KR100987555B1 - SIP handover method using bicasting in mobile internet and mobile terminal - Google Patents

Abstract

The present invention relates to a SIP handover method and a mobile terminal using bicasting in a wireless Internet network. When a mobile terminal is located in a handover area, a media channel established through a new IP network together with a media channel of an old IP network is provided. By bicasting the same data using, seamless handover is possible.

Wireless Internet, Bicasting, SIP, Mobile Terminal

Description

SIP handover method using bicasting in mobile internet and mobile terminal

The present invention relates to a handover method in a wireless Internet network. More specifically, when a mobile terminal is located in a handover area, more specifically, by-casting in a wireless Internet network capable of seamless handover based on bicasting and SIP The present invention relates to a SIP handover method and a mobile terminal.

Handover is a very important problem in the wireless Internet, and there are some serious problems such as triangular routing, address registration problem, and tunneling problem. A SIP-based handover method has been proposed as a solution to this problem.

Session Initiation Protocol (SIP) is an extensible and simple request / response protocol for initiating communication sessions between two endpoints. Mobility support in SIP can be divided into Pre-Call and Mid-Call.

Pre-Call requests new address information before the mobile terminal receives or generates a call. When the mobile terminal receives the new address information, the mobile terminal performs address re-registration with its home registry server.

When the mobile terminal moves to another sub network in the domain, the Mid-Call requests a Re-Invite message including the newly allocated address information directly from the other terminal without going through a proxy server, and after the call is generated, Register new address information with the proxy server.

Finally, the mobile terminal registers the new address information with its home server so that the new call can be redirected.

However, when handover is performed through the mid-call, a movement detection time (Movement Detection Time (MD)) for detecting movement, an address allocation time (Address Configuration Time (AC)) required for allocating and configuring a new address, and a counterpart terminal Since it takes a Re-INVITE time (SIP time) to request a new call, a significant handover delay occurs, and data loss may occur during the handover delay time.

There is a method using a hierarchical structure to solve this problem. Here, the mobile terminal uses the URI of the mobile terminal for communication between the counterpart terminal and the proxy server, and the global address, which is the only address of the mobile terminal in the domain, and the sub-network for communication between the proxy server and the mobile terminal. When having a local address which is address information and moving to another sub network within a domain, communication with a counterpart terminal can be enabled only by re-registration of a local address allocated from a new sub network.

The handover method using this hierarchical structure may have better performance than the conventional SIP handover method, but this method also has a delay time of 1 second or more when a local address is allocated in a subnetwork using DHCP. Also, since the existing SIP handover method must be used when moving to another domain, the handover delay problem cannot be completely solved.

The present invention has been proposed to solve the above-described handover delay problem. When the mobile station is located in the handover area, the same data using the media channel opened through the new IP network together with the media channel of the previous IP network can be obtained. The present invention provides a SIP-based handover method and a mobile terminal using bicasting in a wireless Internet network capable of seamless handover by bicasting.

As a means for solving the above problems, according to an embodiment of the present invention, the SIP handover method using bicasting in the wireless Internet network, the first media for the mobile terminal to communicate with the other terminal in the first IP network Establishing a channel; When the mobile terminal detects a link up of the second IP network by moving from the first IP network to the second IP network, a second media channel for establishing communication with the counterpart terminal is additionally established in the second IP network. Performing bicasting with the opposite terminal through the first media channel and the second media channel; And during the bicasting, if the mobile terminal detects a link down of the first IP network, removing the first media channel and performing unicasting with the counterpart terminal using only the second media channel. Include.

In the SIP handover method using bicasting in the wireless Internet network, the step of establishing the first media channel includes: checking whether the mobile terminal is activated by searching for a network interface installed in the terminal, Retrieving network address information and assigning a first IP address; Transmitting, by the mobile terminal, a call request message together with Session Description Protocol (SDP) information of the mobile terminal to the counterpart terminal through a first IP network; Receiving a response message to the call request from the counterpart terminal; Transmitting an acknowledgment message indicating that the mobile terminal has received the received response message to the counterpart terminal; And establishing a first media channel between the mobile terminal and the counterpart terminal through a first IP network.

In addition, in the SIP handover method using bicasting in the wireless Internet network, the performing of the bicasting may include: detecting, by the mobile terminal, a link up signal for a second IP network; Acquiring, by the mobile terminal detecting the link up for the second IP network, a second IP address in the second IP network; Transmitting, by the mobile terminal, a Re-INVITE message including a second IP address and a handover header requesting addition of an IP address to the counterpart terminal; Receiving, by the mobile terminal, a 200 OK message including SDP information of the counterpart terminal from the counterpart terminal; Establishing a second media channel through a second IP network between the mobile terminal and the counterpart terminal; And performing bicasting through the first media channel and the second media channel.

