KR100768821B1 - System and method for providing packet termination service - Google Patents

Abstract

A system and a method for providing an incoming call service are provided to solve a problem of discordance of IP addresses between a mobile WiMAX network and an IMS(IP Multimedia Subsystem) when a mobile terminal transitions from an idle state to a normal operation state by including an MAC address in a CID(Connection ID). When a mobile terminal(800) is in an idle state, a paging controller(300) manages the mobile terminal based on a physical address and paging group information of the mobile terminal(800), and transmits the physical address to a proxy server(500). The proxy server(500) transmits the received physical address of the mobile terminal(800) and its own network address to an IMS(600) so that a call termination service with respect to the mobile terminal(800) can be registered. When a communication setup message with respect to the mobile terminal(800) is received from the IMS(600), the proxy server(500) allows the mobile terminal(800) to be assigned a network address based on the physical address of the mobile terminal(800) and transmits the communication setup message to the network address.

Description

Incoming service provision system and method {SYSTEM AND METHOD FOR PROVIDING PACKET TERMINATION SERVICE}

1 is a structural diagram of a mobile WiMAX network providing an incoming service according to an embodiment of the present invention.

2 is a state transition diagram of a mobile terminal 800 according to an embodiment of the present invention.

3 is a diagram illustrating a VoIP service registration procedure of a mobile terminal 800 according to an embodiment of the present invention.

4 is a flowchart illustrating a transition of the mobile terminal 800 to the idle state C300 according to an exemplary embodiment of the present invention.

5 is a procedure for providing an incoming service to a mobile terminal 800 without an IP address according to an embodiment of the present invention.

The present invention relates to a system and method for providing an incoming service to a mobile terminal. In particular, the present invention relates to a system and method for supporting an incoming service to a mobile terminal that does not have an Internet Protocol (IP) address in a mobile WiMAX or WiBro system based on IEEE 802.16e.

The mobile WiMAX system supports idle mode to save power of the mobile terminal. In addition, when the mobile terminal transitions to the idle mode, it is possible to return the resources associated with the mobile terminal. If one of these resources is a network address and the terminal uses an IP address as a network address, there is a problem in that an incoming service based on Session Initiation Protocol (SIP) is not provided as an insufficient address resource. .

An object of the present invention is to provide a system and method for supporting an initiation service based on Session Initiation Protocol (SIP) to a mobile terminal having no network address.

The method for providing an incoming service according to an embodiment of the present invention is a method in which a proxy server interworks with a paging controller and an application server to provide an incoming service to a mobile terminal having no network address. The proxy server receives a communication configuration message including the physical address of the mobile terminal from the application server, inquires the network address of the mobile terminal corresponding to the communication configuration message, and if there is no network address of the mobile terminal, the network address of the mobile terminal. If not, the paging controller sends a paging request message so that the mobile terminal is assigned a network address. The proxy server receives a paging response message including the network address of the mobile terminal from the paging controller, and transmits a communication setup message to the network address of the mobile terminal.

At this time, the proxy server receives the physical address of the mobile terminal having no network address from the paging controller, and transmits a registration message including the physical address of the mobile terminal and the network address of the proxy server to the application server to respond to the registration message. The mobile terminal can be registered with the incoming service.

In this case, when the proxy server receives the network address, the proxy server inquires the status of the mobile terminal to the paging controller if the mobile terminal does not have a network address, and if the mobile terminal is in the idle state, the paging controller transmits a paging request message. The mobile terminal may be assigned a network address.

In this case, the proxy server may transmit a registration message including the network address of the mobile terminal included in the paging response message to the application server so that the application server registers the network address of the mobile terminal.

In this case, when the proxy server inquires the network address of the mobile terminal, the proxy server may search for the physical address of the mobile terminal including the communication configuration message, and inquire the network address corresponding to the physical address.

In addition, the communication setting message received by the proxy server includes service type information, and the proxy server transmits a paging request message including the service type information to the paging controller when the paging request message is transmitted. It may be possible to establish a connection that supports a corresponding quality of service.

According to another embodiment of the present invention, a system for providing an incoming service to a mobile terminal to an application server includes a paging controller and a proxy server. The paging controller manages the mobile terminal through the physical address and paging group information of the mobile terminal when the mobile terminal is idle, and transmits the physical address of the mobile terminal to the proxy server. The proxy server transmits the physical address of the mobile terminal received from the paging controller and the network address of the proxy server to the application server to register the incoming service for the mobile terminal, and receives the communication setup message for the mobile terminal from the application server. The mobile terminal receives a network address based on the physical address of the terminal, and transmits a communication setup message to the network address.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, except to exclude other components unless otherwise stated.

