KR101975552B1 - Terminal device and network device, and control method thereof - Google Patents

Abstract

Considering the limitation that one application can use only one PDN, that is, one IP, a terminal device may additionally execute an auxiliary application separately from the main application for the VoLTE service when using the VoLTE service, A plurality of VoDTE data packets connecting a first session and a second session through a multi-PDN, that is, a multi-IP using a single packet network (e.g., an LTE network), and receiving a VoLTE data packet through the first session, Thereby enabling a VoLTE service to be smoothly provided even if a failure occurs in an IMS PDN used for a VoLTE service, and a method of operating the devices.

Description

TECHNICAL FIELD [0001] The present invention relates to a terminal device and a network device,

The present invention relates to a terminal device, a network device, and a method of operating the same, and more particularly, to a VoIP service providing method that can smoothly provide a VoLTE service even when a failure occurs in an IMS PDN used for a VoLTE service, A terminal device, a network device, and an operation method of the devices.

In recent years, the growth of LTE (Long Term Evolution) network in domestic mobile communication has shifted its focus to LTE network in WCDMA, a 3G service.

At the same time, the introduction of terminals (LTE terminals) capable of accessing LTE networks and using data services is accelerating, and VoLTE services supporting calls using LTE networks have emerged recently.

The VoLTE service is a VoIP service using an LTE network. It provides superior quality of voice service compared to a call service using an existing circuit network, and enables various additional services including voice call as well as high-quality video call.

Since this VoLTE service is a call service requiring very high real-time quality, ensuring quality will be especially important. Therefore, the VoLTE service uses a separate IMS PDN (Packet Data Network) for the VoLTE service, thereby facilitating the QoS management of the service.

On the other hand, an application for providing a service uses only one PDN without using multiple PDNs at the same time in consideration of problems such as routing processing and the like.

Therefore, the application for the VoLTE service uses only one of the separate IMS PDNs described above. If the IMS PDN fails, the VoLTE service can not be provided smoothly.

Accordingly, the present invention proposes a method of ensuring quality even when a failure occurs in an IMS PDN used for a VoLTE service, because VoLTE services can be smoothly provided.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a VoLTE service smoothly even when a failure occurs in an IMS PDN used for a VoLTE service, thereby assuring quality.

According to a first aspect of the present invention, there is provided a terminal device for providing a first session for connecting a first session with a counterpart terminal, based on first address information, A connecting portion; A second session connection unit connecting a second session with a specific network device associated with the first session based on second address information different from the first address information through the packet network when the first session is connected; A first receiver for receiving a data packet related to a call service from the counterpart terminal through the first session; A second receiver for receiving at least some data packets of the data packets from the network device through the second session; And a data generator for generating call data related to the call service using the data packet and the at least a part of the data packet.

Preferably, the first session is connected to the counterpart terminal via the network device based on the first address information via the packet network by a main application associated with the call service, And may be connected to the network device based on the second address information through the packet network by an auxiliary application that is executed under the control of the main application after the first session is connected.

Preferably, the first address information includes an IMS IP, and the second address information may include an Internet IP.

Preferably, when the same data packet is duplicated through the first session and the second session, the data generating unit may transmit the first received data packet among the same duplicated data packets to the call data associated with the call service It can be used to generate.

Preferably, statistical information for the data packet received over the first session and statistical information for the at least some data packets received over the second session are generated, and the first session and the second session The statistical information providing unit may provide the statistical information of the statistical information to the network device so that the transmission rate of the data packet to be transmitted through the second session may be adjusted after the network device is provided with the statistical information .

Advantageously, the statistical information may comprise at least one of a received data packet count in the first session or the second session, a data packet loss rate, a data packet delay rate, and a utilization rate in generating call data associated with the call service have.

According to a second aspect of the present invention, there is provided a network device for providing a first session with a terminal device based on first address information through a packet network in connection with a packet- Session connection; When the first session is connected, a second session with the terminal device based on second address information different from the first address information through the packet network, to the second session connection unit; A first transmission unit for transmitting a data packet related to the call service received from the counterpart terminal through the first session to the terminal device; A data packet copying unit for copying at least some data packets according to a predetermined transmission rate from the data packet; And a second transmitter for transmitting the at least some data packets to the terminal device through the second session.

Preferably, the data packet copying unit adjusts the predetermined transmission rate based on the statistical information of the first session and the second session provided from the terminal apparatus, and the statistical information is transmitted to the first session Or at least one of a number of received data packets in the second session, a data packet loss rate, a data packet delay rate, and a utilization rate in generating data related to the call service.

According to a third aspect of the present invention, there is provided a method of operating a terminal device, the method comprising: connecting a first session with a counterpart terminal based on first address information through the packet network in association with a packet- A first session connecting step; A second session connection step of, when the first session is connected, connecting a second session with a specific network device related to the first session based on second address information different from the first address information through the packet network; A first receiving step of receiving a data packet related to a call service from the counterpart terminal through the first session; A second receiving step of receiving at least a part of the data packets of the data packets from the network device through the second session; And a data generation step of generating call data associated with the call service using the data packet and the at least a part of the data packet.

Preferably, the first session is connected to the counterpart terminal via the network device based on the first address information via the packet network by a main application associated with the call service, And may be connected to the network device based on the second address information through the packet network by an auxiliary application that is executed under the control of the main application after the first session is connected.

