KR100905594B1 - Apparatus and method for the release of redundant session in binding table of home agent between foreign agent and home agent - Google Patents

Abstract

According to an embodiment of the present invention, when an abnormal session establishment termination reason occurs in a lower layer of a session established between a mobile terminal and a visitor node manager, the visitor node manager releases the established session with the mobile terminal, and moves the home node manager to the home node manager. A session resource between the visitor node manager and the home node manager which releases the established session if the reason for canceling the session of the visitor node manager is normal. It provides a release device and method.

Visitor Node Manager, Home Node Manager, Mobile IP, RRQ, RRP

Description

Apparatus and method for releasing session resources between visitor node manager and home node manager {APPARATUS AND METHOD FOR THE RELEASE OF REDUNDANT SESSION IN BINDING TABLE OF HOME AGENT BETWEEN FOREIGN AGENT AND HOME AGENT}             

1 is a diagram illustrating a session establishment process between a mobile terminal and a home node manager in a general asynchronous mobile communication system.

2 is a diagram illustrating a session establishment process between a mobile terminal and a home node manager in a general synchronous mobile communication system.

3 is a diagram illustrating a process of releasing a session established in a home node manager when an error occurs in a lower layer.

4 is a diagram illustrating a process of releasing a session established in a home node manager when an error occurs in a lower layer according to the present invention.

5 is a diagram illustrating the structure of a session release request message according to the present invention;

6 is a diagram illustrating the structure of a session release response message according to the present invention;

The present invention relates to the application of mobile IP for packet data services in a mobile communication system. In particular, the home node manager releases unnecessary session resources between a visitor node manager (FA) and a home node manager (HA). An apparatus and method are provided.

In general, a mobile node (MN) has mobility, and a user of the mobile terminal performs voice call and data communication while ensuring mobility. Since the mobile terminal has mobility, it is not restricted by the position. Due to these advantages, users of many mobile terminals are supported by data services such as Internet communication while moving. In addition, active development of methods and systems for providing a smoother mobile communication service is being made. In order to secure mobility in the mobile terminal and receive stable data service, a fixed internet protocol address (IP address) must be allocated to the mobile terminal. As such, many studies have been conducted to assign fixed IP (mobile IP) addresses to mobile terminals.

1 is a diagram illustrating a schematic configuration of a mobile IP network for allocating mobile IP to a mobile terminal in an asynchronous mobile communication system. Hereinafter, the configuration of the network for allocating the mobile IP to the mobile terminal and the mobile IP registration process will be described with reference to FIG. 1. In general, the mobile station transmits a registration signal to the base station when power is applied to the initialization process or when the mobile IP registration is required. However, since the mobile terminal has mobility as described above, it is possible for a mobile terminal registered in a region other than the region where its service is registered, for example, to transmit a signal for mobile IP registration in another region. .

1 is composed of a mobile station, a base station, SGSN, GGSN / visitor node manager, home node manager. The mobile terminal is a client of an IP network and may have a unique IP address for receiving data in a mobile IP service. In addition, the IP address of the mobile terminal may be assigned by the home node manager. The mobile terminal can be used in connection with a terminal device, a notebook, or a PDA. The base station (UMTS Terrestrial Radio Access Network (UTRAN)) is a concept including a base station (Node B) and a radio network controller (RNC). In addition, the base station and the mobile terminal is connected by a wireless interface. The Serving GPRS Support Node (SGSN) serves as a local IP switch. The GGSN / Visitor Node Manager provides a function of combining a Gateway GPRS Support Node (GGSN) defined in GPRS and a Visitor Node Manager (FA) defined in Mobile IP. The visitor node manager is a node constituting an IP network and is connected to the mobile terminal in a predetermined area, has a unique IP address, and stores information on the mobile terminal. The home node manager (HA) is a node that manages location information of the mobile terminal. When the home node manager receives data to be transmitted from the communication node to the mobile terminal, the home node manager has the location information on the mobile terminal managed by the home node manager itself and sends the received information to the GGSN / Visitor node manager to which the mobile terminal belongs. Resend the data.

