KR20110046048A - System and method for controlling a message overload in media independent handover - Google Patents

Abstract

PURPOSE: A system and method for controlling a message overload in a media independent handover are provided to prevent network overload and the degradation of an HIM server resulting from an event message. CONSTITUTION: A user terminal(110) performs first communication network border cell detection based on serving quality. The user terminal transfers an MIH link converting message to an MIH server as soon as the user terminal enters the first communication border cell. The user terminal transfers an MIH link parameter related message to the MIH server if the serving or target quality is over an MIH link event generation reference value.

Description

System and method for controlling a message overload in media independent handover}

The present invention relates to a method and system for controlling message overload of handover in handover between a Wibro network and a WCDMA network, and more particularly, a user terminal includes a cell edge of a region of a WiBro network and a region of a WCDMA network. If the location is local, the MIH server will not issue a handover indication unless the media independent handover (MIH) server is in a handover condition, and thus the MIH server will send a message when the UE continuously sends an event message to the MIH server. A method and system for controlling message overload between heterogeneous networks, in which a user terminal can be released from a message overload state by instructing a user terminal to perform a message overload by performing a message overload check. will be.

In general, a handover technology refers to a technology for automatically switching a communication channel so that a communication in service is not interrupted when a mobile subscriber moves from one wireless communication zone to another wireless communication zone.

In general, handover refers to handover between homogeneous networks, but in order to overcome the disadvantage of providing a handover service only within the homogeneous network in an era where many networks of different systems exist. International standardization studies are underway for technologies that provide handover between heterogeneous networks.

Handover between heterogeneous networks (or vertical handover) is not a handover between a network of the same system, e.g., Wireless Broadband Internet (WiBro) base stations, but a network of other systems, e.g. Handover with 2nd Generation (2G), 3rd Generation (3G), IEEE (Institute of Electrical and Electronics Engineers) 802.11 based Wireless LAN (Local Access Network) it means.

As a technique for heterogeneous handover, there is a media independent handover (hereinafter referred to as MIH) proposed by the standard (IEEE 802.21). MIH is a seamless, amorphous handover technology that guarantees Quality of Service (QoS), regardless of heterogeneous networks or media. In addition, MHI allows mobile terminals with multiple air interfaces to automatically select the best network connection type available without user intervention, and provides event services, commands to seamlessly handoff sessions between heterogeneous networks or media. Provides service (Command Service), Information Service (Information Service). Using the provided services, the upper layer performs handover to the appropriate network.

However, as described above, the heterogeneous inter-network handover defined in the standard (IEEE 802.21) has a MIH_Get_Information. The REQEUST message is transmitted to the MIH server, and the MIH server collects information of the networks in the core network and retrieves information on whether there is a heterogeneous network to which the mobile terminal can handover. The MIH server then sends the search results to the mobile terminal via the MIH_Get_Information.RESPONSE message. That is, according to the existing standard, when the mobile terminal moves and requires a handover, the MIH server requests the MIH server. The core network predicts the position of the mobile terminal through a predetermined algorithm to determine whether the mobile terminal can be handed over to the heterogeneous network. To provide.

However, when the mobile station is stopped at the cell edge, if the MIH server is not in the handover condition, the MIH server does not give a handover instruction. Accordingly, the mobile station transmits a continuous event message to the MIH server.

Event message is sent to MIH server at regular interval when event occurrence condition is met, and MIH server continues to receive event message if handover condition is not met. Therefore, MIH server is a device that must handle a large number of terminals, when receiving a continuous message at short intervals has a significant impact on performance. In addition, since a network receives a large amount of messages for the MIH service, the network load increases.

An object of the present invention for solving the above-described problems, when the user terminal is located in the cell boundary area of the WiBro network and the WCDMA network area, the MIH server does not give a handover instruction unless the handover conditions, so that the user When the terminal continuously transmits an event message to the MIH server, if the MIH server performs a message overload check and determines that the message is overloaded, the user terminal can be released from the message overload state by instructing handover to the user terminal. The present invention provides a method and system for controlling message overload between heterogeneous networks, an MIH server and a method for controlling message overload between heterogeneous networks, and a method for controlling handover message overload between a user terminal and heterogeneous networks.

