JP6598629B2 - Message transmission system - Google Patents

Description

  The present invention relates to a message transmission system.

  Conventionally, a short message service (hereinafter referred to as “SMS”) is used as one means for transmitting and receiving messages to and from a communication terminal. Conventionally, various methods such as the SMS over SGs method, which is a 3GPP (Third Generation Partnership Project) standard, have been used for sending and receiving messages in SMS. In response to the recent use of Voice over LTE (Voice over LTE; Long-Term Evolution) using 3GPP standard IMS (IP Multimedia Subsystem) as a voice service on LTE, SMS transmission and reception using IMS An architecture for performing the above is also disclosed in 3GPP (see, for example, Non-Patent Document 1).

3GPP TS 23.204

  When the technology described in Non-Patent Document 1 is applied, it is possible to transmit SMS transmitted from other communication carriers to a communication terminal in VoLTE using the IMS base. However, in order to realize the reception of the SMS using the technique described in Non-Patent Document 1, the technique described in Non-Patent Document 1 can be used even in the SMS transmission side communication carrier. It is necessary to prepare facilities. Therefore, it is considered difficult to transmit and receive SMS using VoLTE from a communication carrier that is not equipped with facilities and the like. As described above, there is room for improvement in order to more suitably distribute the SMS message transmitted from the device of the other network provided by another communication carrier or the like according to the communication method of the communication terminal.

  The present invention has been made in view of the above, and an object of the present invention is to provide a message transmission system that can more suitably transmit a message from another network.

  In order to achieve the above object, a message transmission system according to the present invention includes a subscriber information management device that holds information related to a subscriber terminal of its own network, and information related to a subscriber terminal held by the subscriber information management device. A message relay system that transmits a message transmitted from a device of another network different from the own network to the subscriber terminal, wherein the subscriber information management device Subscriber information holding means for holding, for each subscriber, information for identifying a transfer destination device to be a transfer destination for transmitting a message to the subscriber terminal using a communication method to which the subscriber terminal is connected; Message transmission request receiving means for receiving a message transmission request to the destination terminal including information specifying the destination terminal included in the subscriber terminal from the device of the other network; and the subscriber information A transfer destination device for transmitting a message to the destination terminal using a communication method to which the destination terminal specified by the information included in the message transmission request is connected based on information held in the holding unit The transfer destination information acquisition means for acquiring information for specifying the information, the information for specifying the transfer destination device acquired by the transfer destination information acquisition means, and the message transmission request transmitted from the device of the other network are associated with each other Transfer destination information providing means for providing to the message relay device, wherein the message relay device transmits information specifying the transfer destination device transmitted from the subscriber information management device to the message transmission request. Destination information holding means for holding the information in association with the information specifying the message transmission request received in the subscriber information management device And a message transfer request receiving means for receiving a message transfer request including a message body to the destination terminal from the device of the other network, and the message transfer request based on the information held in the transfer destination information holding means. Message transfer means for transferring a message body for the destination terminal corresponding to the message to the transfer destination device.

  According to the message transmission system, the subscriber information management device specifies a transfer destination device that is a transfer destination for transmitting a message to the subscriber terminal using a communication method to which the subscriber terminal is connected. Information is stored for each subscriber, and when a message transmission request is received from a device of another network, information for specifying a transfer destination device that is a transfer destination for transmitting a message to a destination terminal that is a message destination Provided from the subscriber information management device to the message relay device. In the message relay device, when the message body is acquired from the device of the other network, the information specifying the transfer destination device provided from the subscriber information management device is used to transfer to the transfer destination device corresponding to the communication method of the destination terminal. Message is forwarded. In this case, since the subscriber information management device provides the message relay device with information related to the transfer destination device for delivering the message text to the destination terminal, the device of the other network uses the communication method of the destination terminal, etc. The message can be suitably transmitted in accordance with the communication method of the destination terminal even if the information related to is not acquired again.

  Here, the message transfer means of the message relay device determines in advance a priority order to be used for transferring a message body when a plurality of pieces of information specifying the transfer destination device are received from the subscriber information management device, The message body for the destination terminal can be transferred to the transfer destination device having the higher priority order.

  When the destination terminal performs connection using a plurality of communication methods, information related to a plurality of transfer destination devices may be provided from the subscriber information management device. Therefore, in the message transfer means of the message relay device, the priority order of the transfer destination devices used for transferring the message body is determined in advance, and the message body is transferred based on the priority order, so that a plurality of destination terminals can be used. Even when a communication method is used, message transfer using a more preferable communication method can be realized.

  Further, the message transfer means of the message relay device includes information specifying a transfer destination when transferring the message body to the destination terminal in the message transfer request received from the device of the other network. In this case, if the transfer destination information holding unit holds information specifying a transfer destination device having a higher priority order than the transfer destination device specified by the information included in the message transfer request, the transfer destination A message body for the destination terminal may be transferred to the transfer destination device using information specifying the transfer destination device held in the information holding means.

  In this way, even when information specifying a transfer destination is included in a message transfer request from another network device, a more suitable transfer destination device is selected based on a predetermined priority order. By adopting a configuration for transferring a message, it is possible to transfer a message using a transfer destination device based on a priority order set in advance in the own network, so that message transmission to a destination terminal can be performed more suitably. It becomes possible.

