JP2019165266A - Communication connection management device, ip multi-media subsystem, registration device, communication connection management method and program - Google Patents

Abstract

To perform interconnection between IMS networks by using a simple communication procedure.SOLUTION: An inter-network GW acquires version information of a communication protocol to be used at a domain indicated by domain information indicated by a called UE SIP_URI on the basis of the domain information. The inter-network GW outputs a connection request acquired from a calling UE to an IMS network to which the called UE is connected by using the communication protocol indicated by the acquired version information.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a communication connection management device, an IP multimedia subsystem, a registration device, a communication connection management method, and a program.

  In an interconnection between IP (Internet Protocol) multimedia subsystem (IMS) networks, connectivity may not be ensured due to differences in IP versions, transport protocols used, and SIP compliance recommendations. Such a difference in specifications must be detected by the gateway function and connected to each other. Here, it is assumed that the IMS network (called IMS network) to which the called device (called device) connects is designed to be able to communicate with both IPv6 and IPv4 versions of the Internet protocol. In this case, when the IP version of the signal transmitted from the IMS network (originating IMS network) to which the originating device (originating device) is connected to the IMS network (called IMS network) to which the terminating device is connected cannot be determined, There is a possibility that communication connection cannot be established from the calling side device connected to the calling side IMS network to the called side device connected to the called side IMS network.

  As a related technique, when the calling side device once tries to connect to the called side device using the IPv6 communication protocol and cannot connect to the called side device using the IPv6 communication protocol, the calling side device again performs the IPv4 communication. There is a technology that attempts to connect to a destination device using a protocol. This technique is called an IPv6 / IPv4 fallback function. However, in the connection method using the function, communication that occurs in the connection may be connected via a plurality of servers in the network, which may cause a signal connection delay. The IPv6 / IPv4 fallback function is not an essential function in IMS network connection. Accordingly, there are many IMS networks that do not support the IPv6 / IPv4 fallback function, which may be a barrier to interconnection between IMS networks. Patent Document 1 is disclosed as a related technique.

JP 2013-093758 A

  The technique of the above-mentioned patent document 1 is an example of an IMS network system, but the version of the communication protocol used by the called-side device connected to the called-side communication network is different from that of the calling-side device connected to the calling-side communication network. It is not an easy technique to solve the problem that communication connection cannot be made.

  Therefore, an object of the present invention is to provide a communication connection management device, an IP multimedia subsystem, a registration device, a communication connection management method, and a program that solve the above-described problems.

  According to the first aspect of the present invention, the communication connection management device acquires version information of the communication protocol used in the domain indicated by the domain information based on the domain information indicated by the SIP_URI of the communication destination device. And a communication unit that outputs a connection request acquired from the communication source device to a communication network to which the communication destination device is connected using a communication protocol indicated by the version information.

  According to the second aspect of the present invention, in the IP (Internet Protocol) multimedia subsystem including the communication connection management device, the communication connection management device is configured to perform the processing based on the domain information indicated by the SIP_URI of the communication destination device. A version information acquisition unit that acquires version information of a communication protocol used in a domain indicated by domain information, and a connection request acquired from a communication source device are connected to the communication destination device using the communication protocol indicated by the version information. A communication unit for outputting to a communication network.

  According to the third aspect of the present invention, the registration device acquires the version information of the communication protocol used in the domain indicated by the domain information based on the domain information indicated by the SIP_URI of the communication destination device. And a communication unit that outputs a connection request acquired from a communication source device to a communication network to which the communication destination device is connected using a communication protocol indicated by the version information, and is connected to a communication connection management device, Number for registering in the number management server in association with the device number included in the registration request and the SIP_URI assigned to the communication destination device detected in the registration request based on the registration request including the device number of the communication destination device A management unit is provided.

  According to the fourth aspect of the present invention, the communication connection management method acquires version information of a communication protocol used in the domain indicated by the domain information based on the domain information indicated by the SIP_URI of the communication destination device, and performs communication. The connection request acquired from the source device is output to the communication network to which the destination device is connected using the communication protocol indicated by the version information.

