KR102049586B1 - Apparatus for handling call processing function failure in called network, method thereof and computer recordable medium storing the method - Google Patents

Abstract

The present invention relates to an apparatus for processing a call processing malfunction of a terminating network in a communication system, a method therefor, and a computer-readable recording medium on which the method is recorded. ) Receives the session connection request message from the user device, and transmits the session connection request message to the proxy control device (P-CSCF) assigned to the called user device. At this time, if there is a failure in the proxy control device (P-CSCF), the service control device (S-CSCF) proceeds to call processing with the called user device using the circuit-switched network, or is not a proxy control device assigned to the called user device Proceed with the session connection procedure using another proxy control device. As described above, the present invention can provide a call processing procedure normally even when a network failure occurs, thereby increasing the reliability of the service.

Description

Apparatus for handling call processing function failure in called network, method approximately and computer recordable medium storing the method}

The present invention relates to a network failure handling technology, and more particularly, to a device for enabling a normal connection procedure between user devices when a failure occurs in a specific entity for performing a session connection procedure of a called network. And a computer readable recording medium having recorded the method.

IMS (IP Multimedia Subsystem), which was initially developed for IP multimedia services in 3G mobile communication networks, is now becoming a core technology for providing new services in next generation communication environment based on All IP. The necessity of service control through IMS control in IP-based networks can be found in service quality, billing, and convergence of different services.

All multimedia services can be provided through the existing Internet connection, but this is limited to the best-effort service. However, the quality of the session can be guaranteed by performing resource allocation for the session through IMS. IMS also enables proper charging for sessions. It is possible to provide an appropriate charging method according to the type and quality of the service, the characteristics of the user, the policies of the network operator and the service provider, rather than the charge based on the flat fee or the packet volume. In addition, IMS can easily create new services through open interface protocols and provides an environment for creating new services by combining with existing services. The characteristics of IMS, which provide both network operators and service providers with control and billing capabilities for services, and provide users with the means to perform all their services while roaming, as well as on their home networks, This is why the defined IMS is becoming the basic control platform in the all IP based wired / wireless integration environment.

Korea Patent Publication No. 2012-0002249, registered on Jan. 05, 2012 (Name: How to repair the failure of P-CSCF)

An object of the present invention is an apparatus for processing a network failure to provide a session connection or call connection procedure normally when a proxy control device (P-CSCF) for a session connection of a called network fails, and a method therefor and the same. A method is provided for recording a computer readable recording medium.

A service control apparatus for network failure processing according to an exemplary embodiment of the present invention for achieving the above object includes an interface module for transmitting and receiving a message and a receiving user when a session connection request message is received through the interface module. Upon confirming the failure of the proxy control device assigned to the device, the media gateway converts the session connection request message into a call connection request message and sends the session connection request message to the media gateway through the interface module. It includes a control module.

A service control apparatus for network failure processing according to an exemplary embodiment of the present invention for achieving the above object includes an interface module for transmitting and receiving a message and a receiving user when a session connection request message is received through the interface module. And a control module for transmitting the session connection request message through the interface module to a proxy control device other than the proxy control device assigned to the called user device when the failure of the proxy control device assigned to the device is confirmed.

A method for processing a failure of a service control device according to an embodiment of the present invention for achieving the above object is to identify the failure of the proxy control device assigned to the destination user device when receiving a session connection request message. And transmitting, by the media gateway, the session connection request message to the media gateway so that the media gateway converts the session connection request message into a call connection request message and delivers the session connection request message to the circuit switched network.

A method for processing a failure of a service control device according to an embodiment of the present invention for achieving the above object is to identify the failure of the proxy control device assigned to the destination user device when receiving a session connection request message. And sending the session connection request message to a proxy control device other than the proxy control device assigned to the called user device according to the confirmation of the failure.

According to the present invention, when the S-CSCF of the called party receives a session connection request message from the calling user device, if there is a failure in the P-CSCF, another proxy control device or a circuit-switching network may be used. Use to ensure that the session connection procedure or call connection procedure proceeds normally. As described above, the present invention can process a call processing procedure normally even when a network failure occurs, thereby increasing the reliability of the service.

1 is a view for explaining the configuration of a communication system according to an embodiment of the present invention.
2 is a block diagram illustrating an internal configuration of a service control apparatus according to an embodiment of the present invention.
3 is a block diagram illustrating an internal configuration of an application server according to an exemplary embodiment of the present invention.
4 is a block diagram illustrating a schematic configuration of a proxy control apparatus according to an embodiment of the present invention.
5 is a flowchart illustrating a failure processing method according to the first embodiment of the present invention.
6 is a flowchart illustrating a failure processing method according to a second embodiment of the present invention.
7A to 7E are flowcharts illustrating a failure occurrence checking method according to an exemplary embodiment of the present invention.
8 is a flowchart illustrating a failure processing method of a service control apparatus according to an embodiment of the present invention.
9 is a flowchart illustrating a failure processing method of an application server according to a first embodiment of the present invention.
10 is a flowchart illustrating a failure handling method of the proxy control apparatus according to the second embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. However, in describing in detail the operating principle of the preferred embodiment of the present invention, if it is determined that the detailed description of the related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a view for explaining the configuration of a communication system according to an embodiment of the present invention.

Referring to FIG. 1, a communication system according to an embodiment of the present invention is a system in which a packet switching (PS) network and a circuit switching network are mixed. For example, the packet switched network may be an IMS (IP Multimedia Subsystem) network. The packet switching network of the present invention includes a switching device 200, a Call State Control Function (CSCF) server, a home subscriber server (HSS, 600) and an application server (AS, Application Server, 700). In particular, the CSCF server includes a proxy control device (P-CSCF, Proxy Call State Control Function, 300), a connection control device (I-CSCF, Interrogating Call State Control Function, 400), and a service control device (S-CSCF, Serving Call). State Control Function, 500). Here, the CSCF server may be a server in which the proxy control device (P-CSCF, 300), the connection control device (I-CSCF, 400), and the service control device (S-CSCF, 500) are implemented as one device. Can be. Alternatively, the proxy control device P-CSCF 300, the connection control device I-CSCF 400, and the service control device S-CSCF 500 may be implemented as separate devices. In addition to the terminating network 20, a configuration of a circuit switching network is shown. This includes a media gateway (MGW, Media Gateway, 800), a circuit switch (MSC, Mobile Switching Center, 900) and the additional service providing device 910.