In the message overload control system for heterogeneous network handover according to the present invention for achieving the above object, a first communication network boundary cell detection is performed based on first communication network neighbor cell information and serving quality, and the first communication network boundary cell is detected. As soon as the MIH link switching message is transmitted to the MIH server, if the serving or target quality is higher than the MIH link event generation threshold, the MIH link parameter related message is periodically sent to the MIH server, and the handover instruction is received from the MIH server. A user terminal that disconnects the first communication network link and performs a second communication network link setting; And upon receiving a MIH link switch message from the user terminal, initiates a message overload check, and determines that a handover occurs when excessively receiving a message related to a MIH link parameter from the user terminal in a state other than a handover condition. It includes a MIH server for instructing the user terminal between the heterogeneous network handover.

On the other hand, the media independent handover server according to the present invention for achieving the above object, Communication unit for communicating with the user terminal, ACR, GGSN, HA, etc .; A session manager for managing establishment and termination of a session for medium independent handover (MIH) for the user terminal; A handover execution unit for determining and executing a medium independent handover (MIH) for the user terminal; A policy manager for managing the MIH policy information and neighbor base station information; A DB interface unit for interfacing with a database; And upon receiving a MIH link switch message from the user terminal, initiates a message overload check, and determines that a handover occurs when excessively receiving a message related to a MIH link parameter from the user terminal in a state other than a handover condition. And a control unit for instructing handover between heterogeneous networks.

In addition, if the time interval included in the MIH link switch message received from the user terminal is '0', the controller instructs the user terminal to immediately handover.

In addition, when receiving a message indicating that the handover is completed from the user terminal, the controller drives a backoff timer to prevent the reverse handover from occurring for a predetermined time.

In addition, when receiving the location information from the user terminal, the controller acquires MIH policy information according to the location information, performs a procedure for entering a MIH event for each connection type, and the MIH that the user terminal should generate for each connection type. Instructs the user terminal of the event list.

In addition, the controller performs a connection configuration reference procedure for a serving link and a target link, and transmits a serving quality and a target quality reference value for generating a MIH event to the user terminal.

The controller, after instructing the user terminal to handover, performs a MIP connection update procedure through the second communication network link.

On the other hand, the user terminal according to the present invention for achieving the above object, a wireless interface for executing the interface function and the wireless network; A MIH function unit executing media independent handover between heterogeneous networks of the wireless network; An upper layer unit executing a service provided from a server through the air interface unit; And performing detection of the first communication network boundary cell based on the first communication network neighbor cell information and serving quality, and upon entering the first communication network boundary cell, a MIH link switching message is transmitted to the MIH server, and serving or target quality is MIH. If the link event generation threshold is greater than or equal to the threshold value, a MIH link parameter related message is periodically transmitted to the MIH server, and when a handover instruction is received from the MIH server, the first network link is disconnected and the second network link is established to perform a heterogeneous network. And a control unit for controlling the inter-handover to be executed.

The control unit may detect the first communication network boundary cell and, when determined as the first communication network boundary cell, transition the second communication network modem to a standby state and periodically determine whether serving or target quality is equal to or greater than a MIH link event generation threshold. Inspect

The control unit performs a MIH re-registration procedure after disconnecting the first communication network link and performing a second communication network link setting to complete a handover between heterogeneous networks.

On the other hand, the message overload control method of the inter-network handover according to the present invention for achieving the above object is a message overload control method of the inter-network handover of a system comprising a user terminal and a MIH server, (a) the user Performing, by the terminal, detecting the first communication network boundary cell based on the first communication network neighbor cell information and serving quality; (b) transmitting a MIH link switching message to the MIH server when the user terminal enters the first communication network boundary cell; (c) performing a message overload check when the MIH server receives the MIH link switch message; (d) if the MIH server excessively receives a message related to a MIH link parameter from the user terminal, determining to handover and instructing the user terminal to handover; And (e) the user terminal disconnecting the first communication network link and establishing a second communication network link to perform handover between heterogeneous networks.

