KR102108532B1 - Method and apparatus for improving the quality of a service in communication systems - Google Patents

Abstract

Disclosed is a method and apparatus for improving service quality in a communication system.
According to an aspect of the present embodiment, a method for a first terminal connected to a first communication system to increase the quality of a voice service includes transmitting a message requesting the voice service to a second terminal and a response message to the request Receiving a process, changing a RAT (Radio Access Technology) to a second communication system, transmitting a TAU (Tracking Area Update) request message to the second communication system, and receiving a TAU acceptance message from the second communication system Receiving, receiving an acceptance message for the request of the voice service from the second terminal, transmitting an ack message for the acceptance message to the second terminal, and generating a media bearer with the second communication system And using the second terminal and the voice service using the media bearer.

Description

METHOD AND APPARATUS FOR IMPROVING THE QUALITY OF A SERVICE IN COMMUNICATION SYSTEMS}

The present invention relates to a method and apparatus for improving service quality in a communication system.

The content described in this section merely provides background information for the present invention and does not constitute a prior art.

Currently, after the LTE communication system, a 5G (5 generation) communication system for meeting wireless data traffic demand is under development. LTE communication systems have a wide coverage to satisfy coverage requirements, while 5G communication systems have a small coverage to satisfy communication capacity. In this case, the 5G cell may be arranged together with the LTE cell or may be independently arranged. The 5G communication system can be divided into a 5G standalone (SA) communication system and a 5G non-standalone (NSA) communication system depending on whether a service is provided in conjunction with an LTE communication system.

There are various services that can be provided to users using communication systems such as LTE communication systems, 5G SA communication systems, and 5G NSA communication systems. Since the required performance differs according to the characteristics of the service, the communication system must provide an appropriate level of service quality and mobility in consideration of the characteristics of the service. For example, in the case of a call service (i.e., a voice service), the user feels more uncomfortable in being interrupted in the middle than a slight delay, and since the amount of data to be transmitted is less, the call service is a service in which stability is prioritized over data transmission speed. . On the other hand, in the case of the Internet service, the Internet service is a service in which data transmission speed is prioritized rather than stability, because the user feels more uncomfortable with downloading a web page longer than being interrupted in the middle and has a lot of data to be downloaded.

If a plurality of communication systems exist as of the present and the performance of each of the communication systems is different, it is necessary for the selected communication system to provide a service in consideration of the characteristics of the service.

This embodiment has a main purpose to provide a high quality service by changing the communication system in consideration of the characteristics of the service.

According to an aspect of the present embodiment, a method for a first terminal connected to a first communication system to increase the quality of a voice service includes transmitting a message requesting the voice service to a second terminal and a response message to the request Receiving a process, changing a RAT (Radio Access Technology) to a second communication system, transmitting a TAU (Tracking Area Update) request message to the second communication system, and receiving a TAU acceptance message from the second communication system Receiving, receiving an acceptance message for the request of the voice service from the second terminal, transmitting an ack message for the acceptance message to the second terminal, and generating a media bearer with the second communication system And using the second terminal and the voice service using the media bearer.

According to another aspect of the present embodiment, the first terminal connected to the first communication system to increase the quality of the voice service, transmits a message requesting the voice service to the second terminal, and receives a response message to the request And transmits a TAU (Tracking Area Update) request message to a second communication system, receives a TAU acceptance message from the second communication system, and receives an acceptance message for the request for the voice service from the second terminal, A transmitting and receiving unit transmitting an ack message for the acceptance message to the second terminal, and changing a radio access technology (RAT) to the second communication system, generating a media bearer with the second communication system, and the media bearer And a control unit using the second terminal and the voice service.

As described above, according to this embodiment, it is possible to provide a high quality service by changing the communication system in consideration of the characteristics of the service. Particularly, in the case of a voice service, even in a terminal connected to a 5G communication system, the voice service is provided by changing the connection to an LTE communication system in consideration of stability due to the characteristics of the voice service.

In addition, the terminal does not need to change the RAT unnecessarily by performing fallback only when the request for the voice service is valid.

