KR101639061B1 - Network apparatus and control method thereof - Google Patents

Abstract

The present invention can be applied to a case where even when the terminal using the communication service is re-attached due to the failure of the gateway device (P-GW) and the address information (IP) of the terminal is changed, And a method of operating the network device.

Description

[0001] NETWORK APPARATUS AND CONTROL METHOD THEREOF [0002]

The present invention can be applied to a case where even when the terminal using the communication service is re-attached due to the failure of the gateway device (P-GW) and the address information (IP) of the terminal is changed, And the like.

Domestic mobile communication is evolving into the LTE system in the WCDMA system, which is a 3G service, due to the growth of LTE (Long Term Evolution) technology.

In the LTE system, a terminal can use various communication services such as a call service and a data service based on a session established through a gateway device such as an S-GW (Serving Gateway) or a P-GW (Packet Data Network Gateway).

In such an LTE system, when a failure occurs in the P-GW using the communication service, all the sessions established through the P-GW are disconnected and the continuity of the communication service can not be ensured.

Accordingly, a new corresponding function (hereinafter referred to as a P-GW restoration function) has been proposed in order to ensure continuity of communication service even if a failure occurs in the P-GW in the 3GPP standard.

In the P-GW restoration function, when the S-GW detects the failure of the P-GW and notifies the MME, the session of the terminal accommodated in the failed P-GW is released under the control of the MME, And a general call processing procedure in which a session between a terminal and another P-GW is established.

However, even if the above-described P-GW recovery function is followed, re-location is performed in which the terminal releases the session with the current P-GW and establishes a session with another P-GW. Therefore, The address information (IP) of the terminal can be changed.

In the case where the address information (IP) of the terminal is changed during the use of the communication service, the counterpart device using the communication service with the terminal only knows the address information (IP) before the change of the terminal, And the terminal does not receive the service call for a certain period of time, and the communication service is completely terminated.

If the address information (IP) of the terminal is changed while using the communication service even if the P-GW fails in accordance with the above-described P-GW recovery function in the past, the continuity of the communication service can not be ensured, There is a problem that the service is completely terminated.

Accordingly, in the present invention, even when the terminal using the communication service is re-attached due to the failure of the P-GW and the address information (IP) of the terminal is changed, the communication service is continuously used I would like to propose a way to do this.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a mobile communication system in which a terminal using a communication service is re-attached due to a failure of a gateway apparatus (P- And a method of operating a network device and a network device that allow a communication service to be continuously used even when address information (IP) of a terminal is changed.

According to a first aspect of the present invention, there is provided a network device, which is connected to a network using a network-based communication service through a first call session with a counterpart device set on the basis of pre- A request receiving unit for receiving a re-registration request for the network; A change confirmation unit for confirming whether the address information of the terminal is changed based on the re-registration request when the re-registration request of the terminal is received; And providing a specific message to at least one of the terminal and the counterpart apparatus to set a second call session based on the changed address information of the terminal between the terminal and the counterpart apparatus when the address information of the terminal is changed, And a control unit for enabling the communication service to be maintained through the second call session even after changing the address information of the terminal.

Preferably, the re-registration request is a request for releasing a call session between the terminal and the gateway device due to a failure of the gateway device located on the first call session, May be received when the interval is set.

Preferably, when address information of the terminal is changed, new address information may be allocated in a process of setting a call session interval between the terminal and the other gateway device.

Preferably, in association with the terminal, the terminal information and the address information included in the received registration request are mapped and stored before the re-registration request for the network is received; Wherein the change confirmation unit determines that the address information included in the re-registration request differs from the address information stored in the re-registration request with the terminal information included in the re-registration request based on the re-registration request of the terminal, Is changed.

Advantageously, the specific message may comprise a RE-INVITE message for the first call session.

Preferably, the control unit provides a RE-INVITE message according to the changed address information of the terminal to the counterpart apparatus to establish a call session with the counterpart apparatus, and transmits a RE-INVITE message according to the address information of the counterpart apparatus To the terminal, establishes a call session with the terminal, establishes a second call session between the terminal and the counterpart apparatus by establishing a call session with the counterpart apparatus and a call session with the terminal .

According to a second aspect of the present invention, there is provided a method for operating a network device, the method comprising the steps of: receiving a first call session with a counterpart device based on pre- A request reception step of receiving a re-registration request for the network; A change confirmation step of confirming whether the address information of the terminal is changed based on the re-registration request when the re-registration request of the terminal is received; And providing a specific message to at least one of the terminal and the counterpart apparatus to set a second call session based on the changed address information of the terminal between the terminal and the counterpart apparatus when the address information of the terminal is changed, And a control step of allowing the use of the communication service to be maintained through the second call session even after changing the address information of the terminal.