In addition, in the SIP handover method using bicasting in the wireless Internet network, the performing of the unicasting may include: detecting, by the mobile terminal, a link down to a first IP network; Transmitting, by the mobile terminal detecting the link down to the first IP network, a Re-INVITE message including a first IP address and a handover header requesting deletion of the IP address to the counterpart terminal; Receiving, by the mobile terminal, a 200 OK message from a counterpart terminal; And removing a first media channel between the mobile terminal and the counterpart terminal, and performing unicasting through only the second media channel.

In addition, in the SIP-based handover method using bicasting in the wireless Internet network, the handover header may be Handover: add┃del; It is configured in the form ip = abcd (where abcd means the IP address to be added or deleted), and the Re-INVITE message requesting the addition of a second IP address is Re - INVITE ( Via : IP _A, Contact : IP _A, Require: handover, Handover:. add; ip = IP _B) (wherein, IP_A has claim 1 IP address, IP_B the second is the IP address), and claim 1 Re-INVITE message requesting the deletion of the IP address, Is Re-INVITE (Via: IP_B, Contact : IP _B, Require : handover , Handover : del ; ip = IP _A) , where IP_A is the first IP address and IP_B is the second IP address. It is done.

In addition, as another means for solving the above problem, the mobile terminal according to the present invention, when moving from the first IP network to the second IP network, the link-up for the second IP network and the link-down for the first IP network Mobility detection unit for sensing; An address obtaining unit obtaining a second IP address from the second IP network when the mobility detection unit detects a link up to a second IP network; If the mobility detection unit detects a link-up of the second IP network AR_B, a Re-INVITE message requesting the addition of the second IP address obtained by the address obtaining unit is sent to the counterpart terminal, and the first IP is transmitted. A handover management unit for providing a counter terminal with a Re-INVITE message requesting deletion of the first IP address when a link down to the network is detected; And by the handover management unit, performs a bicasting through the two media channels opened to the first IP address and the second IP address if the second IP address is added, and if the request for deleting the first IP address is bicasting. End the process and comprises a data communication unit for unicasting only via the second IP address.

According to the SIP-based handover method of the present invention, when a mobile terminal moves to a handover area where two IP networks overlap, another media channel is opened through a new IP network in a state in which a media channel is established through a previous IP network. By opening and receiving the same data from both directions, even if the mobile terminal leaves the handover area at any time and completely moves to the new IP network, it is possible to expect a performance improvement effect by enabling seamless handover.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing in detail the operating principle of the preferred embodiment of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, the same reference numerals are used for parts having similar functions and functions throughout the drawings.

In addition, throughout the specification, when a part is 'connected' to another part, it is not only 'directly connected' but also 'indirectly connected' with another element in between. Include. In addition, the term 'comprising' a certain component means that the component may be further included, without excluding the other component unless specifically stated otherwise.

1 is a view showing a schematic configuration of a wireless Internet network to which the SIP handover method according to the present invention is applied. Here, the entire network is composed of different heterogeneous networks based on IP, and the mobile terminal 11 and the counterpart terminal 13 are equipped with a SIP module (not shown) that performs SIP protocol processing.

Each of the IP networks AR_A and AR_B includes proxy servers 12a and 12b capable of delivering a message received from the mobile terminal 11 to another network. For convenience of explanation, the IP network where the mobile terminal 11 was previously located is called a first IP network AR_A, and the IP network after the mobile terminal 11 moves is called a second IP network AR_B. A proxy server located in the first IP network AR_A is called a first proxy server 12a, and a proxy server of the second IP network AR_B is called a second proxy server 12b.

The mobile terminal 11 checks whether the network interface is activated by searching for the network interface attached to the terminal device in the link layer before starting communication with the counterpart terminal 13. When the mobile terminal 11 receives a new IP address from the first IP network AR_A currently located, the mobile terminal 11 establishes an initial session with the counterpart terminal 13 and transmits and receives data through the established media channel. The above process is the same as the procedure based on the existing SIP.

In the above state, the mobile terminal 11 moves to the handover area AR_AB where the first IP network AR_A and the second IP network AR_B overlap and link the second IP network AR_B. If a new IP address is allocated from the second IP network AR_B after detecting the link-up, the mobile station 11 receives a Re-INVITE message including information on the new IP address and a handover header. The terminal 13 transmits the data to two media channels at the same time by switching from the unicasting mode to the bicasting mode.

