KR101070941B1 - Handover Processing Method for Telephone Terminal Supporting Both Wireless Mode and Mobile Mode - Google Patents

Abstract

The present invention supports both a wireless telephone function for making a VoIP call wirelessly through a Wi-Fi interface and a mobile telephone function for making a call through a mobile communication network using a CDMA or WCDMA method. The phone terminal (dual mode phone) allows a handover to a call state by another method during a call by one method. To this end, the dual mode phone determines the handover according to the strength of the radio signal, and requests the handover using a SIP message such as REFER. According to the present invention, heterogeneous manganese handover of dual-mode phones can be easily performed in various call processing systems using a SIP method such as soft switch (SSW), IP-PBX, SIP proxy as well as IMS providing a call transfer function. It can be processed.

Cordless Phone, Mobile Phone, Dual Mode, Handover, FMC, VoIP, SIP, REFER

Description

Handover Processing Method for Telephone Terminal Supporting Both Wireless Mode and Mobile Mode}

The present invention relates to a handover processing method of a telephone terminal supporting both a wireless telephone and a mobile telephone function, and in particular, a wireless telephone function for making a VoIP call through a wireless method such as Wi-Fi (WiFi), and CDMA or WCDMA. Phone handset that supports all of the mobile phone functions that allow the user to make a phone call through the mobile communication network. It is about.

Currently, a wide variety of communication technologies such as Wireless Fidelity (WiFi), Voice over Internet Protocol (VoIP), Code Division Multiple Access (CDMA), and Wideband CDMA (WCDMA) are used for telephony services.

In addition, a number of functions are being integrated into one phone terminal to allow a user to make a phone call through a different phone network.

For example, fixed mobile convergence (FMC), a wired / wireless integrated service, allows a user to make a phone call through a mobile communication network outdoors using a single phone terminal, and a public switched telephone network (PSTN) or IP (IP) indoors. Make a telephone call using the network.

Hereinafter, for convenience of description, a phone terminal including a function for making a call through two or more heterogeneous telephone networks will be referred to as a 'dual mode phone'.

On the other hand, in the case of a dual-mode phone, more than one heterogeneous telephone network can be used, so when it is better to talk using another telephone network while using one telephone network, the telephone network can be disconnected and disconnected. It is necessary to be able to transition to a call state using.

Conventionally, for this need, 3GPP (The Third Generation Partnership Project) or 3GPP2 proposes a technology for Voice Call Continuity (VCC) to perform heterogeneous manganese handover.

However, since the call processing server is limited to the IMS (IP Multimedia Subsystem), a handover between heterogeneous networks is performed by using a server such as a soft switch (SSW), an IP-PBX (Intenet Protocol Private Branch eXchange), or a SIP proxy. It was not easy to provide, and in order to provide heterogeneous network handover, there was a problem that a separate application server had to be established.

Accordingly, the present invention has been made to solve the above problems, SSW, IP-PBX as well as IMS that provides a call transfer (Call Transfer) function to handle heterogeneous network handover using a SIP message such as REFER It is an object of the present invention to provide a method for easily handling heterogeneous network handover of a dual mode phone even in various call processing systems using a SIP method such as a SIP proxy.

In order to achieve the above object, a first embodiment of a handover processing method of a telephone terminal supporting both a wireless telephone and a mobile telephone function according to the present invention is wireless to enable a VoIP telephone call wirelessly The dual-mode phone having both a telephone function unit and a mobile telephone function unit for making a call through the mobile communication network allows the user to transition to a call state through the mobile communication network during a VoIP call.

To this end, according to the first embodiment of the present invention, when a situation in which the wireless telephone function unit decreases the strength of a wireless signal below a threshold value during a VoIP call, the SIP server requests a handover to the mobile telephone function unit. Making; In response to a handover request of the wireless telephone function unit, attempting to connect a call to the mobile telephone function unit to the mobile telephone function unit as a call destination through a gateway; When the mobile telephone function unit receives the attempted call, the gateway establishing a call path between the mobile telephone function unit and a counterpart phone terminal; And terminating a connection between itself and the counterpart phone terminal between the SIP server and the SIP server.