Preferably, the re-registration request is a request for releasing a call session between the terminal and the gateway device due to a failure of the gateway device located on the first call session, May be received when the interval is set.

Preferably, when address information of the terminal is changed, new address information may be allocated in a process of setting a call session interval between the terminal and the other gateway device.

Preferably, the controlling step comprises: providing a RE-INVITE message according to the changed address information of the terminal to the counterpart apparatus to establish a call session with the counterpart apparatus, Establishing a call session with the terminal by providing a message to the terminal, establishing a second call session between the terminal and the counterpart apparatus by connecting a call session with the counterpart apparatus and a call session with the terminal, .

According to the network device and the method of operating the network device according to the present invention, since the terminal using the communication service is re-attached due to the failure of the gateway device (P-GW) (IP) is changed, the effect that the communication service can be continuously used is derived.

1 is a configuration diagram illustrating a communication system including a network device according to a preferred embodiment of the present invention.
2 is a block diagram illustrating a configuration of a network device according to a preferred embodiment of the present invention.
3 is a control flow diagram of a communication system including a network device according to a preferred embodiment of the present invention.
4 is a flowchart illustrating an operation method of a network device according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a diagram illustrating an environment of a communication system including a network device according to a preferred embodiment of the present invention.

1, a communication system according to a preferred embodiment of the present invention includes a terminal capable of using a network-based communication service through a preset call session, and a plurality of nodes S-GW, and P-GW), and the network device 100 of the present invention.

As shown in FIG. 1, the network device 100 of the present invention is preferably a CSCF (Call Session Control Function).

Of course, the network device 100 of the present invention may be provided as a device separate from the CSCF and may implement the functions of the present invention described below through interworking with the CSCF. Hereinafter, it is assumed that the network device 100 of the present invention is a CSCF, and the network device 100 and the CSCF 100 will be used in combination for convenience of explanation.

In FIG. 1, the BS, the MME, and other nodes between the terminal and the S-GW are not shown for convenience of explanation.

For convenience of explanation, the first call session (terminal 1 - S - GW 10 - PW 20 - PW 40 - S - GW 30) between the terminal 1 and the other party ) Will be set up and a description will be made on the assumption that the terminal 1 uses the network-based communication service with the counterpart apparatus through the first call session.

At this time, the network-based communication service is an IMS network-based communication service, which may mean various communication services such as a call service and a data service.

Hereinafter, for convenience of explanation, it will be described that the communication service is referred to as an IMS network-based call service (for example, HD voice call service) and the other party is terminal 2. [ Therefore, in the case of the terminal 1, the terminal 2 is the counterpart apparatus, and in the case of the terminal 2, the terminal 1 is the counterpart apparatus.

Accordingly, in the present invention, it is assumed that a first call session (solid line in Fig. 1) is established between the terminal 1 and the terminal 2, and the terminal 1 uses the call service based on the IMS network with the terminal 2 through the first call session .

Hereinafter, a process of establishing a first call session between the terminal 1 and the terminal 2 will be briefly described.

First, the terminal 1 will be described. First, when the terminal 1 is powered on, the terminal 1 transmits a session with the P-GW 20 (hereinafter referred to as a call session section) via the S- The P-GW 20 allocates address information (IP) to the terminal 1 in order to create an EPS bearer with the terminal 1 during the location registration (Attach) give.

Here, the process of performing location registration is performed according to a general call processing procedure in which existing location registration (Attach) is performed, so that a detailed description of the entire process will be omitted.

When a call session interval with the P-GW 20 is established, the terminal 1 transmits the MS ID (Mobile Station Integrated System Digital Network) and the address information (IP = A = (For example, an IMS Registration message) including information on the period to the CSCF 100 in the IMS network.

Accordingly, the CSCF 100 receiving the registration request from the terminal 1 can manage the location registration information for the terminal 1 by processing the registration request of the terminal 1 by performing the pre-defined general call processing procedure.

Of course, when the terminal 2 is also turned on, a session (hereinafter referred to as a call session interval) with the P-GW 40 is set via the S-GW 30 at a position nearest to the terminal 2 like the above- The P-GW 40 assigns address information (IP) to the terminal 2. At this time,

When the call session interval with the P-GW 40 is set, the terminal 2 includes information on the terminal information (MSISDN), address information allocated thereto (IP, for example, IP = B) (E.g., an IMS Registration message) to the CSCF 100.

The CSCF 100, which has received the registration request from the terminal 2, can manage the location registration information for the terminal 2 by processing the registration request of the terminal 2 by performing the predefined call processing procedure.

