JP4438775B2 - Exchange device, terminal device, and connection control method - Google Patents

Description

The present invention is replacement device, a connection control method, in particular switching device used to control the connection from the calling terminal device to which can be connected receiving-side terminal apparatus using a plurality of networks, to connect a control method .

  Uses FOMA (registered trademark, hereinafter the same) service, which is a mobile phone service compliant with IMT (International Mobile Telecommunication) 2000, and PWLAN (Private Wireless Local Area Network) service using wireless LAN (Local Area Network) User exists. The FOMA service implements a mobile phone service using a network compliant with IMT2000 (hereinafter referred to as FOMA network). On the other hand, the PWLAN service is a connection service using a wireless LAN (hereinafter referred to as a wireless LAN network).

For users who use both of these services, a service for setting a representative ID (that is, a representative number) in addition to an ID (that is, a telephone number) used for each service is realized (hereinafter referred to as a one-number service). It is desired.
In this one-number service, when a call is made from another terminal to the representative ID, there is a possibility that a connection request using a plurality of types of networks (that is, bearers), that is, FOMA networks and wireless LAN networks may be transmitted.

  A processing example when a connection request is transmitted using a plurality of types of networks will be described with reference to FIG. The figure controls the originating terminal 2 that is the originating side terminal device, the originating side switching device 4 that is the originating side switching device, the user information management device 6 that holds profile information about the user, and the connection processing by the A network. FIG. 6 is a sequence diagram showing signal transmission / reception among an A network switching device A-1 that performs communication, a B network switching device B-5 that controls connection processing by the B network, and a called terminal 3 that is a terminal device on the receiving side. It is assumed that the called terminal 3 has a contract for a one-number service.

  Referring to the figure, a connection request is transmitted from the calling terminal 2 to the calling switching apparatus 4 in order to realize connection with the called terminal 3 (step S101). The originating side switching device 4 that has received this connection request transmits a user information inquiry to the user information management device 6 (step S102). Receiving this user information inquiry, the user information management device 6 transmits a location check for the called terminal 3 to the A network switching device A-1 (step S103a). In addition, the user information management device 6 transmits a location confirmation for the called terminal 3 to the B network switching device B-5 (step S103b).

  Thereafter, the user information management device 6 receives the in-zone confirmation responses from the A network switching device A-1 and the B network switching device B-5, respectively (steps S104a and S104b). The user information management apparatus 6 that has received these location confirmation responses holds profile information as shown in FIG. That is, for the called user ID of the called terminal 3, the profile information that the network A location information is "switching device A-1" and the network B location information is "switching device B-5" is held.

  Returning to FIG. 7, the user information management device 6 transmits a user information inquiry response to the originating side exchange device 4 (step S105). In the originating side switching device 4 that has received the user information inquiry response, the priority of connection is determined in advance for the A network and the B network, and here it is determined to connect to the called terminal 3 using the A network. For this reason, the originating side switching device 4 transmits a connection request to the A network switching device A-1 (step S106). Here, if it is detected for some reason that the called terminal 3 is out of the service area of the A network (step S107), the A network switching apparatus A-1 is directed to the calling switching apparatus 4. Then, a connection error response is transmitted (step S108).

In this case, since the connection to the called terminal 3 using the A network has failed, it is necessary to connect to the called terminal 3 using the B network. Therefore, the originating side exchange device 4 transmits an event notification indicating that it is out of service area to the user information management device 6 (step S109). Then, the user information management device 6 transmits a transfer instruction to the originating side exchange device 4 (step S110).
The originating side switching device 4 that has received the transfer instruction transmits a connection request for the B network to the B network switching device B-5 (step S111). Upon receiving this connection request, the B network switching device B-5 transmits a connection request for the B network to the called terminal 3 (step S112). Thereafter, a connection response is transmitted from the called terminal 3 (step S113), and a connection response is transmitted to the calling terminal 2 via the B network switching device B-5 and the calling switching device 4 in this order (step S113). S114, S115). By receiving this connection response, connection control is performed (step S116). Thereafter, a call can be made between the calling terminal 2 and the called terminal 3 by connection using the B network.

A technique for transmitting information through a plurality of types of networks is also described in Patent Document 1.
JP 2005-244817 A

  When transmitting a connection request as described above, there are the following problems. That is, when the location information shown in FIG. 8 is held in the user information management apparatus and is different from the actual location status, the connection request is once transmitted using the network A, and then shown in FIG. As described above, when rerouting to the network B, there is a problem that the time until the incoming call arrives at the called terminal becomes longer. Such a problem cannot be solved by the technique described in Patent Document 1.