The switching device 200 transmits a message received from the user device 100 to any one of the plurality of proxy control devices 300. Here, the message may be a Session Initiation Protocol (SIP) message. For example, the switching device 200 may be an L4 (layer 4, transport layer) switch. The switching device 200 has a distribution rule for distributing a number of messages received from each of the plurality of user devices 100 so that the load on the plurality of proxy control devices 300 is distributed. The switching device 200 transmits the message received from the specific user device 100 to the specific proxy control device 300 according to the distribution rule.

The Call Session Control Function (CSCF) server may perform basic functions for SIP-based session control, such as subscriber registration, authentication, additional service provision, routing, various call control, address handling, and the like. The proxy control apparatus 300 mainly performs call control and routing with respect to the user apparatus 100 in the IMS network. In addition, the connection control device 400 mainly manages the location of the user device 100. The service control device 500 manages a profile of the user device 100 to manage additional services to be provided to the user device 100. In particular, the proxy control apparatus 300 and the service control apparatus 500 may be plural and allocated when the user apparatus 100 registers with the network.

The proxy control device 300 is the first point at which the user device 100 accesses the IMS. When the registration request (REGISTER) message is transmitted from the user device 100, the proxy control device 300 may transmit it to the connection control device 400. At this time, the proxy control device 300 includes its address information in the registration request message and transmits it. The address information of the proxy control device 300 is transmitted to the service control device 500 assigned to the user device 100 at the time of registration. When the service control device 500 wants to transmit a specific message to the user device 100, the address of the proxy control device 300 using the address information transmitted by the proxy control device 300 through the registration request message. Send a specific message to Accordingly, the proxy control device 300 transmits the specific message received from the service control device 500 to the user device 100. In addition, the proxy control apparatus 300 stores the address of the service control apparatus 500 allocated to the user apparatus 100 in the process of registering a request, and then receives a session connection request (INVITE) message from the user apparatus 100. This may be transmitted to the stored service control apparatus 500 as an address.

The connection control device 400 registers the location of the user device 100 in the home subscriber server 600 in the process of registering a user, that is, a subscriber, of the user device 100. In addition, the connection control device 400 obtains an address list of the service control device 500 available from the home subscriber server 600, and refers to the service control device to be assigned to the user device 100 to perform actual registration. 500 may be determined. Alternatively, the connection control device 400 receives a message including the address of the service control device 500 assigned to the user device 100 from the home subscriber server 600, and performs a service for actual registration according to this message. The control device 500 can be determined.

When the registration request message is received from the connection control device 400, the service control device 500 may register a subscriber with the home subscriber server 600 and obtain a profile from the home subscriber server 600. The service control device 500 may identify the type of additional service to be provided to the user device 100 using the profile. In addition, the service control apparatus 500 may determine whether the user apparatus 100 may use only one of the circuit switched network and the packet switched network, or may use both the circuit switched network and the packet switched network through the profile. In addition, the service control device 500 connects the application server 700 to exchange messages between the user device 100 and the application server 700 so as to provide an additional service to the user device 100. In addition, the service control apparatus 500 may obtain and manage authentication information, that is, an authentication vector (AV) from the home subscriber server 600. In addition, the service control apparatus 500 authenticates a user using the authentication vector AV.

The home subscriber server 600 may store and manage user profile, authentication, and location related data as a database of the user of the user device 100, and provide information required by the CSCF server. In addition, the home subscriber server 600 may generate an authentication vector (AV) required for authentication.

The application server 700 is an equipment for providing an additional service and may communicate with the service control apparatus 500 using SIP. Examples of supplementary services include calling number related services (CLIP, CLIR, etc.), call waiting, call holding, push-to-talk, call forwarding, call forwarding, call closure service, malicious calling number, legal interception, service announcement, Services include conference call services, voice mail, text and voice conversion, location-based services, SMS, MMS, presence information, and instant messaging.

The media gateway 800 provides signaling conversion between the packet switched network and the circuit switched network. Signaling conversion means converting a format between a protocol of a message used in a packet switched network and a protocol of a message used in a circuit switched network. For example, conversion is performed between a Session Initiation Protocol (SIP) message and an Integrated Services Digital Network (ISDN) User Part (ISP) message. To this end, the media gateway 800 has a protocol conversion function for interworking a packet switched network and a circuit switched network.

When the user device 100 is connected to the circuit-switching network, the circuit exchanger 900 interworks with a home location register (HLR) or a home subscriber server 600 for the connected user device 100. Performs authentication and registers the authenticated user device 100 with the location. In addition, the circuit switch 900 performs a call connection procedure by downloading a profile from a home location register (not shown) or a home subscriber server 600 when a user is provided with a service in a circuit switched network. In step 910, additional service processing is performed. It should be noted that the home location register and the home subscriber server 600 may be implemented as a single device in which the home location register is merged with the home subscriber server 600 or may be separately implemented. If implemented as one, the entities of the circuit-switched network, in particular the circuit-switched 900, should also be able to access the home subscriber server 600. When the home location register and the home subscriber server 600 are implemented separately, the user's profile stored in the home location register and the home subscriber server 600 should be synchronized.

The supplementary service providing apparatus 910 collectively refers to entities on a circuit-switching network for providing various supplementary services, and the supplementary service providing apparatus 910 may be implemented as one or more apparatuses. Such additional services may include services such as a missed call number, individual call rejection, call notification, coloring-back tone, and voice message. The missed call number providing service provides the receiver with the telephone number of the unreceived caller when the caller attempts to connect the call while the called party cannot call. Private call rejection service restricts call connection of specific caller. When the called party is busy, the callable notification service is an additional service that informs the caller that the called party can be called when the called party becomes available. The coloring back tone service is a service that provides a multimedia file as a ring back tone instead of the ring tone of a general tone method. The voice message service is a service for providing a caller's voice message to the called party.