In the first embodiment, the wireless telephone function unit is configured to request a handover by sending a REFER message that sets the SIP URI of the mobile telephone function unit in the Refer-To header and sets INVITE to the method to the SIP server. Can be.

In the first embodiment, the mobile telephone function unit may be configured to receive a call for the handover by default.

In the first embodiment, the mobile telephone function unit may be configured to receive a call for the handover according to a user's approval.

On the other hand, the second embodiment of the handover processing method of the telephone terminal supporting both the wireless telephone and the mobile telephone function according to the present invention, a wireless telephone function unit and a mobile communication network to make a VoIP call wirelessly Dual-mode phones that have all the mobile phone functions to make calls can be transferred to a VoIP call during a call through the mobile communication network.

According to a second embodiment of the present invention, when the intensity of a radio signal exceeds a threshold value while a call is made through the mobile telephone function unit, the wireless telephone function unit is connected to the wireless telephone function unit through a SIP server to a gateway. Requesting a handover; In response to a handover request of the radiotelephone function unit, attempting a call connection through the SIP server to the radiotelephone function unit as the originator of the mobile telephone function unit; When the wireless telephone function unit receives the attempted call, the gateway establishing a call path between the wireless telephone function unit and a counterpart telephone terminal; And terminating the connection with the counterpart telephone terminal by the gateway with the mobile telephone function unit.

In the second embodiment, the wireless telephone function unit sets a SIP URI and a REFER method of the mobile telephone function unit in a Refer-To header, and sets REFER-To: SIP URI of a wireless telephone function unit as a parameter. And request a handover by sending a message to the gateway through the SIP server.

In the second embodiment, the wireless telephone function unit may be configured to receive a call for the handover by default.

In the second embodiment, the wireless telephone function unit may be configured to receive a call for the handover according to a user's approval.

In the second embodiment, the gateway may be configured to transmit a REFER message in which a SIP URI and an INVITE method of the wireless telephone function unit are set in a Refer-To header to attempt a call connection to the wireless telephone function unit. Can be.

In each of the above embodiments, the dual mode phone may be a fixed mobile convergence (FMC) terminal, and the wireless telephone function unit may be configured to perform a wireless telephone function according to a wireless fidelity (WiFi) scheme.

In each of the above embodiments, the mobile telephone function unit may be configured to interface with the mobile communication network through a wideband code division multiple access (WCDMA) or code division multiple access (CDMA) scheme.

According to the present invention, a SIP message such as 'REFER' can be utilized to easily handle handover of a dual mode phone having both a wireless telephone and a mobile telephone function. The dual mode phone selects the most suitable telephone interface according to the strength of the radio signal, so that the user can maintain an optimal call state.

Because of the use of SIP messages, it is possible to provide heterogeneous network handovers without building additional application servers in various call processing environments using SIP methods such as SSW, IP-PBX, and SIP proxy as well as IMS.

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

Referring to FIG. 1, the dual-mode phone 11 provides a counterpart phone terminal 12 through various heterogeneous telephone networks such as an IP network 13-1, a mobile communication network 13-2, and a wired telephone network 13-3, PSTN. Let's take a look at a system that allows you to make phone calls with someone.

The dual mode phone 11 refers to a phone terminal including a function for making a call through two or more heterogeneous phone networks in a single phone terminal.

In particular, in connection with the present invention, the dual mode phone 11 includes a wireless telephone function unit 21 for wirelessly connecting to an IP network 13-1 and making a VoIP call as shown in FIG. And a mobile telephone function unit 22 for making a telephone call through the mobile communication network 13-2.

The radiotelephone function unit 21 is wirelessly connected to an access point 14, and is connected to the IP network 13-1 through the access point 14.

The access point 14 is connected to the IP network 13-1. The access point 14 is connected to the radiotelephone function unit 21 through a wireless interface so that the radiotelephone function unit 21 is connected to the IP network 13-1. Allows audio and video to exchange signals.

The wireless interface used by the radiotelephone function unit 21 may be configured in various ways, for example, a Wi-Fi (WiFi) method.