In this way, it is assumed that the terminal 1 attempts to originate a call for a call service with the terminal 2 in a situation where the terminal 1 and the terminal 2 are registered in the network, that is, the IMS network.

In this case, the call origination or INVITE message from the terminal 1 is transmitted to the CSCF 100 via the S-GW 10 and the PW 20 on the call session interval of the terminal 1, The INVITE message from the terminal 1 is transmitted to the P-GW 40 and the S-GW 30 via the call session interval of the terminal 2 by transmitting the INVITE message from the terminal 2 to the P-GW 40 according to the location registration information of the terminal 2. [ To be received by the terminal 2.

Accordingly, the terminal 2 can recognize the call origination call from the terminal 1 by receiving the INVITE message from the terminal 1 and ringing the incoming call. At this time, in the INVITE message, the address information (IP = A) .

Thereafter, when the terminal 2 accepts the call, the 200 OK message from the terminal 2 is transmitted in the opposite direction to the direction in which the INVITE message is transmitted, and is received by the terminal 1, A first call session for a network-based call service can be established. At this time, the terminal 1 recognizes the address information (IP = B) of the terminal 2 in the 200 OK message.

Accordingly, a service call (for example, an RTP voice message) destined for the address information (IP = B of the terminal 2, IP = A of the terminal 1) is transmitted / received between the terminal 1 and the terminal 2 via the first call session The communication service, that is, the call service based on the IMS network, can be used.

In this way, if a failure occurs in the P-GW while using the communication service through the call session established between the terminals, all the sessions established through the P-GW are disconnected and the continuity of the communication service can not be guaranteed.

Accordingly, a new corresponding function (hereinafter referred to as a P-GW restoration function) has been proposed in order to ensure continuity of communication service even if a failure occurs in the P-GW in the 3GPP standard.

In the P-GW restoration function, when the S-GW detects the failure of the P-GW and notifies the MME, the session of the terminal accommodated in the failed P-GW is released under the control of the MME, And a general call processing procedure in which a session between a terminal and another P-GW is established.

Briefly, assuming that a failure occurs in the P-GW 20 on the terminal 1 side while using the communication service based on the IMS network through the first call session between the terminal 1 and the terminal 2, the P-GW 20 is detected by the S-GW 10 and informs the MME of the failure, the call session interval of the terminal 1 accommodated in the P-GW 20 is released according to the P-GW recovery function by the MME, And another P-GW (e.g., 50) is established.

Here, the concrete call processing procedure according to the P-GW restoration function is as defined above, so a detailed description thereof will be omitted.

GW 20, the terminal 1 can cancel the call session with the P-GW 20 and re-establish the call session with another P-GW 50, attach is performed, the P-GW 50 allocates new address information (IP = C, for example) to the terminal 1 during the process of re-attach, The information (IP) may be changed.

When the address information (IP) of the terminal 1 is changed (A- > C) while using the call service between the terminal 1 and the terminal 2, the terminal 1 and the other party using the call service, The terminal 1 will not normally receive the RTP voice message having the destination address (IP = A) of the service call from the terminal, that is, the terminal 1, as the destination information (IP = A)

Therefore, the terminal 1 completely terminates the communication service (IMS network-based call service) if a service call (for example, an RTP voice message) is not received from the terminal 2 so that a predetermined time elapses.

As a result, if the P-GW fails, even if the P-GW recovery function is used, if the address information (IP) of the terminal is changed while the communication service is being used, the continuity of the communication service can not be guaranteed There is a problem that the communication service is completely terminated.

Accordingly, in the present invention, even when the terminal using the communication service is re-attached due to the failure of the P-GW and the address information (IP) of the terminal is changed, the communication service is continuously used In particular, the present invention proposes a network device 100, that is, a CSCF 100, which realizes such a scheme.

Hereinafter, a network device according to a preferred embodiment of the present invention will be described in detail with reference to FIG.

As shown in FIG. 2, the network device 100 of the present invention is a network device that uses a network-based communication service through a first call session with a counterpart device based on pre- A request receiving unit 110 for receiving a re-registration request for the network, a change confirmation unit for confirming whether the address information of the terminal is changed based on the re-registration request, 120) for providing a second call session based on the changed address information of the terminal between the terminal and the counterpart apparatus when the address information of the terminal is changed, to at least one of the terminal and the counterpart apparatus And a control unit (130) for enabling the use of the communication service to be maintained through the second call session even after changing the address information of the terminal.

Before describing each functional unit included in the network device 100 of the present invention in detail, the present invention is characterized in that a first call session is established between a terminal and a counterpart apparatus, And network-based communication services.