When the mobile terminal 11 completely moves out of the region where the first IP network AR_A and the second IP network AR_B overlap, to the second IP network AR_B, the mobile terminal 11 allocates the first IP network AR_A in the first IP network AR_A. Link-Down for the received address is detected, and a Re-INVITE message including information on the transmitted information is transmitted to the counterpart terminal 13.

Accordingly, the counterpart terminal 14 switches to the unicasting mode from the bicasting mode and performs data transmission and reception using only one media channel established in the second IP network AR_B. For convenience of description, an IP address and a media channel in the first IP network AR_A are referred to as a first IP address and a first media channel, and an IP address and media channel in the second IP network AR_B are referred to. It is referred to as the second IP address and the second media channel.

The handover procedure of the above-described mobile terminal 11 will be more readily understood from the following detailed description.

2 is a detailed call processing flow diagram illustrating a message flow for SIP handover processing according to the present invention in a wireless Internet network.

Referring to FIG. 2, the mobile terminal 11 establishes an initial session with the counterpart terminal 13, that is, a first media channel, in the first IP network AR_A (S21). Communication between the mobile terminal 11 and the counterpart terminal 13 is performed through the opened first media channel. A process of opening the first media channel will be described in detail later with reference to FIG. 3.

Next, after the first media channel is established between the mobile terminal 11 and the counterpart terminal 13, the mobile terminal 11 is located in the handover area AR_AB by moving toward the second IP network AR_B. In operation S22, a search for the second IP address IP_B to be used in the second IP network AR_B and an address setting process for the searched second IP address IP_B are performed (S22).

The mobile terminal 11 performs an operation for performing the bicasting of the existing address and the newly set address by the counterpart terminal 13 (S23). A description of the bicasting will be described in more detail with reference to FIG. 4.

During the bicasting, if the mobile terminal 11 completely moves from the first IP network AR_A to the second IP network AR_B, the mobile terminal 11 transmits from the counterpart terminal 13 to the bicasting. An operation for changing the received media channel to unicasting is performed (S24). A description of the process of changing from the bicasting mode to the unicasting mode will be described in more detail with reference to FIG. 5.

Hereinafter, the above handover process will be described in detail for each step.

3 is a flowchart illustrating a detailed process of establishing a first media channel (S21) in a SIP handover method using bicasting in a wireless Internet network.

Referring to FIG. 3, the mobile terminal 11 searches for a network interface installed in the terminal to check whether it is activated, and retrieves address information of the first IP network AR_A to obtain a first IP address IP_A. It is assigned (S31).

Next, the mobile terminal 11 requests the call with the Session Description Protocol (SDP) information of the mobile terminal to the counterpart terminal 13 through the first proxy server 12a located in the first IP network AR_A. The message is transmitted (S32). The SDP information includes the allocated first IP address IP_A.

In addition, the mobile terminal 11 receives a response message 200 OK for accepting the call request sent after the counterpart terminal 13 receives the INVITE message (S33).

Finally, after receiving the response message 200 OK, the mobile terminal 11 transmits an acknowledgment message (ACK) indicating that the response message has been received to the counterpart terminal 13 (S34). As a result, the session setup is completed, and a media channel is established between the mobile terminal 11 and the counterpart terminal via the first proxy server 12a (S35), and data communication is performed through this.

Subsequently, FIG. 4 illustrates a detailed procedure for performing bicasting when the mobile terminal 11 is located in a handover region where two IP networks overlap in a SIP handover method using bicasting in a wireless Internet network. This is a flow chart shown.

Referring to FIG. 4, after the mobile terminal 11 establishes the initial session, the mobile terminal 11 corresponds to the second IP network AR_B according to the movement from the first IP network AR_A to the second IP network AR_B. A link up signal is detected (S41).

When detecting a link up of the second IP network AR_B, the mobile terminal 11 is assigned a new IP address, that is, the second IP address IP_B in the second IP network AR_B (S42). .

And in order to switch from the unicasting mode to the existing first IP address IP_A to the bicasting mode to the first IP address IP_A and the second IP address IP_B, the mobile terminal 11 adds a second IP address to be added. A Re-INVITE message including information on the IP_B is transmitted to the counterpart terminal 13 through the first proxy server 12a (S43). In this case, the transmitted Re-INVITE message includes new IP address information (ie, second IP address IP_B) to be added and a handover header for notifying the start of the handover. have.

Re -INVITE ( Via : IP _A, Contact : IP _A, Require : handover , Handover : add ; ip = IP _B)

Upon receiving the Re-INVITE message, the counterpart terminal 13 transmits a 200 OK message including the SDP information of the counterpart terminal to the mobile terminal 11 when accepting it. The 200 OK message is transmitted to the mobile terminal 11 via the first proxy server 12b (S44).