The mobile phone function unit 22 is connected to the mobile communication network 13-2 through the base station 15 so that the user can make a phone call through the mobile communication network 13-2 like the mobile phone.

The mobile phone function unit 22 interfaces with the mobile communication network 13-2 may be configured in various ways. For example, a wideband code division multiple access (WCDMA) or code division multiple access (CDMA) scheme may be used. Can be mentioned.

The base station 15 is connected to the mobile communication network 13-2, and the mobile phone function unit 22 of the dual mode phone 11 can exchange signals and audio or video with the mobile communication network 13-2. To help.

A specific example of the dual mode phone 11 is a FMC (Fixed Mobile Convergence) terminal, and in the above example, accesses to the IP network 13-1 by WiFi method and makes a phone call according to VoIP, or a mobile communication network by WCDMA or CDMA method. You can make a phone call by connecting to (13-2).

The other party's telephone terminal 12 having a telephone call with the dual mode phone 11 is an IP phone 12-1 connected to an IP network 13-1, a mobile phone or a smartphone 12 connected to a mobile communication network 13-2. -3), the PSTN phone 12-2 connected to the wired telephone network 13-3 may be various kinds of terminals.

The SIP server 17 is connected to the IP network 13-1 as a SIP proxy, IMS, soft switch (SSW), IP-PBX, etc., which performs call processing using SIP.

The SIP server 17 performs call processing such as outgoing, incoming, and handover using VoIP between the wireless telephone function unit 21 of the dual mode phone 11 and the dual connected to the IP network 13-1. The mode phone 11 interworks with the gateway 18 in order to make a phone call with a counterpart phone terminal connected to another heterogeneous telephone network such as a mobile communication network 13-2 or a wired telephone network 13-3.

Here, the SIP (Session Initiation Protocol) refers to a connection establishment protocol, and terminals (telephones, Internet conferences, instant messengers, etc.) that want to communicate on the Internet identify each other, find their location, and create a multimedia communication session between them. Signaling protocol of the application layer that specifies a procedure for deleting or changing.

The gateway 18 is connected to the mobile communication network 13-2 and the wired telephone network 13-3, and exchanges signals between the SIP server 17 and the other party's telephone terminal 12, a real-time transport protocol (RTP). Performs voice or video exchange between packets and time-division multiplexing (TDM) circuits.

Referring to FIG. 3, a first embodiment in which a dual mode phone 11 processes a handover so that a call can be made through a mobile communication network 13-2 during a VoIP call with a counterpart phone terminal 12 is performed. Will be described.

First, the wireless telephone function unit 21 of the dual mode phone 11 is making a telephone call with the other party's telephone terminal 12 by the VoIP method through the IP network 13-1 (S31).

The radiotelephone function unit 21 monitors the strength of the radio signal during the call (S32), and when the situation in which the strength of the radio signal decreases below the threshold during the call by the VoIP method occurs, the mobile phone is connected to the SIP server 17. A handover to the functional unit 22 is requested (S33).

In step S33, the wireless telephone function unit 21 requests the handover to the SIP server 17 through a SIP message.

As a specific example, it may be configured to transmit a REFER message to the SIP server 17 which sets the SIP URI of the mobile telephone function unit 22 in the Refer-To header and sets INVITE as the method.

In this case, a syntax such as 'wcdmaURI; method = INVITE' may be used in the Refer-To header. Here, 'wcdmaURI' refers to the SIP URI of the mobile telephone function unit 22.

The SIP server 17, which has received the handover request in step S33, attempts to connect the call to the mobile telephone function unit 22 through the gateway 18, and this call uses the radio telephone function unit 21 as the originator (S34). ).

When the mobile telephone function unit 22 receives the call attempted in step S34, the gateway 18 forms a call path between the mobile telephone function unit 22 and the counterpart phone terminal 12 (S35).

In step S35, the mobile phone function unit 22 may detect that the call is a call for handover using the call destination information of the call attempted in step S34.

In addition, the mobile telephone function unit 22 may be configured to always receive the call as a default when it is determined that the call is for handover, but if necessary, inquires whether to receive the call. And receive the call when the user approves.