  ADVANTAGE OF THE INVENTION According to this invention, the message transmission system which can perform the transmission of the message from another network more suitably is provided.

It is a figure which shows the structure of the communication system containing the message transmission system which concerns on one Embodiment of this invention. It is a figure which shows the hardware constitutions which concern on each apparatus of a communication system. It is a functional block diagram of HSS and SMS-R which function as a message transmission system in a communication system. It is an example of the information hold | maintained at the subscriber information holding part of HSS. It is an example of the information hold | maintained at the transfer destination information holding part of SMS-R. It is a sequence diagram explaining the transmission method of SMS to UE. It is a flowchart explaining the process (assignment of an IP-SM-GW address) in HSS in the transmission method of SMS. It is a flowchart explaining the process (holding of IP-SM-GW address) by SMS-R in the transmission method of SMS. It is a flowchart explaining the process (selection of a transfer destination) by SMS-R in the transmission method of SMS. It is a disclosure example in 3GPP (TS 23.204) about an architecture for performing SMS transmission / reception using the IMS base.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the accompanying drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and redundant description is omitted.

  FIG. 1 is a diagram showing a system configuration of a communication system including message transmission according to an embodiment of the present invention. A communication system 1 illustrated in FIG. 1 is a system that provides SMS (short message service) to a UE (User Equipment) 90A or a UE 90B (hereinafter, may be collectively referred to as UE 90) that is a communication terminal. In particular, in the following embodiment, in the communication system 1, the UE 90A and the UE 90B are communication terminals that can be connected to the home network N2, and are transmitted from communication terminals connected to another network N1 different from the home network N2. A description will be given of a case where the SMS is provided to the UE 90A or the UE 90. In the following embodiment, the home network N2 may be referred to as a local network and may be described separately from the other network N1.

  The home network N2 shown in FIG. 1 and a roaming-out network N3, which will be described later, realize communication using VoLTE (Voice over LTE) realized using IMS, which is a 3GPP standard technology. In the present embodiment, a case will be described in which the home network N2 and the roaming out network N3 simultaneously provide voice and SMS using a conventional circuit switching domain. That is, the home network N2 and the roaming-out network N3 provide a plurality of communication methods (VoLTE, circuit switching method, packet switching method), and each UE 90 has a plurality of communication methods based on device specifications, contract status, and the like. Suppose you are using part or all of

  As shown in FIG. 1, a communication system 1 includes an SMSC (Short Message Service Center) 10, a GMSC (Gateway Mobile Switching Center) 20, an HSS (Home Subscriber Server) 30, an SMS-R (Short Message Service-Router). ) 40, IP-SM-GW (IP-Short Message-Gateway) 50, MSC (Mobile Switching Center) 61, SGSN (Serving General packet radio service Support Node) 62, P-GW (Packet Data Network- Gateway) 71, S-GW (Serving-Gateway) 72, S-GW 81, MSC 82, and SGSN 83.

  Among the above devices, the SMSC 10 and the GMSC 20 are devices included in the other network N1. The HSS 30, SMS-R, IP-SM-GW 50, MSC 61, SGSN 62, P-GW 71, and S-GW 72 are devices included in the home network N2. In the home network N2, between the IP-SM-GW 50 and the P-GW 71, each device forming the IMS core network 70 (for example, P-CSCF; Proxy Call Session Control Function, S-CSCF; Serving-CSCF, AS; Application Server, etc.) are provided, but are not shown in FIG. Furthermore, the S-GW 81, the MSC 82, and the SGSN 83 are devices included in the roaming out network N3. The other network N1, the home network N2, and the roaming out network N3 are communication networks provided by different communication operators.

  The UE 90A and UE 90B (communication terminals) are normally connected to the IMS (IP Multimedia Subsystem) core network of the home network N2 in the communication system 1 and can receive various services by wireless communication. Examples of the various services include a voice communication (VoLTE) service and a data communication service (for example, data communication such as SMS or electronic mail) using a packet switching method in the home network N2. Further, it is assumed that UE 90A and UE 90B can be provided with voice communication using a circuit switching method and data communication service using a packet switching method through wireless communication via a 3G network provided by the home network N2 of the communication system 1. That is, UE90A and UE90B are one of the subscriber terminals of the home network N2. When the SMS transmission destinations are UE 90A and UE 90B, UE 90A and UE 90B correspond to destination terminals that are SMS (message) destination terminals. UE90A and UE90B are implement | achieved as terminal devices, such as a smart phone and a tablet, for example.

  FIG. 2 is a diagram illustrating a hardware configuration of each device included in the communication system 1 of the present embodiment. That is, the SMSC 10, GMSC 20, HSS 30, SMS-R 40, IP-SM-GW 50, MSC 61, SGSN 62, P-GW 71, S-GW 72, S-GW 81, MSC 82 and SGSN 83 shown in FIG. 2, the CPU 101, the RAM 102 and the ROM 103 which are main storage devices, the communication module 104 which is a data transmission / reception device, an auxiliary storage device 105 exemplified by a hard disk, a flash memory, and the like, a touch panel and a keyboard which are input devices Are configured as a computer system including an input device 106 and an output device 107 such as a display. In each of the above devices, the communication module 104, the input device 106, and the output device 107 are operated under the control of the CPU 101 by loading predetermined computer software on the hardware such as the CPU 101 and the RAM 102 shown in FIG. At the same time, by reading and writing data in the RAM 102 and the auxiliary storage device 105, a series of functions in each device is realized. Hereinafter, returning to FIG. 1, the function of each device will be described in detail.