The present invention assumes a case where a failure occurs in the proxy control device 300 of the incoming network. When the service control device 500 located in the destination network receives a connection request message for requesting a session connection with the destination user device from the calling user device, when the service control device 500 checks the failure of the proxy control device 300, the service control device 500 receives the session connection request message. Transfer to the called user device using another route. According to the first embodiment, the service control device 500 transmits the session connection request message to the media gateway 800 to convert the session connection request message into a call connection request message through the circuit switched network. According to the second embodiment, the service control device 500 delivers the session connection request message to a proxy control device other than the failed proxy control device 300 so that the session connection request message is delivered to the called user device. . Accordingly, according to an embodiment of the present invention, even when a failure occurs in the proxy control apparatus 300 of the incoming network, the session connection procedure or the call connection procedure may be normally performed.

2 is a block diagram illustrating an internal configuration of a service control apparatus according to an embodiment of the present invention.

Referring to FIG. 2, the service control apparatus 500 according to the embodiment of the present invention includes an interface module 510, a storage module 520, and a control module 530.

The interface module 510 is for communication with the proxy control device 300, the connection control device 400, the home subscriber server 600, the media gateway 800, and the like. That is, the interface module 510 receives a message from the proxy control device 300, the connection control device 400, the home subscriber server 600, and the media gateway 800, and the proxy control device 300 and the connection control device. Message 400 may be sent to the home subscriber server 600 and the media gateway 800.

The storage module 520 is for data storage and may store various data according to an embodiment of the present invention. In particular, the storage module 520 may store authentication information (authentication vector, AV) and profile received from the home subscriber server 600 during the network registration procedure of the user device 100. The profile includes a list of additional services subscribed to by the user of the user device 100. This profile is stored until the user device 100 releases registration. In addition, the storage module 520 may store address information of the proxy control device 300 allocated to the user device 100 during the registration procedure of the user device 100.

The control module 530 may control an overall operation of the service control device 500 and a signal flow between internal blocks of the service control device 500, and may perform a data processing function of processing data. The control module 530 may be a processor such as a central processing unit (CPU).

When the control module 530 receives the session connection request (INVITE) message through the interface module 510, the control module 530 identifies the called user device through an identifier of the called user device stored in the session connection request message. Then, it is determined whether a failure occurs in the proxy control apparatus 300 assigned to the called user device. The present invention assumes a case where a failure occurs in the proxy control device 300 assigned to the called user device. When a failure occurs in the proxy control device 300 allocated to the called user device, the control module 530 performs a session connection procedure or a call connection procedure according to the following method.

According to the first embodiment, the control module 530 transmits a failure occurrence notification message to the application server 700 through the interface module 510. The failure occurrence notification message notifies that the proxy control device 300 assigned to the called user device has a failure, and requests a switch from the packet switched network to the circuit switched network. The control module 530 receives a session connection request message including a routing indicator from the application server 700 through the interface module 510. Then, the control module 530 transmits the session connection request message to the media gateway 800 through the interface module 510 and the routing indicator is removed. Accordingly, the media gateway 800 will convert the session connection request (INVITE) message into a call connection request (IAM) message and forward it to the circuit switch 900. The circuit switch 900 will then forward the call connection request to the called user device.

According to the second embodiment, the control module 530 transmits the session connection request message to the proxy control device 300 other than the proxy control device 300 allocated to the called user device through the interface module 510. Here, when the proxy control apparatus 300 is not assigned to the called user device, connection information (for example, IP / Port information) with the called user device may not be known. Therefore, the control module 530 includes the connection information with the destination user device in the session connection request message and transmits it. Accordingly, the proxy control device 300 which is not assigned to the called user device may transmit the session connection request message to the called user device using the connection information included in the session connection request message and the identification information of the called user device.

In the case of the first embodiment described above, this is possible only when the called user equipment can use both a packet switched network and a circuit switched network. When the called user equipment can use both the packet switched network and the circuit switched network, the session connection request or the call connection procedure can be performed through the first and second embodiments. If the destination user equipment can use only the packet switched network, it is necessary to perform a session connection procedure according to the second embodiment. Therefore, the control module 530 may check whether the called user equipment can use both the packet switched network and the circuit switched network. When the called user device registers with the called network, the control module 530 may receive the profile of the called user device from the home subscriber server 600 through the interface module 510 and store it in the storage module 520. Whether the terminating user equipment can use both the circuit switched network and the packet switched network or only the packet switched network is recorded in the profile. Accordingly, the control module 530 may check whether the called user device can use both the circuit switched network and the packet switched network through the profile stored in the storage module 520. Therefore, if the called user device can use both the circuit switched network and the packet switched network, the control module 530 performs any one of the first and second embodiments described above, and if the called user device can use only the packet switched network, The second embodiment described above should be carried out.

On the other hand, the control module 530 checks the failure of the application server 700 in the following way. According to an embodiment, the control module 530 may transmit a session connection request message to the application server 700 through the interface module 510. In response to the session connection request message, the control module 530 receives a failure notification message indicating a failure or if no message is received for a preset time, recognizes that the application server 700 has failed. . According to another exemplary embodiment, the control module 530 may periodically transmit a failure confirmation message to the application server 700 via the interface module 510 to query whether a failure occurs. If the control module 530 receives a failure response message through the interface module 510 including an indicator indicating that a failure has occurred in response to the failure confirmation message, or if no message is received before the next cycle arrives, The application server 700 recognizes that a failure has occurred. According to another exemplary embodiment, when a failure occurs, the application server 700 generates a failure notification message for notifying the occurrence of a failure by itself, and transmits the generated failure notification message to the service control device 500. Accordingly, upon receiving the failure occurrence notification message generated by the application server 700 through the interface module 510, the control module 530 recognizes that the failure occurs in the application server 700.

3 is a block diagram illustrating an internal configuration of an application server according to an exemplary embodiment of the present invention.