1 is a view showing a communication system that operates while the 5G communication system coexists with the LTE communication system according to an embodiment of the present disclosure;
2 is a diagram showing a fallback for moving a terminal from a 5G communication system to an LTE communication system (or 4G communication system) when a request for a voice service occurs;
3 is a view showing a fallback for moving a terminal from a 5G communication system to an LTE communication system when a request for a voice service occurs according to the first embodiment of the present disclosure;
4 is a view showing a fallback technique for moving a terminal from a 5G communication system to an LTE communication system when a request for a voice service occurs according to a second embodiment of the present disclosure;
5 is a diagram illustrating a fallback technique in which a terminal detects a request for a voice service and moves from a 5G communication system to an LTE communication system according to a third embodiment of the present disclosure;
6 is a diagram illustrating a fallback technique for moving a terminal from a 5G communication system to an LTE communication system when a request for a voice service occurs according to a fourth embodiment of the present disclosure;
7 is a flowchart illustrating a method for improving voice service quality of a first terminal connected to a first communication system according to the present disclosure;
8 is a diagram illustrating a configuration diagram of a terminal according to the present disclosure.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. It should be noted that in adding reference numerals to the components of each drawing, the same components have the same reference numerals as possible even though they are displayed on different drawings. In addition, in describing the present invention, when it is determined that detailed descriptions of related well-known configurations or functions may obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

In addition, in describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are only for distinguishing the component from other components, and the nature, order, or order of the component is not limited by the term. Throughout the specification, when a part is 'included' or 'equipped' a component, this means that other components may be further included rather than excluded, unless specifically stated to the contrary. . In addition, '… Terms such as "unit" and "module" mean a unit that processes at least one function or operation, and may be implemented by hardware or software or a combination of hardware and software.

In addition, in the present disclosure, an originating terminal is described as a first terminal, and a receiving terminal (incoming terminal) is described as a second terminal, but both the first terminal and the second terminal may be capable of sending and receiving.

One communication system can operate while coexisting with another communication system.

1 is a diagram illustrating a communication system that operates while a 5G communication system coexists with an LTE communication system according to an embodiment of the present disclosure.

According to FIG. 1, cell coverage 110 of the LTE communication system is wide, while cell coverage 120, 130, 140, 150 of the 5G communication system is narrow. For this reason, depending on the cell arrangement, some regions 160 may not receive the support of the 5G communication system.

In the 5G communication system, the data transmission speed is faster than the LTE communication system. However, if the terminal is located in an area not supported by the 5G communication system, the service supported by the 5G communication system may be cut off. Therefore, the LTE communication system is more suitable for a service that prioritizes stability than data transmission speed, and the 5G communication system is more suitable for a service that prioritizes fast data transmission speed rather than stability.

In particular, when a voice service is supported using a 5G communication system and then moved to an area that is not supported by the 5G communication system, the quality of the voice service is deteriorated and fallback, which requires reconnection to the LTE system, must be performed. Therefore, even if the 5G communication system supports voice service, the terminal needs to support the voice service using the LTE communication system. This technique is not only applied to voice services, but can be supported for services having the same characteristics as voice services. That is, the terminal needs to select a communication system according to the characteristics of the service.

FIG. 2 is a diagram illustrating a fallback for moving a terminal from a 5G communication system to an LTE communication system (or 4G communication system) when a request for a voice service occurs.

According to FIG. 2, the first terminal 201 requests a voice service (or a call service) from the second terminal 211 (221).

If the second terminal 211 is in a state capable of accepting the request for the voice service, a ringing message is transmitted to the first terminal 201 (223). That is, it is determined whether the power of the second terminal 211 is turned on, whether it is located in an area capable of receiving the voice service, whether the second terminal 211 is receiving another voice service, etc. May be transmitted to the first terminal 201.

The second terminal 211 may accept the voice service and transmit a voice service acceptance message (225). That is, the voice service may be accepted by a user of the second terminal 211, a predetermined setting, or the like.

When the request for the voice service is accepted, the IMS (IP Multimedia Subsystem, hereinafter referred to as 'IMS') 2 (207) connected to the second terminal 211 is connected to the second terminal 211 and the 5G communication system 209 and media flow ( bearer) is generated (227).

Further, IMS2 207 transmits the voice service acceptance message to IMS1 205 connected to the first terminal 201 (229), and IMS1 205 sends the voice service acceptance message to the first terminal 201. It can be transmitted (231).