  According to the fifth aspect of the present invention, the program acquires version information of a communication protocol used in the domain indicated by the domain information based on the domain information indicated by the SIP_URI of the communication destination device. An acquisition unit functions as a communication unit that outputs a connection request acquired from a communication source device to a communication network connected to the communication destination device using a communication protocol indicated by the version information.

  According to the fifth aspect of the present invention, the program includes a version information acquisition unit that acquires version information of a communication protocol used in a domain indicated by the domain information based on the domain information indicated by the SIP_URI of the communication destination device. A communication unit that outputs a connection request acquired from a communication source device to a communication network to which the communication destination device is connected using a communication protocol indicated by the version information, and a computer connected to the communication connection management device. Based on the registration request including the device number of the communication destination device, the device number included in the registration request and the SIP_URI assigned to the communication destination device detected in the registration request are associated with the number management server. It functions as a number management means for registration.

  According to the present invention, even when the version of the communication protocol used by the calling side device connected to the called side communication network is different from that of the calling side device connected to the calling side communication network, the call can be received with a simple connection procedure. The side device and the calling side communication network can be connected for communication.

1 is a block diagram illustrating a configuration of an IP multimedia subsystem according to an embodiment of the present invention. FIG. It is a functional block diagram of GW between networks by one Embodiment of this invention. It is a functional block diagram of a SIP server according to an embodiment of the present invention. It is a figure which shows the number management table by one Embodiment of this invention. It is a figure which shows the version management table by one Embodiment of this invention. It is a figure which shows the outline | summary of the communication flow by one Embodiment of this invention. It is a figure which shows the detail of the communication flow by one Embodiment of this invention. It is a figure which shows the hardware constitutions of the computer by one Embodiment of this invention. It is a figure which shows the minimum structure of GW between networks by one Embodiment of this invention.

  Hereinafter, an IP (Internet Protocol) multimedia subsystem according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a configuration of an IP multimedia subsystem according to the embodiment. In this figure, in the IP multimedia subsystem 1, an originating IMS network 11 and a terminating IMS network 21 are connected via an inter-network GW (gateway) 31 which is an aspect of a communication connection management device. A calling side UE 12 (communication source device), which is a calling side device, is communicatively connected to the calling side IMS network 11. In addition, a destination side UE 22-1 (communication destination device) and a destination side UE 22-2 are connected to the destination side IMS network 21 by communication. The destination UEs 22-1 and 22-2 connected to the destination IMS network 21 are collectively referred to as the destination UE 22. For convenience of explanation, one source UE 12 and two destination UEs 22 are shown in FIG. 1, but more UEs may actually be connected to each IMS network.

In the present embodiment, the destination IMS network 21, the inter-network GW 31, and the number management server 23 each have both a function of relaying an IPv4 communication protocol and a function of relaying an IPv6 communication protocol. That is, the destination IMS network 21, the inter-network GW 31, and the number management server 23 each have a dual stack function.
In the present embodiment, the originating UE 12 and each network device such as an SIP server that constitutes the originating IMS network 11 communicate using an IPv4 communication protocol.
In this embodiment, the destination UE 22-1 performs communication using the IPv4 communication protocol, and each network device such as an SIP server that configures the destination UE 22-2 performs communication using the IPv4 and IPv6 communication protocols. .

FIG. 2 is a functional block diagram of the inter-network GW.
The inter-network GW 31 executes a program stored therein, so that a control unit 311, a connection request acquisition unit 312, a SIP (Session Initiation Protocol) _URI (Uniform Resource Identifier) acquisition unit 313, a version information acquisition unit 314, A communication unit 315 is provided.
The control unit 311 controls other functional units provided in the inter-network GW 31.
The connection request acquisition unit 312 acquires a communication connection request including the device number (telephone number) of the called UE 22 from the calling UE 12.
The SIP_URI acquisition unit 313 acquires the SIP_URI corresponding to the device number included in the connection request from the number management server 23 that stores the device number of the called UE 22 and the SIP_URI in association with each other.
The version information acquisition unit 314 acquires version information of a communication protocol used in the domain indicated by the domain information based on the domain information indicated by the SIP_URI of the called device.
The communication unit 315 is an IMS network to which the destination UE 22 is connected using the communication protocol indicated by the version information acquired by the version information acquisition unit 314 for each communication such as a connection request addressed to the destination UE 22 transmitted from the source UE 12. Output to.