1, a first call session (dotted line in Fig. 1) is previously established between the terminal 1 and the terminal 2, and the terminal 1 and the terminal 2 are connected to each other (E.g., an RTP voice message) destined to the address information (IP = B of the terminal 2, IP = A of the terminal 1) via the first session, The following description will be made by way of example.

Hereinafter, for convenience of description, the terminal 1 of the terminal 1 and the terminal 2 will be mainly described.

In response to the terminal 1 using the call service through the first call session with the other party apparatus, that is, the terminal 2 set based on the pre-allocated address information (IP = A) as described above, And receives a re-registration request for the network.

Here, the re-registration request related to the terminal 1 is released when the call session interval between the terminal 1 and the P-GW 20 is released due to a failure of the gateway device, for example, the P-GW 20 located on the first call session May be received when a call session interval between the terminal 1 and another gateway device such as the P-GW 50 is set.

In the case where the address information of the terminal 1 is changed, new address information is allocated in the process of setting a call session interval between the terminal 1 and the other gateway device, for example, the P-GW 50. [

More specifically, if a failure occurs in the gateway apparatus located on the first call session, for example, the P-GW 20 on the terminal 1 side, the above-described P- And the call session interval between the terminal 1 and the other P-GW 50 will be set. That is, re-attach is performed in which the terminal 1 releases the call session section with the P-GW 20 and establishes the call session section with another P-GW 50.

At this time, the P-GW 50 allocates new address information (IP = C, for example) to the terminal 1 during the re-attach process, so that the address information (IP) can be changed.

Meanwhile, when the call session interval between other P-GWs 50 is set due to re-attach due to the use of the call service, the terminal 1 transmits the address information newly allocated from the P-GW 50 (For example, an IMS Re-registration message) including information on the IP session ID, IP = C and the call session duration to the CSCF 100, that is, the network device 100 of the present invention.

The request reception unit 110 receives the request from the terminal 1 to the network 1 only when the terminal 1 that is using the call service establishes a call session with another P-GW 50 due to re- I.e. an IMS Re-registration message for the IMS network.

Of course, the CSCF 100 of the present invention may manage (update) the location registration information for the terminal 1 by processing the re-registration request of the terminal 1 by performing the pre-defined general call processing procedure.

Upon receiving the re-registration request of the terminal 1 through the request receiving unit 110, the change confirmation unit 120 confirms whether the address information (IP) of the terminal 1 has been changed based on the re-registration request.

More specifically, with respect to the terminal 1, the network device 100 of the present invention, that is, the CSCF 100, includes terminal information (hereinafter referred to as " (MSISDN) and address information (IP = A) are mapped and stored.

The change confirmation unit 120 maps and stores the address information (IP = C) included in the re-registration request with the terminal information (MSISDN) included in the re-registration request based on the re-registration request of the terminal 1 (IP = A), it can be confirmed that the address information (IP) of the terminal 1 has been changed.

1, when the call session interval with the P-GW 20 is established, the terminal 1 transmits the MSISDN and the address information (IP, for example, IP = A (For example, an IMS Registration message) including information on the call session duration and the call session duration to the CSCF 100.

Accordingly, the CSCF 100 of the present invention manages location registration information for the terminal 1 by processing a registration request of the terminal 1 by performing a pre-defined call processing procedure.

At this time, the CSCF 100 of the present invention, particularly the change confirmation unit 120, maps and stores the MSISDN and the address information (IP = A) included in the registration request of the terminal 1. Of course, the change confirmation unit 120 will also map the terminal information (MSISDN) and the address information (IP) to other terminals than the terminal 1.

When the re-registration request of the terminal 1 is received through the request reception unit 110, the change confirmation unit 120 updates the terminal information (MSISDN) of the terminal 1 included in the re-registration request based on the re- (IP = C) stored in the re-registration request differs from the previously stored address information (IP = A) after the address information (IP = A) It can be confirmed that the address information (IP) has been changed.

When the address information (IP) of the terminal 1 is changed as a result of the confirmation of the change confirmation unit 120, the control unit 130 determines whether the address information (IP) of the terminal 1 is changed based on the changed address information A specific message for establishing the second call session is provided to at least one of the terminal 1 and the terminal 2 so that the use of the communication service, that is, the call service, can be maintained through the second call session even after changing the address information (IP) of the terminal 1.

At this time, it is preferable that the specific message is a RE-INVITE message for the first call session established between the terminal 1 and the terminal 2. [

More specifically, the control unit 130 provides a RE-INVITE message according to the changed address information (IP = C) of the terminal 1 to the counterpart apparatus, that is, the terminal 2 to establish a call session with the terminal 2, INVITE message according to the address information (IP = B) to the terminal 1 to set up a call session with the terminal 1, and establishes a call session with the established terminal 2 and a call session with the terminal 1, And the terminal 2 can establish a second call session.