On the other hand, the method for overload control between heterogeneous networks of the MIH server according to the present invention for achieving the above object, (a) receiving a MIH link switching message from the user terminal; (b) performing a message overload check upon receipt of the MIH link switch message; And (c) if it is determined that the MIH link parameter related message is excessively received in the non-handover condition as a result of the message overload test, determining the handover state and instructing the user terminal to handover. do.

In addition, if the time interval included in the MIH link switching message received from the user terminal in step (b) is '0', handover is immediately instructed to the user terminal.

In addition, if the message indicating that the handover is completed after the step (c) is received, the backoff timer is driven to prevent the reverse handover from occurring for a predetermined time.

In the step (c), after instructing handover to the user terminal, the MIP connection update procedure is performed through the second communication network link.

On the other hand, the heterogeneous network handover message overload control method of the user terminal according to the present invention for achieving the above object, the heterogeneous network handover message of the user terminal to perform the handover between heterogeneous networks received from the MIH server An overload control method, comprising: (a) performing detection of a first communication network boundary cell based on first communication network neighbor cell information and serving quality; (b) transmitting a MIH link switching message to the MIH server when entering the first communication network boundary cell; (c) checking whether the serving or target quality is above the MIH link event generation threshold; (d) transmitting a message related to a MIH link parameter to the MIH server when the serving or target quality is equal to or greater than a MIH link event generation threshold; And (e) receiving the handover instruction from the MIH server, cutting off the first communication network link and establishing a second communication network link.

According to the present invention, in applying the IEEE 802.21 MIH, it is possible to prevent performance degradation and network load of the MIH server due to a large amount of event messages.

In addition, when the user terminal is stopped at the cell edge, if it is not a handover condition from the viewpoint of the MIH server, the MIH server performs a message overload check as the user terminal sends a continuous event message to the MIH server. By instructing the user terminal to handover, the user terminal may escape from the message overload situation.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The MIH function facilitates the handover process using input values from the second layer (media access control layer) such as trigger events and information about other networks. In addition, the MIH feature can include user policy and configuration-based inputs that can affect the handover process and include Layer 3 entities such as Mobile IP (MIP). ) And the common interfaces between the MIH functions.

These interfaces provide information about layer 1 (physical layer) and layer 2 (media access control layer) and mobility management. The MIH layer obtains information about lower layers and networks with the help of events and information services. In the upper layer, the upper management object for monitoring and controlling the status of various links in the user terminal is located to perform a handover control function and a device manager function. In this case, the handover control function and the device manager may be independently located, or both functions may be included together as a higher management entity.

1 is a configuration diagram schematically showing the overall configuration of a message overload control system of heterogeneous network handover according to an embodiment of the present invention.

Referring to FIG. 1, the message overload control system 100 of heterogeneous network handover according to the present invention includes a user terminal 110, a radio access station (RAS) 122 to 124 of a WiBro network, and an access control router. 132, Elementary Management System (EMS), Node-B (126-128) of WCDMA network, Radio Network Controller (RNC) 134, SGSN 136, GGSN 138, IP network ( 140), Home Agent (HA) 142, MIH Server 150, Network Management System (NMS), Domain Name Server (DNS), Home Location Register (HLR), Internet 160, and Application Server 170, and the like.

The user terminal 110 performs Border Cell Detecting based on the WiBro neighbor cell information and serving quality, and as soon as the first terminal enters the first network border cell, the MIH link as a link switching message. It sends a Link Going Down Indication message to the MIH server 150, and if the serving or target quality is higher than the MIH Link Event generation threshold, a parameter related message, that is, MIH periodically A Link Parameter Report message is transmitted to the MIH server 150. When receiving a handover instruction from the MIH server 150, the first communication network (WiBro) link is disconnected and the second communication network (WCDMA) link setting is set. To perform.