First, bearer setup processes 110 to 118 are performed. The mobile terminal 100 designates an access point name (APN) as a MIPV4FA (Visitor Node Manager supporting Mobile IP Version4) to receive mobile IP service, and specifies bearer information of a traffic channel requested by a user. Specify. The information is included in a packet data protocol (PDP) context activation request message and transmitted to the SGSN 104 through the base station in step 110. Upon receipt of this, SGSN 104 selects the appropriate GGSN / Visitor Node Manager in step 112. In addition, the SGSN 104 transmits the bearer information received from the mobile terminal to the selected GGSN / Visitor Node Manager 106 by including it in the PDP context creation request message in step 114. The GGSN / Visitor Node Manager 106 determines whether to accept the requested PDP context and, if so, assigns itself bearer information requested by the user. In addition, the GGSN / Visitor node manager 106 includes the band allocation result in the PDP context creation response message and transmits the result to the SGSN 104 in step 116. Upon receiving this, the SGSN 104 allocates a band requested by the user. The SGSN 104 transmits the PDP context activation response to the mobile station 100 through the base station in step 118, and is set by the wired / wireless bearer of the lower layer. When this procedure is completed, the bearer of the traffic channel between the mobile terminal 100 and the GGSN / Visitor Node Manager 106 is completed.

As described above, when the traffic channel is established, the mobile IP registration procedure between the mobile terminal 100 and the home node manager 108 is performed through the established traffic channel. The visitor node manager 106 broadcasts specific information to the mobile terminal 100 in step 120 through a traffic channel. That is, the visitor node manager transmits the address of the visitor node manager to the specific information to the mobile terminal. Then, the mobile terminal 100 receives the information broadcasted by the visitor node manager 106 and determines which visitor node manager is included in the visitor node manager 106. When the mobile terminal 100 knows which visitor node manager's area it is, that is, when it detects that the visitor node manager exists in the area of the visitor node manager, the mobile terminal 100 requests registration to the visitor node manager 106 in step 122. Send a (registration request: RRQ) message. That is, the mobile terminal determines the visitor node manager including the mobile terminal based on the address of the home node manager included in the specific information of step 120. The registration request message includes information such as authentication information of the mobile terminal. The visitor node manager receiving the registration request message stores the information of the mobile terminal included in the received registration request message in step 124 and transmits the information to the home node manager 108 to which the visitor node manager belongs. The registration request message of 100 is transmitted. The home node manager 108 performs an authentication process using the information of the mobile terminal 100 included in the registration request message, and the location information of the mobile terminal from the registration request message, that is, a visitor node to which the mobile terminal belongs. Save the administrator's address. If the authentication of the mobile terminal 100 is normal, the home node manager 108 transmits a registration reply message (RRP) to allow use in step 126, and receives the visitor node manager 106. In step 128, the registration response message is transmitted to the mobile terminal 100 again. When the location of the mobile terminal 100 is registered in the home node manager 108 through the above process, the mobile terminal 100 communicates with a host of a general Internet network through the home node manager 108, that is, communication. You can send and receive data with a node.

Typically, when receiving data from the communication node, the data is received through the home node manager and the visitor node manager. However, when the mobile terminal transmits data, the mobile terminal may transmit data to the communication node via the visitor node manager and the home node manager, or a router corresponding to a peer node of the internet network through the visitor node manager. You can also pass it directly through).

2 is a diagram illustrating a schematic configuration of a mobile IP network for allocating mobile IP to a mobile terminal in a synchronous mobile communication system. 2 illustrates a mobile terminal 200, a packet control function (PCF) 202, a packet data serving node (PDSN) / visitor node manager 204, and a home node manager 206. It consists of. Hereinafter, a process of assigning a mobile IP to a mobile terminal in a synchronous mobile communication system will be described with reference to FIG. 2. If the mobile terminal 200 and the PCF 202 are wirelessly connected in step 210, the PCF 202 sends an RP (RN PDSN Interface) connection request message to the PDSN / Visitor Node Manager 204 in step 212. send. Upon receiving the RP connection request message, the PDSN / Visitor Node Manager 204 transmits an RP connection response message, which is a response message to the RP connection request message, to the PCF 202. Accordingly, the synchronous mobile communication system establishes an RP link between the PCF 202 and the PDSN / Visitor Node Manager 204 by performing steps 212 to 214. When the RP link is established, the mobile terminal 200 and the PDSN / visitor node manager 204 perform a point to point protocol (PPP) setting process in step 216. The mobile terminal which has performed the PPP setting process performs a mobile IP setting process. The mobile setting is the same as described in FIG. That is, steps 218 to 228 perform the same process as steps 120 to 130.

