KR100497684B1 - System and Method For Mapping QoS Parameters - Google Patents

Abstract

The present invention relates to a system and method for mapping quality of service parameters, and includes a session establishment protocol (SIP) in a Universal Mobile Telecommunication System (UMTS) All-IP service including a portable terminal and a packet switching device (SGSN). A policy control function (PCF) for mapping authentication IP quality-of-service (QoS) parameters from session format protocol (SDP) parameters obtained through signaling and passing them through an interface; After the authentication UMTS QoS parameters are obtained according to the mapping data transmitted from the PCF, the packet gateway device (GGSN) configured to compare the QoS requested by the portable terminal to perform the authentication of the requested session. By setting and mapping the relevant QoS parameters between IMS and GPRS level according to the addition of IMS application, it is possible to guarantee high quality service to users and manage them in the network.

Description

System and Method For Mapping QoS Parameters

The present invention relates to a service quality parameter mapping system and method, and more particularly to a corresponding parameter for managing quality of service (QoS) when providing a universal mobile telecommunication system (UMTS) All-IP service. And a system and a method for mapping at a GPRS level.

In general, in order to guarantee the quality of all-IP services, authentication is performed by performing session establishment protocol (Session Initiation Protocol (SIP) and session description protocol (SDP) level call establishment signaling in the IMS domain. There is a need for a rule to map QoS parameters to UMTS QoS parameters for application at the GPRS bearer level.

This mapping rule is not present in the existing UMTS (GPRS) standard. It is a newly introduced mechanism as the IMS application is added, and the primary mapping is applied to the policy control function by the application QoS parameter to the IP level QoS parameter. After a function (PCF), it is sent to a Gateway GPRS System Node (GGSN) to perform mapping to GPRS QoS parameters.

Similar to the QoS parameter mapping in the network as described above, the mapping process occurs in the terminal, and the application parameter of the terminal directly maps to the UMTS QoS parameter, which is released by the manager who manages the IP QoS in the intermediate stage. This is because it is not mandatory in Release 5. That is, in the conventional SIP / SDP-based service, there is no framework structure and QoS parameter mapping rule that can pass QoS parameters between the application layer processing SIP / SDP signaling and the bearer layer processing actual media. Therefore, there is no means for delivering and mapping media information agreed upon through signaling at the application layer to the bearer system that actually needs to process it. Therefore, it is impossible to accurately secure resources necessary for providing services in a timely manner. Cause problems.

Accordingly, the present invention has been made to solve the above-mentioned problems, and provides a system and method for setting and mapping related QoS parameters between IMS and GPRS levels according to the addition of an IMS application when providing an All-IP service. The purpose is.

The service quality parameter mapping system of the present invention for achieving the above object is a system for mapping quality of service (QoS) parameters in a universal mobile communication system (UMTS) including a portable terminal and a packet switching device (SGSN), A policy control function (PCF) for mapping authentication IP quality of service (QoS) parameters from session format protocol (SDP) parameters obtained through session establishment protocol (SIP) signaling and passing them through an interface; A packet gateway device (GGSN) that obtains an authentication UMTS QoS parameter according to mapping data transmitted from the policy control function unit (PCF), and then compares the QoS requested by the portable terminal to perform the authentication of the requested session. Characterized in that it comprises a.

In addition, the quality of service parameter mapping method of the present invention is a method for mapping quality of service (QoS) parameters in a universal mobile communication system (UMTS) including a portable terminal and a packet switching device (SGSN), which is obtained through SIP signaling. Performing a PCF mapping the authentication IP QoS parameters from the SDP parameters and delivering them to the GGSN via an interface; A mapping step of calculating an authentication UMTS QoS parameter according to a mapping rule that sets the authentication IP QoS parameter; And performing an authentication of the requested session by comparing the value calculated in the mapping step with the QoS requested by the portable terminal.

Hereinafter, an operation process of an embodiment according to the present invention will be described with reference to the accompanying drawings.

1 is a view showing the overall configuration of a quality of service parameter mapping system according to an embodiment for applying the present invention.

Referring to FIG. 1, the quality of service parameter mapping system includes a portable terminal 100; A policy control function unit (PCF) 200; And a packet gateway device (GGSN, 300).

The packet gateway device (GGSN) 300 includes an IP bearer service manager 310 which receives an authentication IP QoS parameter secured through SIP signaling from the PCF 200; A conversion / mapping unit 320 which receives the authentication IP QoS parameter from the IP BS manager 310 and calculates the authentication UMTS QoS parameter according to a preset mapping rule; The UMTS BS manager 330 performs authentication of the requested session by comparing the calculated value of the transform / mapping unit 320 with the QoS requested by the terminal.

The portable terminal 100 maps the UMTS QoS parameters using the SDP parameters, and in particular, obtains the authentication UMTS QoS parameters when the SDP belongs to an IMS (IP Multimedia Subsystem) session.

Hereinafter, an operation process according to another embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is an exemplary view showing an operation flow according to FIG. 1. First, as shown in FIG. 1, the UMTS QoS parameter calculated by the portable terminal 100 is used in a PDP context activation procedure for supporting a corresponding IMS session. It is included in the required QoS parameter and sent to the GGSN 300 (S11), and the GGSN 300 must perform bearer setup procedure to authenticate the requested QoS parameter to ensure appropriate quality of service.

In order to authenticate the requested QoS, the GGSN 300 maps the authentication IP QoS parameters from the session format protocol (SDP) parameters already obtained through signaling in the PCF 200 (S10), so that the IP BS manager ( In step S12, the authentication UMTS QoS parameter is calculated according to the mapping rule set based on the received information (S12).