Since RAS 122-124, Node-B 126-128, ACR 132, RNC 134, SGSN 136, GGSN 138, etc. correspond to a conventional technique, description thereof is omitted.

The IP network 140 is a network connecting the ACR 132 of the WiBro network, the GGSN 138 of the WCDMA network, the HA 142, and the MIH server 150.

When the MIH server 150 receives the MIH link going-down message from the user terminal 110, the MIH server 150 starts a message overload check, and as a result of the message overload check, the user terminal 110 in a state that is not a handover condition. In case it is determined that the MIH link parameter report message is excessively received, it is determined as handover, and the user terminal 110 indicates the handover between heterogeneous networks.

2 is a block diagram schematically illustrating a functional block of a media independent handover server according to an embodiment of the present invention.

2, the MIH server 150 according to the present invention includes a communication unit 210, a session manager 220, a handover execution unit 230, a policy manager 240, a DB interface 250, and a controller ( 260).

The communication unit 210 communicates with the user terminal 110, the ACR 132, the GGSN 138, the HA 142, and the like.

The session manager 220 manages establishment and termination of a session for medium independent handover (MIH) for the user terminal 110.

The handover execution unit 230 determines and executes a medium independent handover (MIH) for the user terminal 110.

The policy manager 240 manages MIH policy information and neighbor base station information.

The DB interface unit 240 interfaces with a database.

When the control unit 250 receives the MIH link going-down message from the user terminal 110, the controller 250 starts a message overload test, and reports a MIH link parameter report message from the user terminal 110 in a non-handover condition. In case of excessively receiving, it is determined to be handover and instructs the user terminal 110 to perform handover between heterogeneous networks.

In addition, the controller 250 instructs the user terminal 110 to immediately handover when the time interval included in the MIH link godown message received from the user terminal 110 is '0'.

In addition, when the control unit 250 receives a message indicating that the handover is completed from the user terminal 110, the reverse handover is not generated for a predetermined time by driving a back-off timer to prevent ping-pong. Do not.

In addition, when receiving the location information from the user terminal 110, the controller 250 acquires MIH policy information according to the location information, performs a MIH event subscription procedure for each link type (Link Type), The user terminal 110 instructs the user terminal 110 of a list of MIH events to be generated for each link type.

In addition, the controller 250 performs a Link Configuration Thresholds procedure for a serving link and a target link, and uses a serving quality and a target quality reference value for generating an MIH event. It transmits to the terminal 110.

The controller 250 instructs the user terminal 110 to perform a handover and then performs a MIP connection update procedure through a second communication network (WCDMA) link.

3 is a block diagram schematically illustrating a functional block of a user terminal according to an embodiment of the present invention.

Referring to FIG. 3, the user terminal 110 according to the present invention includes a wireless interface unit 310, a MIH function unit 320, an upper layer unit 330, and a controller 340.

The wireless interface unit 310 executes an interface function such as a WCDMA network, a WiBro network, an HSPA network, a WLAN network, a TD-SCDMA network, a CDMA network, a GSM network, a 4G network, a 5G network, a MIH server, and the like.

The MIH function unit 320 includes a WCDMA network, a Wibro network, an HSPA network, a WLAN network, a TD-SCDMA network, a CDMA network, a GSM network, a 4th generation (4G) network, a 5th generation (5G) network, and the like. Perform media independent handover between heterogeneous networks.

The upper layer unit 330 executes a service provided from the application server 170 through the air interface unit 310.

The control unit 340 detects the first communication network border cell based on the WiBro neighbor cell information and the serving quality, and sends a MIH link going-down message as soon as the first communication network enters the first communication network boundary cell. If the serving or target quality is equal to or higher than the MIH link event generation threshold, the MIH link parameter report message is periodically transmitted to the MIH server 150, and if the handover instruction is received from the MIH server 150, It cuts a WiBro link and performs a second communication network (WCDMA) link setting to control handover between heterogeneous networks.

