KR102341243B1 - Method for providing voice service in transitioning from 5g network into lte network - Google Patents

Abstract

A method for a call session control apparatus to provide a voice service, comprising: receiving a call request message from an originating terminal connected to a first access network; transmitting the call request message to a destination network to which the destination terminal of the call request message is connected; requesting a network transition to a second access network from the calling terminal, receiving a response message to the call request message from the called network, and suspending transmission of the response message until the network transition of the calling terminal is completed; and when the network transition of the calling terminal is completed, transmitting the response message to the calling terminal and connecting a call path between the calling terminal and the called terminal.

Description

How to provide voice service when transitioning from 5G network to LTE network {METHOD FOR PROVIDING VOICE SERVICE IN TRANSITIONING FROM 5G NETWORK INTO LTE NETWORK}

The present invention relates to a technology for providing a voice service when a terminal transitions from a 5G network to an LTE network.

Regarding the method of providing voice services in the 5G network, considering that 5G base stations have not yet been commercialized enough to handle real-time traffic such as voice, the 3GPP international standard defines a separate transitional method. The defined method is a method in which a communication network transitions to an LTE network when a voice call occurs in the 5G network, and refers to Evolved Packet System Fall-Back (hereinafter referred to as 'EPS-FB').

Currently, most of the methods of providing voice calls in LTE networks use Voice over LTE (hereinafter referred to as 'VoLTE') technology. In the initial standard method of VoLTE service, call establishment control and radio resource allocation were adopted at the same time.

Similarly, in the EPS-FB scheme, the time for allocating radio resources has been standardized to include the LTE network transition time. In other words, the 5G network should be disconnected at the time of allocating radio resources and transition to the LTE network.

In this case, after a call is started, a situation in which the connection with the 5G network is cut off occurs, so a silent section in which the voice traffic of the caller or the called party is not transmitted in the network transition section may occur.

Therefore, there is a need to solve a problem in which voice packets or control packets may be lost in a disconnected section due to a network transition that occurs after a call is connected when transitioning from a 5G network to an LTE network.

The task to be solved is to provide a method of transitioning to the LTE network at the time of a call attempt, not at the time of connection to a call, when a voice call occurs in a 5G terminal and transitions from the 5G network to the LTE network.

In addition, an object to be solved is to provide a method of holding packets until the transition to the LTE network is completed at the time of a call attempt, and sending packets after the network transition is completed to perform a call processing procedure.

A method for a call session control apparatus to provide a voice service according to an embodiment, the method comprising the steps of: receiving a call request message from an originating terminal connected to a first access network; transmitting a message, requesting a network transition to a second access network from the calling terminal, receiving a response message to the call request message from the destination network, and transmitting the response message until the network transition of the calling terminal is completed and when the network transition of the calling terminal is completed, transmitting the response message to the calling terminal, and connecting a call path between the calling terminal and the called terminal.

The first access network is a 5G network, the second access network is an LTE network, and the requesting may include transmitting a network transition request message to a Policy Control Function (PCF) of an originating network.

The connecting may include receiving a response message generated by a call processing server of the calling network when the response message is lost, and transmitting the generated response message to the calling terminal.

The response message may be lost after the transmission reservation of the call session control device is completed or the transmission reservation is released.

The call request message may be an INVITE message of a Session Initiation Protocol (SIP), and the response message may be a 180 Ringing message or a 200 OK message.

The call request message is an invite message of SIP, and when the calling terminal requests a call from a network-based RBT service subscriber, the response message may be a 183 Session Progress message.

A method for a call session control apparatus to provide a voice service according to another embodiment, comprising the steps of: receiving a call request message from an originating terminal connected to a first access network; requesting a network transition to a second access network by the calling terminal; suspending transmission of the call request message until the network transition of the calling terminal is completed; when the network transition of the calling terminal is completed, transmitting the call request message to a destination network to which the called terminal of the call request message is connected; and connecting a call path between the calling terminal and the called terminal when a response message to the call request message is received from the called network.