Advantageously, the first address information includes an ICS IP address, and the second address information includes an Internet IP address.

According to a fourth aspect of the present invention, there is provided a method of operating a network device, the method comprising: connecting a first session with a terminal device based on first address information through a packet network in connection with a packet- A first session connecting step Connecting a second session with the terminal device based on second address information different from the first address information through the packet network, when the first session is connected; A first transmission step of transmitting a data packet related to the call service received from the counterpart terminal through the first session to the terminal device; A data packet copy step of copying at least some data packets from the data packet according to a predetermined transmission rate; And a second transmitting step of transmitting the at least a part of the data packet to the terminal device through the second session.

Preferably, the method further comprises adjusting the predetermined transmission rate based on the statistical information of the first session and the second session provided from the terminal apparatus; The statistical information may include at least one of a number of received data packets in the first session or the second session, a data packet loss rate, a data packet delay rate, and a utilization rate in generating call data related to the call service.

According to the terminal device, the network device, and the operation method of the devices of the present invention, when the terminal device uses the VoLTE service, the terminal device additionally executes an auxiliary application separately from the main application for VoLTE service, : LTE network), a multi-session using a multi-IP, i.e., a multi-session session, i.e., a first session and a second session, and enabling at least a part of the VoLTE data packets received through the first session to be redundantly received through the second session So that the VoLTE service can be smoothly provided even if the IMS PDN used for the VoLTE service fails.

1 is a configuration diagram illustrating a system including a terminal device and a network device according to a preferred embodiment of the present invention.
2 is a block diagram showing a configuration of a terminal device according to a preferred embodiment of the present invention.
3 is a block diagram illustrating a configuration of a network device according to a preferred embodiment of the present invention.
4 is a control flowchart of a system including a terminal device and a network device according to a preferred embodiment of the present invention.
5 is a flowchart illustrating an operation method of a terminal according to a preferred embodiment of the present invention.
6 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 a system including a terminal apparatus and a network apparatus according to a preferred embodiment of the present invention.

As shown in FIG. 1, a system according to a preferred embodiment of the present invention includes a terminal device 100 and a network device 300. And the terminal device 100 and the counterpart terminal 200 to use a specific service.

Here, the terminal apparatus 100 and the counterpart terminal 200 are terminals capable of using a specific service based on a packet network through the network device 300, and a specific service is a voice call based on a packet network (e.g., LTE network) And / or a call service that supports video calls, e.g., a VoLTE service.

Hereinafter, for convenience of explanation, the terminal device 100 will be described as a terminal device according to the present invention. Of course, the counterpart terminal 200 may also be a terminal device according to the present invention.

The network device 300 is located in a session connected for the VoLTE service between the terminal device 100 and the counterpart terminal 200 and transmits a data packet related to the VoLTE service between the terminal device 100 and the counterpart terminal 200 And may be a device that enables transmission and reception. For example, the network device 300 may be a packet gateway equipment (P-GW).

A first session related to a call service based on a packet network (e.g., LTE network), that is, a VoLTE service, is connected between the terminal device 100 and the counterpart terminal 200 according to the present invention through the network device 300. [

For example, the terminal device 100 transmits a default bearer for IMS signaling, such as terminal registration and session maintenance, to a device (for example, the network device 300) on a packet network (e.g., an LTE network) And a default bearer for a general data service such as web surfing may be established based on the second address information to establish a connection.

Here, the first address information may indicate an iMS PDN (or IMS IP), and the second address information may indicate an Internet PDN (or Internet IP).

When a VoLTE call is transmitted from the terminal device 100 to the counterpart terminal 200, the main application for the VoLTE service executed in the terminal device 100 tries to establish a voice / video call to the counterpart terminal 200, When the voice / video call according to the first session information is connected, the terminal device 100 transmits the voice / video data, that is, VoLTE call data, to the counterpart terminal 200 based on the first address information, i.e., IMS IP, You can request a connection. For example, the main application of the terminal device 100 can request a first session connection by requesting an additional dedicated bearer setting for transmitting and receiving VoLTE call data based on the IMS IP.

More specifically, between the main application for the VoLTE service executed in the terminal device 100 and the main application for the VoLTE service executed in the counterpart terminal 200, between the terminal device 100 and the counterpart terminal 200, The first session may be connected through a network related to the VoLTE service, such as an LTE network and an IMS network.

Of course, when the counterpart terminal 200 inputs the VoLTE call to the terminal 100, the first session will be connected as described above.

The procedure for connecting the first session for the VoLTE service between the terminal device 100 and the counterpart terminal 200 may be the same as the procedure for connecting the first session for the VoLTE service.

When the first session for the VoLTE service is connected as described above, the terminal device 100 according to the present invention transmits second address information different from the first address information, that is, the above-described Internet Based on IP, a second session with a particular network device, i.e., network device 300, associated with the first session.

For example, when the first session for the VoLTE service is connected as described above, the main application for the VoLTE service executed in the terminal device 100 executes the auxiliary application provided in the terminal device 100, And the second session with the terminal 300.

Accordingly, the terminal device 100 can request the second session connection to transmit / receive data to / from the network device 300 based on the second address information, that is, the Internet IP, by the assistant application.