When transmitting and receiving data between the mobile terminal and the external internet network as described above, the mobile terminal performs data communication via the visitor node manager and the home node manager. 3 illustrates a problem of an error that occurs during data communication between the mobile terminal and the home node manager. Hereinafter, a process of performing data communication between the mobile terminal and the home node manager will be described in detail with reference to FIG. 3. Of course, as described above, the home node manager is a node used to transmit / receive data included in the external internet network to the mobile terminal.

3 includes a mobile terminal 300, a visitor node manager 302, and a home node manager 304. In step 310, the mobile terminal 300 and the home node manager 304 perform data communication by the process performed in FIGS. 1 and 2. As shown in FIG. 3, the data communication is performed via the visitor node manager 302. In the case of the asynchronous mobile communication network, an error occurs between the SGSN and the visitor node manager 302 in step 312 of the data communication. The error may be caused when the GTP tunnel between the SGSN and the GGSN is abnormally terminated or when the PDP context connection is terminated because the absolute timer set in the GGSN is terminated. In the case of a synchronous mobile communication network, when the link is disconnected between the PCF and the visitor node manager in step 312 of the data communication, the RP link is abnormally terminated, or the PPP is abnormally terminated between the mobile terminal and the visitor node manager. The PPP may be terminated because there is no data traffic for a predetermined time in the PPP inactivity timer, or the PPP may be terminated by the PPP absolute timer. Therefore, the session in the visitor list of the visitor node manager is released for the aforementioned reasons. The visitor node manager 302 releases the session in step 314 due to an error occurring in step 312. That is, due to an error in the lower layer, the visitor node manager 202 deletes the information transmitted in steps 122 to 220 and releases the session set up by the information. However, the home node manager 304 cannot grasp the error occurring in the lower layer and thus cannot release the session.

That is, in step 316, the session is released after the time set by the user has elapsed. The time set by the user refers to a holding time of a session established between the mobile terminal 300 and the home node manager 304 to perform the data communication. Therefore, in step 318, the home node manager 304 releases the session after the set time elapses.                         

As described above, the home node manager does not recognize that the visitor node manager releases the session due to an error occurring in the lower layer, and releases the session after the set time elapses. Therefore, it takes up unnecessary session information and resources. In addition, since the charging message is transmitted to the charging server after the set time elapses, unnecessary charging is caused. Also, when the mobile terminal attempts to reconnect, the mobile station transmits an RRQ message that attempts a new connection. In this case, when the RRP is raised to a dynamic address, that is, 0.0.0.0, and a new address is received, the home node manager that has received the RRQ message already has address assignment information for the mobile station. The connection is refused. Therefore, a method for solving the above problems is required.

Accordingly, an object of the present invention for solving the above-mentioned problems of the prior art proposes an apparatus and method for releasing a session established between the visitor node manager and the home node manager when the session established between the mobile terminal and the visitor node manager is released. It's in the ship.

Another object of the present invention is to propose an apparatus and method for preventing waste of resources by releasing unnecessary sessions established between the visitor node manager and the home node manager.                         

Another object of the present invention is to propose an apparatus and method for preventing an unfair charge from being caused by releasing unnecessary sessions established between the visitor node manager and the home node manager.

Another object of the present invention is to propose an apparatus and method for inducing rapid session establishment when a mobile terminal attempts to reconnect by releasing an unnecessary session between a visitor node manager and a home node manager for a specific mobile terminal.

Another object of the present invention is to propose an apparatus and method for improving the performance of the system by reducing unnecessary load by releasing unnecessary sessions between the visitor node management and the home node manager.