The call request message may be an INVITE message of a Session Initiation Protocol (SIP), and the response message may be any one of a 200 OK message, a 180 Ringing message, or a 183 Session Progress message.

In the transmitting, when the call request message is lost, the call request message generated by the call processing server of the originating network may be received, and the generated call request message may be transmitted to the destination network.

The call request message may be lost after the transmission reservation of the call session control device is completed or the transmission reservation is released.

A method for a call session control apparatus to provide a voice service according to another embodiment, comprising: receiving a call request message from an originating network to a destination terminal connected to a first access network; requesting transition and delaying transmission of the call request message until the network transition of the called terminal is completed; when the network transition of the called terminal is completed, transmitting the call request message to the called terminal; and the called terminal and receiving a response message to the call request message from the terminal, and connecting a call path between the called terminal and the calling terminal of the call request message.

In the transmitting, when the call request message is lost, the call request message generated by the call processing server of the called network may be received, and the generated call request message may be transmitted to the called terminal.

The call request message may be lost after the transmission reservation of the call session control device is completed or the transmission reservation is released.

According to the present invention, unlike the existing method of performing a network transition of the terminal after the start of a call, since the network transition occurs at the time of a call attempt before the call starts, it is possible to improve the call quality by preventing a silent section from occurring at the initial time of the call. .

In addition, according to the present invention, the possibility that voice packets or control packets transmitted from the terminal are lost due to network transition can be reduced by separating the network transition step and the call connection step of the terminal.

1 is a block diagram of an originating network and a destination network according to an embodiment.
2 is a flowchart of a method for an originating terminal to transition from a 5G network to an LTE network according to an embodiment.
3 is a flowchart of a method for an originating terminal to transition from a 5G network to an LTE network according to another embodiment.
4 is a flowchart of a method for a calling terminal to transition from a 5G network to an LTE network according to another embodiment.
5 is a flowchart of a method for a called terminal to transition from a 5G network to an LTE network according to an embodiment.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part "includes" a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated.

In the present specification, a terminal is a generic concept meaning a user terminal in communication, and is a user equipment (UE), a mobile station (MS), a mobile terminal (MT), a subscriber station (SS), a portable subscriber station (PSS), and an AT ( Access Terminal), mobile station, mobile terminal, subscriber station, portable subscriber station, user equipment, access terminal, wireless device, etc. It may include all or part of the functions of a home country, a portable subscriber station, a user equipment, an access terminal, a wireless device, and the like.

The terminal is a base station (BS), an access point (Access Point, AP), a radio access station (RAS), a Node B (Node B), an advanced Node B (evolved NodeB, eNodeB), a transmission and reception base station ( It can be connected to a remote server by accessing a network device such as a Base Transceiver Station (BTS) or Mobile Multihop Relay (MMR)-BS.

Embodiments of the present invention may be supported by standard documents related to a 3rd Generation Partnership Project (3GPP) 5th generation (5G) system, such as Study on Architecture for Next Generation System (FS_NextGen). That is, steps or parts not described in order to clearly reveal the technical spirit of the present invention among the embodiments of the present invention may be supported by the document. In addition, all terms disclosed in this document may be described by the standard document.

1 is a block diagram of an originating network and a destination network according to an embodiment.

Referring to FIG. 1 , an originating network 100 and a destination network 200 include terminals 110 and 210, policy control functions (hereinafter referred to as 'PCF') 120 and 220, respectively, and session control. and a device (Call Session Control Function, hereinafter referred to as 'CSCF') 130 and 230 . When a voice call occurs in the calling terminal 110, the calling CSCF 130 transitions the calling terminal 110 to the LTE network through the calling PCF 120, and the called CSCF 230 is also the called PCF 220. Transitions the called terminal 210 to the LTE network through Until the network transition is completed, the calling party CSCF 130 and the called CSCF 230 control the INVITE message, the 180 Ringing message, the 183 Session Progress message, or the 200 OK message, and after the network transition is completed, the traffic for the call Proceed with the bearer setup procedure so that control messages are not lost during network transition.

The terminals 110 and 210 are 5G type terminals, and include both a device capable of communicating with a 5G NR base station and an LTE base station and a radio protocol.