A separate second session separated from the first session is connected between the terminal device 100 and the network device 300, more specifically, between the assistant application executed in the terminal device 100 and the network device 300 .

Of course, also in the counterpart terminal 200, the auxiliary application is executed by the main application, and the second session with the network device 300 is connected by the auxiliary application.

As a result, the network device 300 is connected to the first session with the terminal device 100 as it is located on the first session for the VoLTE service between the terminal device 100 and the counterpart terminal 200, 100 may be connected to a separate second session associated with the first session.

The network device 300 can provide the VoLTE service between the terminal device 100 and the counterpart terminal 200 through the first session.

Hereinafter, for the sake of convenience of description, a case of transmitting a VoLTE data packet to the terminal device 100 will be described.

That is, the network device 300 receives the VoLTE call data, that is, a plurality of VoLTE data packets transmitted from the counterpart terminal 200 through the first session, and transmits the received VoLTE data packet to the terminal device 100 .

At this time, the network device 300 copies at least a part of the data packet according to the predetermined transmission rate from the VoLTE data packet to be transmitted to the terminal device 100, and transmits at least a part of the copied data packet to the terminal To the device (100).

Accordingly, the terminal device 100 receives the VoLTE data packet related to the VoLTE service from the counterpart terminal 200 through the first session, and also receives at least a part of the data packet of the VoLTE data packets received through the first session From the network device 300 through the second session.

The terminal device 100 generates VoLTE call data related to the VoLTE service, that is, original VoLTE call data transmitted from the counterpart terminal 200, using the VoLTE data packet received through the first session and the second session And output it to the user of the terminal device 100.

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

The terminal apparatus 100 according to the present invention includes a first session connection unit 110 for connecting a first session with a counterpart terminal 200 based on first address information through the packet network in connection with a packet- And a second session connecting the second session with a specific network device (300) related to the first session based on second address information different from the first address information through the packet network when the first session is connected, A first receiver 130 for receiving a data packet related to a call service from the counterpart terminal 200 through the first session and a second receiver 130 for receiving a data packet from the network device 300 through the second session, A second receiver 140 for receiving at least some data packets of the data packets and a data generator 150 for generating call data related to the call service using the data packets and the at least some data packets do.

Here, the packet-based call service may be a call service supporting a voice call and / or a video call based on a packet network (e.g., an LTE network), for example, a VoLTE service.

The first session connection unit 110 connects the first terminal 110 to the second terminal 200 based on the first address information through a packet network (e.g., LTE network) in association with a VoLTE service based on a packet network (e.g., LTE network) Connect sessions.

Here, the first session is preferably connected to the counterpart terminal 200 via the network device 300 based on the first address information through a packet network (e.g., LTE network) by a main application related to the VoLTE service .

For example, the terminal device 100 may have a connection to the network device 300 by setting a default bearer for IMS signaling based on the first address information, as described above, A default bearer for the second address can be established based on the second address information. Here, the first address information may indicate an iMS PDN (or IMS IP), and the second address information may indicate an Internet PDN (or Internet IP).

The first session connection unit 110 receives the VoLTE call from the terminal device 100 to the counterpart terminal 200 by using the first address information or IMS IP communication with the counterpart terminal 200 based on the first session connection.

More specifically, between the main application for the VoLTE service executed in the terminal device 100 and the main application for the VoLTE service executed in the counterpart terminal 200, between the terminal device 100 and the counterpart terminal 200, A first session associated with the VoLTE service may be connected via the network device 300.

When the first session is connected, the second session connection unit 120 connects the network device 300 related to the first session based on the second address information different from the first address information through the packet network (e.g., LTE network) To the second session.

Here, the second session is connected to the network device 300 based on the second address information through a packet network (e.g., an LTE network) by an auxiliary application that is executed under the control of the main application after the first session is connected .

For example, when the first session for the VoLTE service is connected as described above, the main application for the VoLTE service executed in the terminal device 100 connects to the auxiliary application provided in the terminal device 100 through the local socket, So that it can be controlled. That is, the main application for the VoLTE service can control the auxiliary application to connect the second session with the network device 300.

The second session connection unit 120 can request a second session connection for transmitting / receiving data to / from the network device 300 based on the second address information, i.e., the Internet IP, by the auxiliary application.

A separate second session separated from the first session is connected between the terminal device 100 and the network device 300, more specifically, between the assistant application executed in the terminal device 100 and the network device 300 .

Of course, even when the terminal apparatus 100 is the VoLTE receiving side, the first session is connected by the main application of the terminal apparatus 100, and the second session with the network apparatus 300 is performed by the auxiliary application executed by the main application. Will be connected.

In consideration of the limitation that one application can use only one PDN, that is, one IP, in the terminal device 100 according to the present invention, a supplementary application is added separately from the main application for the VoLTE service when using the VoLTE service The first session and the second session can be connected through the same one packet network (e.g., LTE network) by using the multi-PDN, i.e., the multi-IP.

The first receiving unit 130 receives the VoLTE data packet related to the VoLTE service from the counterpart terminal 200 through the first session.

That is, the first receiving unit 130 receives the VoLTE call data, that is, a plurality of VoLTE data packets, which are transmitted from the counterpart terminal 200 through the first session, through the network device 300.