For example, the control unit 130 transmits an RE-INVITE message according to the changed address information (IP = C) of the terminal 1, an RE-INVITE message appearing to be transmitted from the terminal 1 to the P -GW 40, the RE-INVITE message will be received by the terminal 2 via the P-GW 40 and the S-GW 30 on the call session interval of the terminal 2. [

Accordingly, the terminal 2 can recognize the call origination call from the terminal 1 by receiving the RE-INVITE message that is supposed to be transmitted from the terminal 1 and ringing the incoming call. At this time, in the RE-INVITE message, (IP = C).

The user of the terminal 2 who is using the call service with the terminal 1 will naturally accept the call and the 200 OK message from the terminal 2 is transmitted in the direction opposite to the direction in which the RE-INVITE message is transmitted, 100, the CSCF 100, in particular, the control unit 130 establishes a call session with the terminal 2. [

The control unit 130 transmits an RE-INVITE message according to the address information (IP = B) of the terminal 2, an RE-INVITE message appearing to be transmitted from the terminal 2 to the P- 50), the RE-INVITE message will be received by the terminal 1 via the P-GW 50 and the S-GW 10 on the call session interval of the terminal 1.

Accordingly, the terminal 1 can recognize the call origination call from the terminal 2 by receiving the RE-INVITE message that is supposed to be transmitted from the terminal 2 and ringing the incoming call. At this time, in the RE-INVITE message, (IP = B).

The user of the terminal 1 who is currently using the call service with the terminal 2 will accept the call, and the 200 OK message from the terminal 1 is transmitted in the opposite direction to the direction in which the RE-INVITE message is transmitted, 100, the CSCF 100, in particular, the control unit 130 establishes a call session with the terminal 1. [

When the call session with the terminal 2 and the call session with the terminal 1 are established by providing the RE-INVITE message as described above, the control unit 130 interconnects the call session with the terminal 2 and the call session with the terminal 1 ) To establish a second call session (dotted line in Fig. 1) between the terminal 1 and the terminal 2. [

Here, before the RE-INVITE message is provided to the terminal 1 and the terminal 2 as described above, the preset first call session between the terminal 1 and the terminal 2 will be released.

Accordingly, the terminal 1 and the terminal 2 terminate the call service being used, but the address information of the counterpart apparatus (i.e., the address information of the counterpart apparatus) via the second call session, which is automatically set by the network device 100 of the present invention, (E.g., RTP voice message) destined to the IP address of the terminal 1 (IP = B of the terminal 1 = IP of the terminal 1 = C of the terminal 2), the call service based on the IMS network can be continuously used.

In other words, the network device 100 of the present invention, that is, the CSCF 100, performs re-location registration (re-registration) in which a terminal 1 using a communication service, for example, a call service, sets a call session interval with another P- (IP = C) of the terminal 1 by using the RE-INVITE message when the address information (IP) of the terminal is changed by the attach / .

As a result, according to the present invention, although the call service in use between the terminal 1 and the terminal 2 is temporarily stopped, the terminal 2 is automatically set to the second call established between the terminal 1 and the terminal 2 without transmitting the call call of the user or transmitting the INVITE message on the terminal side. The use of the call service can be maintained through the session.

As described above, according to the network device of the present invention, when a terminal using a communication service re-attaches due to a failure of a gateway device (P-GW), address information (IP) The communication service can be continued to be used.

Hereinafter, an operation method of a network device according to a preferred embodiment of the present invention will be described with reference to FIG. 3 to FIG. For convenience of description, description will be given with reference to Figs. 1 and 2 described above.

Referring to FIG. 3, a control flow of a communication system including a network device according to the present invention will now be described.

First, a first call session (solid line in Fig. 1) is established between the terminal 1 and the terminal 2, and the terminal 1 uses the call service based on the IMS network and the terminal 2 via the first call session, as in the above- As a premise.

Hereinafter, a process of establishing the first call session between the terminal 1 and the terminal 2 will be briefly described.

First, when the terminal 1 is powered on, the terminal 1 sets a session with the P-GW 20 (hereinafter referred to as a call session section) via the S-GW 10 closest to the terminal 1 The P-GW 20 transmits address information (e.g., IP address) to the terminal 1 in order to create an EPS Bearer with the terminal 1 during a location registration (Attach) IP = A).

Then, when the call session interval with the P-GW 20 is set, the terminal 1 transmits a registration request including the terminal information (MSISDN), the address information (IP = A) : IMS Registration message) to the CSCF 100 in the IMS network (S20).