Referring to FIG. 3, an application server 700 according to an embodiment of the present invention includes an interface unit 710, a storage unit 720, and a control unit 730.

The interface unit 710 is for communicating with the service control apparatus 500, the home subscriber server 600, and the like. That is, the interface unit 710 may transmit and receive a message with the service control device 500 and the home subscriber server 600 and the like.

The storage unit 720 is for storing data and may store various types of data according to an embodiment of the present invention. In particular, the storage unit 720 may store various data for providing an additional service to the user device 100. For example, in the case of an additional service for providing caller information to the called party, the application server 700 may include the caller information in the session connection request message received from the service control device 500 and transmit the information to the service control device 500. Can be. Caller information included in the session connection request message will be delivered to the called user device 100 for display. For example, text such as "Hi OOO" can be the caller information. In order to provide such an additional service, the storage unit 720 may store caller information previously registered by the caller. The storage unit 720 may store various types of data for providing various additional services in addition to the examples described.

The control unit 730 may control an overall operation of the service control device 500 and a signal flow between internal blocks of the service control device 500, and may perform a data processing function of processing data. The control unit 730 may be a processor such as a central processing unit (CPU).

The control unit 730 basically performs a process for providing an additional service to the user device 100. The service control apparatus 500 receiving the session connection request message provides the session connection request message to the application server 700 so that the application server 700 provides the additional service. Therefore, when the control unit 730 receives the session connection request message from the service control device 500, the control unit 730 recognizes the target through identification information of the originating user device or the called user device of the session connection request message, and provides the corresponding additional service. Follow the process to provide. For example, the control unit 730 may process the session connection request message and transmit the processed session connection request message to the service control device 500 in order to provide the necessary additional service. Alternatively, the control unit 730 may provide an additional service in cooperation with another entity on the network, and then transfer the session connection request message to the service control apparatus 500 through the interface unit 710.

However, according to the first embodiment of the present invention, the control unit 730 may receive a failure occurrence notification message instead of the session connection request message from the service control device 500 through the interface unit 710. Accordingly, the control unit 730 may recognize that a failure occurs in the proxy control device 300, and the control unit 730 may recognize that the call connection procedure should be performed using the circuit switching network because of the occurrence of the failure.

Accordingly, the control unit 730 generates a session connection request message including a routing indicator indicating that the call connection procedure is switched from the packet switched network to the circuit switched network. For example, the routing indicator is included in the Request-URI header of the session connection request message. Subsequently, the control unit 730 transmits a session connection request message including the routing indicator to the service control apparatus 500 through the interface unit 710. If the session connection request message is transmitted to the service control device 500 without the routing indicator, the service control device 500 will attempt to deliver the session connection request message to the proxy control device 300, and the proxy control device 300 Recognize the failure of the, and again, will be in an infinite loop to send a failure notification message to the application server 700. As such, the routing indicator causes the service control apparatus 500 not to enter an endless loop and transmit the session connection request message to the media gateway 800. Then, the media gateway 800 converts the session connection request message into a call connection request message and delivers it to the circuit switched network.

4 is a block diagram illustrating a schematic configuration of a proxy control apparatus according to an embodiment of the present invention.

Referring to FIG. 4, the proxy control apparatus 300 according to an embodiment of the present invention includes an interface unit 310, a storage unit 320, and a control unit 330.

The interface unit 310 is for communication with the switching device 200, the connection control device 400, the service control device 500, and the like. That is, the interface unit 310 receives a message from the switching device 200, the connection control device 400, and the service control device 500, and the switching device 200, the connection control device 400, and the service control device ( Message).

The storage unit 320 is for storing data, and may store various types of data according to an embodiment of the present invention. In particular, when the user registers the user device 100, the storage unit 320 may identify identification information of the user device 100 assigned to the user (proxy control device) and the service control device 500 assigned to the user device 100. The address of can be mapped and saved.

The controller 330 may control an overall operation of the proxy control apparatus 300 and a signal flow between internal blocks of the proxy control apparatus 300, and may perform a data processing function for processing data. The controller 330 may be a processor such as a central processing unit (CPU).

When the controller 330 receives the session connection request message from the service control apparatus 500 through the interface 310, the controller 330 transmits the session connection request message to the user device 100 assigned to the user. However, according to an exemplary embodiment of the present invention, the controller 330 may receive a session connection request message in which a user device other than the user device 100 assigned to the proxy control device 300 is designated as the called user device. . The session connection request message will be transmitted by the service control device 500 including connection information (eg, IP / Port information of the called user device) in the session connection request message. Therefore, the controller 330 transmits the corresponding session connection request message to the called user device through the interface unit 310 using the identification information of the called user device and the connection information of the called user device included in the session connection request message. .

5 is a flowchart illustrating a failure processing method according to the first embodiment of the present invention. In this embodiment, it is assumed that the first user device 101 of the calling network wants to connect a session to the second user device 102 of the called network.

Referring to FIG. 5, the service control apparatus 500 located in the called network receives a session connection request message from the calling network in step S110. This session connection request message is for the first user device 101 to request a session connection with the second user device 102. The session connection request message may be an INVITE message according to SIP. The session connection request message includes identification information of the first user device 101 that originally sent the message and identification information of the second user device 102 that will receive the message last. The identification information of the second user device 102 may be described and transmitted in the Request-URI_header as "sip: 01029001234@oooims.net" according to the SIP.

In the outgoing network, the session connection request message is initially transmitted by the first user device 101, and the proxy control device (P-CSCF) and the service control device (S-CSCF) of the outgoing network assigned to the first user device 101 are provided. ) And the connection control device (I-CSCF) may be delivered to the service control device 500 of the called network sequentially.