The PCFs 120 and 220 refer to authentication processing equipment for establishing a traffic path of the 5G core network. It also determines policies such as mobility management, session management, and QoS management.

When a voice call occurs in the calling terminal 110, the calling party PCF 120 requests to perform a network transition procedure of changing the communication network of the calling terminal 110 connected to the 5G network to the LTE network. In addition, it serves to establish a communication path between the calling terminal 110 and the called terminal 210 after the change to the LTE network.

When the called party PCF 220 also receives a call request from the calling network 100, it requests to change the communication network of the called terminal 210 connected to the 5G network to the LTE network, and after the network transition is completed, a call connection procedure carry out

The CSCFs 130 and 230 perform session control functions such as connection of a call session between the calling terminal 110 and the called terminal 210 and disconnection of the call session. The CSCFs 130 and 230 are functions in charge of call processing and session processing within the IMS network, and are composed of an Incoming Call Gateway and a Call Control Function for incoming calls. do.

When a voice call is received from the calling terminal 110, the CSCFs 130 and 230 request a network transition from the PCFs 120 and 220, and when the network transition is completed, the calling terminal 110 and the incoming call are made to the PCFs 120 and 220 again. A connection is requested through a call between the terminals 210 .

On the other hand, when both the calling terminal 110 and the called terminal 210 are terminals connected to the 5G network, in order to make a call in the LTE network, the transition of the calling network 100 and the transition of the called network 200 must be made, respectively. For convenience of explanation, in this specification, the process of performing network transition in the originating network 100 and the process of performing network transition in the destination network 200 are separately described, but may be performed in parallel according to a call processing procedure.

Hereinafter, FIGS. 2 to 4 are diagrams for a case where network transition occurs in the calling terminal 110 , and FIG. 5 is a diagram for a case where network transition occurs in the called terminal 210 .

2 is a flowchart of a method for an originating terminal to transition from a 5G network to an LTE network according to an embodiment.

Referring to FIG. 2 , the calling party CSCF 130 completes the network transition when the calling terminal 110 tries to make a call, and after the network transition is completed, 180 received from the called network 200 to connect the call path. Ringing messages can be controlled.

First, the calling terminal 110 initiates a call by transmitting an INVITE message to the calling party CSCF 130 (S101).

The calling-side CSCF 130 transmits a 100 Trying message, which is a response message indicating that it has been received, to the calling terminal 110 (S102). Thereafter, a control for transitioning the communication network of the calling terminal 110 to the LTE network is performed.

The calling party CSCF 130 transmits a preliminary authentication request message (Preliminary Authentication Authorization Request, Preliminary AAR) for requesting authentication of the calling terminal 110 to the calling party PCF 120 (S103).

The Preliminary AAR message serves to request authentication of the traffic path. On the other hand, the present invention includes the step of setting only a part of the call route only with the information of the calling party before the call between the calling terminal 110 and the called terminal 210 is established. ) serves as a trigger to request a network transition.

Thereafter, the calling party PCF 120 transmits an Authentication Authorization Answer (AAA) including the authentication result for the requested service as a response to the Preliminary AAR message to the calling party CSCF 130 (S104).

The calling party PCF 120 disconnects the 5G network connected to the calling terminal 110 and requests a new connection to the LTE network (S105).

The calling party CSCF 130 transmits the INVITE message to the destination network 200 (S106), and receives the 180 Ringing message as a response thereto (S107).

At this time, the originating CSCF 130 does not directly send the received 180 Ringing message to the originating terminal 110 , but receives a Re-Auth-Request (RAR) message for the AAA message from the originating PCF 120 . Hold until done. Meanwhile, in this specification, holding may mean message transmission reservation.

The RAR message transmitted by the calling party's PCF 120 includes the content that some call setup has been completed, which means that the network transition is complete.

When the calling party CSCF 130 receives the RAR message from the calling party PCF 120 (S108), it checks the contents and confirms whether the network transition of the calling terminal 110 is completed (S109). When the network transition of the calling terminal 110 is completed, the held 180 Ringing message is transmitted to the calling terminal 110 (S110).