If a call path is formed between the mobile phone function unit 22 and the counterpart phone terminal 12 in step S35, the call path formed between the radiotelephone function unit 21 and the counterpart phone terminal 12 is no longer present. Since it does not need to be maintained, the radiotelephone function unit 21 terminates the connection between itself and the other party's telephone terminal with the SIP server 17 (S36).

Referring to FIG. 4, an example of a specific process of handover of the dual mode phone 11 according to the first embodiment will be described.

In this case, the wireless telephone function unit 21 communicates using a Wi-Fi method, and the mobile telephone function unit 22 is configured to interface with the mobile communication network 13-2 through a WCDMA method. Assume that PSTN phone 12-2 is connected to wired telephone network 13-3.

Hereinafter, 'wifiURI' is a SIP URI of the wireless telephone function unit 21, and 'wcdmaURI' refers to a SIP URI of the mobile telephone function unit 22.

First, the wireless telephone function unit 21 transmits INVITE to the gateway 18 through the SIP server 17 in order to make a call to the other party's telephone terminal 12-2 (S41-1, S41-2), and the gateway ( 18) it converts to IAM (Initial Address Messege) and transmits it to the other party's telephone terminal 12-2 (S41-3).

The other party's telephone terminal 12-2 transmits an address complete message (ACM) indicating 'ringing' to the gateway 18 (S41-4), and the gateway 18 converts it to 183 for the SIP server 17. The transmission is sent to the radiotelephone function unit 21 via the receiver (S41-5, S41-6).

When the other party's telephone terminal 12-2 receives a call, the ANM (Answer Message) is transmitted to the gateway 18 (S41-7), and the gateway 18 converts it to 200 OK to the SIP server 17 Is transmitted to the radiotelephone function unit 21 (S41-8, S41-9).

Then, the radiotelephone function unit 21 transmits the ACK to the gateway 18 via the SIP server 17 (S41-10, S41-11).

Accordingly, a call path for making a voice or video call is formed between the wireless telephone function unit 21 and the counterpart telephone terminal 12-2 of the dual mode phone through the gateway 18, and the wireless telephone function unit 21 is provided. And a call is made between the other party's telephone terminal 12-2 (S41-12).

On the other hand, the radiotelephone function unit 21 determines the handover when the strength of the radio signal decreases below the preset threshold during the call with the other party's telephone terminal 12-2 (S41-13), and the SIP server 17 In step S41-14, a SIP message requesting handover is transmitted.

In step S41-14, the SIP message to be transmitted to the SIP server 17 to request a handover may be variously configured as necessary.

For example, the REFER message in which the SIP URI and the INVITE method of the mobile phone function unit 22 are set to the SIP server 17, such as 'wcdmaURI; method = INVITE' in the Refer-To header, may be transmitted.

The SIP server 17 transmits 202 accepted for the REFER message to the radiotelephone function unit 21 (S41-15), and sends NOTIFY indicating 'trying' (S41-16). On the other hand, the wireless telephone function unit 21 transmits 200 OK to the SIP server 17 (S41-17).

Now, the SIP server 17 transmits an INVITE message in which 'wifiURI' is set to 'from' to the gateway 18 in order to attempt a call connection to the mobile telephone function unit 22 as the originator. (S41-18).

The gateway 18 converts it to IAM and transmits it to the mobile phone function unit 22 (S41-19). The mobile phone function unit 22 transmits the ACM to the gateway 18 (S41-20). 18 converts it to 183 and transmits it to the SIP server 17 (S41-21).

On the other hand, the mobile phone function unit 22 detects that the call for handover is received by using the originator of the call attempted through the step S41-19 as the wireless phone function unit 21 (S41-22), and moves. The telephone function unit 22 transmits the ANM to the gateway 18 (S41-23).

The gateway 18 converts this to 200 OK and transmits it to the SIP server 17 (S41-24), and the SIP server 17 transmits an ACK to the gateway 18 (S41-25).

A call path is now formed between the mobile telephone function unit 22 and the counterpart phone terminal 12-2 via the gateway 18 (S41-26).