  The communication system 1 shown in FIG. 1 connects a UE 90A that communicates by connecting to the home network N2, and a UE 90B that roams out from the home network N2 to the roaming out network N3 using VoLTE roaming. A case will be described where SMS is transmitted from another network N1, which is a different network from the home network N2 and the roaming out network N3.

  The SMSC 10 and the GMSC 20 included in the other network N1 have a function for transmitting SMS from the other network N1 to the UE 90A (or 90B) of the home network N2. The SMSC 10 has a function of storing and transmitting SMS from a terminal device or the like that communicates by connecting to another network N1. The SMS from the terminal device or the like is stored in the SMSC 10 and then transmitted to the GMSC 20.

  The GMSC 20 functions as a gateway for transmitting SMS from a terminal device or the like under the other network N1 to the home network N2.

  The HSS 30 is a subscriber information management server (subscriber information management database) that manages contract information, authentication information, and location information of communication terminals such as UE 90A and UE 90B in the home network N2. Here, the location information of the communication terminal held in the HSS 30 is information indicating a network or the like to which the communication terminal is connected. The location information of the communication terminal includes information indicating which communication method the communication terminal such as the UE 90A and UE 90B is in (connected to) and information such as roaming out. In addition, since a device (transfer destination device) as a transfer destination for transmitting SMS is determined for each communication method to which communication terminals such as UE 90A and UE 90B are connected, information on this transfer destination is also held in HSS 30. Is done. The HSS 30 corresponds to a subscriber information management device included in the message transmission system 1A in the communication system, and details will be described later.

  The SMS-R 40 functions as a message relay apparatus having a function of transferring an SMS message body to an apparatus having an exchange function in order to transmit the SMS transmitted from the GMSC 20 to the UE 90A, the UE 90B, and the like. The SMS-R 40 is a device included in the message transmission system 1A in the communication system, and details will be described later.

  The IP-SW-GW 50 is a device serving as a gateway for transmitting the SMS transferred from the SMS-R 40 to the UE 90A, the UE 90B, and the like via the IMS core network 70. When sending an SMS from the IP-SM-CW 50 to the IMS core network 70, the SMS is sent as a signal using SIP (Session Initiation Protocol). That is, the IP-SW-GW 50 is one of transfer destination devices for transmitting SMS to UE 90A, UE 90B, and the like serving as destination terminals.

  The MSC 61 is a device that functions as an exchange when performing SMS transmission using a CS domain that provides a service based on a circuit switching method. That is, the MSC 61 is one of transfer destination devices for transmitting SMS to the UE 90A, UE 90B, and the like that are destination terminals. In the past, when sending SMS without using VoLTE, it has been common to use the CS domain. Therefore, conventionally, SMS is generally transmitted to the UE 90A and UE 90B via the MSC 61.

  The SGSN 62 is a device that functions as an exchange when performing SMS transmission using a PS domain that provides a service based on a packet switching method. That is, the SGSN 62 is one of transfer destination devices for transmitting SMS to the UE 90A, UE 90B, and the like serving as destination terminals.

  P-GW 71 and S-GW 72 are a device group having a function as an exchange in the IMS. The P-GW 71 is a gateway device for connecting to an external Internet or a corporate intranet. The S-GW 72 is a gateway device that transmits user data. The P-GW 71 can also communicate with an external network device. In this embodiment, the P-GW 71 has a function of connecting to the S-GW 81 in the roaming-out network N3.

  The S-GW 81, the MSC 82, and the SGSN 83 are devices corresponding to the S-GW 72, the MSC 61, and the SGSN 62 in the roaming out network N3. When transmitting SMS to a communication terminal that has roamed out to the roaming-out network N3 like the UE 90B, the SMS is transmitted to the UE 90B via one of the S-GW 81, the MSC 82, and the SGSN 83. The MSC 82 and the SGSN 83 are one of transfer destination devices for transmitting SMS when the destination terminal is the UE 90B. When the SMS passes through the S-GW 81, the SMS is sent to the S-GW 81 via the IP-SM-GW 50 which is a transfer destination device.

  In the communication system 1 according to the present embodiment, it is assumed that routing (routing) for the roaming-out UE 90B is performed in the home network N2 (Home Routing = ON). The search (routing) of the transmission path when transmitting SMS to the roaming-out UE 90B may be performed on the home network N2 side to which the UE 90B is conventionally connected, or may not be performed on the home network N2 side. In the communication system 1 of the present embodiment, not only the UE 90A located in the home network N2 but also the routing related to the roaming-out UE 90B is configured to be performed in the home network N2. In other words, the SMS distribution routing is performed in the home network N2 for all communication terminals that contract with the communication provider providing the home network N2. As a result, it is possible to collectively control SMS distribution related to all communication terminals contracted to a communication carrier providing the home network N2 using the home network N2.

  Next, the HSS 30 and the SMS-R 40 that function as a message transmission system in the communication system 1 will be further described with reference to FIG.