Accordingly, the CSCF 100 receiving the registration request from the terminal 1 can manage the location registration information for the terminal 1 by processing the registration request of the terminal 1.

3, only the terminal 1 is shown in view of the complexity of the drawing, but the terminal 2 also has a call session interval with the P-GW 40 through the same procedure as that of the terminal 1 described above.

It is assumed that the terminal 1 and the terminal 2 attempt to originate a call for a call service at any one of the terminal 1 and the terminal 2, for example, in a situation where the registration of the terminal 1 and the terminal 2 to the network, that is, the IMS network is completed.

In this case, the call origination or INVITE message from the terminal 1 is transmitted to the CSCF 100 via the S-GW 10 and the PW 20 on the call session interval of the terminal 1, The INVITE message from the terminal 1 is transmitted to the P-GW 40 and the S-GW 30 via the call session interval of the terminal 2 by transmitting the INVITE message from the terminal 2 to the P-GW 40 according to the location registration information of the terminal 2. [ (Step S50).

Accordingly, the terminal 2 can recognize the call origination call from the terminal 1 by receiving the INVITE message from the terminal 1 and ringing the incoming call. At this time, in the INVITE message, the address information (IP = A) .

Thereafter, when the terminal 2 accepts the call, the 200 OK message from the terminal 2 is transmitted in the opposite direction to the direction in which the INVITE message is transmitted, and is received by the terminal 1, A first call session for network-based call service may be established (S60). At this time, the terminal 1 recognizes the address information (IP = B) of the terminal 2 in the 200 OK message.

Accordingly, a service call (for example, an RTP voice message) destined for the address information (IP = B of the terminal 2, IP = A of the terminal 1) is transmitted / received between the terminal 1 and the terminal 2 via the first call session The communication service, that is, the call service based on the IMS network, can be used (S70).

At this time, if a failure occurs in the gateway device located on the first call session between the terminal 1 and the terminal 2, for example, the P-GW 20 on the terminal 1 side (S80), the terminal 1 and the P- The call session interval between the terminal 1 and the other P-GW 20 is released (S90) and the call session interval between the terminal 1 and the other P-GW 50 is set (S95).

That is, re-attach is performed in which the terminal 1 releases the call session section with the P-GW 20 and establishes the call session section with another P-GW 50. At this time, the P-GW 50 allocates new address information (IP = C, for example) to the terminal 1 during the re-attach process, so that the address information (IP) can be changed.

Meanwhile, when a call session interval between different P-GWs 50 is set due to re-attach due to call service using the call service (S95), the terminal 1 allocates a newly allocated call session from the P-GW 50 (For example, an IMS Re-registration message) including information on the address information (IP = C) and the call session duration to the CSCF 100, that is, the network device 100 of the present invention (S100) .

Accordingly, the CSCF 100 of the present invention can use the CSCF 100 only when the terminal 1 that is using the call service establishes a call session section with another P-GW 50 due to re-attachment (registration) (E.g., an IMS Re-registration message) for the network or IMS network.

In this case, the CSCF 100 of the present invention checks whether the address information (IP) of the terminal 1 has been changed based on the re-registration request of the received terminal 1. Hereinafter, it is assumed that the address information (IP) of the terminal 1 is changed (S110).

When the address information (IP) of the terminal 1 is changed (S110), the CSCF 100 of the present invention transmits a second call session based on the changed address information (IP = C) of the terminal 1 between the terminal 1 and the terminal 2 The specific message to be set is provided to at least one of the terminal 1 and the terminal 2 so that the communication service, that is, the use of the call service can be maintained through the second call session even after the address information (IP) of the terminal 1 is changed.

At this time, it is preferable that the specific message is a RE-INVITE message for the first call session established between the terminal 1 and the terminal 2. [

In other words, a more specific example will be described. When the CSCF 100 determines that the address information (IP) of the terminal 1 has been changed (Yes in S110) INVITE message is transmitted to the P-GW 40 according to the location registration information of the terminal 2, as if the RE-INVITE message appearing to be transmitted from the terminal 1, -GW 40 and the S-GW 30 to the terminal 2 (S130).

In this case, the user of the terminal 2 who is using the call service with the terminal 1 will naturally accept the call, and the 200 OK message from the terminal 2 is transmitted in the direction opposite to the direction in which the RE-INVITE message is transmitted, The CSCF 100 sets up a call session with the terminal 2 (S150).

On the other hand, when it is confirmed that the address information (IP) of the terminal 1 has been changed (Yes in S110), the CSCF 100 transmits an RE- INVITE message according to the address information (IP = B) INVITE message to the P-GW 50 according to the location registration information of the terminal 1, the RE-INVITE message is transmitted to the P-GW 50 and the S-GW 50 10) to the terminal 1 (S120).