The first terminal 201 may transmit an Ack message indicating that the acceptance message has been received to the second terminal 211 (233). Accordingly, the first terminal 201 and the second terminal 211 are connected, but the first terminal 201 has not yet generated a media flow (bearer) for the voice service, so the state in which the voice service is still available is no.

The IMS1 205 requests media flow (bearer) generation to the 5G system (5GS) 203 because the first terminal 201 and the second terminal 211 have requested and accepted the voice service (235) ).

The 5G system 203 recognizes that the first terminal 201 needs a voice service based on the media flow (bearer) generation request and transmits an EPS Fallback command for the voice service to the first terminal 201 ( 237).

The first terminal 201 accesses the evolved packet system (EPS) 213 of the LTE communication system and performs a tracking area update (TAU) (239).

The first terminal 201 generates and activates the EPS 213 and the IMS1 205 and the media flow (bearer) of the LTE communication system (241).

Thus, the voice service setup is completed between the first terminal 201 and the second terminal 211, so that the voice service can be used.

According to FIG. 2, since the first terminal 201 and the second terminal 211 request a voice service and fallback is performed after accepting the voice service, the first terminal 201 establishes a media flow (bearer) with the LTE communication system. Voice service is not supported until creation. Therefore, users of the first terminal 201 and the second terminal 211 may feel that the quality of the voice service is not good. Specifically, the user of the first terminal 201 and the user of the second terminal 211 assume that a voice service has been started and a silent phenomenon occurs in which actual voice data cannot be transmitted even when a conversation is started.

Hereinafter, in order to solve the problem that the voice service is not supported until the media flow (bearer) is generated by the fallback, the fallback is performed by detecting in advance that the voice service requested by the first terminal is accepted.

3 is a diagram illustrating a fallback for moving a terminal from a 5G communication system to an LTE communication system when a request for a voice service occurs according to the first embodiment of the present disclosure.

The first terminal 201 may access a 5G communication system and receive a service.

The first terminal 201 requests a voice service (or a call service) from the second terminal 211 (221). That is, the first terminal 201 may transmit a voice service request message to the second terminal 211.

As in FIG. 2, if the second terminal 211 is in a state capable of accepting the request for the voice service, a ringing message is transmitted to the first terminal 201 as a response message (223).

At this time, if the first terminal 201 requests a voice service, the IMS1 205 detects the received ringing message (301).

When the ringing message is detected, the IMS1 205 transmits a fallback request message to the 5G system 203 (303), and the 5G system 203 transmits an EPS fallback request message to the first terminal 201 (305). ). Specifically, the IMS1 205 transmits a message indicating that a request for a voice service has occurred to a User Data Management (UDM) / Home Subscriber Server (HSS) of the 5G system 203, and information indicating that a fallback is required in this message. Can be included. When the UDM / HSS notifies the AMF (Access and Mobility Management Function) that a request for a voice service to the first terminal 201 has occurred, the AMF causes the first terminal 201 to fallback to the LTE communication system through the base station. The message transmitted by the UDM / HSS to the AMF may include information indicating that fallback is required.

The first terminal 201 changes a radio access technology (RAT) to the LTE communication system (307). That is, the first terminal 201 performs fallback.

The first terminal 201 transmits a TAU request message to the EPS 213 of the LTE communication system (309). At this time, the first terminal 201 may immediately set an Active Flag (ex. Active Flag: on) as information for using a voice service. Also, information indicating that an IMS service request has occurred (ex. Cause: IMS call) may be included.

The EPS 213 accepts the requested TAU and transmits a TAU acceptance message to the first terminal 210 (311). The EPS 213 sets the voice service to the first terminal 201 immediately by considering at least one of the Active Flag and the IMS service request.

Meanwhile, the second terminal 211 may accept the voice service and transmit a voice service acceptance message (225).

If the request for the voice service is accepted, the IMS2 207 connected to the second terminal 211 creates a media flow (bearer) with the second terminal 211 (227).

In addition, IMS2 207 transmits an acceptance message for the voice service to IMS1 205 connected to the first terminal 201, and IMS1 205 sends the first terminal 201 the voice service. It may transmit an acceptance message for (231).

The first terminal 201 may transmit an Ack message indicating that the acceptance message has been received to the second terminal 211 (233).