On the other hand, if the fact that the transition to the LTE network is completed within a certain time due to circumstances of the originating network 100 is not notified to the originating CSCF 130 , the originating CSCF 130 is configured to efficiently manage call resources. Without holding the 180 Ringing message, a new 180 Ringing message can be transmitted again. As another example, after holding the message as the calling party CSCF 130 , the message may be lost after the holding is finished or the holding is released after a predetermined time elapses.

If the 180 Ringing message received from the destination network 200 is lost in step S107, the calling party's call processing server (Telephony Application Server, TAS) (not shown) generates a 180 Ringing message by itself, and it ) can be transmitted. In this way, even when the 180 Ringing message is lost during the network transition process, the calling party CSCF 130 can proceed with the call connection process.

Thereafter, the originating CSCF 130 receives a 200 OK message from the destination network 200 as a response to the INVITE message (S111). On the other hand, there may be a case in which the destination network 200 directly receives the 200 OK message without the 180 Ringing message. In this case, the calling party CSCF 130 may hold the received 200 OK message, and transmit the held 200 OK message to the calling terminal 110 when the network transition of the calling terminal is completed.

The calling party CSCF 130 sends an AAR message to the calling party PCF 120 for connection to a call between the calling terminal 110 and the called terminal 210 (S112).

The calling party PCF 120 sends an AAA message to the calling party CSCF 130 as a response to the AAR (S113), and performs a connection procedure through a call between the calling terminal 110 and the called terminal 210 (S114).

The calling-side CSCF 130 transmits a 200 OK message as a final response to the INVITE message to the calling terminal 110 (S115).

The calling terminal 110 transmits an acknowledgment (ACK) message notifying that the 200 OK message has been received to the destination network 200 via the calling party CSCF 130 (S116 and S117). As a result, the calling terminal 110 is ready to conduct a call in the LTE network.

Meanwhile, a subscriber of the called terminal 210 may be a network-based RBT service subscriber. The network-based RBT service refers to a communication supplementary service that converts the monotonous ring back tone into music or various sounds desired by the subscriber.

Hereinafter, a case in which the calling party CSCF 130 holds the 183 Session Progress message instead of the 180 Ringing message when the called party is a network-based RBT service subscriber will be described.

3 is a flowchart of a method for an originating terminal to transition from a 5G network to an LTE network according to another embodiment.

Referring to FIG. 3 , the calling terminal 110 transmits an INVITE message to the calling party CSCF 130 to request a call ( S201 ).

The originating CSCF 130 transmits a 100 Trying message indicating that it has been received to the originating terminal 110 (S202), and transmits a Preliminary AAR message to the originating PCF 120 to start control for network transition. (S203).

The calling party PCF 120 transmits an AAA message, which is a response message to the Preliminary AAR message, to the calling party CSCF 130 (S204), and requests the transition of the communication network of the calling terminal 110 to the LTE network (S205).

On the other hand, the calling party CSCF 130 transmits the INVITE message received in step S201 to the destination network 200 (S206).

The sending CSCF 130 receives the 183 Session Progress message as a response to the INVITE message (S207). In this case, the calling-side CSCF 130 does not directly transmit the received 183 Session Progress message to the calling terminal 110, but holds it until the network transition of the calling terminal 110 is completed. Accordingly, it is possible to reduce the possibility of loss of control packets related to the network-based RBT service.

The calling-side CSCF 130 receives the RAR message from the calling-side PCF 120 (S208), and checks whether the network transition of the calling terminal 110 is completed through the RAR message (S209).

When the network transition is completed, the calling party CSCF 130 transmits an AAR message to the calling party PCF 120 to provide the network-based RBT service set by the called terminal 210 (S210).

The calling party PCF 120 transmits an AAA message to the calling party CSCF 130 as a response that the AAR message has been received (S211), and proceeds with a procedure of connecting a call path for the network-based RBT service (S212).

Thereafter, when an inter-terminal call path is connected, the calling party CSCF 130 transmits the held 183 Session Progress message to the calling terminal 110 (S213).