In order to achieve the above object of the present invention, if an abnormal session establishment termination reason occurs in a lower layer of a session established between the mobile terminal and the visitor node manager, the visitor node manager releases the established session with the mobile terminal. At the same time, the visitor node manager instructs the home node manager to release the session established between the visitor node manager and the home node manager. The home node manager receiving the session release command releases the established session between the visitor node manager and the home node manager when it is determined that the reason for the session release of the visitor node manager is normal.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In addition, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

4 is a diagram illustrating a process of releasing the session due to an error occurring between the mobile terminal and the visitor node manager during data communication between the mobile terminal and the home node manager according to the present invention. Hereinafter, a process of releasing the session due to an error occurred between the mobile terminal and the visitor node manager to which the present invention is applied will be described in detail with reference to FIG. 4.

4 includes a mobile terminal 400, a visitor node manager 402, and a home node manager 404. However, the data communication may include other components in addition to the mobile terminal 400, the visitor node manager 402, and the home node manager 404, but FIG. 4 clearly shows only the components according to the present invention. . The process shown in FIG. 4 is performed after the process of FIG. 1 is performed. The visitor node manager 402 of FIG. 1 stores information on the RRQ message transmitted from the mobile terminal 400 in a visitor table included in the visitor node manager 402. The home node manager 404 also stores information about the RRQ message transmitted from the visitor node manager 402 in a binding table included in the home node manager 404. That is, the visitor table and the binding table store information about mobile terminals transmitting the RRQ message and visitor mobile terminals receiving the RRQ message transmitted by the mobile terminals.                     

In step 410, the mobile terminal 400 and the home node manager 404 perform data communication by the process performed in FIG. 1. As shown in FIG. 4, the data communication is performed via the visitor node manager 402. In step 412 of the data communication, an error occurs (abnormal termination in a lower layer) between the mobile terminal 400 and the visitor node manager 402. The error is when the Point to Point Protocol (PPP) between the mobile terminal 400 and the visitor node manager 402 is terminated or when the PPP link is terminated because the PPP absolute time expires. For example, there is a case where PPP is terminated because there is no data traffic for a predetermined time in the PPP inactivity timer. In addition, the RP (RN-PDSN Interface) link between the PCF and the PDSN may be broken. In the case of the WCDMA network, the PDP context between SGSN and GGSN / FA may be abnormally terminated. The visitor node manager 402 releases the corresponding session between the visitor node manager 402 and the visitor node manager 402 in which the error occurred in step 414 due to the error that occurred in step 412. That is, due to an error in the lower layer, the visitor node manager 402 deletes the information on the corresponding session from the visitor table in which the information transmitted in step 122 is stored. Also, information about the released session is stored in a temporary memory.

In step 416, the visitor node manager 402 that releases the session transmits a release request message to the home node manager 404. A detailed description of the release request message is described in detail with reference to FIG. 5. The home node manager 404 that has received the release request message from the visitor node manager 402 in step 416 sends a release reply message, which is a response message to the release request message, to the visitor node manager 402. To send). The visitor node manager 402 receiving the release response message finds information related to the received response message among the information stored in the temporary memory and recognizes that the session requesting the release of the session is normally released. Delete the existing information. A detailed description of the release response message is given in FIG. 6. The home node manager 404 transmitting the release response message releases the session established between the visitor node manager 402 and the home node manager 404 in step 420. However, steps 418 and 420 may be performed in one process.

As described above, the user-configured session home node manager can reduce the waste of resources by requesting the visitor node manager to release the corresponding session before the release time elapses. Hereinafter, a release request message and a release response message to which the present invention is applied will be described in detail with reference to FIGS. 5 to 6.

5 is a diagram illustrating the structure of the release request message. As shown in FIG. 5, the release request messages are all composed of 16 bytes, and are composed of a plurality of areas. However, in the release request message, the number of bytes can be arbitrarily adjusted by the user's selection. The plurality of areas may include a visitor node manager (FA) address area 500 and a home node manager (HA) address area 502, a mobile terminal (MN) address area 504, and a type of 1 byte type ( 506, a flag area 508 of one byte, and a lifetime area 510 of two bytes. Hereinafter, each area will be described.

