a path for communication of mobile terminals other than the self-registered mobile terminal, a path can be set with simple control, and delay due to passing through the main unit increases. I won't let you.
[0065]
Further, communication over a wide range with a remote place or the like via the IP network becomes possible. Further, since the base station can be shared by a plurality of main devices, the base station can be used efficiently and the cost for constructing a system can be reduced.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram showing a comparison between the present invention and a conventional private mobile communication system.
FIG. 2 is a block diagram showing a first embodiment of the private mobile communication system according to the present invention.
FIG. 3 is an explanatory diagram of a management table provided in a PS management server.
FIG. 4 is an explanatory diagram of a location registration sequence.
FIG. 5 is an explanatory diagram of a transmission sequence.
FIG. 6 is an explanatory diagram of an incoming call sequence and a disconnection sequence.
FIG. 7 is an explanatory diagram of a handover sequence.
FIG. 8 is a block diagram showing a second embodiment of the private mobile communication system according to the present invention.
FIG. 9 is a block diagram showing a comparison between the present invention and a conventional base station arrangement.
FIG. 10 is a block diagram showing a conventional private mobile communication system.
FIG. 11 is a block diagram showing a system in which two private mobile communication systems are combined.
[Explanation of symbols]
10, 40: Main device, 11 to 1n, 41 to 4m, 90: Base station, 21 to 2n, 50: PS management server, 51 to 5m: Dedicated cable, 31, 32, 71 ... fixed terminal, 60 ... dedicated line, 80 ... IP network, 70, 81-83 ... LAN, 84-87 ... router, PSA-1, PSA-2, PSB-1 ..Mobile terminals

Claims (5)

A plurality of main units having a private branch exchange function, a plurality of base stations, and a mobile terminal management server,
Each of the plurality of main devices is an accommodation destination main device that performs a private branch exchange for communication of the mobile terminal, in which a mobile terminal as an extension terminal is registered,
Each of the plurality of base stations notifies the mobile terminal management server of the ID of the mobile terminal located in its own communication area, and acquires the ID of the main device to which the mobile terminal is accommodated from the mobile terminal management server. A mobile communication system for communicating with the mobile terminal in accordance with the stored main ID of the accommodation destination main device. The mobile terminal management server includes a table indicating the correspondence between the IDs of the mobile terminals and the IDs of the main devices to which the mobile terminals are accommodated. The private mobile communication system according to claim 1, wherein the mobile terminal obtains an ID of an accommodation main device of the mobile terminal and notifies the base station of the ID. The private mobile communication system according to claim 1 or 2, wherein the main device simply provides a path for communication of a mobile terminal other than the mobile terminal registered in the main device. 4. The private mobile communication system according to claim 1, wherein the private mobile communication system is configured as a network including an IP network. A single base station is installed in a service area overlapping with at least two main apparatuses, and a mobile terminal that is located in the service area and registered in one of the at least two main apparatuses. The private mobile communication system according to any one of claims 1 to 4, wherein communication is performed via the single base station.

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