For example, the VoLTE data packet to be received by the first receiver 130 includes a sequence number 1 packet, a sequence number 2 packet, a sequence number 3 packet, a sequence number 4 packet, a sequence number 5 and a packet of sequence number 6, respectively.

The second receiving unit 140 receives at least a part of the data packet of the VoLTE data packet from the network device 300 through the second session described above.

That is, the second receiver 140 receives at least some data packets of the VoLTE data packets received through the first session from the network device 300 through the second session.

For example, the data packet to be received by the second receiving unit 140 may be a packet of the sequence number 3 and a packet of the sequence number 6, as shown in FIG.

The data generator 150 generates a VoLTE call service using the VoLTE data packet of the first session received by the first receiver 130 and the data packet of at least a part of the second session received by the second receiver 140, That is, the original VoLTE call data transmitted by the counterpart terminal 200. [

More specifically, when the same data packet is repeatedly received through the first session and the second session, the data generating unit 150 transmits a data packet, which is received first among the duplicated data packets received, It is used when generating call data.

That is, when receiving the same VoLTE data packet through the first session and the second session, the data generating unit 150 transmits the first received VoLTE data packet of the same VoLTE data packet to the VoLTE data packet associated with the VoLTE service It is used for data generation.

For example, as described above, a process of receiving a packet of a sequence number 1, 2, 3, 4, 5, 6 through a first session and receiving a packet of a sequence number 3, 6 through a second session .

The data generator 150 receives the packets of the sequence numbers 1, 2, 3, 4, 5 and 6 from the first receiver 130, receives the packets of the sequence numbers 3 and 6 from the second receiver 140, .

In the case of receiving the packet of the same sequence number 3 and the packet of the sequence number 6 through the first session and the second session, the packet of the sequence number 3 is received first through the second session rather than the first session, It is assumed that the packet of the sequence number 6 is first received through the first session.

In this case, the data generation unit 150 generates a packet having the sequence numbers 1 and 2 received through the first session, the packet of the sequence number 3 received through the second session, and the sequence number 4, 5 and 6 packets to generate VoLTE call data, that is, original VoLTE call data transmitted by the counterpart terminal 200. [

The terminal device 100 according to the present invention may further include a statistical information providing unit 160.

The statistical information providing unit 160 generates statistical information on the data packet received through the first session and statistical information on the at least a part of the data packet received through the second session.

That is, the statistical information providing unit 160 may generate statistical information on the VoLTE data packet received through the first session. The statistical information of the first session may include at least one of the number of VoLTE data packets received through the first session, the VoLTE data packet loss rate, the VoLTE data packet delay rate, and the utilization rate in generating VoLTE call data related to the VoLTE service.

In addition, the statistical information providing unit 160 may generate statistical information for at least a part of the data packets received through the second session. The statistical information of the second session may include at least one of the number of data packets received through the second session, the data packet loss rate, the data packet delay rate, and the utilization rate in generating VoLTE call data related to the VoLTE service.

Here, in the case of the first session, since the session in which all the VoLTE data packets (for example, the packets of the sequence numbers 1, 2, 3, 4, 5 and 6) constituting the VoLTE call data are received, It is possible to relatively accurately calculate / generate the statistical information of the first session, for example, the VoLTE data packet loss rate, by using the sequence number of the VoLTE data packet received as the RTP packet through the first session in practice.

However, in the case of the second session, since a session in which some data packets (for example, the packets of sequence numbers 3 and 6) of all the VoLTE data packets constituting the VoLTE call data are received is assumed, It is preferable that a statistical information of the second session can be generated by applying a separate sequence number for the second session.

For example, the data packet copied in the network device 300 and transmitted through the second session may further include the sequence number for the second session. That is, the network device 300 copies the packets of the sequence numbers 3 and 6 among the packets of the sequence numbers 1, 2, 3, 4, 5 and 6 transmitted through the first session as described above, (100), the sequence number 1 for the second session is included in the packet of the sequence number 3 that is transmitted first through the second session, and the sequence number of the second session is included in the packet of the sequence number 6 that is transmitted the second time. 2 can be included.

Accordingly, in the case of the second session, the statistical information providing unit 160 can use the sequence number for the second session of the data packet actually received through the second session to relatively accurately compute statistical information such as the data packet loss rate of the second session It will be possible to calculate / generate.

As described above, the statistical information providing unit 160 generates the statistical information for the VoLTE data packet received through the first session and the above-mentioned at least part of the data packet received through the second session during a specific period / Can be managed.

The statistical information providing unit 160 provides the generated statistical information of the first session and the second session to the network device 300.

For example, when the statistical information providing unit 160 reaches the preset statistical information providing time, the network device 300 provides the generated statistical information of the first session and the second session to the network device 300, It is possible to adjust the transmission rate of the data packet to be transmitted through the second session after receiving the statistical information.

The first receiving unit 130 and the data generating unit 150 may be included in the main application 170 for the VoLTE service described above and the second receiving unit 140 may include the It may be a configuration included in an auxiliary application. Of course, the configuration may be included in the statistical information providing unit 160 in the main application 170.

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

The network device 300 according to the present invention includes a first session connection unit 310 for connecting a first session with a terminal device 100 based on first address information through the packet network in connection with a packet- And a second session connection unit (320) for, when the first session is connected, a second session with the terminal device (100) based on second address information different from the first address information through the packet network, A first transmitter 330 for transmitting a data packet related to the call service received from the counterpart terminal 200 through the first session to the terminal device 100; A data packet copying unit 340 for copying a data packet and a second transmitting unit 350 for transmitting the at least a part of the data packet to the terminal device 100 through the second session.