Accordingly, the SIP server 17 transmits a NOTIFY to the radiotelephone function unit 21 indicating that 200 OK reception for the INVITE message in step S41-14 is completed (S41-27), and the radiotelephone function unit 21. Transmits 200 OK for this to the SIP server 17 (S41-28).

If a call path is formed between the mobile phone function unit 22 and the counterpart phone terminal 12-2, the call path through the radiotelephone function unit 21 need not be maintained.

That is, the radiotelephone function unit 21 transmits a BYE message to the SIP server 17 (S41-29), and the SIP server 17 transmits 200 OK for this (S41-30).

In step S41-12, the call path formed between the radiotelephone function unit 21 and the gateway 18 is closed (S41-31).

On the other hand, the handover procedure from the wireless telephone function unit 21 to the mobile telephone function unit 22 is completed through a series of processes.

Referring to FIG. 5, a second embodiment of a handover processing method for allowing a dual mode phone 11 to transition to a call state by a VoIP method during a call through the mobile communication network 13-2 will be described. .

First, the mobile phone function unit 22 of the dual mode phone 11 is connected to the counterpart phone terminal 12 through the mobile communication network 13-2 to make a phone call (S51).

The radiotelephone function unit 21 monitors the strength of the radio signal during the call (S52). When a situation in which the intensity of the radio signal exceeds the threshold occurs, the handset to the radiotelephone function unit 21 is sent to the SIP server 17. Request over (S53).

In step S53, the wireless telephone function unit 21 requests a handover to the SIP server 17 through a SIP message.

For example, using the REFER message, set the 'wcdmaURI' and the REFER method in the Refer-To header, and set the REFER message with 'Refer-To: wifiURI' as a parameter to the gateway 18 through the SIP server 17. I can send it. In this case, a syntax such as 'wcdmaURI; method = REFER? REFER-To: wifiURI' may be used in the Refer-To header.

The gateway 18 receiving the handover request in step S53 attempts to connect a call to the radiotelephone function unit 21 through the SIP server 17 (S54). The originator of this call is the mobile telephone function unit 22.

In operation S54, the gateway 18 may transmit a REFER message in which a 'wifiURI' and an INVITE method are set in the Refer-To header to the SIP server 17 in order to attempt a call connection to the wireless telephone function unit 21. In other words, 'wifiURI; method = INVITE' can be used in the Refer-To header.

When the radiotelephone function unit 21 receives the call attempted in step S54, the gateway 18 forms a call path between the radiotelephone function unit 21 and the counterpart phone terminal 12-2 (S55). .

In step S55, the radiotelephone function unit 21 may detect that the call is a call for handover through the call destination information of the call attempted in step S54.

In addition, in step S55, the wireless telephone function unit 21 may be configured to always receive the call by default when it is determined that the call is for handover, but if necessary, inquires whether the user wants to receive the call. It may also be configured to receive the call when the user approves.

If a call path is formed between the radiotelephone function unit 21 and the counterpart phone terminal 12-2 in step S55, the gateway 18 is not required because the call path through the mobile phone function unit 22 does not need to be maintained. The connection between the mobile telephone function unit 22 and the counterpart phone terminal 12-2 is terminated (S56).

Referring to FIG. 6, a specific example in which a handover of the dual mode phone 11 is performed according to the second embodiment will be described.

First, when the dual mode phone 11 is outside the WiFi zone, it is connected to the other party's telephone terminal 12-2 through the mobile phone function unit 22.

That is, when the mobile telephone function unit 22 transmits the IAM to the counterpart phone terminal 12-2 (S61-1), the counterpart phone terminal 12-2 sends the ACM indicating 'ringing' to the mobile phone function unit ( 22) (S61-2). In addition, the other party's telephone terminal 12-2 transmits the ANM to the mobile telephone function unit 22 when it is in a hook-off state (S61-3).

In this case, a call path for making a voice or video call is formed between the mobile telephone function unit 22 of the dual mode phone 11 and the counterpart phone terminal 12-2 (S61-4).