On the other hand, when the second user device 102 registers with the destination network, it transmits a registration request (REGISTER) message. At this time, the proxy control device 300 receiving the registration request message transmits the proxy control device 300 including its own address information in the registration request message. This registration request message is transmitted to the service control device 500 assigned to the second user device 102 by the connection control device 400. Therefore, when the service control device 500 wants to transmit a specific message to the second user device 102, the service control device 500 corresponds to the proxy control device 300 through address information of the proxy control device 300 included in the registration request message. Send a message to deliver the message to the second user device 102. Therefore, when the service control device 500 assigned to the second user device 102 receives the session connection request message in step S110, when registering the second user device 102, the service control device 500 registers the address information received through the registration request message. The session connection request message may be transmitted to the proxy control apparatus 300 through the request.

However, it is assumed that a failure occurs in the proxy control device 300 of the incoming network in step S120. Thus, the service control device 500 may check the failure of the proxy control device 300 that is the target to transmit the session connection request message in step S130. According to an embodiment of the present invention, the service control device 500 may identify the failure of the proxy control device 300 in various ways. The method for identifying the failure of the service control device 500 will be described in more detail below.

The service control apparatus 500 confirming the failure confirms whether the second user device 102 can use the circuit switched network together with the packet switched network. This can be confirmed from the profile stored in advance in the registration procedure of the second user device 102. Here, it is assumed that the second user device 102 is a device that can use both a packet switched network and a circuit switched network. Then, the service control device 500 transmits a failure occurrence notification message to the application server 700 in step S140, to inform that the proxy control device 300 has a failure.

The application server 700 receiving the failure occurrence notification message may recognize that the call processing procedure needs to be switched to the circuit switching network because of the failure. Accordingly, the application server 700 includes a routing indicator in the session connection request message instructing the call processing procedure to be performed through the circuit switched network. Next, the application server 700 transmits a session connection request message including a routing indicator to the service control apparatus 500 in step S150. The routing indicator is included in the Request-URI header of the session connection request message. The routing indicator may be inserted into the identification information of the second user device 102 of the Request-URI header as a specific number (“999”), for example, “tel: +829991029001234”. If the application server 700 transmits the session connection request message without inserting the routing indicator, the service control apparatus 500 checks the failure of the proxy control apparatus 300 again, and sends the application server 700 to the application server 700. You will end up in an infinite loop, such as signaling a failure. Therefore, the application server 700 includes a routing indicator to transmit the session connection request message to the service control device 500.

When the service control device 500 receives the session connection request message including the routing indicator from the application server 700, the service control device 500 transmits the session connection request message to the media gateway 800 through the routing indicator of the received session connection request message. Recognize that you should. Accordingly, the service control device 500 removes the routing indicator from the session connection request message, for example, "tel: +821029001234". Then, the service control device 500 transmits a session connection request message to the media gateway 800 in step S160.

The media gateway 800 converts the SIP message into an Integrated Services Digital Network (ISDN) User Part (ISP) message, or converts the ISUP message into a SIP message. Accordingly, the media gateway 800 converts an INVITE message, which is a session connection request message, into an initial address message (IAM) message. Then, the media gateway 800 transfers the call connection request message to the circuit switch 900 in step S170.

Optionally, when the circuit switch 900 receives the call connection request (IAM) message, the circuit switch 900 confirms the additional service subscribed to by the second user device 102 and provides the additional service in association with the additional service providing device 910. can do. In operation S180, the circuit switch 900 transmits a call connection request message to the second user device 102. Thereafter, the second user device 102 receiving the call connection request message will perform a subsequent call connection procedure with other entities on the network in step S190.

In the first embodiment, if the second user device 102 is subscribed to the additional service, the application server 700 may provide the additional service for the second user device 102 when the failure status notification message is received. Can be. Alternatively, the circuit switch 900 receiving the call connection request message from the media gateway 800 may provide an additional service in cooperation with the additional service providing apparatus 910.

As described above, according to the present invention, even when a network failure occurs, the call processing procedure can be normally performed, and additional services can be provided normally, thereby increasing the reliability of the service.

6 is a flowchart illustrating a failure processing method according to a second embodiment of the present invention. In this embodiment, it is assumed that the first user device 101 of the calling network wants to connect a session to the second user device 102 of the called network.

Referring to FIG. 6, the service control device 500 located in the called network and assigned to the second user device 102 receives a session connection request message INVITE from the calling network in step S210. This session connection request message is for the first user device 101 to request a session connection with the second user device 102. The session connection request message includes identification information of the first user device 101 that originally sent the message and identification information of the second user device 102 that will receive the message last. The identification information of the second user device 102 may be described and transmitted in the Request-URI_header as "sip: 01029001234@oooims.net".

This session connection request message is initially transmitted by the first user device 101 of the originating network, and is assigned to the first user device 101 by a proxy control device (P-CSCF) and a service control device (S-) of the originating network. It is delivered to the service control device 500 of the called network via the CSCF) and the connection control device (I-CSCF) in sequence. Therefore, when the service control device 500 assigned to the second user device 102 receives the session connection request message, upon registration of the second user device 102, the first proxy assigned to the second user device 102 is received. The session connection request message should be sent to the control device 301.

However, it is assumed that a failure occurs in the first proxy control device 301 of the incoming network in step S220. Thus, the service control device 500 checks the failure of the first proxy control device 301 in step S230. According to an embodiment of the present invention, the service control device 500 may identify the failure of the first proxy control device 301 in various ways. The method for identifying the failure of the service control device 500 will be described in more detail below.

The service control apparatus 500 confirming the failure does not transmit the session connection request message to the first proxy control apparatus 301. Instead, the service control device 500 connects the session to a proxy control device other than the first proxy control device 301 assigned to the second user device 102, that is, the second proxy control device 302 in step S240. Send the request message. At this time, the service control device 500 includes the connection information in the session connection request message and transmits it. Here, the connection information is information necessary for communicating with the second user device 102. As described above, since the second proxy control device 302 is not a device assigned to the second user device 102, the second proxy control device 302 knows connection information (eg, IP / Port information) with the second user device 102. Can't. Therefore, the service control device 500 includes the connection information for the second user device 102 in the session connection request message and transmits the connection information to the second proxy control device 302.