In this case, the user of the terminal 1 who is using the call service with the terminal 2 will naturally accept the call, and the 200 OK message from the terminal 1 is transmitted in the direction opposite to the direction in which the RE-INVITE message is transmitted, The CSCF 100 sets up a call session with the terminal 1 (S140).

Here, before the RE-INVITE message is provided to the terminal 1 and the terminal 2 as described above, the preset first call session between the terminal 1 and the terminal 2 will be released.

In response to the RE-INVITE message, the CSCF 100 sets up a call session with the terminal 2 and a call session with the terminal 1 (S140, S150) A first call session (dotted line in FIG. 1) may be established between the terminal 1 and the terminal 2 by interconnecting the call sessions (S160).

Hereinafter, a method of operating a network device according to a preferred embodiment of the present invention will be described in more detail with reference to FIG.

First, a first call session (solid line in Fig. 1) is established between the terminal 1 and the terminal 2, and the terminal 1 uses the call service based on the IMS network and the terminal 2 via the first call session, as in the above- As a premise.

That is, when the registration request for the terminal 1 is received, the network device 100 or the CSCF 100 according to the present invention processes the registration request of the terminal 1 to manage the location registration information for the terminal 1 (S200).

At this time, the operation method of the CSCF 100 according to the present invention maps and stores the MSISDN and the address information (IP = A) included in the registration request of the terminal 1 (S210).

Of course, when the registration request for the terminal 2 is received, the CSCF 100 according to the present invention processes the location registration information in the same manner as the terminal 1, (MSISDN) and address information (IP = B) will also be mapped and stored.

In this way, when the terminal 1 and the terminal 2 are registered in the network or the IMS network, the operation method of the CSCF 100 according to the present invention is a method in which, by an attempted call origination from either the terminal 1 or the terminal 2, A first call session for a call service is established between the terminal 1 and the terminal 2 (S220).

Accordingly, a service call (for example, an RTP voice message) destined for the address information (IP = B of the terminal 2, IP = A of the terminal 1) is transmitted / received between the terminal 1 and the terminal 2 via the first call session The communication service, that is, the call service based on the IMS network, can be used (S230).

In this situation, the method of operation of the CSCF 100 according to the present invention determines whether a re-registration request (e.g., an IMS Re-registration message) is received from either the terminal 1 or the terminal 2, for example, the terminal 1 ).

For example, as in step S230, in a situation where a call service is being used through the first call session between the terminal 1 and the terminal 2, a failure occurs in the gateway device located on the first call session, for example, the P- The call session interval between the terminal 1 and the P-GW 20 is released and the call session interval between the terminal 1 and the other P-GW 50 is set by the P-GW recovery function, Re-attach is performed.

At this time, the P-GW 50 allocates new address information (IP, for example, IP = C) to the terminal 1 during the re-attach process, Can be changed.

Meanwhile, when the call session interval between other P-GWs 50 is set due to re-attach due to the use of the call service, the terminal 1 transmits the address information newly allocated from the P-GW 50 (E.g., IMS Re-registration message) including information on the IP session ID, IP = C, and the call session duration to the CSCF 100, that is, the network device 100 of the present invention.

The method of operating the CSCF 100 according to the present invention is such that when the terminal 1 using the call service sets a call session interval with another P-GW 50 due to re-attach In other words, the terminal 1 can receive a re-registration request for the network, that is, the IMS network.

In this case, the operation method of the CSCF 100 according to the present invention checks whether the address information (IP) of the terminal 1 is changed based on the re-registration request of the received terminal 1 (S250).

More specifically, the method of operation of the CSCF 100 according to the present invention is characterized in that the address information (IP = C) included in the re-registration request of the terminal 1 is re-registered based on the information previously stored in the step S210 If it is different from the included MSISDN and the address information (IP = A) stored in the mapping, it can be confirmed that the address information (IP) of the MS 1 has been changed (S250 Yes).

The method of operating the CSCF 100 according to the present invention is characterized in that when the address information (IP) of the terminal 1 is changed, a second call session (IP = C) based on the changed address information (S260) after the address information (IP) of the terminal 1 is changed, the communication service, that is, the use of the call service, can be maintained through the second call session.

The operation of the CSCF 100 according to the present invention is performed when the address information IP of the terminal 1 is confirmed to be changed (S250 Yes), the changed address information (IP = INVITE message according to the location registration information of the terminal 2 to the P-GW 40 according to the location registration information of the terminal 2 (S260), and transmits the RE-INVITE message according to the RE- 2 via the P-GW 40 and the S-GW 30 in the call session period.