Now, a method for providing an incoming service based on a session initiation protocol according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The following describes the structure of a mobile WiMAX network supporting an inbound service based on a Session Initiation Protocol (hereinafter referred to as SIP) according to an embodiment of the present invention with reference to FIG. 1.

1 is a structural diagram of a mobile WiMAX network providing an incoming service according to an embodiment of the present invention.

As shown in FIG. 1, the mobile WiMAX network according to an embodiment of the present invention includes a base station 100, a control station 200, a paging controller 300, a location server 400, It includes a proxy server (500), in conjunction with the IP Multimedia Subsystem (hereinafter referred to as 'IMS') 600, Voice over Internet Protocol (hereinafter referred to as 'VoIP') The VoIP service is provided to the server 700 and the mobile terminal 800.

The base station 100 performs wireless communication with the mobile terminal 800 through a wireless channel. The plurality of base stations 100 are grouped to form one paging group. The space area managed by the paging group is referred to as a paging area.

The control station 200 corresponds to a base station controller and controls the plurality of base stations 100 and connects with the paging controller 300.

The paging controller 300 supports an idle mode to save power of the mobile terminal 800, manages the state and location of the mobile terminal 800, and controls a paging area in association with the location server 400. . The paging controller 300 also connects with the proxy server 500 to provide VoIP services to the mobile terminal 800.

The location server 400 may include a media access control (MAC) address corresponding to a physical address of the mobile terminal 800 or an internet protocol (IP) address corresponding to a network address. Save / manage information of

The proxy server 500 is connected to the IMS 600 to provide information of the mobile terminal 800 to which the VoIP service should be provided according to the incoming service request. In addition, to interface with the paging controller 300 to page the mobile terminal 800 in the idle state.

The IMS 600 corresponds to an application server and is a system that provides a complex multimedia service such as voice, audio, video, and data on one platform based on the Internet Protocol (hereinafter, referred to as 'IP'). Services based on IMS 600 include VoIP and video telephony services, Instant Messaging services, multi-party video conferencing, and multimedia communication services.

The VoIP server 700 converts the voice information into a packet form and transmits it via IP, unlike the voice information transmission using the circuit switching technology. The VoIP server 700 is not only the public Internet but also various public telecommunication networks such as a private IP based network, a public switched telephone network (PSTN), an integrated services digital network (ISDN), or a combination thereof. The service can be provided through.

The mobile terminal 800 is a communication device capable of accessing a mobile WiMAX network through a wireless channel. The mobile terminal 800 may include a user agent (hereinafter referred to as 'UA') for authenticating that the subscriber is a subscriber of the VoIP service. Examples of the mobile terminal 800 include a mobile communication terminal, a wireless telephone, an Internet phone, a computer, and the like.

Next, a state of a mobile terminal 800 according to an embodiment of the present invention will be described with reference to FIG. 2.

2 is a state transition diagram of a mobile terminal 800 according to an embodiment of the present invention.

As shown in FIG. 2, the state of the mobile terminal 800 may include a power-off state C100, a normal operation state C200, and an idle state C300. It includes.

First, when the mobile terminal 800 of the power off state (C100) is supplied with power and successfully accesses the mobile WiMAX network, the mobile terminal 800 transitions to the normal operation state (C200) (S101). The mobile terminal 800 in the normal operation state C200 is capable of transmitting and receiving data by allocating radio resources and performing location registration for each handoff.

Next, the mobile terminal 800 in the normal operation state (C200) transitions to the idle state (C300) when there is no data transmission and reception for a predetermined time (S103). The mobile terminal 800 in the dormant state C300 minimizes power consumption by managing power to return most resources for packet transmission and to receive only paging information. When the mobile terminal 800 in the idle state C300 generates data to be transmitted to the base station 100 or receives paging information, the mobile terminal 800 reconnects to the mobile WiMAX network and transitions to the normal operation state C200 (S105).

When the power is cut off, the mobile terminal 800 in the normal operation state C200 transitions to the power cutoff state C100 (S107). On the other hand, the mobile terminal 800 in the idle state (C300) continues to transition to the power off state (C100) when there is no data transmission or reception for a predetermined time or the power is cut off (S109).

The following describes a VoIP service registration method of the mobile terminal 800 according to an embodiment of the present invention with reference to FIG.

3 is a diagram illustrating a VoIP service registration procedure of a mobile terminal 800 according to an embodiment of the present invention.