On the other hand, the radiotelephone function unit 21 monitors the strength of the radio signal, and determines the handover when the intensity of the radio signal exceeds the threshold during the call through the mobile phone function unit 22 ( S61-5), a SIP message for requesting handover is transmitted to the gateway 18 through the SIP server 17 (S61-6, S61-7).

In this case, the SIP message may be configured in various ways as needed.

For example, in the Refer-To header, the SIP URI and REFER method of the mobile phone function are set as 'wcdmaURI; method = REFER? Refer-To: wifiURI' and the REFER message with 'Refer-To: wifiURI' set as a parameter. Can be sent.

The gateway 18 transmits '202 accepted' to the radiotelephone function unit 21 through the SIP server 17 (S61-8, S61-9), and 'trying' for the REFER message of step S61-7. NOTIFY indicating the transmission is transmitted to the radiotelephone function unit 21 via the SIP server 17 (S61-10, S61-11).

Correspondingly, the wireless telephone function unit 21 responds with 200 OK to the gateway 18 (S61-12, S61-13).

Gateway 18 now attempts to connect to the wireless telephone function 21 with the mobile telephone function 22 as the originator, with REFER (Refer-To: wifiURI; method = INVITE Referred-By: wcdmaURI). As described above, the SIP URI and the INVITE method of the wireless telephone function unit 21 transmit the REFER message set to the SIP server 60 (S61-14), and receive '202 accepted' for it from the SIP server 17 (S61). -15).

The gateway 18 sends NOTIFY to the radiotelephone function unit 21 via the SIP server 17 indicating that the reception of the '202 Accepted' for the REFER message in step S61-7 is completed (S61-16, S61-). 17) and 200 OK for it from the radiotelephone function unit 21 (S61-18, S61-19).

The SIP server 17 sends a NOTIFY indicating 'trying' for the REFER message in step S61-14 to the gateway 18 (S61-20), and receives 200 OK for it from the gateway 18 (S61). -21).

The SIP server 17 transmits to the radiotelephone function unit 21 an INVITE message in which 'wcdmaURI' is set to 'from' to indicate the mobile phone function unit 22 as the originator (S61-22). The function unit 21 transmits 180 to the SIP server 17 (S61-23).

The radiotelephone function unit 21 detects that the call is for handover using the source information and receives it (S61-24). Then, the radiotelephone function unit 21 transmits 200 OK to the SIP server 17 (S61-25), and receives an ACK from the SIP server 17 (S61-26).

As a result, a call path is formed between the radiotelephone function unit 21 and the counterpart phone terminal 12-2 (S61-27).

The SIP server 17 sends a NOTIFY to the gateway 18 indicating that the INVITE transmission and the 200 OK reception for the REFER message in step S61-14 have been completed (S61-28), and the 200 OK for this from the gateway 18. (S61-29).

If a call path is formed between the radiotelephone function unit 21 and the counterpart phone terminal 12-2, the gateway 18 does not need to maintain the call path through the mobile phone function unit 22. The REL (Release Message) is transmitted to the unit 22 (S61-30), and the RLC (Release Complete Message) is received from the mobile telephone function unit 22 (S61-31).

Accordingly, the gateway 18 closes the voice or video call path between the mobile telephone function unit 22 and the gateway 18 (S61-32). The gateway 18 transmits the BYE message to the SIP server 17 (S61-33), and receives 200 OK for this from the SIP server 17 (S61-34).

On the other hand, the handover procedure from the mobile phone function unit 22 to the wireless phone function unit 21 is completed through a series of processes.

The above-described embodiments are intended to help the understanding of the present invention, and the present invention is not limited to the above-described embodiments and can be variously modified and implemented by those skilled in the art without departing from the spirit of the present invention. to be.

1 is an example in which a dual mode phone is connected to several heterogeneous telephone networks;

2 is an overview of a dual mode phone,

3 is a first embodiment of processing handover from a wireless telephone to a mobile telephone according to the present invention;

4 is an example of a specific processing procedure according to the first embodiment;

5 is a second embodiment of processing handover from a mobile telephone to a wireless telephone according to the present invention;

6 is an example of a specific processing procedure according to the second embodiment.