In this way, a second media channel via the second proxy server 12b is added. Therefore, the media channel via the first proxy server 12a and the media channel via the second proxy server 12b are between the mobile terminal 11 and the counterpart terminal 13 that have received the 200 OK message. By doing so, bicasting through the two media channels is started (S45).

By-casting started as described above is performed until the handover is completed and switched to the unicasting mode, which will be described with reference to FIG. 5.

FIG. 5 is a flowchart illustrating in detail a process for a mobile terminal to change a bicasting mode to a unicasting mode in a SIP handover method using bicasting in a wireless Internet network.

Referring to FIG. 5, when the mobile terminal 11 operating in the bicasting mode enters the second IP network AR_B deeper and completely leaves the first IP network AR_A, the mobile terminal 11 operates in the bicasting mode. The link down is detected (S51).

Since the mobile terminal 11 detects the link down on the first IP network AR_A, since the handover is completed, the mobile terminal 11 includes the first IP address IP_A and the handover header, which are IP addresses to be deleted to stop the bicasting. The Re-INVITE message is transmitted to the counterpart terminal 13 through the second proxy server 12b (S52). The Re-INVITE message may have the following form.

Re -INVITE ( Via : IP _B, Contact : IP _B, Require : handover , Handover : del ; ip = IP _A)

The counterpart terminal 13 receiving the message processes a request for deletion of the first IP address IP_A and moves a response message 200 OK message to accept the request through the second proxy server 12b. Transmission to the terminal 11 (S53).

When the mobile terminal 11 receives the 200 OK message accepting the deletion request, the media channel by the first IP address IP_A is removed, so that the bicasting mode is stopped, and the second IP address IP_B is The conversion to the unicasting mode in which communication is performed through the media channel is performed (S54).

Referring to the above handover method, the handover header included in the Re-INVITE message may be defined as follows.

Handover: add┃del; ip = a.b.c.d

The content of the above handover header indicates that the counterpart terminal 14 adds or deletes a content for an address consisting of ip = abcd. In particular, the 'Add' indicator indicates a bicasting mode for the IP address assigned to the counterpart terminal. Announce the beginning of When the counterpart terminal 14 receives the handover header in which the 'Add' indicator is set, the counterpart terminal 14 repeatedly transmits the same media data.

On the contrary, when the 'Del' indicator receives the set handover header, the counterpart terminal stops the bicasting mode and stops transmitting the media data for the received IP address together with the 'Del' indicator.

To this end, the other terminal 13 should be able to recognize the header of the 'Require: handover' format,

6 is a block diagram showing the configuration of a mobile terminal performing a SIP handover method using bicasting according to the present invention.

Referring to FIG. 6, the mobile terminal according to the present invention includes a mobility detector 61, an address acquirer 62, a handover manager 63, and a data communicator 64.

The mobility detector 61 may link up to the second IP network AR_B and the first IP network as the mobile terminal 11 moves from the first IP network AR_A to the second IP network AR_B. Detect link down for (AR_A)

When the mobility detector 61 detects a link-up of the second IP network AR_B, the address obtaining unit 62 receives a new IP address of the second IP network AR_A, that is, the second IP. An address IP_B is obtained and provided to the handover management unit 63 and the data communication unit 64.

When the mobility detection unit 61 detects a link up of the second IP network AR_B, the handover manager 63 transmits to the second IP address IP_B obtained from the address obtaining unit 62. Notify the counterpart terminal 13 of the Re-INVITE message requesting the addition of the information, and if the link detection for the first IP network AR_A is detected by the mobility detector 61, the deletion of the first IP address IP_A is cancelled. Notify the counterpart terminal 13 of the requesting Re-INVITE message. Here, the form of the Re-INVITE message is as described above with reference to FIGS. 4 and 5.

The data communication unit 64 is connected via the two media channels established by the handover management unit 63 to the first IP address IP_A and the second IP address IP_B when the second IP address IP_B is added. Casting is performed, and when the first IP address IP_A is deleted by the handover management unit 63, by-casting is terminated and data is transmitted and received in the unicasting mode through the second IP address IP_B.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those skilled in the art.

The present invention is applied to a wireless Internet network, when a mobile terminal moves to a handover area where two IP networks overlap, another media channel is opened through a new IP network while the media channel is opened through the previous IP network. Accordingly, by transmitting and receiving the same data from both directions, even if the mobile terminal leaves the handover area at any time and completely moves to the new IP network, it is possible to expect a performance improvement effect by enabling seamless handover.