IMS1 205 requests media flow (bearer) generation in EPS 213 because the first terminal 201 and the second terminal 211 have requested and accepted the voice service (235).

The media flow is generated and activated between the first terminal 201, the EPS 213 and the IMS1 205 (241).

Thus, the voice service setup is completed between the first terminal 201 and the second terminal 211, so that the voice service can be used.

Although the first terminal 201 is described as an example in FIG. 3, a similar process may be performed for the second terminal 211. That is, the second terminal 211 connected to the 5G communication system may also be connected to the LTE communication system to use the voice service.

4 is a diagram illustrating a fallback technique for moving a terminal from a 5G communication system to an LTE communication system when a request for a voice service occurs according to a second embodiment of the present disclosure.

The first terminal 201 may access a 5G communication system and receive a service.

The first terminal 201 requests a voice service (or a call service) from the second terminal 211 (221). That is, the first terminal 201 may transmit a voice service request message to the second terminal 211.

2 and 3, the second terminal 211 transmits a ringing message to the first terminal 201 as a response message if it is in a state capable of accepting the request for the voice service (223).

Unlike FIG. 3, the 5G system 203 may detect and analyze the ringing message to recognize that an IMS service has occurred (401). Specifically, the payload of the ringing message (ie, IP packet) in the GW (SMF / UPF) of the 5G system 203 can be analyzed and it is possible to directly check whether the method of the SIP (Session Initiation Protocol) message is in progress. Or, if the method of the SIP message is in progress of a voice service in the Ringing message that IMS1 205 transmits to the GW of the 5G system 203, 5G is inserted by putting a predetermined value in the DiffServ Code Point (DSCP) of the IP packet header. It is transmitted to the GW of the system 203 and the GW of the 5G system 203 can be determined without payload analysis of the ringing message based on this. Alternatively, the GW of the 5G system 203 may be determined as a request for a voice service in the case of a packet belonging to a signaling flow of a specific access point name (APN) (IMS) for the voice service.

If it is recognized that the IMS service has occurred, the 5G system 203 may transmit an EPS Fallback request message to the first terminal 201 after transmitting the Ringing message (403). Alternatively, the 5G system 203 transmits a message indicating that the request for the IMS service has occurred to the first terminal 201 after transmitting the ringing message, and this message may include information indicating that a fallback is required. Alternatively, the 5G system 203 may add and transmit an EPS Fallback request to the ringing message.

The first terminal 201 changes the RAT to the LTE communication system (307). That is, the first terminal 201 performs fallback.

The subsequent process is the same as in FIG. 3 and detailed description is omitted.

5 is a diagram illustrating a fallback technique in which a terminal detects a request for a voice service and moves from a 5G communication system to an LTE communication system according to a third embodiment of the present disclosure.

The first terminal 201 may access a 5G communication system and receive a service.

The first terminal 201 requests a voice service (or a call service) from the second terminal 211 (221). That is, the first terminal 201 may transmit a voice service request message to the second terminal 211.

As in FIGS. 2 to 4, the second terminal 211 transmits a ringing message to the first terminal 201 as a response message when the request for the voice service is acceptable (223).

When the first terminal 201 requests a voice service and receives the ringing message, the RAT is changed to an LTE communication system (501). That is, the first terminal 201 determines that the voice service will be performed when the ringing message is received. In the present embodiment, the first terminal 201 arbitrarily determines whether or not a voice service is to be performed, and performs fallback based on this. For example, if the first terminal 201 requests a voice service with a valid number and receives a ringing message, it is assumed that the RAT change will not occur again because the voice service is not performed.

Subsequent processes are the same as in FIGS. 3 and 4 and description thereof is omitted.

6 is a diagram illustrating a fallback technique for moving a terminal from a 5G communication system to an LTE communication system when a request for a voice service occurs according to a fourth embodiment of the present disclosure.

The first terminal 201 may access a 5G communication system and receive a service.

The first terminal 201 requests a voice service (or a call service) from the second terminal 211 (221). That is, the first terminal 201 may transmit a voice service request message to the second terminal 211.

As in FIGS. 2 to 5, the second terminal 211 transmits a ringing message to the first terminal 201 as a response message when the request for the voice service is acceptable (223).

The first terminal 201 requests the voice service and is confident that the voice service will be performed when the ringing message is received, and transmits a fallback request message to the 5G system 203 (601).