First, when the mobile terminal 800 wirelessly accesses the mobile WiMAX network and requests the paging controller 300 to register the location, the paging controller 300 stores the location information of the mobile terminal 800 in the location server 400. The location of the mobile terminal 800 is registered (S201). At this time, the location information includes the MAC address of the mobile terminal 800, information of the base station 100, information of the control station 200, and the like.

Next, the mobile terminal 800, the base station 100, and the control station 200 interwork with each other to establish a connection for receiving a VoIP service, thereby connecting a connection identifier (hereinafter referred to as 'CID') of the mobile terminal 800. Create and assign an IP address to the mobile terminal 800 according to the set connection (S203).

Next, the mobile terminal 800 includes a session initiation protocol including a status and MAC address of the mobile terminal 800, an IP address assigned to the mobile terminal 800 for VoIP service, and a CID assigned to the mobile terminal 800. (SIP) The registration message is transmitted to the proxy server 500 (S205).

Next, the proxy server 500 stores the SIP registration message transmitted by the mobile terminal 800 to manage the VoIP service provided to the mobile terminal 800 according to the state of the mobile terminal 800 (S207). In this case, the proxy server 500 may further include the address of the proxy server in the SIP registration message.

Thereafter, the proxy server 500 transmits the SIP registration message to the IMS 600 (S209), and the IMS 600 registers the MAC address and the IP address of the mobile terminal 800 based on the SIP registration message. The message for 800 is transmitted to the IP address of the mobile terminal 800 (S211).

When there is a SIP INVITE message for the VoIP service to the mobile terminal 800 corresponding to the next SIP registration message, the IMS 600 transmits a SIP invite message to the mobile terminal 800 so that the mobile terminal 800 can receive the SIP registration message. VoIP service can be provided (S213). At this time, the SIP invitation message is a communication setup message including the MAC address and IP address of the mobile terminal 800, the VoIP service type, and the quality of service required for the VoIP service. In addition, the IMS 600 may transmit the SIP invitation message to the mobile terminal 800 through the proxy server 500 or may transmit the SIP invitation message to the mobile terminal 800 without passing through the proxy server 500.

Next, a process of the mobile terminal 800 transitioning to the idle state C300 will be described with reference to FIG. 4.

4 is a flowchart illustrating a transition of the mobile terminal 800 to the idle state C300 according to an exemplary embodiment of the present invention.

First, when the mobile terminal 800 in the normal operation state (C200) has no data transmission and reception for a predetermined time, the control station 200 transitions the mobile terminal 800 in the normal operation state (C200) to the dormant state (C300). In addition, the mobile terminal 800 releases the data movement path corresponding to the CID assigned to the mobile terminal 800 in order to return the assigned IP address and transition to the idle state C300 (S401). In this case, the release of the data movement path may be performed according to an IP address deregistration or a dynamic host configuration protocol (hereinafter referred to as 'DHCP').

Next, the mobile terminal 800 transmits a de-registration request (hereinafter referred to as a 'DREG-REQ') message to the base station 100 including an idle mode transition option and a MAC address of the mobile terminal 800. (S403).

Next, the base station 100 transmits to the control station 200 a mobile terminal deregistration request (hereinafter referred to as 'MS DREG-REQ') message further including information of the base station 100 based on the DREG-REQ message ( S405).

Thereafter, the control station 200 transmits a mobile terminal idle request (hereinafter referred to as 'MS Idle-REQ') message further including information of a paging group to which the mobile terminal 800 belongs based on the MS DREG-REQ message. 300) (S407).

In this case, the paging controller 300 receiving the MS Idle-REQ message stores the paging group to which the mobile terminal 800 belongs and the MAC address of the mobile terminal 800 in the location server 400 so that the mobile terminal 800 can use the paging group. It is managed in units (S409). Thereafter, the paging controller 300 transmits a mobile terminal registration message including the state of the mobile terminal 800 and the MAC address to the proxy server 500 (S411).

Next, the proxy server 500 stores the mobile terminal registration message, and generates a SIP registration message including the MAC address of the mobile terminal 800 and the IP address of the proxy server 500 based on the mobile terminal registration message (S413). In step S415, the generated SIP registration message is transmitted to the IMS 600.

Next, the IMS 600 performs SIP registration of the mobile terminal 800 based on the MAC address of the mobile terminal 800 and the IP address of the proxy server 500 (S417). That is, the IMS 600 recognizes the IP address of the proxy server 500 as the IP address of the mobile terminal 800 when there is a VoIP service request to the mobile terminal 800 in the dormant state (C300). The SIP invite message is transmitted to the IP address, and the proxy server 500 transmits the SIP invite message to the mobile terminal 800 in the dormant state (C300).