FIG. 3 is a functional block diagram of the SIP server.
The SIP server 211 is provided inside the destination IMS network 21.
The SIP server 211 is communicatively connected to the inter-network GW 31. The SIP server 211 acquires a registration request including at least the device number of the destination UE 22 from the destination UE (User Equipment) 22 connected to the network in the incoming network IMS 21. The SIP server 211 includes the functions of a control unit 2111, a number management unit 2112, and a communication unit 2113 by executing a program stored in its own device. The control unit 2111 controls the SIP function as the SIP server 211 and the like. The number management unit 2112 is assigned to the device number (phone number recommended in E.164) included in the acquired registration request from the called UE 22 and the called UE 22 that issued the registration request detected in the registration request. The SIP_URI is registered in the number management server 23 in association with it. The communication unit 2113 communicates with other devices.
The SIP server 111 may have the same function as the SIP server 211.

FIG. 4 is a diagram showing a number management table stored in the number management server.
As shown in this figure, the number management server 23 stores the device number and the SIP_URI in association with each other. The device number is the telephone number of the called UE 22. The telephone number is a recommendation from E.T. The telephone number determined based on 164.

FIG. 5 is a diagram showing a version management table stored in the inter-network GW 31.
The network GW 31 stores a version management table in advance. In the version management table, domain information and version information of IP (Internet Protocol) used in the domain are recorded in association with each other. The IP version information is information indicating IPv4 or IPv6, for example. The domain information is domain information that can be identified from the SIP_URI.

FIG. 6 is a diagram showing an outline of a communication flow according to the present embodiment.
In the IP multimedia subsystem according to the present embodiment, the inter-network GW 31 receives the INVITE request (IPv4) transmitted from the originating UE 12 via the originating IMS network 11 (step S601). The inter-network GW 31 receives the E.E. which is the device number of the called UE 22 from the INVITE request. The 164 number is detected (step S602). The network GW 31 is the E.E. The SIP_URI inquiry including the 164 number is output to the number management server 23 (step S603). In response to the inquiry, the number management server 23 returns SIP_URI to the inter-network GW 31 (step S604). The inter-network GW 31 acquires the SIP_URI from the number management server 23 (step S605). The inter-network GW 31 specifies domain information from the acquired SIP_URI (step S606). Then, the inter-network GW 31 acquires IP version information (IPv4 or IPv6) corresponding to the domain information from the version management table (step S607). The inter-network GW 31 outputs each communication such as an INVITE request transmitted from the originating UE 12 to the terminating IMS network 21 using the communication protocol (IP) of the acquired version information (step S608).

FIG. 7 is a diagram showing details of the communication flow according to the present embodiment.
Next, details of the processing of the IP multimedia subsystem according to the present embodiment will be described.
First, in the destination IMS network 21, the destination UE 22 registers its own device number in the number management server 23. At this time, the callee UE 22 has its own device number (telephone number). A registration request signal including the 164 number and the SIP_URI is transmitted to the SIP server 211 (registration device) provided in the destination IMS network 21. The SIP server 211 is an aspect of a registration device. More specifically, in this process, the destination UE 22-1 transmits a registration request signal to the SIP server 211 using the IPv4 protocol (step S701). The called UE 22-2 transmits a registration request signal to the SIP server 211 using the IPv6 protocol (step S702). The SIP server 211 transfers each registration request signal to the number management server 23 (steps S703-1 and S703-2). As a result, the number management server 23 registers the device number and SIP_URI included in the registration request signal in the number management table in association with each other (steps S704-1 and S704-2). Note that the registration request signal does not need to include the device number and the SIP_URI in the destination UE 22. In this case, the SIP server 211 or the number management server 23 extracts the device number included in the registration request, automatically generates a SIP_URI corresponding to this device number, registers it in the number management table in association with the device number. Also good.