The 5G system 203 determines whether to fallback to the first terminal 201 and transmits a fallback acceptance message (603). At this time, the 5G system 203 may transmit information (eg, target cell information, system information, etc.) for the LTE communication system to be accessed by the first terminal 201. In addition, the 5G system 203 holds the transmission of the message for a while until the fallback is completed for the first terminal 201, thereby preventing loss of a message (for example, a voice service acceptance message, etc.) during the fallback process. Can be prevented.

The first terminal 201 changes a radio access technology (RAT) to the LTE communication system (307).

The subsequent process is the same as in FIG. 3 and detailed description is omitted.

7 is a flowchart illustrating a method for improving voice service quality of a first terminal connected to a first communication system according to the present disclosure.

The first terminal transmits a message requesting a voice service to the second terminal (701).

The first terminal receives a response message to the request (703). A response message as to whether the second terminal is in a state capable of accepting the request for the voice service may be received. When the power of the second terminal is turned on and the second terminal exists in a location where the voice service can be received, the response message may be a ringing message.

The first terminal changes a radio access technology (RAT) to a second communication system (705). At this time, whether to change the RAT may be determined by any one of the IMS, the first communication system or the first terminal connected to the first terminal. In addition, whether to change the RAT may be determined based on a message requesting the voice service and a response message to the request.

The first terminal transmits a tracking area update (TAU) request message to the second communication system (707). The TAU request message may include information for the first terminal to directly use a voice service and information indicating that an IMS service request has occurred.

The first terminal receives a TAU accept message from the second communication system (709).

The first terminal receives an acceptance message for the request for the voice service from the second terminal (711).

The first terminal transmits an ack message for the acceptance message to the second terminal (713).

The first terminal generates a media bearer for the second communication system and the voice service (715).

The first terminal uses the second terminal and the voice service using the media bearer (717).

In FIG. 7, it is described that the processes 701 to 717 are sequentially executed, but this is merely illustrative of the technical idea of an embodiment of the present invention. In other words, a person having ordinary knowledge in the technical field to which one embodiment of the present invention pertains may execute or change the order described in FIG. 6 without departing from the essential characteristics of one embodiment of the present invention, or one of the processes 701 to 717 Since the above process can be applied in various modifications and variations by executing in parallel, FIG. 7 is not limited to the time series order.

Meanwhile, the processes illustrated in FIG. 7 may be implemented as computer readable codes on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data readable by a computer system is stored. That is, the computer readable recording medium includes magnetic storage media (eg, ROM, floppy disk, hard disk, etc.), optical reading media (eg, CD-ROM, DVD, etc.) and carrier waves (eg, the Internet). Storage). The computer-readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

8 is a diagram illustrating a configuration diagram of a first terminal according to the present disclosure.

According to FIG. 8, the first terminal may include a control unit 801 and a transmission / reception unit 803. In FIG. 8, the controller 801 and the transmitter / receiver 803 are described separately, but may be implemented by being integrated into a single configuration, or a single configuration may be divided into multiple configurations.

The transceiver 803 may transmit a message requesting a voice service to the second terminal, and receive a response message to the request. When the power of the second terminal is turned on and the second terminal exists in a location where the voice service can be received, the response message may be a ringing message. The transceiver 803 may transmit a tracking area update (TAU) request message to a second communication system and receive a TAU acceptance message from the second communication system. The TAU request message may include information for the first terminal to directly use a voice service and information indicating that an IMS service request has occurred. In addition, the transceiver 803 may receive an acceptance message for the request of the voice service from the second terminal, and may transmit an ack message for the acceptance message to the second terminal.

The control unit 801 may change Radio Access Technology (RAT) to the second communication system. Whether to change the RAT can be determined by any one of the IMS, the first communication system or the first terminal connected to the first terminal. In addition, whether to change the RAT may be determined based on a message requesting the voice service and a response message to the request. Thereafter, the control unit 801 may generate the second communication system and the media bearer, and use the second terminal and the voice service using the media bearer.

In the above, the 5G, LTE (or 4G) communication system has been described as an example, but the present embodiments will be applicable to different communication systems that can consider the characteristics of the service.