In addition, the control unit 340 detects the first communication network (WiBro) border cell (Border Cell) and, when determined as the first communication network boundary cell, transitions the second communication network (WCDMA) modem to the idle state, and serves. Or periodically check whether the target quality is above the MIH link event generation threshold.

In addition, the controller 340 disconnects the first communication network link and performs the second communication network link setup to complete the handover between heterogeneous networks, and then performs the MIH re-registration procedure.

FIG. 4 is a flowchart illustrating a process of establishing a MIH session of a WiBro network in an example of a method for controlling message overload between inter-network handovers according to an embodiment of the present invention.

Referring to FIG. 4, the WiBro Preferred User Terminal 110 sets up a WiBro call in the WiBro region (S402).

Subsequently, the user terminal 110 performs a MIP (Mobile Internet Protocol) registration procedure through the WiBro network, the ACR 132, and the HA 142 (S404).

Accordingly, the MIP Binding List is generated in the HA 142, and User Data Packet is transmitted and received through IP Tunneling with the ACR 132 (S406).

Subsequently, if necessary, the user terminal 110 performs an IMS registration procedure (S408).

Subsequently, the user terminal 110 acquires the IP of the MIH server 150 through DNS and performs a MIH capability discovery procedure (S410).

In this case, the MIH capability includes supportable MIH event, command, and handover directional information.

Subsequently, the user terminal 110 transmits current location information to the MIH server 150 while performing the MIH registration procedure (S412).

The MIH server 150 notifies the user terminal 110 of the MIH re-registration interval.

Subsequently, the MIH server 150 having obtained the location information of the user terminal 110 obtains the MIH policy information according to the location (S414).

Subsequently, the MIH server 150 performs an MIH event subscription procedure for each link type (S416).

At this time, the MIH server 150 indicates to the user terminal 110 a list of MIH events that the user terminal 110 should generate for each link type.

In addition, the MIH server 150 performs a Link Configure Thresholds procedure for Serving Link and Target Link (S418).

At this time, the MIH server 150 transmits the Serving Quality (SINR, RSSI) and Target Quality (RSSI) reference values for generating the MIH Event to the user terminal 150 through a Link Configure Thresholds procedure.

Thus, the user terminal 110 starts an IMS session if necessary.

5 is a flowchart illustrating a procedure for establishing a MIH session of a WCDMA network in an example of a method for controlling handover between heterogeneous networks according to an embodiment of the present invention.

Referring to FIG. 5, the WCDMA Preferred User Terminal 110 establishes a WCDMA call in the WCDMA region, not in the WiBro region (S502).

Subsequently, the user terminal 110 performs a MIP registration procedure through the WCDMA GGSN 138 and the HA 142 (S504).

Therefore, the MIP Binding List is generated in the HA 142, and User Data Packet is transmitted and received through IP Tunneling with the GGSN 138 (S506).

Subsequently, if necessary, the user terminal 110 performs an IMS registration procedure (S508).

Subsequently, the user terminal 110 acquires the IP of the MIH server 150 through DNS and performs a MIH Capability Discovery procedure (S510).

In this case, MIH Capability includes supportable MIH Event, Command, and handover directional information.

Subsequently, the user terminal 110 transmits current location information to the MIH server 150 while performing the MIH registration procedure (S512).

At this time, the MIH server 150 notifies the user terminal 150 of the MIH re-registration interval.

Subsequently, the MIH server 150 having obtained the location information of the user terminal 110 obtains the MIH policy information according to the location (S514).

Subsequently, the MIH server 150 performs an MIH event subscription procedure for each link type (S516).

At this time, the MIH server 150 indicates to the user terminal 110 a list of MIH events that the user terminal 110 should generate for each link type.