Therefore, the second proxy control device 302 transmits the session connection request message to the second user device 102 by using the identification information and the connection information of the second user device 102 included in the session connection request message in step S250. I can deliver it. Upon receiving the session connection request message, the second user device 102 will perform a subsequent session connection procedure with other entities on the network in step S260. As described above, even when a network failure occurs, the present invention can normally proceed with the session connection procedure, thereby increasing the reliability of the service.

7A to 7E are flowcharts illustrating a failure occurrence checking method according to an exemplary embodiment of the present invention. In this embodiment, specific embodiments of step S130 of FIG. 5 or step S230 of FIG. 6 are described above. 7A to 7E illustrate only the method in which the service control apparatus 500 confirms that a failure occurs in the proxy control apparatus 300 in the first embodiment, the first proxy control apparatus 301 in the second embodiment. It will be understood that the service control device 500 can check the same when a failure occurs.

5 and 7A, according to an embodiment, it is assumed that a failure occurs in the proxy control apparatus 300 in step S120. In this case, the service control apparatus 500 transmits the session connection request message previously received in step S310 (step S110) to the proxy control apparatus 300. Upon receiving the session connection request message, the proxy control apparatus 300 transmits a failure occurrence notification message indicating a failure occurrence to the service control apparatus 500 in step S315. According to the SIP, the failure occurrence notification message may be a 503 Service Unavailable message or a 504 Server Timeout message. Here, the 503 Service Unavailable message is transmitted when a request cannot be processed normally. In addition, the 504 Server Timeout message is transmitted when the request cannot be processed within the time limit due to overload or the like. Accordingly, the service control device 500 may check the occurrence of the failure of the proxy control device 300.

5 and 7B, according to another embodiment, it is assumed that a failure occurs in the proxy control apparatus 300 in step S120. After the failure, the service control device 500 transmits the previously received session connection request message to the proxy control device 300 in step S320. It is assumed that the proxy control device 300 cannot transmit any message due to the failure. Therefore, the service control device 500 may not receive any message from the proxy control device 300 within the preset time T. Therefore, after transmitting the session connection request message, the service control apparatus 500 counts the preset time T, and if the service control device 500 does not receive any message until step S325 after the preset time T has elapsed, proxy control. It is determined that the device 300 has a failure. According to SIP, SIP messages exchange messages in a handshaking manner consisting of request and response. For example, when a session connection request (INVITE) message is received, a session connection acceptance (200 OK) message is transmitted in response thereto. In addition, the SIP messages transmit acknowledgment (ACK) messages indicating that the message has been received separately from the response message to the request. That is, the entity that receives the session connection request (INVITE) message should transmit an acknowledgment (ACK) message confirming that the message has been received to the entity that sent the session connection request (INVITE) message. Therefore, if the service control device 500 does not receive an acknowledgment (ACK) message from the proxy control device 300 within a preset time, the service control device 500 may determine that the proxy control device 300 has failed.

5 and 7C, according to another exemplary embodiment, the service control apparatus 500 periodically transmits a failure confirmation message to the proxy control apparatus 300 to query whether a failure occurs, and according to the response, the failure occurs. You can check whether there is. That is, the service control apparatus 500 may transmit a failure check message at step S330 and then transmit a failure check message at step S340 according to the transmission period F of the failure check message. Since the proxy control device 300 that has received the failure check message in operation S330 does not generate a failure, when transmitting the failure response response message in operation S335, the proxy control apparatus 300 may include an indicator indicating that it is operating normally. On the other hand, if a failure occurs in the proxy control device 300 in step S120, the proxy control device 300 includes an indicator indicating that a failure occurred in the failure status response message, and then service control the failure status response message in step S345. Transmit to device 500. Accordingly, the service control device 500 receiving the failure status response message may recognize the occurrence of the failure of the proxy control device 300.

5 and 7D, according to another embodiment, the service control device 500 periodically transmits a failure check message to the proxy control device 300 to inquire whether there is a failure, and whether there is a failure according to the response. You can check whether or not. That is, the service control apparatus 500 may transmit a failure check message at step S350 and then transmit a failure check message at step S360 according to the transmission period F of the failure check message. The proxy control apparatus 300 having received the failure check message in operation S350 may include an indicator indicating that it is operating normally when transmitting the failure response message in operation S355. On the contrary, it is assumed that a failure occurs in the proxy control device 300 in step S120, and the proxy control device 300 cannot transmit any message due to the failure. In this case, after the service control apparatus 500 transmits a failure check message at step S360, the service control apparatus 500 must wait for one more period (F) and then transmit a failure check message again. However, after the service control device 500 transmits a failure check message at step S360, and if no message is received before the next period F arrives, the service control device 500 determines that the proxy control device 300 has failed. . That is, the service control device 500 transmits a failure check message in step S360, and if no message is received before step S365, which is one cycle (F) thereafter, determines that the proxy control device 300 has failed. .

5 and 7E, according to another embodiment, it is assumed that a failure occurs in the proxy control apparatus 300 in step S120. In this case, the proxy control device 300 itself generates a failure notification message informing of a failure in operation S370, and transmits the generated failure notification message to the service control device 500. Accordingly, the service control device 500 may recognize the occurrence of the failure of the proxy control device 300.

8 is a flowchart illustrating a failure processing method of a service control apparatus according to an embodiment of the present invention.

Referring to FIG. 8, the control module 530 of the service control device 500 receives a session connection request (INVITE) message through the interface module 510 in step S410. Here, it is assumed that this session connection request message is initially transmitted by the calling first user device 101 to request a session connection with the second user device 102. The identification information of the second user device 102 may be described in the Request-URI_header of the session connection request message as "sip: 01029001234@oooims.net".

The control module 530 checks whether there is a failure in the proxy control device 300 allocated to the second user device 102 in step S415. The method of checking whether there is a failure is as described above with reference to FIGS. 7A to 7E.

As a result of the checking in step S415, if the proxy control device 300 allocated to the second user device 102 has no obstacle, the control module 530 may transmit the proxy control device 300 allocated to the second user device 102 in step S420. Send a session connection request message. Then, the proxy control device 300 will forward the session connection request message to the second user device 102.