Here, the packet-based call service may be a call service supporting a voice call and / or a video call based on a packet network (e.g., an LTE network), for example, a VoLTE service.

The first address information may mean an iMS PDN (or IMS IP), and the second address information may mean an Internet PDN (or Internet IP).

The first session connection unit 310 connects the terminal device 100 based on the first address information, i.e., IMS IP, through a packet network (e.g., LTE network) in association with a VoLTE service based on a packet network (e.g., LTE network) To the first session.

The network device 300 is located on the first session associated with the VoLTE service connected between the terminal device 100 and the correspondent terminal 200 based on the IMS IP of the terminal device 100, The first session connection unit 310 of the terminal 100 can connect the terminal 100 with the first session.

When the first session is connected, the second session connection unit 320 transmits the first address information, that is, the second address information, which is different from the IMS IP, that is, the Internet IP, based on the packet network (e.g., LTE network) 100 to the second session.

That is, the second session connection unit 320 can connect the second session based on the Internet IP, which is different from the IMS IP, from the terminal device 100 according to a request from the terminal device 100 to which the first session is connected .

Accordingly, the network device 300 can be connected to a first session for VoLTE service based on IMS IP and a separate second session separated from the first session.

The first transmitting unit 330 transmits the VoLTE data packet related to the VoLTE service received from the counterpart terminal 200 through the first session described above to the terminal device 100. [

That is, the first transmitting unit 330 transmits the VoLTE call data, that is, a plurality of VoLTE data packets, transmitted from the counterpart terminal 200 through the first session, to the terminal device 100.

The data packet copying unit 340 copies at least a part of the data packet according to a predetermined transmission rate from the VoLTE data packet transmitted to the terminal device 100 through the first session.

For example, when the packet of the sequence number 1, 2, 3, 4, 5, 6 is transmitted to the terminal device 100 through the first session, the data packet copying unit 340 copies the sequence number 3, and 6 packets can be copied.

The second transmitting unit 350 transmits at least a part of the above-mentioned data packet copied by the data packet copying unit 340 to the terminal device 100 through the above-mentioned second session.

That is, for example, the second transmitting unit 350 can transmit the packets of the sequence numbers 3 and 6 copied by the data packet copying unit 340 to the terminal device 100 through the second session.

Furthermore, the data packet copying unit 340 can adjust the predetermined transmission rate based on the statistical information of the first session and the second session provided from the terminal device 100. [

That is, when the statistical information of the first session and the second session is provided from the terminal device 100 as the statistical information providing time comes up as described above, the data packet copying unit 340 copies the statistical information of the first session and the second session It is possible to change the amount of data packets to be transmitted through the second session, that is, the amount of data packets to be copied, after the statistical information is provided from the terminal device 100 by adjusting the preset transmission rate based on the statistical information do.

For example, the data packet copying unit 340 may calculate the number of VoLTE data packets received through the first session based on the statistical information of the first session and the number of VoLTE data packets transmitted from the first transmitting unit 330 through the first session If the condition is confirmed that the number of receptions is less than or equal to a certain threshold value as compared with the number of transmissions based on the number of VoLTE data packets or if the condition that the VoLTE data packet loss rate is equal to or greater than a specific loss level is determined, The transmission rate can be adjusted so as to increase the amount of the transmission rate.

Alternatively, the data packet copying unit 340 may calculate the number of data packets received through the second session based on the statistical information of the second session and the number of data packets transmitted from the second transmitting unit 350 through the second session, If the condition is confirmed that the number of receptions is less than or equal to a certain threshold relative to the number of transmissions based on the number or if the condition is determined that the data packet loss rate is greater than or equal to a certain loss volume threshold value then the amount of data packets to be copied for transmission over the second session is reduced The transmission rate can be adjusted.

In addition to the examples described above, the data packet copying section 340 may also be configured to transmit the data packet to the terminal device 100 by adjusting the predetermined transmission rate according to various conditions that are confirmed based on the statistical information of the first session and the statistical information of the second session The amount of data packets to be transmitted through the second session, that is, the amount of data packets to be copied, can be changed at a later point in time when the statistical information is provided.

As described above, the terminal device and the network device according to the present invention can be realized by adding and executing an auxiliary application separately from the main application for the VoLTE service when using the VoLTE service in the terminal device, A plurality of VoLTE data packets that are connected to the first session and the second session through the multi-PDN, that is, the first session and the second session, through the second session, So that the VoLTE service can be smoothly provided even if the IMS PDN used for the service fails.

Thus, the terminal device and the network device according to the present invention can ensure quality even if a failure occurs in the IMS PDN used for the VoLTE service by providing the VoLTE service smoothly, and further, The amount of data packets of the second session to be transmitted redundantly can be adjusted so that redundant transmission is not performed indiscriminately, and the load phenomenon of the Internet PDN can be efficiently managed.

Hereinafter, an operation method of the terminal device and the network device according to the present invention will be described with reference to FIG. 4 to FIG.

First, with reference to FIG. 3, a control flow of a system including a terminal device and a network device according to the present invention will be described.