Subsequently, the MIH server 150 performs a Link Configure Thresholds procedure for the target link (S518).

In this case, the MIH server 150 transmits a target quality (RSSI) reference value for generating the MIH event to the user terminal 150 through a link configure threshold procedure.

If necessary, the user terminal 110 starts an IMS session (S520).

6 is a flowchart illustrating a method for controlling overload of handover messages between heterogeneous networks of a MIH server according to an embodiment of the present invention.

Referring to FIG. 6, the MIH server 150 receives a MIH Link Going Down Indication message from the user terminal 110 (S610).

At this time, when the time interval of the MIH link go-down indication received from the user terminal 110 is '0' (S620-Yes), the MIH server 150 immediately hands over the user terminal 110. It is indicated (S622).

If not (S620-No), the MIH server 150, upon receiving the MIH link go-down message, performs a message overload check (S630).

As a result of the message overload check, the MIH server 150 determines whether the MIH link parameter report message is excessively received in a state in which it is not a handover condition (S640), and if it is determined that it is excessively received (S642-Yes), the hand It determines the over state and instructs the user terminal 110 to handover (S644).

If a message indicating that the handover is completed after the handover instruction is received from the user terminal 110 (S650-Yes), the MIH server 150 drives a back-off timer to prevent ping-pong ( S652).

The MIH server 150 instructs the user terminal 110 to perform a handover, and then performs a MIP connection update procedure through a second communication network (WCDMA) link (S660).

7 is a flowchart illustrating a handover process from a first communication (WiBro) network to a second communication (WCDMA) network in an example of a method for controlling message overload between heterogeneous networks according to an embodiment of the present invention.

Referring to FIG. 7, in a state in which the user terminal 110 is set as a WiBro call (S702), the user terminal 110 is a WiBro border cell based on WiBro neighbor cell information and serving quality. The detection operation is performed (S704).

Subsequently, as soon as the user terminal 110 enters the WiBro boundary cell, the user terminal 110 transmits a MIH link going-down indication message to the MIH server 150 (S706).

Accordingly, when the MIH link go-down indication message is received from the user terminal 110 in a state that is not a handover condition, the MIH server 150 performs a message overload check (S708).

Meanwhile, when the serving or target quality is equal to or higher than the MIH link event generation reference value, the user terminal 110 periodically transmits a MIH link parameter report message to the MIH server 150 (S710).

Subsequently, when the MIH link parameter report message is excessively received in the state that the MIH server 150 is not in the handover condition, the MIH server 150 determines to handover (S712).

Subsequently, the MIH server 150 instructs the user terminal 110 to perform handover between heterogeneous networks (S714).

Subsequently, the user terminal 110 tears down the WiBro Link according to the handover instruction from the MIH server 150 and enters the WCDMA Link setting (S716).

Subsequently, the user terminal 110 performs a MIP Binding Update procedure through the WCDMA link (S718).

At this time, the MIP Binding List is updated in the HA 142, and the IP Tunneling End Point is changed to New FA (GGSN) (S720).

Subsequently, the user terminal 110 notifies the MIH server 150 that the handover is completed (S722).

Subsequently, the MIH server 150 drives the back-off timer to prevent ping-pong (S724).

Subsequently, the user terminal 110 immediately performs a MIH re-registration procedure (S726).

Accordingly, the MIH server 150 performs a Link Configure Thresholds procedure for the target link (S728).

The MIH server 150 transmits a target quality (RSSI) reference value for generating the MIH event to the user terminal 150 through a link configure threshold procedure.

As described above, according to the present invention, when the user terminal is located in the cell boundary region of the WiBro network and the WCDMA network region, the MIH server does not give a handover instruction unless the handover condition is performed, and thus the user terminal continuously When the event message is transmitted to the MIH server, if the MIH server performs a message overload check and determines that the message is overloaded, the heterogeneous network handover can be released from the message overload state by instructing the user terminal to handover. An overload message overload control method and system, a MIH server and its heterogeneous network handover message overload control method, a user terminal and its heterogeneous handover message overload control method can be realized.