1 is a structural diagram of a wireless Internet network in which SIP handover processing using bicasting according to the present invention is performed.

2 is a message flow diagram according to a SIP handover method using bicasting to which the present invention is applied.

3 is a flowchart illustrating an initial session establishment process in detail in the SIP handover method to which the present invention is applied.

4 is a flowchart illustrating a process of performing bicasting in detail in the SIP handover method to which the present invention is applied.

5 is a flowchart illustrating a process of converting a bicasting mode to a unicasting mode in detail in the SIP handover method to which the present invention is applied.

6 is a block diagram showing the configuration of a mobile terminal according to the present invention.

Claims (8)

Establishing, by the mobile terminal, a first media channel for communicating with a counterpart terminal in a first IP network; When the mobile terminal detects a link up of the second IP network by moving from the first IP network to the second IP network, a second media channel for establishing communication with the counterpart terminal is additionally established in the second IP network. Performing bicasting with the counterpart terminal by simultaneously transmitting data through the first media channel and the second media channel; And During the bicasting, if the mobile station detects a link down of the first IP network, removing the first media channel and performing unicasting with the counterpart terminal using only the second media channel. SIP handover method using bicasting in wireless internet network. The method of claim 1, wherein the establishing of the first media channel comprises: Checking, by the mobile terminal, a network interface installed in the terminal to determine whether the mobile terminal is activated, and retrieving address information of the first IP network and receiving a first IP address; Transmitting, by the mobile terminal, a call request message together with SDP information of the mobile terminal to the counterpart terminal through a first IP network; Receiving a response message to the call request from the counterpart terminal; Transmitting an acknowledgment message indicating that the mobile terminal has received the received response message to the counterpart terminal; And And a first media channel is established between the mobile terminal and the counterpart terminal through a first IP network. The method of claim 1, wherein performing the bicasting process, Detecting, by the mobile terminal, a link up signal for a second IP network; Acquiring, by the mobile terminal detecting the link up for the second IP network, a second IP address in the second IP network; Transmitting, by the mobile terminal, a Re-INVITE message including a second IP address and a handover header requesting addition of an IP address to the counterpart terminal; Receiving, by the mobile terminal, a 200 OK message including SDP information of the counterpart terminal from the counterpart terminal; Establishing a second media channel through a second IP network between the mobile terminal and the counterpart terminal; And And performing bicasting on the first media channel and the second media channel. The method of claim 1, wherein performing the unicasting comprises: Detecting, by the mobile terminal, a link down for a first IP network; Transmitting, by the mobile terminal detecting the link down to the first IP network, a Re-INVITE message including a first IP address and a handover header requesting deletion of the IP address to the counterpart terminal; Receiving, by the mobile terminal, a 200 OK message from a counterpart terminal; And And removing the first media channel between the mobile terminal and the counterpart terminal, and performing unicasting through only the second media channel. The method of claim 3 or 4, wherein the handover header is Handover: add┃del; A SIP handover method using bicasting in a wireless Internet network, characterized in that it is configured in the form of ip = a.b.c.d (where a.b.c.d represents an IP address to be added or deleted). The method of claim 3, wherein the Re-INVITE message is Re -INVITE ( Via : IP _A, Contact : IP _A, Require : handover , Handover : add ; ip = IP_B) (Where IP_A is the first IP address and IP_B is the second IP address). SIP handover method using bicasting in a wireless Internet network, characterized in that. The method of claim 4, wherein the Re-INVITE message is Re -INVITE ( Via : IP _B, Contact : IP _B, Require : handover , Handover : del ; ip = IP _A) (Where IP_A is the first IP address and IP_B is the second IP address). SIP handover method using bicasting in a wireless Internet network, characterized in that. A mobility detector for detecting a link up for the second IP network and a link down for the first IP network when moving from the first IP network to the second IP network; An address obtaining unit obtaining a second IP address from the second IP network when the mobility detection unit detects a link up to a second IP network; When the mobility detection unit detects a link up of the second IP network, the mobile station sends a Re-INVITE message requesting the addition of the second IP address acquired by the address obtaining unit to the counterpart terminal, A handover management unit for providing a counter-terminal with a Re-INVITE message requesting deletion of the first IP address when a link down is detected; And When the handover manager requests the addition of the second IP address, the data is simultaneously transmitted through two media channels opened to the first IP address and the second IP address to perform bicasting, and the request to delete the first IP address is performed. If there is a mobile terminal comprising a data communication unit to terminate the by-casting and unicasting only via the second IP address.

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