The type area 506 indicates the type of message to be transmitted. In the context of the present invention, the type is indicated as 5, but this can be arbitrarily set by the user. However, since the types 1 and 3 are already designated as the RRQ message and the RRP message described above, the types can be selected from the types excluded. The flag area 508 is all composed of 8 bits and represents the type of error occurring in the lower layer as described above. The first bit of the flag area 508 indicates an abnormal end of the RP, and the second bit of the flag area 508 indicates an abnormal end of the PPP. The third to eighth bits also mean that an error occurred in the lower layer due to another abnormal termination. Therefore, the visitor node manager finds the type of error occurring in the lower layer, and marks the corresponding bit as 1 and the remaining bits as 0. Upon receiving the session release request message, the home node manager examines the flag area 508 and stores information on a cause of release of the session.

The life time region 510 represents a maintenance time of the session. In the present invention, the session between the mobile terminal and the visitor node manager is released. Accordingly, in order to prevent waste of resources, the session between the visitor node manager and the home node manager needs to be released. In addition, the session between the visitor node manager and the home node manager needs to be released immediately. Therefore, the holding time of the session is set to 0 to instruct immediate release of the session. In general, during the session establishment process, the life time is 600 (10 minutes), which indicates that the established session is maintained for about 10 minutes. In addition, if the set session needs to last for a longer time, the mobile station resets the life time by transmitting a new RRQ message before the set life time elapses. That is, by transmitting the new RRQ message before the set 600 has elapsed, the session duration time is newly countered from zero by specifying the life time as 600 or another number.

The mobile terminal address, the visitor node manager address, and the home node manager address mean addresses of the corresponding nodes, and thus information about the session set between the visitor node manager and the home node manager in a list stored in the home node manager. You can find it and use it to release the session.

6 is a diagram illustrating a response message of a home node manager to a session release request message of the visitor node manager. Hereinafter, the structure of the session release response message to which the present invention is applied will be described with reference to FIG. 6. As shown in FIG. 5, the release request messages are all composed of 16 bytes, and are composed of a plurality of areas. However, in the release request message, the number of bytes can be arbitrarily adjusted by the user's selection. The plurality of areas includes a visitor node manager (FA) address area 600 and a home node manager (HA) address area 602, a mobile terminal (MN) address area 604, a type area 606, and a code (code). ) Area 608 and lifetime area 610. Hereinafter, each area will be described.

 The type area 606 indicates the type of message to be transmitted. In the context of the present invention, the type is indicated as 6, but it can be arbitrarily set by the user. However, types (1), (3), and (5) have already been designated as the above-described RRQ message, RRP message, and session release request message. The code area 608 is an area describing whether the session is released by the session release request message and why it is not released. That is, when the code value is 0, it means that the session is released by the session release request message. However, if a value other than the above is given as a code value, it means that the corresponding session has not been released. Also, the reason for not releasing the corresponding session by setting a constant value in the code area is described. If the session cannot be released, a handoff occurs (hereinafter referred to as code 150), or a simultaneous binding for transmitting data to a previous visitor node manager even after performing the handoff is designated (hereinafter code 151). And so on.). In such a case, the session between the visitor node manager and the home node manager needs to be maintained even if the session between the mobile terminal and the visitor node manager is released, thereby maintaining the session between the visitor node manager and the home node manager.

The life time region 610 refers to a session maintenance time as described with reference to FIG. 5. That is, when releasing the session by the session release request, the life time is displayed as zero. The mobile terminal address, the visitor node manager address, and the home node manager address mean addresses of corresponding nodes.

The home node manager retrieves the address of the mobile terminal included in the session release request message received from the visitor node manager, and is stored in the address of the visitor node manager for the mobile terminal and the binding list, and the visitor for the mobile terminal. Compare the node manager's address. If the visitor node manager's address included in the received session release request message and the visitor node manager's address stored in the binding list are the same and no other session is set for the mobile terminal; The session request message is released and the session response message indicating the flag area 508 is 0 is transmitted to the visitor node manager. In addition, if the address of the visitor node manager included in the received session release request message is the same as the address of the visitor node manager stored in the binding list and a different session is set for the mobile terminal as a result of the comparison. Since it corresponds to the code 151, it rejects the requested session release. The home node manager checks the reason for the rejection in the code area and transmits it to the visitor node manager, and the visitor node manager stores information on the reason for rejection as statistical data.