  As shown in FIG. 3, the HSS 30 includes a subscriber information holding unit 31 (subscriber information holding unit), an SMS transmission request processing unit 32 (message transmission request receiving unit), and a subscriber information providing unit 33 (forwarding destination information). Acquisition means, transfer destination information providing means). The SMS-R 40 includes a transfer destination information holding unit 41 (transfer destination information holding unit), a transfer destination information processing unit 42 (transfer destination information holding unit), and an SMS transfer control unit 43 (message transfer request receiving unit, message Transfer means).

  First, the subscriber information holding unit 31 of the HSS 30 holds information related to a subscriber of the home network N2 (a contractor to a telecommunications carrier that provides the home network N2). In addition, the subscriber information holding unit 31 is a transfer to which SMS (message) is transferred as information related to the subscriber of the home network N2 for each communication method connected to the subscriber's communication terminal (UE). Information for specifying the destination device is held. In this embodiment, the home network N2 provides a communication method using VoLTE, CS domain, and PS domain. When a communication terminal (UE) of a subscriber performs communication, communication is performed using any one of the above three methods. The subscriber information holding unit 31 of the HSS 30 holds information related to the communication method to be used (communication method that can be located) for each communication terminal (UE) of the subscriber, and transmits SMS to the communication terminal. Holds information for specifying a transfer destination device.

  An example of information held in the subscriber information holding unit 31 is shown in FIG. In FIG. 4, in association with UE 90 (UE 90, UE 90B), information indicating whether or not the user is in VoLTE (O or-), information indicating whether or not the user is in VoLTE roaming (O or-) ), Information indicating the address of IM-SM-GW50, which is a transfer destination device used when resident in VoLTE or VoLTE roaming, information indicating the address of MSC61, which is a transfer destination device in the CS domain, and PS Information indicating the address of the SGSN 62 which is a transfer destination device in the domain is held. Among these, the information indicating the address of the IM-SM-GW 50 is retained only when the UE 90 is in VoLTE or VoLTE roaming. That is, when the UE 90 cannot use VoLTE, the address of the IM-SM-GW 50 is not retained. On the other hand, since the UE 90 capable of using VoLTE can be connected to the CS domain and the PS domain, information indicating the address of the MSC 61 and information indicating the address of the SGSN 62 are also held. Note that the UE 90 that is performing VoLTE roaming holds information indicating the address of the MSC 82 and information indicating the address of the SGSN 83 instead of the information indicating the address of the MSC 61 and the information indicating the address of the SGSN 62. These pieces of information are provided to the SMS-R 40 in response to a request from the SMS-R 40.

  Next, the SMS transmission request processing unit 32 has a function of performing processing related to the SMS transmission request transmitted from the GMSC 20 of the other network N1. Specifically, an SMS transmission request (message transmission request) transmitted from the GMSC 20 of the other network N1 is transmitted to the SMS-R 40, thereby starting processing related to SMS transmission in the SMS-R 40.

  The subscriber information providing unit 33 has a function of providing subscriber information in response to a request from the SMS-R 40 that has transmitted the SMS transmission request. In response to the subscriber information provision request transmitted by designating the UE 90 from the SMS-R 40, the subscriber information providing unit 33 determines that the UE 90 has VoLTE based on the information held in the subscriber information holding unit 31. Alternatively, it is confirmed whether the user belongs to VoLTE roaming or belongs to either of them. When the user is in VoLTE or VoLTE roaming, the address of the IP-SM-GW 50 for transmitting the SMS is associated and held. In addition, when the mobile phone is not located in VoLTE or VoLTE roaming, the IP-SM-GW 50 address for sending SMS is not associated. When the address of the IP-SM-GW 50 for transmitting the SMS is associated, the address, the address of the MSC 61 (or MSC 82), and the address of the SGSN 62 (or SGSN 83) are sent to the SMS-R 40. To send. In addition, even when the IP-SM-GW 50 address for transmitting the SMS is not associated, the MSC 61 address and the SGSN 62 address are transmitted to the SMS-R 40.

  Next, the transfer destination information holding unit 41 of the SMS-R 40 has a function of holding information for specifying a destination to which the SMS is transferred based on the information transmitted from the HSS 30. An example of information held by the transfer destination information holding unit 41 is shown in FIG. As shown in FIG. 5, in the transfer destination information holding unit 41, the address of the IM-SM-GW 50 to which the SMS is transferred, the address of the MSC 61 (or MSC 82), and the address of the SGSN 62 (or SGSN 83) Stored in association with the ID. The ID is assigned to each SMS transmission request (message transmission request) from the other network N1, and is used to specify a series of processes related to SMS transmission starting from the SMS transmission request from the other network N1. Note that when the UE 90 that is the object of SMS transmission is in VoLTE or VoLTE roaming, the address of the IM-SM-GW 50 is stored in association with the ID. -The address of SM-GW 50 is not held in association with the ID. Further, when the address of the IM-SM-GW 50 is held in association with the ID, the IM-SM-GW 50 is given priority as the SMS transfer destination. In other words, a priority order is determined for the SMS transfer destination device. This point will be described later.