On the other hand, if the result of the check in step S415, if the proxy control device 300 assigned to the second user device 102 has a failure, the control module 530 according to the pre-set condition for the failure processing described in FIG. According to the first embodiment, whether to use the circuit switched network or the packet switched network according to the second embodiment described with reference to FIG. 6 should be determined. This determination is made through steps S425 and S430 described below.

In operation S425, the control module 530 checks whether the second user device 102 can use both the circuit switched network and the packet switched network or only the packet switched network. As described above, when the second user device 102 registers with the destination network, the control module 530 of the service control device 500 receives the second from the home subscriber server 600 via the interface module 510. The profile of the user device 102 is received and stored in the storage module 520. Whether the second user device 102 can use both the circuit switched network and the packet switched network or only the packet switched network is recorded in the profile. Therefore, the control module 530 may check whether the second user device 102 can use both the circuit switched network and the packet switched network or only the packet switched network through the profile stored in the storage module 520.

If it is confirmed in step S425 that the second user device 102 can use both the circuit switched network and the packet switched network, the flow proceeds to step S430. Otherwise, if the second user device 102 can use only the packet switched network, the flow proceeds to step S455. That is, when the second user device 102 can use the circuit-switching network, the process proceeds to step S430, and when the circuit-switching network is not available, the process proceeds to step S455.

If the second user device 102 can use both the circuit switched network and the packet switched network, in step S430, the control module 530 switches to the circuit switched network according to a preset policy to perform a call connection procedure or session connection in the packet switched network. Determine whether to perform the procedure. Here, the preset policy, for example, may select the one having less traffic by comparing the traffic amounts of the circuit switched network and the packet switched network. Alternatively, the decision may be made at the choice of the network operator.

If it is determined in step S430 to switch to the circuit-switching network according to a preset policy to perform a call connection procedure, the process proceeds to step S435.

If it is determined to switch to the circuit switched network according to the first embodiment to perform the call connection procedure, the control module 530 is added to the second user device 102 by referring to the profile stored in the storage module 520 in step S435 Determine whether you are subscribed to the service. If the second user device 102 is subscribed to the additional service, the control module 530 transmits a failure occurrence notification message to the application server 700 in step S440. The failure situation notification message notifies that the proxy control device 300 assigned to the second user device 102 has failed, and requests a switch from the packet switched network to the circuit switched network.

The application server 700 receiving the failure status notification message may recognize that the call should be sent to the circuit switching network due to the occurrence of the failure. Accordingly, the application server 700 receiving the failure occurrence notification message may selectively provide additional services. When switching to the circuit switched network and performing a call connection procedure, the circuit switch 900 and the supplementary service providing apparatus 910 may interwork to provide supplementary services. Therefore, the application server 700 may selectively provide additional services according to the policy of the network operator. Regardless of whether the additional service is provided, the application server 700 that recognizes the failure through the failure notification message transmits a session connection request message including a routing indicator to switch to the circuit switched network to the service control device 500. . For example, the routing indicator may be inserted in the Request-URI header of the session connection request message as a specific number (“999”) in addition to the identification information of the second user device 102. Accordingly, in response to the failure occurrence notification message, the control module 530 may receive a session connection request message including a routing indicator through the interface module 510 in operation S445.

The control module 530 transmits a session connection request message to the media gateway 800 of the circuit switched network through the interface module 510 in step S450. When the session connection request message is received from the application server 700, the control module 530 removes the routing indicator included in the session connection request message, and then, in step S450, the interface connection request message from which the routing indicator is removed is removed. The media gateway 800 transmits through the 510. Alternatively, if the second user device 102 does not subscribe to the additional service and thus does not exchange a message with the application server 700, the control module 530 may use the interface module 510 in step S450. ), The session connection request message received from the source network in step S410 can be transmitted as it is.

Accordingly, the media gateway 800 converts the session connection request (INVITE) message, which is a SIP message, into a call connection request (IAM) message, which is an ISUP message, and then transfers the call connection request message to the circuit switch 900. The exchange 900 will send a call connection request (IAM) message to the second user device 102.

If the second user device 102 can use only the packet-switched network or if it is determined to perform the session connection procedure in the packet-switched network according to a preset policy, the control module 530 performs the interface module in step S455 according to the second embodiment. The session connection request message is transmitted to a proxy control device other than the proxy control device 300 allocated to the second user device 102 through 510. Here, when the proxy control device 300 is not allocated to the second user device 102, connection information (eg, IP / Port information) with the second user device 102 may not be known. Therefore, the control module 530 includes the connection information for the second user device 102 in the session connection request message and transmits it through the interface module 510. Accordingly, the proxy control device that is not assigned to the second user device 102 also uses the connection information included in the session connection request message and the identification information of the second user device 102 to transmit the session connection request message to the second user. May be delivered to device 102.

9 is a flowchart illustrating a failure processing method of an application server according to a first embodiment of the present invention.

Referring to FIG. 9, the control unit 730 receives a failure status notification message from the service control apparatus 500 through the interface unit 710 in step S510. As a result, the control unit 730 may recognize that a failure has occurred in the proxy control apparatus 300. In addition, the control unit 730 may recognize that the incoming call to the circuit-switching network because of the occurrence of the failure.

Accordingly, the control unit 730 generates a session connection request message including a routing indicator indicating that the call connection procedure is switched from the packet switched network to the circuit switched network in step S520. The routing indicator is included in the Request-URI header of the session connection request message. The routing indicator may be inserted with a specific number (“999”) in addition to the identification information of the second user device 102 in the Request-URI header, for example, “tel: +829991029001234”.

Then, the control unit 730 transmits the session connection request message including the routing indicator to the service control device 500 through the interface unit 710 in step S530, so that the service control device 500 calls the circuit switched network. Switch the connection procedure.

10 is a flowchart illustrating a failure handling method of the proxy control apparatus according to the second embodiment of the present invention.

Referring to FIG. 10, the control unit 330 of the proxy control device 300 located in the called network receives a session connection request message from the service control device 500 of the called network through the interface unit 310 in step S610. Here, it is assumed that this session connection request message is initially transmitted by the calling first user device 101 to request a session connection with the second user device 102. In other words, the first user device 101 is the calling party and the second user device 102 is the called party.