The present invention has been made to solve the above-described problems of the prior art, and the purpose of the present invention is that even if the location information held in the user information management device is different from the actual location status, changer never longer time until the incoming call to the terminal, is to provide a connection control method.

According to a first aspect of the present invention, there is provided an exchange-side terminal using a representative ID set in addition to an ID used in each of the plurality of networks, for an incoming-side terminal device connectable using a plurality of networks. A switching device that controls connection from a device, based on the location confirmation result by the location confirmation means for confirming the location of the receiving terminal device for each of the plurality of networks, and the location confirmation result by the location confirmation means, A connection request means for transmitting a connection request to the receiving terminal device in parallel using each of the plurality of networks, and a network corresponding to one of responses from the receiving terminal device to the connection request; And connection control means for connecting to the receiving terminal device. By sending a connection request to each network in parallel, even when the location information held in the user information management device and the actual location status are different, the time until the incoming call to the destination terminal is increased. There is nothing.

  The switching apparatus according to claim 2 of the present invention is the switching apparatus according to claim 1, wherein the connection control means receives any one of the responses from the receiving terminal device to the connection request, and then selects any one of responses that can be connected. The connection to the receiving terminal device is performed using only the network corresponding to the network. Corresponding to the processing contents of FIG. 5 to be described later, by processing in this way, it is possible to connect only one network among a plurality of networks.

  The switching apparatus according to claim 3 of the present invention is the switching apparatus according to claim 1, wherein the connection control means uses only a network corresponding to the response received earliest among the responses from the receiving terminal device to the connection request. Connection to the receiving terminal device is performed. Corresponding to the processing contents of FIG. 6 to be described later, by processing in this way, it is possible to connect only one network among a plurality of networks.

According to a fifth aspect of the present invention, there is provided a connection control method that uses a representative ID set in addition to an ID used in each of the plurality of networks for a receiving side terminal device that can be connected using a plurality of networks. A connection control method for controlling connection from a terminal device, wherein a location confirmation step of confirming the location of the receiving terminal device for each of the plurality of networks (corresponding to steps S102 to S105 in FIG. 1 described later) And a connection request step for transmitting a connection request to the receiving terminal device in parallel using each of the plurality of networks based on the location confirmation result in the location confirmation step (step in FIG. 1 to be described later) (Corresponding to S106 and S111), and when receiving a connection request to the terminal device on the receiving side using each of the plurality of networks, a response transmission process for transmitting a response to the connection request (Corresponding to step S113 in FIG. 1 to be described later) and connection to the receiving terminal device using a network corresponding to one of the responses from the receiving terminal device to the connection request. And a connection control step (corresponding to step S116 in FIG. 1 described later). By sending a connection request to each network in parallel, even when the location information held in the user information management device and the actual location status are different, the time until the incoming call to the destination terminal is increased. There is nothing.

  According to the present invention, by transmitting a connection request to each of a plurality of networks in parallel, even if the location information held in the user information management device is different from the actual location status, There is an effect that the time until the incoming call does not become longer.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings referred to in the following description, the same parts as those in the other drawings are denoted by the same reference numerals.
(Connection control system)
FIG. 2 is a block diagram showing a configuration example of a connection control system using the exchange device and the terminal device according to the present invention. Referring to the figure, this system includes a calling-side terminal 2 that is a calling-side terminal device, a calling-side switching device 4 that is a calling-side switching device, and a user information management device 6 that holds profile information about the user. A network switching device A-1 that controls connection processing by the A network, B network switching device B-5 that controls connection processing by the B network, and a terminal device on the receiving side, and contracts for a one-number service. And the called-side terminal 3.

The destination terminal 3 is a terminal device that can be connected to another terminal device using any one of a plurality of networks.
The calling side switching device 4 is a switching device that controls the connection from the calling side terminal 2 to the called side terminal 3 that can be connected using a plurality of networks.
A radio base station 43 is connected to the originating side switching device 4 via a base station control device or the like (not shown), and a radio service area 40 is formed by the radio base station 43. In addition, a wireless base station 44 is connected to the A network switching device A-1 via a base station control device (not shown), and a wireless service area 41 is formed by the wireless base station 44. Further, a wireless base station 45 is connected to the B network switching device B-5 via a base station control device (not shown) or the like, and a wireless service area 42 is formed by the wireless base station 45.