DESCRIPTION OF THE REFERENCE NUMERALS

11: dual mode phone 12: other party's phone terminal

13-1: IP Network 13-2: Mobile Communication Network

13-3: Landline Network 14: Access Point

15: base station 17: SIP server

18: gateway 21: wireless telephone function

22: mobile phone function

Claims (8)

A telephone terminal having both a wireless telephone function unit for wirelessly making a VoIP call and a mobile telephone function unit for making a call through a mobile communication network may transition to a call state through a mobile communication network during a VoIP call. A handover processing method of a telephone terminal that supports both a wireless telephone and a mobile telephone function. When the wireless telephone function unit decreases the strength of the radio signal below a threshold value during a VoIP call, a SIP message including the SIP URI of the mobile telephone function unit and the SIP URI of the wireless telephone function unit is transmitted to a SIP server. Requesting handover to the mobile telephone function unit; In response to a handover request of the wireless telephone function unit, when the SIP server attempts to connect the call to the mobile telephone function unit through the gateway to the mobile telephone function unit, the calling party of the attempted call is the wireless telephone function. Detecting a call for handover if it is negative, and receiving a call to form a call path between the mobile telephone function unit and a counterpart phone terminal; And And terminating the connection between the radiotelephone function unit and the counterpart phone terminal. The method of claim 1, The wireless telephone function unit is configured to request a handover by transmitting a REFER message for setting the SIP URI of the mobile telephone function unit in the Refer-To header and setting the INVITE to the SIP server to the SIP server. How to handle handover of a phone terminal that supports all phone functions. The method of claim 1, And the mobile telephone function unit is configured to receive a call for the handover by default or according to a user's approval. A phone terminal having both a wireless telephone function unit for making a VoIP call wirelessly and a mobile telephone function unit for making a call through a mobile communication network may transition to a VoIP call state during a call through the mobile communication network. A handover processing method of a telephone terminal that supports both a wireless telephone and a mobile telephone function. If the strength of the radio signal exceeds a threshold while the call is being made through the mobile telephone function unit, the SIP URI of the mobile telephone function unit and the SIP URI of the wireless telephone function unit are transmitted to the gateway through the SIP server. Requesting a handover to the radiotelephone function by sending an included SIP message; In response to a handover request of the radiotelephone function unit, when the gateway attempts to connect the call to the radiotelephone function unit to the radiotelephone function unit as the originating destination, the radiotelephone function unit moves the originating call of the attempted call. Detecting a call for handover in the case of a telephone function unit and receiving a call to form a call path between the wireless telephone function unit and a counterpart telephone terminal; And And terminating the connection between the mobile telephone function unit and the counterpart telephone terminal. The method of claim 4, wherein The wireless telephone function unit sets a SIP URI and a REFER method of the mobile telephone function unit in a Refer-To header, and sends a REFER message that sets 'Refer-To: SIP URI of the wireless telephone function unit' as a parameter through the SIP server. A handover processing method for a telephone terminal supporting both a wireless telephone and a mobile telephone function, characterized by requesting handover by transmitting to a gateway. The method of claim 4, wherein And the wireless telephone function unit is configured to receive a call for the handover by default or according to a user's approval, wherein the telephone terminal supports both the wireless telephone and the mobile telephone function. The method of claim 4, wherein The gateway is configured to deliver a REFER message in which a SIP URI and an INVITE method of the wireless telephone function unit are set in a Refer-To header to the SIP server in order to attempt a call connection to the wireless telephone function unit. How to handle handover of a phone terminal that supports all phone functions. The method according to any one of claims 1 to 7, The telephone terminal is a Fixed Mobile Convergence (FMC) terminal, the wireless telephone function unit performs a wireless telephone function according to a WiFi (WiFi: Wireless Fidelity) method, and the mobile telephone function unit is WCDMA (Wideband Code Division Multiple Access) or CDMA A handover processing method for a telephone terminal supporting both a wireless telephone and a mobile telephone function, characterized by being configured to interface with the mobile communication network according to a Code Division Multiple Access (Code Division Multiple Access) scheme.

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