  The transfer destination information processing unit 42 receives the SMS transmission request from the GMSC 20 of the other network N1 from the HSS 30 and, using the reception as a trigger, sends information on the transfer destination corresponding to the UE 90 that is the SMS transmission destination to the HSS 30. Has a function to acquire. The transfer destination information acquired by the transfer destination information processing unit 42 is held in the transfer destination information holding unit 41 described above.

  The SMS transfer control unit 43 receives the SMS transmission request from the GMSC 20 of the other network N1 from the HSS 30, acquires the information related to the SMS transfer destination from the HSS 30, and then receives the SMS from the GMSC 20 of the other network N1, It has a function to transfer to a device engaged in transmission to Based on the information held in the transfer destination information holding unit 41, the SMS transfer control unit 43 is connected to devices (IM-SM-GW50, MSC61 or MSC82, and SGSN62 or SGSN83) to which the UE 90 that is the SMS transmission destination is connected. In contrast, the SMS is transferred. Thereby, SMS is transmitted with respect to UE90 of a transmission destination by the apparatus to which SMS was transferred.

  Next, details of an SMS transmission method to the UE 90 in the communication system 1 will be described with reference to FIGS. FIG. 6 is a sequence diagram illustrating a method for transmitting an SMS to UE 90. 7 to 9 are flowcharts for explaining processing in each step of the SMS transmission method.

  First, as shown in FIG. 6, when the SMS transfer request is transmitted from the SMSC 10 of the other network N1 to the GMSC 20 of the other network N1 (S01), the SMS transmission request is transmitted from the GMSC 20 of the other network N1 to the HSS 30. A signal (SRI for SM) is transmitted (S02). Here, the SMS transmission request processing unit 32 of the HSS 30 confirms that the home routing (HR) in the local network (home network N2) is ON (S03), and then the SMS transmission request processing unit 32 of the HSS 30 performs the SMS. -An SMS transmission request (SRI for SM) is transferred to R40 (S04). The SMS transmission request (SRI for SM) includes information for specifying the UE 90 that is the SMS transmission destination.

  When receiving the SMS transmission request (SRI for SM) from the HSS 30, the transfer destination information processing unit 42 of the SMS-R 40 requests the HSS 30 to provide the transfer destination for the UE 90 specified by the SMS transmission request (SRI for SM). (S05). On the other hand, the subscriber information providing unit 33 of the HSS 30 refers to the subscriber information holding unit 31 on the basis of the inquiry from the SMS-R 40, and indicates the location status of the UE 90 that is the SMS transmission destination, that is, the UE 90 Confirms the communication method to be connected (S06). Then, the information held in the subscriber information holding unit 31 is provided. That is, the IM-SM-GW50 address for transferring the SMS to the UE 90 that is the SMS destination (when located in VoLTE or VoLTE roaming), the address of the MSC61 (or MSC82), and the SGSN62 (or SGSN83) ) Is transmitted from the subscriber information providing unit 33 to the SMS-R 40 (MAP_SRI for SM.ack) (S07).

  With respect to the above-described processing (S05 to S07) in the HSS 30, the point of changing the processing based on whether or not the UE 90 is in VoLTE or VoLTE roaming will be described with reference to FIG. When the subscriber information providing unit 33 of the HSS 30 receives the transfer destination provision request (SRI for SM) transmitted from the SMS-R 40 (S21), the subscriber information holding unit 31 is based on the inquiry from the SMS-R 40. To determine whether the UE 90 is in VoLTE or VoLTE roaming (S22). This is determined based on whether the subscriber information holding unit 31 holds the IM-SM-GW 50 address in association with the information specifying the UE 90. Here, when UE90 is located in VoLTE or VoLTE roaming (S22-YES), the address of IM-SM-GW50 is given to the signal (MAP_SRI for SM.ack) transmitted to SMS-R40. (S23). On the other hand, if the UE 90 is not in VoLTE or VoLTE roaming (S22-NO), no IM-SM-GW50 address is assigned. Thereafter, a signal (MAP_SRI for SM.ack) further including the address of the MSC 61 and the address of the SGSN 62 is transmitted to the SMS-R 40 (S24). The MSC 61 address and the SGSN 62 address are assigned to the signal (MAP_SRI for SM.ack) transmitted to the SMS-R 40 in the same manner as in the existing technology. That is, when the address of MSC 61 and the address of SGSN 62 are conventionally given to a signal (MAP_SRI for SM.ack) transmitted to SMS-R 40, UE 90 is located in VoLTE or VoLTE roaming (S22). -YES) is different from the conventional signal in that an IP-SM-GW50 address is assigned to a signal (MAP_SRI for SM.ack) transmitted to the SMS-R40.

  Returning to FIG. 6, when the transfer destination information processing unit 42 of the SMS-R 40 receives the information related to the SMS transfer destination provided from the HSS 30, the transfer destination information holding unit 41 holds this (S 08). The SMS-R 40 instructs SMS transmission (SRI for SM.ack) as a reply to the SMS transmission request (S03) from the GMSC 20 to the HSS 30 to the GMSC 20 of the other network N1 (S09). The signal transmitted to the GMSC 20 includes an ID (Corelation ID) that identifies a series of processing and an address (NNN) of the SMS-R 40 that identifies the SMS-R 40. The signal transmitted to the GMSC 20 includes the address of the MSC 61 (or MSC 82) and the address of the SGSN 62 (or SGSN 83).