(Configuration example of originating switching device)
A functional configuration example of the originating side exchange device 4 in FIG. 2 will be described with reference to FIG. As shown in the figure, the originating side switching device 4 includes a location check means 4a for checking the location of the destination terminal 3 for each of a plurality of networks, and a location check result by the location check means 4a. Corresponding to one of the connection request means 4b for transmitting a connection request to the destination terminal 3 in parallel using each of the plurality of networks and a response from the destination terminal 3 to the connection request. And a connection control means 4c for connecting to the called terminal 3 using a network. The originating exchange device 4 can be configured using a general server device.

(Configuration example of called terminal)
An example of the functional configuration of the destination terminal 3 in FIG. 2 will be described with reference to FIG. As shown in the figure, when the destination terminal 3 receives a connection request from the calling terminal 2 to its own terminal using each of a plurality of networks, a response transmission means for transmitting a response to the connection request 3a and a notification means 3b for performing a single incoming call notification when a connection request to the terminal using each of a plurality of networks is received. The called terminal 3 can be configured using a general mobile phone terminal.

  The notification means 3b notifies the user that there is an incoming call by means of a ringing tone output by a speaker (not shown) or a vibration operation by a vibrator (not shown). When there is a connection request from each of a plurality of networks, the incoming call notification is not performed for each of the connection requests, but is performed only once, that is, once. Thus, when there is a connection request from each of a plurality of networks, it is possible to connect only to one network by performing a single incoming call notification.

(Example of connection operation)
FIG. 1 is a sequence diagram showing an example of signal exchange in a connection control system using an exchange device and a terminal device according to the present invention. Note that the profile information held by the user information management device 6 is the same as that described with reference to FIG.
In the figure, the processing from Step S101 for transmitting a connection request from the calling terminal 2 to Step S105 for receiving the user information inquiry response by the calling switching device 4 is the same as the processing described with reference to FIG. is there.

  In this system, when the originating side switching device 4 transmits a connection request, it transmits a connection request to the destination terminal 3 in parallel using each of a plurality of networks (steps S106 and S111). That is, in this example, connection requests are transmitted in parallel using the A network and the B network. In the figure, there is a time difference in connection request transmission timing for the sake of drawing, but in actuality, connection requests using the A network and the B network are transmitted almost simultaneously.

  In response to the connection request transmitted in this manner, as in the case of FIG. 7, when it is detected for some reason that the called terminal 3 is out of the service area of the A network (step S107), The A network switching device A-1 transmits a connection error response to the originating side switching device 4 (step S108).

  On the other hand, when the called terminal 3 is in the service area within the B network, the B network switching apparatus B-5 transmits a connection request to the called terminal 3 (step S112). Thereafter, a connection response is transmitted from the called terminal 3 (step S113), and a connection response is transmitted to the calling terminal 2 via the B network switching device B-5 and the calling switching device 4 in this order (step S113). S114, S115). By receiving this connection response, connection control is performed (step S116). Thereafter, a call can be made between the calling terminal 2 and the called terminal 3 by connection using the B network.

  As described above, by sending a connection request to each network in parallel, even if the location information held by the user information management device 6 is different from the actual location status, the incoming call to the called terminal is received. The time until is not long.

(Connection process)
Meanwhile, if the actual and location state and area information that the user information management device holds match against connection request to each network, that the connection response is more transmitted from the called terminal 3 There is . In this case, connection processing is performed only for one of the connection responses. The connection control (step S116) in FIG. 1 in this case will be described with reference to FIGS.

FIG. 5 is a flowchart illustrating an example of processing in a case where all connection responses are waited and connection control according to priority is performed. In the figure, a connection request is sent from the originating side switching device 4 to a plurality of networks (step S201). Then, the originating side switching device 4 waits until it receives connection responses or connection error responses from all networks (step S202).
Next, unless the responses from all the networks are connection error responses, a call is established from the connection responses according to a predetermined priority network setting (steps S203 → S204). On the other hand, if the responses from all the networks are connection error responses, a connection error response is transmitted to the calling terminal (steps S203 → S205), and the process ends.

As described above, it is possible to connect to only one network among a plurality of networks by performing connection to the destination terminal using only a network corresponding to any one of connectable responses. it can.
On the other hand, FIG. 6 is a flowchart showing an example of processing when connection control is performed for the earliest response. In the figure, a connection request is sent from the originating side switching device 4 to a plurality of networks (step S301). Then, the originating side switching device 4 waits until it receives the first connection response or receives connection error responses from all the networks (steps S302 → S303).