When a VoLTE call is transmitted from the terminal device 100 to the correspondent terminal 200 in step S10, a call is made between the terminal device 100 and the correspondent terminal 200, more specifically, for a VoLTE service executed in the terminal device 100 The VoLTE service and the first session are connected through the network device 300 between the main application and the main application for the VoLTE service executed in the counterpart terminal 200 (S20).

Here, the first session is preferably connected to the counterpart terminal 200 via the network device 300 based on the first address information through a packet network (e.g., LTE network) by a main application related to the VoLTE service .

The procedure for connecting the first session for the VoLTE service between the terminal device 100 and the counterpart terminal 200 may be the same as the procedure for connecting the first session for the VoLTE service.

When the first session for the VoLTE service is connected as described above, the terminal device 100 transmits the first session and the second session based on the second address information different from the first address information through the packet network (e.g., LTE network) And connects the second session with the related network device 300 (S30).

Here, the first address information may indicate an iMS PDN (or IMS IP), and the second address information may indicate an Internet PDN (or Internet IP).

The second session is established on the basis of the second address information, that is, the Internet IP, through a packet network (e.g., LTE network) by an auxiliary application executed in accordance with the control of the main application after the first session is connected in the terminal apparatus 100 And is preferably connected to the network device 300.

As a result, the network device 300 is connected to the first session with the terminal device 100 as it is located on the first session for the VoLTE service between the terminal device 100 and the counterpart terminal 200, 100 may be connected to a separate second session associated with the first session.

The network device 300 can provide the VoLTE service between the terminal device 100 and the counterpart terminal 200 through the first session.

Hereinafter, for the sake of convenience of description, a case of transmitting a VoLTE data packet to the terminal device 100 will be described.

That is, the network device 300 receives VoLTE call data, that is, a plurality of VoLTE data packets transmitted from the counterpart terminal 200 through the first session (S40), and transmits the received VoLTE data packet to the terminal device 100 (S50).

At this time, the network device 300 copies at least a part of the data packet according to the predetermined transmission rate from the VoLTE data packet to be transmitted to the terminal device 100, and transmits at least a part of the copied data packet to the terminal To the device 100 (S55).

Accordingly, the terminal device 100 receives the VoLTE data packet related to the VoLTE service from the counterpart terminal 200 through the first session, and also receives at least a part of the data packet of the VoLTE data packets received through the first session From the network device 300 through the second session.

The terminal device 100 generates VoLTE call data related to the VoLTE service, that is, original VoLTE call data transmitted from the counterpart terminal 200, using the VoLTE data packet received through the first session and the second session (S60) and output it to the user of the terminal device 100. [

Hereinafter, an operation method of the terminal device according to the present invention will be described in detail with reference to FIG. The terminal device 100 will be described for convenience of explanation.

A method of operating the terminal device 100 according to the present invention is a method in which when a VoLTE transmission from the terminal device 100 to the counterpart terminal 200 is input, the main application for VoLTE service is executed and the first address information A first session related to the VoLTE service between the terminal device 100 and the counterpart terminal 200 is requested from the network device 200 by requesting a first session connection for transmitting and receiving VoLTE call data with the counterpart terminal 200 based on the IMS IP 300) (S100).

The method for operating the terminal device 100 according to the present invention is a method for operating the terminal device 100 according to the present invention when the first session is connected and the second address information different from the first address information, 1 session with the network device 300 associated with the second session.

That is, when the first session for the VoLTE service is connected as described above, the above-described main application is connected to the auxiliary application provided in the terminal device 100 through a local socket , And then controls the auxiliary application to connect the second session with the network device 300 by executing the auxiliary application (S110)

The operation method of the terminal device 100 according to the present invention is a method in which an auxiliary application requests a second session connection to transmit / receive data to / from the network device 300 based on second address information, A separate second session separated from the first session can be connected between the device 100 and the network device 300 (S120).

Of course, even when the terminal apparatus 100 is a VoLTE receiver, the first session is connected by the main application of the terminal apparatus 100 and is executed by the main application The second session with the network device 300 will be connected by the auxiliary application.

The method for operating the terminal device 100 according to the present invention is a method for receiving a VoLTE data packet related to the VoLTE service from the counterpart terminal 200 through the first session and transmitting the VoLTE data packet to the network device 300 (Step S130). The VoLTE data packet includes at least a part of the VoLTE data packet.

That is, the operating method of the terminal device 100 according to the present invention is a method of receiving VoLTE call data, that is, a plurality of VoLTE data packets in units of packets, transmitted from the counterpart terminal 200 through the first session via the network device 300 do. For example, it may be a packet of sequence number 1, a packet of sequence number 2, a packet of sequence number 3, a packet of sequence number 4, a packet of sequence number 5, and a packet of sequence number 6, as shown in FIG.

The operation method of the terminal device 100 according to the present invention receives at least a part of the data packets of the VoLTE data packets received through the first session from the network device 300 through the second session. For example, it may be a packet of sequence number 3 and a packet of sequence number 6, as shown in FIG.

The method of operating the terminal device 100 according to the present invention is a method of operating VoLTE call data related to a VoLTE call service using a VoLTE data packet of a first session to be received and a data packet of at least a part of a second session to be received, And generates the original VoLTE call data transmitted by the terminal 200 (S140).