  A process performed in the SMS-R 40 based on the reception of a signal from the HSS 30 will be described with reference to FIG. When receiving the signal (MAP_SRI for SM.ack) from the HSS 30 (S31), the transfer destination information processing unit 42 of the SMS-R 40 checks whether the IP-SM-GW 50 address is included in the signal (S32). ). Here, when the IP-SM-GW50 address is included in the signal (MAP_SRI for SM.ack) from the HSS 30 (S32-YES), the IP-SM-GW50 address is used as the transfer destination information holding unit 41. (S33). On the other hand, when the IP-SM-GW50 address is not included in the signal (MAP_SRI for SM.ack) from the HSS 30 (S32-NO), the processing related to the IP-SM-GW50 address is not performed. After that, the MSC 61 (or MSC 82) address and the SGSN 62 (or SGSN 83) address are held in the transfer destination information holding unit 41, and an SMS transmission is instructed as a reply to the SMS transmission request (S03) from the GMSC 20 to the HSS 30. A signal (SRI for SM.ack) is transmitted (S34).

  Returning to FIG. 6, when the GMSC 20 receives the SMS transmission instruction from the SMS-R 40, the GMSC 20 transmits a message transfer request (MT forward SM) to the SMS-R 40 as a signal including a message text to the UE 90 that is the destination. (S10). The message transfer request from the GMSC 20 includes, in addition to the message body, an ID (Corelation ID) that identifies a series of processes and information (SNN) that identifies the SMS transmission path. This signal is also used when sending SMS without using conventional VoLTE. Conventionally used signals also contain information for specifying the SMS transmission path.

  When the SMS transfer control unit 43 of the SMS-R 40 receives the message transfer request from the GMSC 20, the SMS transfer control unit 43 performs processing related to the transfer of the SMS (message body). Specifically, when a message transfer request is received from the GMSC 20, the SMS transmission destination is determined based on the information held in the transfer destination information holding unit 41 of the SMS-R 40 (S11). When it is determined to transmit a signal to the IP-SM-GW 50, the SMS-R 40 transmits a signal (MT forward SM) including a message text to the UE 90 to the IP-SM-GW 50 (S12). ). In IP-SM-GW50, based on the signal from SMS-R40, the signal containing the message text to UE90 to the device (S-CSCF / P-CSCF) related to communication control included in IMS core network 70 (SIP_MESSAGE) is transmitted (S13). Further, an SMS message body is transmitted from the apparatus (S-CSCF / P-CSCF) related to communication control included in the IMS core network 70 to the UE 90 (S14). When the communication terminal is roaming out like the UE 90B, the P-GW 71 (see FIG. 1) connected to the subordinate of the IMS core network 70 in the home network N2 to the S-GW 81 of the roaming out network N3. After the SMS is transferred, the SMS is transmitted to the UE 90B.

  On the other hand, when selecting the transmission destination (S11), if it is determined to transmit the SMS via the MSC 61 (or MSC 82) / SGSN 62 (or SGSN 83) instead of the IP-SM-GW 50, the SMS-R 40 A signal (MT forward SM) including a message text to UE 90 is transmitted to MSC 61 (or MSC 82) / SGSN 62 (or SGSN 83) (S15). Which of the MSC 61 (or MSC 82) and the SGSN 62 (or SGSN 83) is used is determined based on information (SSN) designating the SMS transmission path included in the signal (MT forward SM) from the GMSC 20. Then, the SMS message body is transmitted from the MSC 61 (or MSC 82) / SGSN 62 (or SGSN 83) that has received the SMS-R 40 to the UE 90 (S16).

  The SMS transmission destination selection (S11) in the SMS-R 40 will be further described with reference to FIG. First, when a message transfer request (MT forward SM) is received from the GMSC 20 (S41), the SMS transfer control unit 43 of the SMS-R 40 associates the IP-SM- with an ID (Corelation ID) included in the signal. Reference is made to whether the address of the GW 50 is held in the transfer destination information holding unit 41 (S42). Here, when the address of the IP-SM-GW 50 is held in the transfer destination information holding unit 41 (S42-YES), the message text to the UE 90 for the IP-SM-GW 50 designated by the address (SM forward SM) is determined to be transmitted (S43), and the transmission processing (S12 to S14) shown in FIG. 6 is performed. On the other hand, when the address of the IP-SM-GW 50 is not held in the transfer destination information holding unit 41 (S42-NO), information specifying the SMS transmission path included in the signal (MT forward SM) from the GMSC 20 Based on (SSN), it is determined to transmit a signal (MT forward SM) instructing transmission of the SMS including the message text to the UE 90 to the MSC 61 (or MSC 82) or SGSN 62 (or SGSN 83) (S45). The processing (S15, S16) related to transmission shown in FIG. 6 is performed. As described above, in selecting the SMS transmission destination in the SMS-R 40, when the address of the IP-SM-GW 50 is held in the transfer destination information holding unit 41, the signal (MT forward SM) from the GMSC 20 is used. The SMS is transmitted to the IP-SM-GW 50 without considering the information (SSN) for designating the included SMS transmission path. That is, it is determined in advance that the IP-SM-GW 50 is a transfer destination device having a higher priority order than other devices.