As those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features, the embodiments described above should be understood as illustrative and not restrictive in all aspects. Should be. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

The present invention can be applied to systems and services that need to prevent performance degradation of the MIH server and network load due to a large amount of event messages.

In addition, the present invention can be applied to a communication system to which MIH technology using IEEE 802.21 is applied and can be applied to a heterogeneous network handover device.

In addition, it can be applied to handover services between mobile communication networks using different RATs such as WiBro and WCDMA or WiFi and WCDMA.

In addition, the present invention can be applied to systems and services that support two-way handover when an intelligent MIH is possible.

1 is a configuration diagram schematically showing the overall configuration of a message overload control system of heterogeneous network handover according to an embodiment of the present invention.

2 is a block diagram schematically illustrating a functional block of a media independent handover server according to an embodiment of the present invention.

3 is a block diagram schematically illustrating a functional block of a user terminal according to an embodiment of the present invention.

4 is a flowchart illustrating a process of establishing a MIH session of a WiBro network in an example of a method for controlling handover message overload between heterogeneous networks according to an embodiment of the present invention.

5 is a flowchart illustrating a procedure for establishing a MIH session of a WCDMA network in an example of a method for controlling handover message overload between heterogeneous networks according to an embodiment of the present invention.

6 is a flowchart illustrating a method for controlling overload of handover messages between heterogeneous networks of a MIH server according to an embodiment of the present invention.

7 is a flowchart illustrating a handover process from a first communication (WiBro) network to a second communication (WCDMA) network in an example of a method for controlling message overload between heterogeneous networks according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: handover message overload control system 110: user terminal

122 ~ 124: RAS 126 ~ 128: Node-B

132: ACR 134: RNC

136: SGSN 138: GGSN

140: IP network 142: HA

150: MIH server 160: Internet

170: application server 210: communication unit

220: session management unit 230: handover execution unit

240: policy management unit 250: interface unit

260 control unit 310 wireless interface unit

320: MIH function unit 330: upper layer unit

340: control unit

Claims (16)