More specifically, the method of operating the terminal device 100 according to the present invention is characterized in that, when the same data packet is duplicated through the first session and the second session, And uses the packet when generating call data related to the call service.

That is, when the same VoLTE data packet is duplicated through the first session and the second session, the operation method of the terminal device 100 according to the present invention is such that the first received VoLTE data packet of the same VoLTE data packet And is used when generating VoLTE call data related to the VoLTE service.

For example, in the process of receiving the packets of the sequence numbers 1, 2, 3, 4, 5, and 6 through the first session and receiving the packets of the sequence numbers 3 and 6 through the second session, When a packet of the same sequence number 3 and a packet of the sequence number 6 are received through the first session and the second session, the packet of the sequence number 3 is received first through the second session rather than the first session, The packet of the sequence number 6 is received first.

In this case, the operating method of the terminal device 100 according to the present invention is a method of operating the terminal device 100 according to the first embodiment of the present invention, in which packets of sequence numbers 1 and 2 received through the first session, packets of the sequence number 3 received through the second session, The VoLTE call data, that is, the original VoLTE call data transmitted by the counterpart terminal 200, using the packets of the sequence numbers 4, 5, and 6 received.

The method of operation of the terminal device 100 according to the present invention according to the present invention further includes the steps of transmitting statistical information on the data packet received through the first session and the statistical information on the at least some data packets received through the second session And generates statistical information (S150).

That is, the operation method of the terminal device 100 according to the present invention can generate statistical information on the VoLTE data packet received through the first session. The statistical information of the first session may include at least one of the number of VoLTE data packets received through the first session, the VoLTE data packet loss rate, the VoLTE data packet delay rate, and the utilization rate in generating VoLTE call data related to the VoLTE service.

Also, the method of operation of the terminal device 100 according to the present invention can generate statistical information on at least a part of the data packets received through the second session. The statistical information of the second session may include at least one of the number of data packets received through the second session, the data packet loss rate, the data packet delay rate, and the utilization rate in generating VoLTE call data related to the VoLTE service.

The operation method of the terminal device 100 according to the present invention provides the network device 300 with the generated statistical information of the first session and the second session.

For example, the operation method of the terminal device 100 according to the present invention may be configured such that when the predetermined statistical information providing time arrives (S160), the statistical information of the generated first session and second session is transmitted to the network device 300 (S170) so that the transmission rate of the data packet to be transmitted through the second session after the network device 300 is provided with statistical information will be adjusted.

If the VoLTE service is not terminated (No in S180), the operation of the terminal device 100 according to the present invention is repeatedly performed after the above-described step S130. If the VoLTE service is terminated (Yes in S180) The first session and the second session may be released and the connection between the main application and the auxiliary application may also be released (S190).

Hereinafter, an operation method of the network device according to the present invention will be described in detail with reference to FIG.

A method of operating a network device according to the present invention is a method in which a network device 300 receives a first session related to a VoLTE service connected between a terminal device 100 and a counterpart terminal 200 based on IMS IP of the terminal device 100, The first session with the terminal device 100 is connected (S200).

In accordance with a request from the terminal device 100 to which the first session is connected, the second session based on the Internet IP, which is different from the IMS IP, is connected to the network device according to the present invention. (S210).

In the method of operating the network device according to the present invention, a first session for the VoLTE service based on the IMS IP and a separate second session separated from the first session can be connected.

The method of operation of the network device according to the present invention transmits a VoLTE data packet related to the VoLTE service received from the counterpart terminal 200 through the first session to the terminal device 100 (S220).

That is, the method of operating the network device according to the present invention is a method of transmitting VoLTE call data, that is, a plurality of VoLTE data packets transmitted from the counterpart terminal 200 through the first session, to the terminal device 100 do.

At this time, the method of operating the network device according to the present invention copies at least some data packets according to a predetermined transmission rate from the VoLTE data packet transmitted to the terminal device 100 through the first session (S230).

For example, when a sequence number 1, 2, 3, 4, 5, or 6 is transmitted to the terminal device 100 through the first session, Packets of sequence numbers 3 and 6 can be copied.

In the operation method of the network device according to the present invention, at least a part of the data packet copied in the step S230 is transmitted to the terminal device 100 through the above-mentioned second session (S240).

That is, for example, in the method of operating the network device according to the present invention, the packet of the copied sequence numbers 3 and 6 can be transmitted to the terminal device 100 through the second session.

Furthermore, the operation method of the network device according to the present invention can adjust the predetermined transmission rate based on the statistical information of the first session and the second session provided from the terminal device 100. [

That is, when the statistical information of the first session and the second session is provided from the terminal device 100 as the statistical information providing time is reached (S250 Yes), the operation method of the network device according to the present invention, By adjusting the predetermined transmission rate based on the statistical information of the session and the second session, the amount of data packets to be transmitted through the second session after the statistical information is provided from the terminal device 100, that is, (S260).

If the VoLTE service is not terminated (No at S270), the operation of the network device according to the present invention is repeatedly performed after step S220. If the VoLTE service is terminated (Yes at S270) And the second session (S280).