In this case, the proxy server 500 transmits the mobile terminal registration response message to the paging controller 300 in response to the mobile terminal registration message, so that the paging controller 300 receives the mobile terminal registration message. It can be confirmed (S419).

In addition, the paging controller 300 transmits the MS Idle-RSP message to the control station 200 in response to the MS Idle-REQ message, so that the paging controller 300 receives the MS Idle-REQ message. It can be confirmed that (S421).

The control station 200 then sends an MS DREG-RSP message to the base station 100 in response to the MS DREG-REQ message, whereby the base station 100 receives that the control station 200 has received the MS DREG-REQ message. It can be confirmed (S423).

Thereafter, the base station 100 transmits a de-registration command (hereinafter referred to as a 'DREG-CMD') message to the mobile terminal 800 in response to the DREG-REQ message, whereby the mobile terminal 800 transmits the DREG. It may be confirmed that the -REQ message is transmitted to the base station 100 (S425).

Next, a process of providing an incoming service according to an embodiment of the present invention will be described with reference to FIG. 5.

5 is a procedure for providing an incoming service to a mobile terminal 800 without an IP address according to an embodiment of the present invention.

First, when the IMS 600 receives the VoIP incoming service for the mobile terminal 800, the IMS 600 transmits a SIP invitation message to the proxy server 500 (S601).

The proxy server 500 receiving the SIP invitation message determines whether there is an IP address assigned to the mobile terminal 800 corresponding to the MAC address of the mobile terminal 800 (S603). If there is an IP address of the mobile terminal 800 corresponding to the MAC address of the mobile terminal 800, the proxy server 500 transmits the SIP invitation message to the IP address assigned to the mobile terminal 800 (S629).

Meanwhile, if there is no IP address assigned to the mobile terminal 800, the proxy server 500 performs a paging trigger message including the MAC address of the mobile terminal 800 to perform a paging procedure based on the MAC address of the mobile terminal 800. Is transmitted to the paging controller 300 (S605).

Next, the paging controller 300 inquires the status of the mobile terminal 800 from the location server 400 based on the MAC address of the mobile terminal 800 included in the paging trigger message (S607). If the mobile terminal 800 is in the dormant state (C100), the paging controller 300 inquires the paging group to which the mobile terminal 800 belongs from the location server 400, the paging group inquired by the location server 400 The paging request message for transitioning the mobile terminal 800 to the normal operation state C200 is transmitted to the control station 200 that controls the operation (S609). At this time, the paging request message includes the MAC address of the mobile terminal 800, the state of the mobile terminal, and the information of the paging group to which the mobile terminal 800 belongs.

After receiving the paging request message, the control station 200 transmits a paging notification message to one or more base stations 100 corresponding to the paging group to which the mobile terminal 800 belongs (S611). At this time, the paging notification message includes the MAC address of the mobile terminal 800, the state of the mobile terminal 800, and the information of the base station 100 corresponding to the paging group.

Upon receiving the next paging notification message, the base station 100 broadcasts a paging advertisement (hereinafter referred to as 'MOB_PAG-ADV') message corresponding to the paging message to the paging group to induce the mobile terminal 800 to reconnect to the network (S613). ). At this time, the MOB_PAG-ADV message includes the MAC address of the mobile terminal 800 and the state of the mobile terminal 800.

At this time, the mobile terminal 800 confirming that its MAC address is present in the MOB_PAG-ADV message reconnects to the mobile WiMAX network and transitions to the normal operation state (C200), and the paging controller 300 is the location information of the mobile terminal 800. Store the location in the server 400 to register the location of the mobile terminal (800) (S615).

Next, the mobile terminal 800, the base station 100, and the control station 200 interoperate to establish a connection for VoIP service to generate a connection identifier (CID) of the mobile terminal 800, and according to the set connection network The IP address corresponding to the address is allocated to the mobile terminal 800 (S617).

Thereafter, the control station 200 transmits a paging completion message in response to the paging request message to the paging controller 300, so that the paging controller 300 can confirm that paging of the mobile terminal 800 is completed according to the paging request message. It may be (S619). At this time, the paging completion message includes the MAC address of the mobile terminal 800, the state of the mobile terminal 800, the IP address assigned to the mobile terminal 800, and the CID assigned to the mobile terminal 800.