Performs detection of a first network border cell based on information of a first communication neighbor cell and serving quality, and immediately sends a MIH link switching message to a MIH server as soon as it enters the first network boundary cell. When the serving or target quality is equal to or higher than the MIH link event generation threshold, the MIH link parameter related message is periodically transmitted to the MIH server, and when the handover instruction is received from the MIH server, the first communication network link is transmitted. A user terminal that disconnects and performs a second communication network link setting; And Upon receiving a MIH link switch message from the user terminal, a message overload check is initiated, and if the MIH link parameter related message is excessively received from the user terminal without a handover condition, it is determined as handover. A MIH server for instructing a handover between heterogeneous networks to the user terminal; Message overload control system of heterogeneous inter-network handover comprising a. A communication unit for communicating with a user terminal, an access control router (ACR), a GGSN, a home agent (HA), and the like; A session manager for managing establishment and termination of a session for medium independent handover (MIH) for the user terminal; A handover execution unit for determining and executing a medium independent handover (MIH) for the user terminal; A policy manager for managing the MIH policy information and neighbor base station information; A DB interface unit for interfacing with a database; And Upon receiving a MIH link switch message from the user terminal, a message overload check is initiated, and if the MIH link parameter related message is excessively received from the user terminal without a handover condition, it is determined as handover. A control unit for instructing a handover between heterogeneous networks to the user terminal; Media independent handover server comprising a. The method of claim 2, The control unit, if the time interval (Time Interval) included in the MIH link switching message received from the user terminal is "0" medium independent handover server, characterized in that for direct handover to the user terminal. The method of claim 2, When the controller receives a message indicating that the handover is completed from the user terminal, the controller operates a back-off timer to prevent reverse handover for a predetermined time. server. The method of claim 2, The controller, upon receiving location information from the user terminal, acquires MIH policy information according to the location information, performs a MIH event subscription procedure for each link type, and the user terminal connects. And an MIH event list to be generated for each link type to the user terminal. The method of claim 2, The controller performs a link configuration thresholds procedure for a serving link and a target link, and transmits a serving quality and a target quality reference value for generating a MIH event to the user terminal. Media independent handover server, characterized in that. The method of claim 2, The control unit, after instructing the user terminal handover, and performs a MIP connection update (Binding Update) procedure through the second communication network link, characterized in that the media independent handover server. A wireless interface unit executing an interface function with a wireless network; A MIH function unit executing media independent handover between heterogeneous networks of the wireless network; An upper layer unit executing a service provided from a server through the air interface unit; And Performs detection of a first network border cell based on first network neighbor cell information and serving quality, and sends a MIH link switching message to the MIH server as soon as it enters the first network border cell, serving or target If the quality is equal to or greater than the MIH link event generation threshold, the MIH link parameter related message is periodically transmitted to the MIH server, and when the handover instruction is received from the MIH server, the first network link is disconnected and the second network link is established. A controller for controlling handover between heterogeneous networks; User terminal comprising a. The method of claim 8, The control unit detects the first communication network boundary cell and, when determined as the first communication network boundary cell, transitions the second communication network modem to an idle state and determines whether the serving or target quality is equal to or greater than the MIH link event generation reference value. User terminal, characterized in that for periodically checking. The method of claim 8, The control unit performs a MIH re-registration procedure after disconnecting the first communication network link and performing a second communication network link setting to complete a handover between heterogeneous networks. A message overload control method for handover between heterogeneous networks in a system including a user terminal and a MIH server, (a) performing, by the user terminal, detection of a first communication network border cell based on first communication network neighbor cell information and serving quality; (b) transmitting a MIH link switching message to the MIH server when the user terminal enters the first communication network boundary cell; (c) performing a message overload check when the MIH server receives the MIH link switch message; (d) if the MIH server excessively receives a message related to a MIH link parameter from the user terminal, determining to handover and instructing the user terminal to handover; And (e) the user terminal disconnecting the first communication network link and establishing a second communication network link to perform heterogeneous network handover; Message overload control method of heterogeneous inter-network handover comprising a. (a) receiving a MIH link switch message from a user terminal; (b) performing a message overload check upon receipt of the MIH link switch message; And (c) if it is determined that the MIH link parameter related message is excessively received in the non-handover condition as a result of the message overload inspection, determining a handover state and instructing the user terminal to handover; Handover message overload control method between heterogeneous networks of the MIH server comprising a. 13. The method of claim 12, If the time interval included in the MIH link switching message received from the user terminal in step (b) is '0', heterogeneous network between the MIH servers is instructed to immediately handover to the user terminal. How to control handover message overload. 13. The method of claim 12, After receiving the message indicating that the handover is completed from the user terminal after the step (c), the MIH server characterized in that the reverse handover does not occur for a predetermined time by driving a back-off timer (Back-off Timer) Method for Overloading of Handover Messages between Heterogeneous Networks. 13. The method of claim 12, The step (c) of the MIH server heterogeneous network handover message overload control method, characterized in that for performing a MIP connection update (Binding Update) procedure through the second communication network after instructing the user terminal handover. A method for controlling handover message overload between heterogeneous networks by receiving a handover instruction from a MIH server and performing handover between heterogeneous networks, performing a first communication network border cell detection based on the first communication network neighbor cell information and serving quality; (b) transmitting a MIH link switching message to the MIH server when entering the first communication network boundary cell; (c) checking whether the serving or target quality is above the MIH link event generation threshold; (d) transmitting a message related to a MIH link parameter to the MIH server when the serving or target quality is equal to or greater than a MIH link event generation threshold; And (e) disconnecting the first communication network link and establishing a second communication network link by receiving a handover instruction from the MIH server; Handover message overload control method between heterogeneous networks of a user terminal comprising a.

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