  Then, it is assumed that the originating UE 12 outputs an INVITE request (IPv4) as a connection request to the terminating UE 22-2, for example. This INVITE request includes the device number (telephone number) of the called UE 22-2. The connection request acquisition unit 312 of the inter-network GW 31 receives the INVITE request (IPv4) via the originating IMS network 11 (step S705). The control unit 311 of the inter-network GW 31 receives the E.E. The 164 number is detected (step S706). Next, the SIP_URI acquisition unit 313 of the inter-network GW 31 receives the E.E. The SIP_URI inquiry including the 164 number is output to the number management server 23 (step S707). Based on the inquiry, the number management server 23 determines the E.D. The SIP_URI corresponding to the 164 number is acquired from the number management table. The number management server 23 receives the E.D. The SIP_URI corresponding to the 164 number is returned to the inter-network GW 31 (step S708).

  The network GW 31 obtains the SIP_URI from the number management server 23 (step S709). The version information acquisition unit 314 of the inter-network GW 31 specifies domain information from the acquired SIP_URI (step S710). For example, when the SIP_URI is “5678@bbb.com”, the character string after the character indicated by “@” is specified as the domain information. Then, the version information acquisition unit 314 of the inter-network GW 31 acquires IP version information (IPv4 or IPv6) corresponding to the specified domain information from the version management table (step S711). The communication unit 315 of the inter-network GW 31 outputs the INVITE request transmitted from the calling UE 12 to the called IMS network 21 using the communication protocol (IP) of the acquired version information (Step S712).

In the IP multimedia subsystem, when the version of IP used for communication is different between IMS networks, the IP version is usually converted between the IMS networks by a SIP (Session Initiation Protocol) gateway function. When the IP version used in the opposite IMS network is fixed, it can be converted to the IP version. However, when the opposite IMS network is an IPv6 / IPv4 dual stack, there is a problem that it is not possible to connect because it is unknown which version of IP to connect, and as a solution, there is a method of connecting with the IPv6 / IPv4 fallback function. is there. However, the fallback function activates the fallback function by receiving and analyzing the error response in which the Warning header is set from the destination IMS network after the originating IMS network tries to connect with IPv6, and then restarts again with IPv4. This is a function to connect. Since this fallback function is not an essential function for the IMS network, the originating IMS network may not have the fallback function. In addition, when connecting with the fallback function, a connection delay occurs.
On the other hand, in the IP multimedia subsystem according to the present embodiment, the IP version of the destination UE 22 in the originating IMS network 11 is obtained by performing the above-described processing in connection with the IPv6 / IPv4 dual stack IMS network. It becomes possible to distinguish information. In the IP multimedia subsystem according to the present embodiment described above, connection to an IPv6 / IPv4 dual stack network can be performed with simple communication without using a fallback function.
In addition, since the IP multimedia subsystem of this embodiment can be connected without using the IPv6 / IPv4 fallback function, connection delay during call connection can be suppressed.

In the IP multimedia subsystem shown in FIG. 1, it is described that the inter-network GW 31 does not belong to either the originating IMS network 11 or the terminating IMS network 21. However, the inter-network GW 31 is not connected to the originating IMS network. 11 and the destination IMS network 21 may be provided. The inter-network GW 31 may be provided in both the originating IMS network 11 and the terminating IMS network 21. In this case, the inter-network GW 31 may perform processing equivalent to the above-described processing via the inter-network GW 31 belonging to the opposite IMS network.
Further, the function of the inter-network GW 31 may be provided in the SIP server provided in the originating IMS network 11 and the terminating IMS network 21, and the function of the above-described inter-network GW 31 may be exhibited by the function.
The number management server 23 described above may be provided in the SIP server provided in the destination IMS network 21.
In the above description, for convenience of explanation, the originating UE 12 and the terminating UE 22 and the originating IMS network 11 and the terminating IMS network 21 are distinguished from each other. It can also transition to the callee side.