  Through the above processing, SMS is transmitted to the UE 90 in the communication system 1, and the user of the UE 90 can confirm the SMS transmitted from the device of the other network N1.

  In the above embodiment, in the communication system 1, in the HSS 30, it is determined whether the UE 90 serving as the SMS transmission destination is in VoLTE or VoLTE roaming (S06). And when UE90 is located in VoLTE or VoLTE roaming, the device (IP-SM-GW50) which becomes a transfer destination at the time of SMS transmission using VoLTE or VoLTE roaming from HSS30 to SMS-R40 Is sent to the SMS-R 40, and the SMS-R 40 holds the information in the transfer destination information holding unit 41. On the other hand, in the SMS-R 40, when the transfer destination information holding unit 41 of the SMS-R 40 holds information on a device (IP-SM-GW 50) serving as a transfer destination at the time of SMS transmission using VoLTE or VoLTE roaming. The SMS is sent to the device (IP-SM-GW50) serving as a transfer destination in the SMS transmission using VoLTE or VoLTE roaming regardless of the designation of the SMS transmission method (SSN) from the device of the other network. Send. Thereby, when UE uses VoLTE, transmission of SMS using VoLTE becomes possible. Further, in the communication system 1, by providing the above-described configuration, even if the device of the other network N1 that is the SMS transmission source does not support SMS distribution using VoLTE, the device group of the home network N2 performs VoLTE. It is possible to control the SMS distribution used. That is, it is possible to perform SMS distribution using VoLTE in the home network N2, which is the local network, without depending on the correspondence status of SMS distribution using VoLTE in the other network N1, and transmission of messages from other networks. It becomes possible to carry out more suitably.

  The above effect will be described with reference to FIG. FIG. 10 is a disclosure example in 3GPP (TS 23.204) regarding an architecture for performing SMS transmission / reception using the IMS base. Since the apparatus group described in FIG. 10 is common to the apparatus group illustrated in FIG. 1, detailed description thereof is omitted.

  As shown in FIG. 10, in the architecture described in 3GPP, first, the GMSC 20 that receives an instruction from the SMSC 10 of the other network N1 sends a message transmission request (MAP_SRI for SM) that is a request signal related to SMS transmission to the HSS 30. ) Is transmitted (S51), and a response signal (MAP_SRI for SM.ack) from the HSS 30 is acquired (S52). At this time, 3GPP stipulates that a new parameter (IP-SM-GW Guidance) is added to the message transmission request (S51) from the GMSC 20 to the HSS 30. Similarly, the response signal (S52) from the HSS 30 to the GMSC 20 is defined to provide information (IP-SM-GW Guidance indicatot) corresponding to the IP-SM-GW 50 address corresponding to the new parameter. ing. Through the above process, the GMSC 20 can acquire information for specifying the transfer destination device (IP-SM-GW 50) when sending the SMS to the UE 90. A message transfer request (MAP_mt forward SM) including the SMS message body is transmitted to the device IP-SM-GW 50 (S53). 3GPP stipulates that the IP-SM-GW 50 controls SMS distribution related to all communication systems in the IMS network (including VoLTE, VoLTE roaming, etc.), the CS domain, and the PS domain.

  According to the above 3GPP rules, a message transmission request transmitted from the GMSC 20 of the other network N1 to the HSS 30 of the home network N2 is required to include a new parameter. Therefore, the GMSC 20 of the other network N1 needs to newly generate a signal different from the SMS transmission request using the conventional CS domain. In other words, when the signal transmitted from the GMSC 20 of the other network N1 is the same signal as when using the conventional CS domain, the HSS 30 starts control related to SMS distribution using VoLTE or VoLTE roaming. Since no trigger occurs, SMS cannot be distributed using VoLTE or VoLTE roaming. As described above, in order to distribute SMS from the other network N1 to the UE 90 using VoLTE or VoLTE roaming in accordance with the conventional method defined in 3GPP, it is necessary to change the equipment in the other network N1. It was. Therefore, even if an attempt is made to promote SMS delivery using VoLTE or VoLTE roaming in the home network N2, the transmission method cannot be changed unless the maintenance in the other network N1 progresses. Therefore, SMS transmission from other networks is preferable. There was room for improvement to do.

  In contrast, in the message transmission system 1A of the communication system 1 according to the present embodiment, when the HSS 30 serving as the subscriber information management apparatus receives a message transmission request from the GMSC 20 or the like of the other network N1, it is the destination of the message. Information for specifying a transfer destination device that is a transfer destination for transmitting a message to the destination terminal is acquired from the subscriber information holding unit 31 and provided from the HSS 30 to the SMS-R 40 that is a message relay device. Then, in the SMS-R 40, when the message transfer request including the message body is obtained from the GMSC 20 of the other network N1, the information provided from the HSS 30 and specifying the transfer destination device held in the transfer destination information holding unit 41 is used. The message is transferred to a transfer destination device (for example, IP-SM-GW 50) corresponding to the communication method of the destination terminal. As described above, information related to the transfer destination device for delivering the message text to the destination terminal is provided from the HSS 30 to the SMS-R 40. That is, as in the example illustrated in FIG. 10, even if the GMSC 20 or the like that is the device of the other network N1 does not acquire information related to the communication method of the destination terminal from the HSS 30, the message transmission corresponding to the communication method of the destination terminal Can be suitably performed in the home network N2.