The calling terminal 110 transmits a PRACK message to the network-based RBT providing server (not shown) of the called network 200 via the calling party CSCF 130 to inform that it has received the 183 Session Progress message (S214, S215) .

The originating CSCF 130 receives the 200 OK message that is the final response to the INVITE message from the destination network 200 and transmits it to the originating terminal 110 (S216 and S217).

Thereafter, steps S218 to S223, which is a process of connecting the calling terminal 110 and a call path for a call in the LTE network, are the same as steps S112 to S117 of FIG. 2, and thus a detailed description thereof will be omitted.

On the other hand, the calling party CSCF 130 may hold the INVITE message rather than the 180 Ringing message or the 183 Session Progress message. Hereinafter, a method of holding the INVITE message received from the calling terminal 110, completing the network transition when the calling terminal 110 attempts a call, and transmitting the INVITE message thereafter will be described.

4 is a flowchart of a method for a calling terminal to transition from a 5G network to an LTE network according to another embodiment.

Referring to FIG. 4 , the calling terminal 110 initiates a call by transmitting an INVITE message to the calling party CSCF 130 ( S301 ). In this case, the calling party CSCF 130 holds the received INVITE message without directly transmitting it to the destination network 200 .

The calling party CSCF 130 transmits a response message 100 Trying notifying that it has received the INVITE message to the calling terminal 110 (S302), and to the calling party PCF 120 to first perform the procedure for network transition. A Preliminary AAR message triggering a network transition request is transmitted (S303).

The calling party PCF 120 transmits an AAA message as a response to the Preliminary AAR message to the calling party CSCF 130 (S304), disconnects the calling terminal 110 from the 5G network, and requests a new connection to the LTE network. (S305).

The calling party PCF 120 transmits the RAR message including the network transition result to the calling party CSCF 130 (S306).

The source CSCF 130 checks whether the network transition is complete (S307), and transmits the INVITE message held after the transition is completed to the destination network 200 (S308).

The calling party CSCF 130 receives the 180 Ringing message from the called network 200 or when the subscriber of the called terminal 210 subscribes to the network-based RBT service, the network-based RBT providing server of the called network 200 Receives a 183 Session Progress message from (not shown) (S309).

The calling-side CSCF 130 transmits the received 180 Ringing message or 183 Session Progress message to the calling terminal 110 (S310).

In subsequent steps S311 to S317, when the calling party CSCF 130 receives the 200 OK message from the destination network 200, the connection process is carried out through the call of the calling terminal 110, and after step S111 in FIG. Since they are the same, detailed description will be omitted.

5 is a flowchart of a method for a called terminal to transition from a 5G network to an LTE network according to an embodiment.

Referring to FIG. 5 , the called party CSCF 230 receives the INVITE message of the calling terminal 110 from the calling network 100 ( S401 ). At this time, the called party CSCF 230 holds the received INVITE message, and first starts the procedure for network transition of the called terminal 210 .

The called party CSCF 230 transmits the Preliminary AAR message to the called PCF 220 (S402), and receives an AAA message in response thereto from the called PCF 220 (S403).

The called party PCF 220 disconnects the 5G network connected to the called terminal 210 according to the network transition request triggered by the Preliminary AAR message, and connects a new LTE network (S404).

Thereafter, the called party PCF 220 transmits the RAR message to the called party CSCF 230 (S405).

The called CSCF 230 checks whether the transition of the called terminal 210 to the LTE network is completed through the RAR message (S406).

After confirming that the network transition is complete, the called CSCF 230 transmits the INVITE message received and held in step S401 to the called terminal 210 (S407).

The called terminal 210 transmits a 200 OK message as a response to the INVITE message to the called CSCF 230 (S408).

Thereafter, the called party CSCF 230 sends an AAR message to the called party PCF 220 in order to proceed with the connection procedure through the call of the called terminal 210 (S409).

The called party PCF 220 sends an AAA message, which is a response message to the AAR message, to the called party CSCF 230 (S410), and proceeds with the call of the called terminal 210 (S411).