After receiving the next paging completion message, the paging controller 300 transmits a paging trigger response message to the proxy server 500 in response to the paging trigger message (S621). At this time, the paging trigger response message includes a MAC address of the mobile terminal 800, an IP address assigned to the mobile terminal 800, and a CID assigned to the mobile terminal 800.

Next, the proxy server 500 stores a paging trigger response message and generates a SIP registration message including a MAC address of the mobile terminal 800 and an IP address assigned to the mobile terminal 800 based on the paging trigger response message. (S623).

Next, the proxy server 500 transmits the SIP registration message to the IMS 600 (S625), and the IMS 600 registers the IP address of the mobile terminal 800 based on the SIP registration message, and then the mobile terminal 800. The message about to be transmitted to the IP address of the mobile terminal (800) (S627).

Thereafter, the proxy server 500 transmits the SIP invitation message to the mobile terminal 800 to be provided with the VoIP service through the IP address assigned to the mobile terminal 800 (S629).

On the other hand, if the mobile terminal 800 is in the normal operating state (C200), the mobile terminal 800, the base station 100, and the control station 200 is linked to the IP address corresponding to the network address to the mobile terminal 800 The control station 200 transmits the IP address assigned to the mobile terminal 800 to the proxy server 500. The proxy server 500 generates a SIP registration message based on the IP address assigned to the mobile terminal 800. Thereafter, the proxy server 500 transmits a SIP registration message to the IMS 600, and the IMS 600 registers an IP address of the mobile terminal 800 based on the SIP registration message and then sends a message to the mobile terminal 800. Is transmitted to the IP address of the mobile terminal (800).

The embodiments of the present invention described above are not implemented only through the apparatus and the method, but 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 on which the program is recorded. Implementation may be easily implemented by those skilled in the art from the description of the above-described embodiments.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

According to an embodiment of the present invention, a location server and a paging controller interoperate to provide a paging service supported by a mobile WiMAX system, thereby enabling efficient use of radio resources.

According to an embodiment of the present invention, a proxy server and a paging controller interwork to provide a SIP-based incoming service to a mobile terminal without affecting the mobile WiMAX network and the VoIP server. In addition, the MAC address may be included in the connection identifier (CID) of the mobile terminal to solve the IP address mismatch problem between the mobile WiMAX network and the IMS when the mobile terminal transitions from the idle state to the normal operation state.

Claims (7)

A method for providing an incoming service to a mobile terminal having no network address by interworking with a paging controller and an application server, the proxy server comprising: Receiving a communication establishment message including a physical address of the mobile terminal from the application server; Querying a network address of the mobile terminal corresponding to the communication setup message; Causing the paging controller to transmit a paging request message if the network address of the mobile terminal does not exist so that the mobile terminal is assigned a network address; Receiving a paging response message including a network address of the mobile terminal from the paging controller; And Sending the communication setup message to a network address of the mobile terminal. The method of claim 1, Receiving a physical address of the mobile terminal without the network address from the paging controller; And Transmitting a registration message including a physical address of the mobile terminal and a network address of the proxy server to the application server so that the application server registers the mobile terminal with the incoming service in response to the registration message. How to. The method of claim 2, The step of allowing the mobile terminal to receive a network address Inquiring of a status of the mobile terminal to the paging controller when there is no network address of the mobile terminal; And Causing the paging controller to transmit a paging request message when the mobile terminal is in a dormant state such that the mobile terminal is assigned a network address. The method of claim 3, And sending a registration message including the network address of the mobile terminal included in the paging response message to the application server so that the application server registers the network address of the mobile terminal. The method according to any one of claims 1 to 4, Inquiring the network address of the mobile terminal Searching for the physical address of the mobile terminal included in the communication configuration message; And Querying a network address corresponding to the physical address. The method according to any one of claims 1 to 4, The communication setting message further includes service type information, The step of transmitting the paging request message Sending the paging request message further comprising the service type information to the paging controller to cause the paging controller to establish a connection that supports a quality of service corresponding to the service type information. In the system for providing an incoming service for the mobile terminal to the application server, A paging controller managing the mobile terminal through the physical address and paging group information of the mobile terminal and transmitting the physical address of the mobile terminal to a proxy server when the mobile terminal is idle; And When the physical address of the mobile terminal received from the paging controller and the network address of the proxy server is transmitted to the application server so that the incoming service to the mobile terminal is registered, and receives a communication setup message for the mobile terminal from the application server And a proxy server configured to receive the network address based on the physical address of the mobile terminal and to transmit the communication setup message to the network address.

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