  In addition, when a terminal serving as an SMS destination performs a connection using a plurality of communication methods like the UE 90, information related to a plurality of transfer destination devices is provided from the subscriber information management device. In the present embodiment, as shown in FIG. 5 and the like, when the IP-SM-GW 50 address corresponding to VoLTE is held in association with the ID in the transfer destination information holding unit 41, the MSC address and the SGSN address Is also held together. Therefore, the SMS transfer control unit 43 of the SMS-R 40 determines in advance the priority order of the transfer destination devices used for transferring the message text, and transfers the message text based on the priority order. In the present embodiment, when the address of the IP-SM-GW 50 is held in the transfer destination information holding unit 41, it is determined to perform SMS transmission using the IP-SM-GW 50. With such a configuration, even when the destination terminal uses a plurality of communication methods, message transfer using a more suitable communication method can be realized.

  Furthermore, in the communication system 1 according to the present embodiment, even when information (SSN) designating a transfer destination is included in the message transfer request from the GMSC 20 of the other network N1, it is based on a predetermined priority order. Thus, a more suitable transfer destination device (IP-SM-GW 50 in this embodiment) is selected to transfer the message. Therefore, since the message can be transferred using the transfer destination device based on the priority order set in advance in the own network, it is possible to more suitably transmit the message to the destination terminal. With such a configuration, in the communication system 1 according to the present embodiment, it is possible to promote the transmission of SMS using VoLTE to communication terminals using VoLTE, and the transmission of SMS to communication terminals using VoLTE. Can be performed more suitably.

  The present invention has been described in detail based on the embodiments. However, the present invention is not limited to the above embodiment. The present invention can be modified in various ways as described below without departing from the scope of the invention.

  For example, in the above embodiment, the case where the HSS 30 corresponds to the subscriber management apparatus of the message transmission system 1A and the SMS-R 40 corresponds to the message relay apparatus has been described, but the apparatus configuration is not limited to the above. . That is, each of the subscriber management device and the message relay device may be configured by a plurality of devices, and conversely, the message transmission system described above may be realized by a single device.

  Moreover, although the said embodiment demonstrated the structure which transfers SMS (message text) from SMS-R40 to either of IP-SM-GW50, MSC61, and SGSN62 according to the communication system of a communication terminal, the apparatus of a transfer destination There is no particular limitation on the transfer route to the end. That is, while the message body is transferred from the SMS-R 40 to the transfer destination device, the message body may be passed through, for example, the IP-SM-GW 50 may be used.

DESCRIPTION OF SYMBOLS 1 ... Communication system, 1A ... Message transmission system, 10 ... SMSC, 20 ... GMSC, 30 ... HSS, 31 ... Subscriber information holding part, 32 ... SMS transmission request processing part, 33 ... Subscriber information provision part, 40 ... SMS -R, 41 ... transfer destination information holding unit, 42 ... transfer destination information processing unit, 43 ... SMS transfer control unit, 50 ... IP-SM-GW, N1 ... other network, N2 ... home network, N3 ... roaming out network.

Claims (1)

Based on the subscriber information management device that holds information related to the subscriber terminal of the own network and the information related to the subscriber terminal held by the subscriber information management device, the information is transmitted from a device of another network different from the own network. A message transmission system including a message relay device for transmitting a message to the subscriber terminal,
The subscriber information management device includes:
Subscriber information holding means for holding, for each subscriber, information for specifying a transfer destination device as a transfer destination for transmitting a message to the subscriber terminal using a communication method to which the subscriber terminal is connected;
Message transmission request receiving means for receiving a message transmission request to the destination terminal including information specifying the destination terminal included in the subscriber terminal from the device of the other network;
Based on the information held in the subscriber information holding means, for transmitting a message to the destination terminal using a communication method connected to the destination terminal specified by the information included in the message transmission request Transfer destination information acquisition means for acquiring information for identifying the transfer destination device;
Providing transfer destination information provided to the message relay device in association with information specifying the transfer destination device acquired by the transfer destination information acquisition means and the message transmission request transmitted from the device of the other network Means,
With
The message relay device
Transfer destination information holding means for holding information specifying the transfer destination device transmitted from the subscriber information management device in association with information specifying the message transmission request;
Message transfer request receiving means for receiving a message transfer request including a message text to the destination terminal corresponding to the message transmission request received in the subscriber information management device from the device of the other network;
Message transfer means for transferring a message body for the destination terminal corresponding to the message transfer request to the transfer destination device based on the information held in the transfer destination information holding means;
Equipped with a,
The message transfer means of the message relay device includes:
A priority order to be used for transferring a message body when a plurality of pieces of information specifying the transfer destination apparatus are received from the subscriber information management apparatus is determined in advance, and the destination is set to the transfer destination apparatus having a higher priority order. Forward the message body to the device,
Designated by information included in the message transfer request when the message transfer request received from the device of the other network includes information specifying a transfer destination when the message body is transferred to the destination terminal If the information specifying the transfer destination device having a higher priority order than the transfer destination device is held in the transfer destination information holding unit, the transfer destination device held in the transfer destination information holding unit is specified. A message transmission system for transferring a message body for the destination terminal to the transfer destination device using information to be transmitted.

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