As described above, the method of operating the terminal device and the network device according to the present invention is characterized in that, when using the VoLTE service, the terminal device additionally executes an auxiliary application separately from the main application for the VoLTE service, That is, a first session and a second session through a multi-PDN, that is, a multi-IP, through the LTE network) and can receive at least a part of the VoLTE data packets received through the first session through the second session So that the VoLTE service can be smoothly provided even if a failure occurs in the IMS PDN used for the VoLTE service.

Therefore, even if a failure occurs in the IMS PDN used for the VoLTE service, the operation method of the terminal device and the network device according to the present invention can smoothly provide the VoLTE service and guarantee the quality, and further, It is unnecessary to redundantly transmit data packets by adjusting the amount of data packets of the second session to be duplicated, thereby effectively managing the load phenomenon of the Internet PDN.

A method of operating a terminal device and 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 terminal device, the network device, and the operation method of the devices according to the present invention, even if a failure occurs in the IMS PDN used for the VoLTE service, the VoLTE service can be smoothly provided, As the technology goes beyond the limits, it is not only the use of related technology but also the possibility of commercialization or operation of the applied device, and it is possible to carry out clearly in reality, so it is an invention that is industrially applicable.

100: terminal device
110: first session connection unit 120: second session connection unit
130: first receiving unit 140: second receiving unit
150: data generating unit 160: statistical information providing unit

Claims (13)

A first session connection unit for connecting a first session with a counterpart terminal based on first address information with respect to a call service;
A second session connection unit for connecting a second session with a specific network device associated with the first session based on the second address information when the first session is connected;
A first receiver for receiving a data packet related to a call service from the counterpart terminal through the first session;
A second receiver for receiving at least some data packets of the data packets from the network device through the second session; And
And a data generating unit for generating call data related to the call service using the data packet and the at least a part of the data packet,
Further comprising: a statistical information providing unit for providing statistical information of the first session and statistical information of the second session to the network device, wherein the network device transmits the statistical information through the second session after receiving the statistical information So that the transmission rate of the data packet can be adjusted. The method according to claim 1,
The first session includes:
Wherein the second communication unit is connected to the counterpart terminal through the network device based on the first address information by a main application related to the call service,
The second session includes:
Wherein the second terminal is connected to the network device based on the second address information by an auxiliary application that is executed under the control of the main application after the first session is connected. The method according to claim 1,
The first address information includes an IMS IP,
Wherein the second address information includes an Internet IP. The method according to claim 1,
Wherein the data generating unit comprises:
When receiving the same data packet through the first session and the second session, uses the first received data packet among the same received data packet when generating call data related to the call service. . The method according to claim 1,
The statistical information providing unit,
The method comprising: generating statistical information on the data packet received through the first session and statistical information on the at least some data packets received through the second session and transmitting the statistical information of the first session and the second session Wherein the network device is a network device. The method according to claim 1,
The statistical information,
A data packet loss rate, a data packet delay rate, and a usage rate when generating call data related to the call service, in the first session or the second session. A first session connection unit for connecting a first session with a terminal device based on first address information with respect to a call service;
When the first session is connected, the second session with the terminal device based on the second address information is referred to as a second session connection;
A first transmission unit for transmitting a data packet related to the call service received from the counterpart terminal through the first session to the terminal device;
A data packet copying unit for copying at least some data packets according to a predetermined transmission rate from the data packet; And
And a second transmitter for transmitting the at least some data packets to the terminal device through the second session,
Wherein the data packet copying unit comprises:
And adjusts the predetermined transmission rate based on the statistical information of the first session and the second session provided from the terminal device. 8. The method of claim 7,
The statistical information,
A data packet loss rate, a data packet delay rate, and a utilization rate when generating data related to the call service, in the first session or the second session. A first session connection step of connecting a first session with a counterpart terminal based on first address information with respect to a call service;
A second session connection step of, when the first session is connected, connecting a second session with a specific network device related to the first session based on the second address information;
A first receiving step of receiving a data packet related to a call service from the counterpart terminal through the first session;
A second receiving step of receiving at least a part of the data packets of the data packets from the network device through the second session; And
And a data generation step of generating call data associated with the call service using the data packet and the at least a part of the data packet,
Statistical information of the first session and statistical information of the second session to the network device so as to adjust the transmission rate of the data packet to be transmitted through the second session after the network device is provided with the statistical information The method comprising the steps of: 10. The method of claim 9,
The first session includes:
Wherein the second communication unit is connected to the counterpart terminal through the network device based on the first address information by a main application related to the call service,
The second session includes:
Wherein the first application is connected to the network device based on the second address information by an auxiliary application that is executed under the control of the main application after the first session is connected. 10. The method of claim 9,
Wherein the first address information includes an IMS IP,
And the second address information includes an internet IP address. A first session connection step of connecting a first session with a terminal device based on first address information with respect to a call service;
Connecting a second session with the terminal device based on the second address information to a second session when the first session is connected;
A first transmission step of transmitting a data packet related to the call service received from the counterpart terminal through the first session to the terminal device;
A data packet copy step of copying at least some data packets from the data packet according to a predetermined transmission rate; And
And a second transmission step of transmitting the at least a part of the data packet to the terminal device via the second session,
Further comprising the step of adjusting the predetermined transmission rate based on the statistical information of the first session and the second session provided from the terminal device. 13. The method of claim 12,
The statistical information,
A data packet loss rate, a data packet delay rate, and a utilization rate when generating call data related to the call service, in the first session or the second session.

Images