Thereafter, when a response is received for the first connection , the originating side switching device 4 establishes a call by the network corresponding to the connection response (steps S302 → S304). On the other hand, when connection error responses are received from all networks, a connection error response is transmitted to the calling terminal (steps S303 → S305), and the process ends.
As described above, by connecting to the destination terminal using only the network corresponding to the earliest response received, it is possible to connect only one of the plurality of networks.
In the above description, the connection using two types of networks, the FOMA network and the wireless LAN network, has been described. However, it is obvious that the present invention can be applied to connections using more types of networks.

(Connection control method)
In the connection control system described above, the following connection control method is realized. That is, connection control for controlling connection from a calling terminal device using a representative ID set in addition to an ID used in each of the plurality of networks to a receiving terminal device that can be connected using a plurality of networks A location check step (corresponding to steps S102 to S105 in FIG. 1) for checking the location of the receiving terminal device for each of the plurality of networks, and a location check result by the location check step Based on the above, a connection request step (corresponding to steps S106 and S111 in FIG. 1) for transmitting a connection request to the receiving terminal device in parallel using each of the plurality of networks, and each of the plurality of networks A response transmission step (corresponding to step S113 in FIG. 1) for transmitting a response to the connection request when a connection request to the used terminal device is received; A connection control step (corresponding to step S116 in FIG. 1) for connecting to the receiving terminal device using a network corresponding to one of the responses from the receiving terminal device to the connection request. Including a connection control method is realized.

  By sending a connection request to each network in parallel, even when the location information held in the user information management device and the actual location status are different, the time until the incoming call to the destination terminal is increased. There is nothing.

  INDUSTRIAL APPLICABILITY The present invention can be used when controlling connection from a caller terminal device to a callee terminal device that can be connected using a plurality of networks.

It is a sequence diagram which shows the example of signal transmission / reception of the exchange apparatus by this invention, and the connection control system using a terminal device. It is a block diagram which shows the structural example of the connection control system using the switching device by this invention, and a terminal device. It is a block diagram which shows the function structural example of the originating side switching device in FIG. FIG. 3 is a block diagram illustrating a functional configuration example of a called-side terminal in FIG. 2. It is a flowchart which shows the process example in the case of waiting for all the connection responses and performing connection control according to a priority. It is a flowchart which shows the process example in the case of performing connection control about the earliest response. It is a sequence diagram which shows the example of the conventional process in the case of transmitting a connection request | requirement using a multiple types of network. It is a figure which shows the example of the profile information currently hold | maintained at the user information management apparatus.

Explanation of symbols

2 Originating side terminal 3 Terminating side terminal 3a Response transmission means 3b Notification means 4 Originating side switching apparatus 4a Location check means 4b Connection request means 4c Connection control means 6 User information management devices 40 to 42 Radio service areas 43 to 45 Radio base stations A-1 A network switching equipment B-5 B network switching equipment

Claims (4)

It is an exchange device that controls connection from a calling terminal device using a representative ID set in addition to the ID used in each of the plurality of networks to a receiving terminal device that can be connected using a plurality of networks. Based on the area confirmation result by the area confirmation unit, the area confirmation unit for confirming the area of the receiving side terminal device for each of the plurality of networks, and the destination side using each of the plurality of networks Connection request means for transmitting a connection request to the terminal device in parallel, and connection to the receiving terminal device using a network corresponding to one of responses from the receiving terminal device to the connection request And a connection control means.   The connection control means, after receiving all the responses from the receiving terminal device to the connection request, to the receiving terminal device using only a network corresponding to any one of connectable responses 2. The exchange apparatus according to claim 1, wherein connection is performed.   The connection control means performs connection to the receiving terminal device using only a network corresponding to a response received earliest among responses from the receiving terminal device to the connection request. Item 2. The exchange device according to Item 1. A connection control method for controlling connection from a calling terminal device using a representative ID set in addition to an ID used in each of the plurality of networks for a receiving terminal device connectable using a plurality of networks. A location confirmation step for confirming the location of the terminating terminal device for each of the plurality of networks, and the incoming call using each of the plurality of networks based on a location confirmation result of the location confirmation step. A connection request step for transmitting a connection request to the terminal device in parallel and a response transmission step for transmitting a response to the connection request when receiving a connection request to the receiving terminal device using each of the plurality of networks And a connection control step for connecting to the called terminal device using a network corresponding to one of the responses from the called terminal device to the connection request, Connection control method according to claim Mukoto.

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