Upon receiving the session connection request message, the controller 330 determines whether the second user device 102 that is the called party of the session connection request message received in step S620 is assigned to itself.

As a result of the determination in step S620, if the second user device 102 is not assigned to itself, the controller 330 may determine connection information and identification information of the second user device 102 included in the session connection request message in step S630. The session connection request message may be transmitted to the second user device 102 through the interface unit 310.

On the other hand, if it is determined in step S620 that the second user device 102, which is the called party, is assigned to itself, the controller 330 registers the stored information when the second user device 102 registers with the destination network. In operation S640, the session connection request message is transmitted to the second user device 102 through the interface unit 310.

The failure processing method according to the embodiment of the present invention as described above may be provided in the form of a computer readable medium suitable for storing computer program instructions and data. In this case, a computer-readable medium suitable for storing computer program instructions and data may include, for example, a magnetic medium such as a hard disk, a floppy disk, and a magnetic tape, and a compact disk read only memory (CD-ROM). , Optical media such as Digital Video Disk (DVD), magneto-optical media such as Floppy Disk, and ROM (Read Only Memory), RAM And a semiconductor memory such as a random access memory, a flash memory, an erasable programmable ROM (EPROM), and an electrically erasable programmable ROM (EEPROM). The processor and memory can be supplemented by or integrated with special purpose logic circuitry. Examples of program instructions may include high-level language code that can be executed by a computer using an interpreter as well as machine code such as produced by a compiler. Such hardware devices may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

Although the specification includes numerous specific implementation details, these should not be construed as limiting to any invention or the scope of the claims, but rather as a description of features that may be specific to a particular embodiment of a particular invention. It must be understood. Certain features that are described in this specification in the context of separate embodiments may be implemented in combination in a single embodiment. Conversely, various features that are described in the context of a single embodiment can also be implemented in multiple embodiments individually or in any suitable subcombination. Furthermore, while the features may operate in a particular combination and may be initially depicted as so claimed, one or more features from the claimed combination may in some cases be excluded from the combination, the claimed combination being a subcombination Or a combination of subcombinations.

Likewise, although the operations are depicted in the drawings in a specific order, it should not be understood that such operations must be performed in the specific order or sequential order shown in order to obtain desirable results or that all illustrated operations must be performed. In certain cases, multitasking and parallel processing may be advantageous. Moreover, the separation of the various system components of the above-described embodiments should not be understood as requiring such separation in all embodiments, and the described program components and systems will generally be integrated together into a single software product or packaged into multiple software products. It should be understood that it can.

On the other hand, the embodiments of the present invention disclosed in the specification and drawings are merely presented specific examples for clarity and are not intended to limit the scope of the present invention. It is apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

The present invention relates to an apparatus for processing a call processing malfunction of a terminating network in a communication system, a method therefor, and a computer-readable recording medium on which the method is recorded. ) Receives the session connection request message from the user device, and transmits the session connection request message to the proxy control device (P-CSCF) assigned to the called user device. At this time, when there is a failure in the proxy control device (P-CSCF), the service control device (S-CSCF) may perform a failure processing by using a packet switching network or a circuit switching network according to a preset condition. As described above, the present invention can provide a call processing procedure normally even when a network failure occurs, thereby increasing the reliability of the service. This has industrial applicability because it is not only sufficient marketable or business possibility, but also practically evident.

100: user device (UE) 200: switching device (L4 switch)
300: proxy control device (P-CSCF) 310: interface unit
320: storage unit 330: control unit
400: connection control device (I-CSCF) 500: service control device (S-CSCF)
510: interface module 520: storage module
530: control module 600: home subscriber server (HSS)
700: application server (AS) 710: interface unit
720: storage unit 730: control unit
800: Media Gateway (IMG) 900: Circuit Switch (MSC)
910: an additional service providing device

Claims (11)

An interface module for transmitting and receiving messages; And
When the session connection request message is received through the interface module, when a failure of the proxy control device assigned to the called user device is confirmed, the media gateway converts the session connection request message into a call connection request message so that a call connection procedure can proceed normally. And a control module for transmitting the session connection request message to the media gateway through the interface module so as to transfer the session connection request message to the circuit switched network. The method of claim 1,
The control module
Informing the application server of the failure of the proxy control device and receiving a session connection request message including a routing indicator for instructing a call connection procedure to be performed using the circuit switched network according to the failure. And after removing, transmitting the session connection request message to the media gateway through the interface module. delete delete The method of claim 1,
The control module
The session connection request message is transmitted to the proxy control device through the interface module, and in response to the transmitted session connection request message, a failure occurrence notification message indicating a failure occurrence is received, or any message is received for a preset time. If not, the service control device for failure processing, characterized in that for checking the failure of the proxy control device. The method of claim 1,
The control module
Periodically transmits a failure confirmation message to the proxy control device for querying the failure through the interface module, and receives a failure response message including an indicator indicating that a failure has occurred in response to the transmitted failure confirmation message. Or, if no message is received before the next period arrives, identifying the failure of the proxy control device. The method of claim 1,
The control module
And a failure occurrence notification message indicating a failure occurrence of the failure generated by the proxy control device, and identifying the failure of the proxy control device. When receiving a session connection request message, identifying a failure of the proxy control device assigned to the called user device; And
In response to identifying the failure, transmitting, by the media gateway, the session connection request message to the media gateway to convert the session connection request message into a call connection request message and deliver the session connection request message to a circuit switched network so that a call connection procedure can be normally performed. Method for failure handling of the service control device comprising a. The method of claim 8,
The session connection request message is an INVITE message according to a session initiation protocol (SIP), and the call connection request message is an IAM (Initial Address Message) message according to an Integrated Services Digital Network (ISDN) User Part (ISP). Method for failure handling of service control device. delete A computer-readable recording medium having recorded thereon a method for handling a failure of a service control apparatus according to any one of claims 8 to 9.

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