Thereafter, the destination CSCF 230 transmits a 200 OK message to the originating network 100 (S412).

The called terminal 210 receives an ACK message indicating that it has received 200 OK from the calling network 100 via the called CSCF 230 (S413 and S414). This completes the preparation for a call in the LTE network.

According to the present invention, unlike the existing method of performing a network transition of the terminal after the start of a call, since the network transition occurs at the time of a call attempt before the call starts, it is possible to improve the call quality by preventing a silent section from occurring at the initial time of the call. .

In addition, according to the present invention, the possibility that voice packets or control packets transmitted from the terminal are lost due to network transition can be reduced by separating the network transition phase and the call connection phase of the terminal.

The embodiment of the present invention described above is not implemented only through the apparatus and method, and may be implemented through a program for realizing a function corresponding to the configuration of the embodiment of the present invention or a recording medium in which the program is recorded.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto. is within the scope of the right.

Claims (13)

A method for a call session control device to provide a voice service, comprising:
Receiving a call request message from the calling terminal connected to the first access network;
transmitting the call request message to a destination network to which the destination terminal of the call request message is connected, and requesting a network transition to a second access network from the originating terminal;
receiving a response message to the call request message from the destination network, and delaying transmission of the response message until network transition of the calling terminal is completed; and
When the network transition of the calling terminal is completed, transmitting the response message to the calling terminal and connecting a call path between the calling terminal and the called terminal,
When the transmission-reserved response message is lost, a new response message generated by a call processing server of an originating network to which the calling terminal is connected is received, and the new response message is transmitted to the calling terminal, so that the calling terminal and the called terminal The method of providing a voice service, further comprising the step of connecting a call path between the two. In claim 1,
The first access network is a 5G network,
The second access network is an LTE network,
The requesting step is
A method of providing a voice service by transmitting a network transition request message to a Policy Control Function (PCF) of an originating network. delete In claim 1,
The method of claim 1, wherein the response message is lost after the transmission reservation of the call session control device is completed or the transmission reservation is released. In claim 1,
The call request message is an INVITE message of SIP (Session Initiation Protocol),
The response message is a 180 Ringing message or a 200 OK message. In claim 1,
The call request message is an invite message of SIP,
When the calling terminal requests a call from the network-based RBT service subscriber, the response message is a 183 Session Progress message. A method for a call session control device to provide a voice service, comprising:
Receiving a call request message from the calling terminal connected to the first access network;
requesting a network transition to a second access network from the calling terminal, and suspending transmission of the call request message until the network transition of the calling terminal is completed;
When the network transition of the calling terminal is completed, transmitting the call request message to the called network to which the called terminal of the call request message is connected; and
and connecting a call path between the calling terminal and the called terminal when a response message to the call request message is received from the called network,
The transmitting step is
When the transmission-reserved call request message is lost, receiving a new call request message generated by a call processing server of an outgoing network to which the calling terminal is connected, and transmitting the new call request message to the called network, voice service How to provide. In claim 7,
The call request message is an INVITE message of SIP (Session Initiation Protocol),
The response message is any one of a 200 OK message, a 180 Ringing message, or a 183 Session Progress message. delete In claim 7,
The method for providing a voice service, wherein the call request message is lost after the transmission reservation of the call session control device is completed or the transmission reservation is released. A method for a call session control device to provide a voice service, comprising:
Receiving a call request message from the originating network to the called terminal connected to the first access network;
requesting a network transition to a second access network from the called terminal, and delaying transmission of the call request message until the network transition of the called terminal is completed;
When the network transition of the called terminal is completed, transmitting the call request message to the called terminal; and
Receiving a response message to the call request message from the called terminal, and connecting the call path between the called terminal and the calling terminal of the call request message,
The transmitting step is
When the transmission-reserved call request message is lost, receiving a new call request message generated by a call processing server of a destination network to which the called terminal is connected, and transmitting the new call request message to the called terminal How to provide. delete In claim 11,
The method for providing a voice service, wherein the call request message is lost after the transmission reservation of the call session control device is completed or the transmission reservation is released.

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