In this case, the user of the terminal 2 who is using the call service with the terminal 1 will naturally accept the call, and the 200 OK message from the terminal 2 is transmitted in the direction opposite to the direction in which the RE-INVITE message is transmitted, The CSCF 100 establishes a call session with the terminal 2 (S270).

If the address information (IP) of the terminal 1 is changed (Yes in S250), the CSCF 100 according to the present invention transmits the RE-INVITE message according to the address information (IP = B) INVITE message to the P-GW 50 according to the location registration information of the terminal 1 (S260), the RE-INVITE message is transmitted to the P- -GW 50 and the S-GW 10, respectively.

In this case, the user of the terminal 1 who is using the call service with the terminal 2 will naturally accept the call, and the 200 OK message from the terminal 1 is transmitted in the direction opposite to the direction in which the RE-INVITE message is transmitted, The CSCF 100 sets up a call session with the terminal 1 (S270).

Here, before the RE-INVITE message is provided to the terminal 1 and the terminal 2 as described above, the preset first call session between the terminal 1 and the terminal 2 will be released.

The method of operation of the CSCF 100 according to the present invention sets up a call session with the terminal 2 and a call session with the terminal 1 by providing the RE-INVITE message as described above (S140, S150) (Dashed line in FIG. 1) between the terminal 1 and the terminal 2 by connecting the call session between the call session and the terminal 1 (S270).

Therefore, although the call service being used between the terminal 1 and the terminal 2 is temporarily suspended, the terminal 1 and the terminal 2 can use the call service through the second call session that is automatically set up between the terminal 1 and the terminal 2 without transmitting the call origination call or the terminal side INVITE message (S280).

As described above, according to the method of operating the network device of the present invention, since the terminal using the communication service is re-attached due to the failure of the gateway device (P-GW) IP) is changed, the communication service can be continuously used.

A method of operating a network device according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to the network device and the operation method of the network device according to the present invention, since the terminal using the communication service is re-attached due to the failure of the gateway device (P-GW) The present invention can be applied not only to the related technology but also to the possibility of marketing or operating the device, This is an invention that is industrially applicable because it can be practically done.

10, 30: S-GW 20, 40, 50: P-GW
100: Network device
110: request reception unit 120: change confirmation unit
130:

Claims (7)

A request receiving unit for receiving a re-registration request for the network from a terminal that is using a network-based communication service with the counterpart apparatus through a first call session with the counterpart apparatus based on pre-assigned address information;
A change confirmation unit for confirming whether the address information of the terminal is changed based on the re-registration request when the re-registration request of the terminal is received; And
Providing a specific message to at least one of the terminal and the counterpart apparatus so that a second call session based on the changed address information of the terminal is set between the terminal and the counterpart apparatus when the address information of the terminal is changed And a control unit. The method according to claim 1,
The re-
When a call session interval between the terminal and the gateway apparatus is released due to a failure of the gateway apparatus located on the first call session and a call session interval between the terminal and another gateway apparatus is set, . The method according to claim 1,
The terminal information and the address information included in the received registration request are mapped and stored before the re-registration request for the network is received;
The change confirmation unit,
If the address information included in the re-registration request differs from the address information stored in the re-registration request with the terminal information included in the re-registration request, based on the re-registration request of the terminal, And the network device. The method according to claim 1,
The specific message may include:
And a RE-INVITE message for the first call session. The method according to claim 1,
Wherein,
INVITE message according to the changed address of the terminal to the counterpart apparatus to establish a call session with the counterpart apparatus and provide an RE-INVITE message according to the address information of the counterpart apparatus to the terminal, Lt; RTI ID = 0.0 >
And establishes the second call session between the terminal and the counterpart apparatus by connecting a call session with the counterpart apparatus and a call session with the terminal. A request receiving step of receiving a re-registration request for the network from a terminal that is using a network-based communication service with the counterpart apparatus through a first call session with the counterpart apparatus based on the preassigned address information;
A change confirmation step of confirming whether the address information of the terminal is changed based on the re-registration request when the re-registration request of the terminal is received; And
Providing a specific message to at least one of the terminal and the counterpart apparatus so that a second call session based on the changed address information of the terminal is set between the terminal and the counterpart apparatus when the address information of the terminal is changed The method comprising the steps of: The method according to claim 6,
Wherein the control step comprises:
INVITE message according to the changed address information of the terminal to the counterpart device to establish a call session with the counterpart device,
Establishing a call session with the terminal by providing an RE-INVITE message according to address information of the counterpart apparatus to the terminal,
And establishes the second call session between the terminal and the counterpart apparatus by connecting a call session with the counterpart apparatus and a call session with the terminal.

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