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art to which this embodiment belongs may be capable of various modifications and variations without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical spirit of the present embodiment, but to explain, and the scope of the technical spirit of the present embodiment is not limited by these embodiments. The protection scope of the present embodiment should be interpreted by the claims below, and all technical spirits within the equivalent range should be interpreted as being included in the scope of the present embodiment.

Claims (14)

In a method for improving the quality of the voice service is the first terminal connected to the first communication system,
Transmitting a message requesting the voice service to a second terminal,
The process of receiving a response message to the request,
The process of changing RAT (Radio Access Technology) to the second communication system,
The process of transmitting a TAU (Tracking Area Update) request message to the second communication system,
Receiving a TAU acceptance message from the second communication system,
Receiving an acceptance message for the request of the voice service from the second terminal,
Transmitting an ack message for the acceptance message to the second terminal,
Generating a media bearer with the second communication system, and
Including the process of using the second terminal and the voice service using the media bearer,
The method of changing the RAT to the second communication system is a method for improving the quality of the voice service of the first terminal performed before the process of receiving the acceptance message for the request of the voice service from the second terminal. According to claim 1,
The process of changing the RAT to the second communication system,
A method for increasing the quality of voice service of a first terminal, further comprising receiving a fallback request message from the first communication system and changing the RAT to the second communication system based on the fallback request message. According to claim 2,
The fallback request message is a method for improving the quality of the voice service of the first terminal, characterized in that transmitted by the IMS (IP Multimedia Subsystem) connected to the first terminal. According to claim 2,
The received fallback request message is a method for improving the quality of a voice service of a first terminal, characterized in that it is determined based on a message requesting the voice service and a response message to the request. According to claim 1,
Further comprising the process of determining a fallback based on the message requesting the voice service and a response message to the request,
The process of changing the RAT to the second communication system,
Method for increasing the quality of voice service of the first terminal, characterized in that the process of changing the RAT to the second communication system based on the determined fallback. According to claim 1,
A process of determining a fallback based on a message requesting the voice service and a response message for the request,
Transmitting a fallback request message to the first communication system, and
Further comprising the step of receiving a fallback acceptance message from the first communication system,
The process of changing the RAT to the second communication system,
Method for improving the quality of voice service of a first terminal, characterized in that the process of changing the RAT to the second communication system based on the fallback acceptance message. According to claim 1,
The TAU request message is a method for improving the quality of a voice service of a first terminal, characterized in that it includes information for immediately using the voice service and information indicating that an IMS service request has occurred. In the first terminal to increase the quality of the voice service is connected to the first communication system,
Send a message requesting the voice service to a second terminal, receive a response message to the request, transmit a TAU (Tracking Area Update) request message to the second communication system, and accept the TAU from the second communication system A transmitting and receiving unit for receiving a message, receiving an acceptance message for the request of the voice service from the second terminal, and transmitting an ack message for the acceptance message to the second terminal;
It includes a control unit for changing the radio access technology (RAT) to the second communication system, generating a media bearer with the second communication system, and using the second terminal and the voice service using the media bearer,
Changing the RAT from the control unit to the second communication system is performed before the receiving / receiving unit receives an acceptance message for the request for the voice service from the second terminal. The method of claim 8,
The transmitting and receiving unit,
Further receives a Fallback request message from the first communication system,
The control unit,
The first terminal, characterized in that for changing the RAT to the second communication system based on the Fallback request message. The method of claim 9,
The fallback request message is transmitted by the IMS (IP Multimedia Subsystem) connected to the first terminal, the first terminal. The method of claim 9,
The received fallback request message is a first terminal characterized in that it is determined based on the message requesting the voice service and a response message to the request. The method of claim 8,
The control unit,
The first terminal, characterized in that the fallback is determined based on the message requesting the voice service and the response message to the request, and the RAT is changed to the second communication system based on the determined fallback. The method of claim 8,
The transmitting and receiving unit,
A fallback request message is transmitted to the first communication system, and a fallback acceptance message is received from the first communication system,
The control unit,
A first terminal characterized in that a fallback is determined based on a message requesting the voice service and a response message to the request, and the RAT is changed to the second communication system based on the fallback acceptance message. The method of claim 8,
The TAU request message is a first terminal characterized in that it includes information for immediately using the voice service and information indicating that an IMS service request has occurred.

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