KR100752475B1 - Quality of Service information processing of PDSN system - Google Patents

Abstract

The present invention is to support QoS according to a user profile of a mobile terminal when a virtual private network (VPN) is connected to an L2TP network server (LNS) in a PDSN system having an L2TP access concentrator (LAC) function for data communication of the mobile terminal. A method for processing quality of service information of a packet data service node system, comprising: requesting user authentication from a PDSN system when a call initiation request of a mobile terminal occurs; Providing, by the AAA, quality of service information of the mobile terminal to the PDSN system according to the user profile; The PDSN system includes a step of setting QoS-related attribute value pairs when establishing a tunnel and a session with a network server, and the PDSN system can provide QoS information according to a user profile of a mobile terminal. Accordingly, the QoS information of the mobile terminal is transmitted to the PDSN system so that tunnel and session agreement between the PDSN system and the LNS can be performed based on the QoS.

Description

Quality of Service information processing method of packet data service node system {Quality of Service information processing of PDSN system}

1 is a flow chart of a method of providing quality of service according to the prior art.

2 is an operational block diagram of a packet data service node system to which the present invention is applied.

3 illustrates the format of a control connection DS attribute value pair and a session DS attribute value pair in accordance with an embodiment of the present invention.

4 is a diagram showing a DS value encoding state according to an embodiment of the present invention;

5 is a flowchart of a service quality information processing method of a packet data service node system according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

210: mobile terminal 220: PDSN system

230: AAA 240: LNS

The present invention relates to processing of Quality of Service (QoS) information in a Packet Data Service Node (PDSN) system, and more particularly, to an L2TP access concentrator (L2TP) for data communication of a mobile terminal. The present invention relates to a method for processing quality of service information of a packet data service node system suitable for a PDSN system having an access concentrator (LAC) function.

The need for support for real-time applications (eg, voice / video conferencing equipment, game applications, etc.) over the Internet required the provision of some form of differentiated service. As such, those skilled in the art are defining new protocols for providing quality of service (QoS) to Internet users.

The prior art related to the provision of service quality information is Patent Application No. 10-2000-008973 (published patent application No. 2000-0076720, cited below), and reference materials draft-ieft-l2tpext-ds-03, RFC2474, RFC2475 , RFC2597, RFC2598, RFC2983, and the like.

One example of using the Internet as a means of communication is an improved data backbone that joins workgroups together to provide what is referred to as a virtual private network (VPN). One application of a VPN is in a corporate environment where employees can remotely access a corporate data network, eg at home via the Internet. Although VPNs use public facilities, they provide security and authentication to allow remote users to join closed user groups. Indeed, the use of a VPN provides a medium such as WIN to companies and their employees.

To provide a VPN, tunneling protocols such as, for example, Point-to-Point Tunneling Protocol (PPTP) and Layer 2 Transport (L2F) protocols are used. Generally speaking, the tunneling protocol allows the creation of a private data stream over a public network by arranging one packet within another packet. In the environment of a VPN, one IP packet is arranged within another IP packet. So the Layer 2 Tunneling Protocol (L2TP) was developed, where the Internet Engineering Task Force (IETE) is a hybrid of PPTP and L2F.

1 is a flowchart related to a method for providing a quality of service according to the prior art described in the above cited document.

According to Fig. 1, the remote user initiates a PPP (Point-to-Point Protocol) connection to ISP A via the PSTN (S205).

In step S210, the LAC partially authenticates the user using a predefined username and password and then accepts the connection. If the LAC does not authenticate the user, the connection will not be accepted.

In step S215, the LAC negotiates whether a remote user requires the use of a VPN service. This choice relates to individual requests from users sent directly through the pop-up hypertext transfer protocol http and / or directly associated with specific user names. If the remote user does not require a virtual dial-up service, the LAC provides standard Internet access at step S220. However, if the remote user wants to use a VPN, the LAC checks the associated LNS at step S225.

The LAC stores a VPN table, which is a user ID with a network server that supports a particular LNS-L2TP with which a priority is involved. A remote user coupled to a PC joins an LNS with an Internet Protocol (IP) address.                         

In step S230, the LAC checks whether a tunnel exists between itself and the LNS.

If no tunnel connection currently exists between the LAC and the LNS, the tunnel is negotiated in step S235. If there is a tunnel between the LAC and the LNS, in step S240 the LAC performs all call admission control, if the call is accepted, assigns a new call ID, and LNS the VPN request over the local network, router, and the Internet. Session is initiated by the LNS. In this request, the LAC passes the user identification information to the LNS.

The above description is taken from the above cited reference, and other descriptions are according to the corresponding technical details.

However, a PDSN system that provides a VPN service using L2TP provides a best effort service regardless of a user profile of a mobile terminal. Therefore, it is required to support QoS according to the user profile of the mobile terminal.

The present invention was created to solve the above-mentioned conventional problems, and an object of the present invention is to provide an L2TP network server (L2TP network server) in a PDSN system having an L2TP access concentrator (LAC) function for data communication of a mobile terminal. It is to provide a service quality information processing method of a packet data service node system that supports QoS according to a user profile of a mobile terminal when a virtual private network (LPN) is connected through an LNS.

The service quality information processing method of the packet data service node system of the present invention for achieving the above object comprises the steps of: a PDSN system requesting user authentication when a call initiation request of a mobile terminal occurs; Providing, by the AAA, quality of service information of the mobile terminal to the PDSN system according to a user profile; And setting, by the PDSN system, a QoS-related attribute value pair in tunnel setup and session setup with a network server.