As shown in FIG. 3, the mapping UMTS QoS parameter includes a maximum authenticated downlink and uplink bandwidth, a maximum authenticated traffic class, and the maximum authenticated downlink and uplink bandwidth. Is equal to the maximum authorized downlink and uplink data rate.

In addition, the configured mapping rule specifies that the maximum authenticated traffic class is a 'conversational' class when the maximum authenticated differentiated service (Diffserv) PHB (Per Hop Behavior) is progressive forwarding. If the maximum certified Diffserv PHB is Assured Forwarding 4 (AF4), it is designated as a 'Streaming' class. If the maximum certified Diffserv PHB is AF3 ((Assured Forwarding 3), it is designated as an 'Interactive' class. In this case, the maximum authorized traffic class is designated as 'background' class.

Thereafter, the UMTS BS manager 330 compares the value calculated by the conversion / mapping unit 320 with the QoS requested by the portable terminal 100 to perform authentication of the requested session. The process will be described in detail. First, it is determined whether the requested QoS is within the authorized QoS range, and if it is within the determination result range, the corresponding PDP context activation or modification request is approved (S14).

However, if the determination result is not within the range, the PDP context is rejected or the requested QoS value is downgraded.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be appreciated.

As described above, the present invention provides a service quality parameter mapping system and method for providing a high quality service to a user by providing a method for setting and mapping related QoS parameters between IMS and GPRS levels according to the addition of an IMS application when providing an All-IP service. It can be guaranteed, and it can manage it in the network.

1 is an exemplary view showing the overall configuration of a quality of service parameter mapping system according to an embodiment for applying the present invention.

2 is an exemplary view showing an operation flow according to FIG.

3 is a diagram showing an example of a mapping rule according to the present invention;

<Description of Symbols for Main Parts of Drawings>

100: portable terminal 200: policy control function (PCF)

300: packet gateway device (GGSN) 310: IP BS manager

320: conversion / mapping unit 330: UMTS BS Manager

Claims (12)

A system for mapping Quality of Service (QoS) parameters in a Universal Mobile Telecommunications System (UMTS), including a portable terminal and a packet switched device (SGSN), A policy control function (PCF) for mapping authentication IP quality of service (QoS) parameters from session format protocol (SDP) parameters obtained through session establishment protocol (SIP) signaling and passing them through an interface; A packet gateway device (GGSN) that obtains an authentication UMTS QoS parameter according to mapping data transmitted from the policy control function unit (PCF), and then compares the QoS requested by the portable terminal to perform the authentication of the requested session. Quality of service parameter mapping system comprising a. The method of claim 1, The packet gateway device (GGSN) An IP bearer service (BS) manager receiving the authentication IP QoS parameters secured through SIP signaling from the PCF; A conversion / mapping unit which receives the authentication IP QoS parameter from the IP BS manager and calculates the authentication UMTS Qos parameter according to a preset mapping rule; And a UMTS BS manager configured to perform authentication of the requested session by comparing the calculated value of the transform / mapping unit with the QoS requested by the portable terminal. The method of claim 1, The portable terminal is a quality of service parameter mapping system, characterized in that for mapping the UMTS QoS parameters using the SDP parameters. The method of claim 3, And the portable terminal obtains an authentication UMTS QoS parameter when the SDP belongs to an IMS (IP Multimedia Subsystem) session. The method of claim 2, The UMTS BS manager approves the corresponding PDP context activation or modification request if the requested QoS is within the authenticated QoS range, and rejects the PDP context or rejects the requested QoS value if the value is not within the range. Quality of service parameter mapping system characterized by downgrading. The method of claim 2, The authenticated UMTS QoS parameter includes a maximum authorized downlink and uplink bandwidth and a maximum authenticated traffic class. The method of claim 6, And the maximum authenticated downlink and uplink bandwidth is equal to the maximum authorized downlink and uplink data rate. A method for mapping quality of service (QoS) parameters in a universal mobile telecommunications system (UMTS), including a portable terminal and a packet switched device (SGSN), Performing a PCF mapping the authentication IP QoS parameters from the SDP parameters obtained through the SIP signaling to the GGSN via the interface; A mapping step of calculating an authentication UMTS QoS parameter according to a mapping rule that sets the authentication IP QoS parameter; And performing an authentication of the requested session by comparing the value calculated in the mapping step with the QoS requested by the portable terminal. The method of claim 8, The authentication step is Determining whether the requested QoS is within an authorized QoS range; A second step of approving the PDP context activation or modification request if it is within the determination result range of the first step; And a third step of rejecting the PDP context or downgrading the requested QoS value if the value of the first step is not within the corresponding range. The method of claim 8, The authenticated UMTS QoS parameter includes a maximum authorized downlink and uplink bandwidth, and a maximum authorized traffic class. The method of claim 10, The maximum authorized downlink and uplink bandwidth is the same as the maximum authorized downlink and uplink data rate. The method of claim 8, The mapping rule is Designating a maximum authenticated traffic class as a 'conversational' class if the maximum differentiated service (Diffserv) PHB (Per Hop Behavior) is Advanced Forwarding (EF); Designating a 'streaming' class if the maximum authenticated Diffserv PHB is Assured Forwarding 4 (AF4); If the maximum authenticated Diffserv PHB is AF3 (Assured Forwarding 3), designating it as an 'interactive' class; If the maximum authenticated Diffserv PHB is other than EF, AF4, or AF3, specifying the maximum authenticated traffic class as a 'background' class.