The handoff occurs when the visitor node manager's address included in the received session release request message and the visitor node manager's address stored in the binding list are not the same as the comparison result. Since it corresponds to 150, it rejects the requested session release. The home node manager checks the reason for the rejection in the code area and transmits it to the visitor node manager, and the visitor node manager stores information on the reason for rejection as statistical data.

As described above, according to the present invention, the visitor node manager and home node manager are abnormally released between the visitor node manager and the visitor node manager by transmitting and receiving a session release request message and a session release response message between the visitor node manager and the home node manager. By releasing sessions between them, you can avoid wasting unnecessary resources. In addition, by reducing the load of the home node manager, the efficiency of the system can be increased, and accurate charging can be imposed.

Claims (10)

A mobile IP includes a mobile terminal, a visitor node manager having session setting information of the mobile terminal and a home node manager, and a home node manager having session setting information of the mobile terminal and a visitor node manager. In the mobile communication system to use, in the method for releasing the session set in the home node manager, Transmitting, by the visitor node manager, a message requesting the release of the session established between the home node manager and the visitor node manager to the home node manager, recognizing that the session between the visitor node manager and the mobile terminal is released due to an abnormal cause; , The home node manager releases the session established between the home node manager and the visitor node manager according to the message requesting the release of the session, and transmits a response message to the visitor node manager. Method of releasing session resource between visitor node manager and home node manager. The method of claim 1, wherein the visitor node manager, And the visitor node manager requesting the release of the session by including the address of the mobile terminal in which the session is released, the address of the visitor node manager, and the address of the home node manager in the message requesting the release of the session. How to release session resources between home node managers. 3. The visitor node manager of claim 2, The session resource release method between the visitor node manager and the home node manager comprising the reason why the session established between the mobile terminal and the visitor node manager is released in the message requesting the release of the session. The method of claim 3, wherein the home node manager, And comparing the visitor node manager address included in the message requesting the release of the session with the stored visitor node manager address, and determining whether the mobile station performs a handoff by the comparison. Session resource release method between the visitor node manager and the home node manager. The method of claim 4, wherein if it is determined that the mobile terminal performs the handoff, And the home node manager maintains a session established between the visitor node manager and the home node manager and transmits the information about the session in the response message. A mobile IP includes a mobile terminal, a visitor node manager having session setting information of the mobile terminal and a home node manager, and a home node manager having session setting information of the mobile terminal and a visitor node manager. In the mobile communication system to use, the device for releasing the session set in the home node manager, The visitor node manager, upon recognizing that the session between the visitor node manager and the mobile terminal is released due to an abnormal cause, transmitting a message requesting the release of a session established between the home node manager and the visitor node manager to the home node manager; And a home node manager for releasing a session established between the home node manager and the visitor node manager by a message requesting the release of the session, and transmitting a response message to the visitor node manager. Device for releasing session resource between node manager and home node manager. 7. The visitor node manager of claim 6, And the visitor node manager requesting the release of the session by including the address of the mobile terminal in which the session is released, the address of the visitor node manager, and the address of the home node manager in the message requesting the release of the session. Device that releases session resources between home node managers. The method of claim 7, wherein the visitor node manager, The session resource release device between the visitor node manager and the home node manager includes a reason for releasing the session set between the mobile terminal and the visitor node manager in the message requesting the release of the session. The method of claim 8, wherein the home node manager, And comparing the visitor node manager address included in the message requesting release of the session with the stored visitor node manager address, and determining whether the mobile station performs handoff by the comparison. Device for releasing session resources between an administrator and a home node manager. The method of claim 9, wherein the home node manager, If it is determined that the mobile terminal performs the handoff, the visitor node manager and the home node manager maintain a session established between the visitor node manager and the home node manager and include information on the response message in the response message. Device for releasing session resources between sessions.

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