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

2 is a block diagram illustrating an operation of a packet data service node system to which the present invention is applied. FIG. 3 is a structure diagram of a format of a control connection DS attribute value pair and a session DS attribute value pair according to an embodiment of the present invention. FIG. 5 is a flowchart illustrating a method of processing quality of service information of a packet data service node system according to an embodiment of the present invention.

According to FIG. 2, the present embodiment is a L2TP Network Server (LNS) which is a network server supporting a user's mobile terminal 210, a PDSN system 220, an AAA (Administration, Authorization, and Authentication) 230, and L2TP ( 240). AAA 230 collects information for user authentication and billing.

In this configuration, the PDSN system 220 obtains QoS information of the mobile terminal 210 from the AAA 230 that stores the user profile of the mobile terminal 210. The PDSN system 220 establishes QoS-related attribute value pairs (AVPs) in the LNS 240 and L2TP tunnel and session establishment phases, according to the differentiated service class option attributes in this user profile.

Qos-related attribute value pairs (AVPs) are differentiated service (DS) values using the control connection DS attribute value pairs (DS AVP) and session DS attribute value pairs defined in draft-ietf-l2tpext-ds-03. Is exchanged with the LNS 240.

The Control Connection DS AVP includes a Control Connection Request (SSCCRQ) and a Control Connection Response (SSCCRP). The Session DS Attribute Value Pair (Session DS AVP) includes an Input Call Request (ICRQ) and an Input Call. Includes the response (ICRP).

According to Fig. 3, the control connection DS attribute value pair format and the session DS attribute value pair format include a length field, a vendor ID field, an attribute type field, and a DS value. Contains fields.

DS value encoding can be classified into a case of using a PHB according to the Internet standard and a case of using a PHB not defined in the Internet standard. FIG. 4A illustrates encoding in the case of using a PHB according to the Internet standard, and (b) illustrates encoding in the case of using a PHB not defined in the Internet standard.

A procedure of processing QoS information in the PDSN system 220 will be described with reference to FIGS. 2 and 5.

first. The user makes a call through the mobile terminal 210. For example, if there is a call initiation of the mobile terminal 210, the call is transmitted through a point-to-point (PPP) connection between the mobile terminal 210 and the PDSN system 220 and received by the PDSN system 220 (S51). ).                     

The PDSN system 220 receives the call of the mobile terminal 210 and performs a user authentication process for the user of the mobile terminal 210 to determine whether the service. For this purpose, user authentication is first performed. User information necessary for user authentication is managed by the AAA 230. Therefore, the PDSN system 220 requests the user's authentication for the AAA 230 when the call of the mobile terminal 210 occurs (S52).

In a general case, the AAA 230 that is requested to authenticate a user from the PDSN system 220 determines whether to authenticate the corresponding user based on the user information held by the PDSN system 220.

In the present embodiment, in addition to the user authentication transmitted during the PPP configuration between the PDSN system 220 and the mobile terminal 210, the AAA 230 transmits QoS information to the PDSN system 220 along with the relevant information according to the user profile. Do it. By providing the QoS information to the PDSN system 220, the PDSN system 220 can provide a quality service corresponding to the QoS, away from the existing maximum effort service (S53).

That is, when the PDSN system 220 receives the QoS information, the PDSN system 220 establishes a tunnel and session with the LNS 240 to set a corresponding QoS related attribute value pair. Tunnel and session establishment between the PDSN system 220 and the LNS 240 is performed using the DS attribute value pair formats of FIG. 3 described above, where the encoding of the DS value is performed in the manner as shown in FIG. ).

When the attribute value pair is set, the PDSN system 220 may exchange the encoded DS value with the LNS 240 (S55).

It is therefore possible to support negotiated tunnels with different quality of service (QoS) requirements in L2TP control messages, and attribute value pairs (AVPs) necessary for their use are established.

For example, a virtual private network (VPN) service may be provided that negotiates a tunnel to a network server that provides access to a private intranet, allowing remote access to the private network through a tunnel that supports special QoS. .

As described above, the present embodiment can provide QoS that was not provided by the conventional PDSN system 220 by using the AVP of the Internet draft.

Therefore, the QoS information of the mobile terminal 210 is transmitted from the AAA 230 to the PDSN system 220 together with related information when establishing a point-to-point (PPP) with the PDSN system 220, and uses the data. The PDSN system 220 will be able to make tunnel and session agreements with the LNS 240.

The embodiments described above are within the scope of various changes, modifications, and equivalents of the present invention. Therefore, the present invention is not limited to the description of the examples.

According to the service quality information processing method of the packet data service node system of the present invention, the PDSN system can provide QoS information according to the user profile of the mobile terminal.

Accordingly, the QoS information of the mobile terminal is transmitted to the PDSN system so that tunnel and session agreement between the PDSN system and the LNS can be performed based on the QoS.

Claims (2)

Requesting user authentication by the PDSN system when a call initiation request of the mobile terminal occurs; Providing, by the AAA, quality of service information of the mobile terminal to the PDSN system according to a user profile; And setting, by the PDSN system, QoS-related attribute value pairs when establishing a tunnel and a session with a network server. The method of claim 1, The differentiated service class option attribute is included in the user profile, and the PDSN system sets the QoS related attribute value pair according to the differentiated service class option attribute. How quality information is processed.

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