FIG. 8 is a diagram illustrating a hardware configuration of a computer.
The above-described originating UE 12, terminating UE 22, SIP servers 111, 211, and number management server 23 are computers.
As shown in FIG. 8, the computer includes a central processing unit (CPU) 51, an interface (IF) 52, a communication module 53, a read only memory (ROM) 54, a random access memory (RAM) 55, and a hard disk drive (HDD) 56. Etc. are provided.

FIG. 9 is a diagram showing a minimum configuration of the inter-network GW 31. As shown in FIG.
The inter-network GW 31 may include at least the version information acquisition unit 314 and the communication unit 315 described with reference to FIG. In this case, the connection request acquisition unit 312 and the SIP_URI acquisition unit 313 may be provided in other devices.

DESCRIPTION OF SYMBOLS 1 ... IP multimedia subsystem 11 ... Originating side IMS network 12 ... Originating side UE
21 ... Destination IMS network 22 ... Destination UE
31 ... GW between networks
111, 211 ... SIP server

Claims (10)

A version information acquisition unit that acquires version information of a communication protocol used in the domain indicated by the domain information based on the domain information indicated by the SIP_URI of the communication destination device;
A communication unit that outputs a connection request acquired from a communication source device to a communication network connected to the communication destination device using a communication protocol indicated by the version information;
A communication connection management device comprising: A connection request acquisition unit that acquires the communication connection request including the device number of the communication destination device from the communication source device;
A SIP_URI acquisition unit that acquires the SIP_URI corresponding to the device number of the communication destination device included in the connection request from a number management server that stores the device number and the SIP_URI in association with each other;
The communication connection management device according to claim 1. The device number of the communication destination device is a recommendation from E.T. The communication connection management apparatus according to claim 1, wherein the telephone number is determined based on 164.   The communication connection management device according to any one of claims 1 to 3, wherein the version information is IP version 4 or IP version 6 of the communication protocol. An IP (Internet Protocol) multimedia subsystem equipped with a communication connection management device,
The communication connection management device is
A version information acquisition unit that acquires version information of a communication protocol used in the domain indicated by the domain information based on the domain information indicated by the SIP_URI of the communication destination device;
A communication unit that outputs a connection request acquired from a communication source device to a communication network connected to the communication destination device using a communication protocol indicated by the version information;
An IP multimedia subsystem comprising: Based on the registration request including the device number of the communication destination device, the device number included in the registration request and the SIP_URI assigned to the communication destination device detected in the registration request are associated with each other and registered in the number management server. The IP multimedia subsystem according to claim 5, further comprising: a registration device including a number management unit. Based on the domain information indicated by the SIP_URI of the communication destination device, the version information acquisition unit that acquires version information of the communication protocol used in the domain indicated by the domain information, and the version information indicates the connection request acquired from the communication source device. A communication unit that outputs to a communication network to which the communication destination device is connected using a communication protocol; and a communication connection management device comprising:
Based on the registration request including the device number of the communication destination device, the device number included in the registration request and the SIP_URI assigned to the communication destination device detected in the registration request are associated with each other and registered in the number management server. A registration device with a number manager. Obtaining version information of the communication protocol used in the domain indicated by the domain information based on the domain information indicated by the SIP_URI of the communication destination device;
A communication connection management method for outputting a connection request acquired from a communication source device to a communication network to which the communication destination device is connected using a communication protocol indicated by the version information. Computer
Version information acquisition means for acquiring version information of the communication protocol used in the domain indicated by the domain information based on the domain information indicated by the SIP_URI of the communication destination device;
A communication means for outputting a connection request acquired from a communication source device to a communication network connected to the communication destination device using a communication protocol indicated by the version information;
Program to function as. Based on the domain information indicated by the SIP_URI of the communication destination device, the version information acquisition unit that acquires version information of the communication protocol used in the domain indicated by the domain information, and the version information indicates the connection request acquired from the communication source device. A communication unit that outputs to a communication network to which the communication destination device is connected using a communication protocol, and a computer connected to the communication connection management device,
Based on the registration request including the device number of the communication destination device, the device number included in the registration request and the SIP_URI assigned to the communication destination device detected in the registration request are associated with each other and registered in the number management server. Number management means,
Program to function as.

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