CN100433890C - Implementation method of mobile data service using dynamic service quality control - Google Patents

Abstract

The present invention discloses a realizing method using the mobile data service of dynamic service quality control. The method bears application layer signaling between a user terminal and an application server and medium streams with different service quality through a load bearing passage of an independent wireless network; a mechanism transmitting binding information from the application server to the user terminal is increased in the initial establishment process of the application layer signalling; the control of a dynamic service quality policy on the basis of the service is used for increasing user's satisfaction degrees to data service and striving for more income for operators.

Description

Implementation method of mobile data service using dynamic service quality control

technical field

The invention relates to mobile communication technology, in particular to a method for realizing mobile data using dynamic service quality control.

Background technique

With the combination of mobile communication technology and Internet technology, the use of mobile data services will become more and more extensive. To provide users with reliable end-to-end service quality assurance is one of the most concerned issues of every operator.

The packet domain of the Wideband Code Division Multiple Access (WCDMA) system provides users with four types of data services: conversational, streaming, interactive and background. Each service has different requirements in terms of transmission delay, jitter, bit error rate, retransmission mechanism, etc., that is, each service has different quality of service (QoS) levels. When a user terminal (UE) needs data services, it initiates a PDP Context activation request carrying QoS parameters, and the network can adjust the QoS parameters according to user subscription information and service attributes, that is, QoS parameters are negotiated between the terminal and the network.

The existing end-to-end QoS enhancement solution proposed by the 3rd Generation International Standardization Organization (3GPP) is mainly realized through service-based dynamic QoS policy control, and its network structure is shown in FIG. 1 . The network structure of business-based dynamic QoS policy control includes application server, policy controller, gateway GPRS support node (GGSN), UE and external IP backbone network. The connection among GGSN, UE, policy controller and application server is realized through binding mechanism (BindingMechanism). The policy controller generates binding information including the authentication token and the flow identifier, and transmits the generated binding information to the application server, and the application server transmits the binding information to the UE through application layer signaling. The UE sends the binding information to the GGSN through the PDP Context activation and modification message, which is used to associate the PDP Context bearer with the service policy information related to the IP flow provided by the policy controller. At the same time, the GGSN uses the binding information to obtain the policy controller address.

At present, data services satisfying the network framework based on dynamic QoS policy control of services include IP multimedia services based on Session Initiation (SIP) protocol and packet flow services based on Real Time Streaming (RTSP) protocol. For IP multimedia services, the application server corresponds to the Proxy Call State Controller (P-CSCF) of the IP Multimedia Subsystem (IMS), and the application layer protocol between the P-CSCF and the user terminal UE is the SIP protocol. For the packet streaming service, the application server corresponds to the packet streaming media server, and the application layer protocol between the packet streaming media server and the UE is the RTSP protocol, which needs to be extended.

In addition to IP multimedia services and packet stream services, most of the current mobile packet data services do not use independent bearer channels for control information and media streams between mobile user terminals and application servers, such as multimedia message services, games, instant messages, File download, etc., control information interaction and message content are carried in the same PDP context. Moreover, when the user has multiple data services in parallel, such as the user terminal communicates with one or more application servers at the same time to perform services such as file download, game, web browsing, multimedia message communication, and instant message, the QoS requirements of these services are different. But carried in the same PDP context. Therefore, dynamic QoS policy control based on services cannot be applied.

To sum up, the QoS control mechanism of the mobile packet network in the prior art can only perform QoS control with PDP context as the minimum granularity. The existing data service model cannot guarantee that different QoS control signaling and multiple media streams are carried by independent PDP contexts, so dynamic QoS policy control based on services cannot be realized.

Contents of the invention

In view of this, the main purpose of the present invention is to provide a method for implementing mobile data services using dynamic service quality control, and provide service QoS guarantees for users by applying service-based dynamic QoS policy control.

A method for implementing a mobile data service applying dynamic service quality control provided by the present invention includes:

A. After the GGSN receives the control signaling sent by the user terminal through the signaling bearer channel, it selects a policy controller, and the policy controller generates binding information and sends it to the application server. The application server includes the binding information in the application layer information The command is sent to the user terminal;

B. The application layer signaling communication is performed between the user terminal and the application server. The user terminal judges whether it is necessary to establish a media stream bearing channel according to the service characteristics of the application layer signaling, and if necessary, establishes a corresponding service characteristic according to the instruction One or more media stream bearer channels, different QoS service types establish different media stream bearer channels, and the GGSN uses the binding information from the user terminal to link the media stream bearer channel with the service policy corresponding to the IP stream provided by the policy controller Information association, otherwise, jump out of this process;

C. Perform media stream transmission between the user terminal and the application server; the application server communicates with the policy controller, and performs dynamic service quality control on the media stream bearing channel corresponding to the service characteristics through the policy controller, and sends the corresponding service policy information It is delivered to the GGSN, and the GGSN performs dynamic service quality control.

The service characteristics in the application layer signaling in step B include service type and service quality parameters.

The binding information includes an authentication token, a flow identifier and a policy controller identifier.

The dynamic service quality control in step C includes: after the GGSN receives the service policy information issued by the policy controller, as a policy enforcement point, the GGSN initiates the process of opening, modifying or closing the media stream bearer channel to the user terminal.

Before step A is performed, the method may include:

A1. Determine whether the user terminal has established a signaling bearer channel with the network side. If it has been established, then perform step A2. Otherwise, the user terminal establishes a signaling bearer channel with the network side; A2. Determine whether the bearer channel meets the application layer signaling If the service quality requirement of the bearer is met, the user terminal marks the bearer channel as a signaling bearer channel; otherwise, the user terminal establishes a signaling bearer channel with the network side.

In step A2, whether the service quality requirement carried by the application layer signaling is satisfied is judged from the aspects of bandwidth, real-time performance, and retransmission mechanism. The present invention bears the application layer signaling between the user terminal and the application server and media streams of different service qualities through an independent wireless network bearer channel, and increases the transfer binding from the application server to the user terminal in the initial establishment process of the application layer signaling Information mechanism, and application of business-based dynamic QoS policy control, thereby improving user satisfaction with data services and striving for more revenue for operators.

Description of drawings

Figure 1 is a general network framework based on service-based dynamic QoS policy control;

Fig. 2 is a schematic flow chart for realizing the method of the present invention.

Detailed ways

The technical solution of the present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

The present invention provides service QoS guarantees for users by using independent PDP context bearer channels through different QoS control signaling and media streams.

Referring to shown in Figure 2, realizing the method of the present invention comprises the following steps:

Step 201: According to actual needs, UE determines whether to establish a bearer channel for signaling; if necessary, establish an independent PDP context, and then send application layer signaling through the PDP context; if not, transmit through the existing PDP context Application layer signaling.

Step 202: After receiving the application layer signaling of the UE, the GGSN selects a policy controller, and the policy controller generates binding information including the authentication token, the flow identifier and the policy controller identifier, and sends the generated binding information passed to the application server. Here, the binding information is used to associate the PDPContext bearer of the media flow with the service policy information related to the IP media flow provided by the policy controller.

Step 203: The UE performs application layer signaling interaction with the application server through the signaling bearer channel, and the application server transmits the binding information to the UE through the application layer signaling. The application layer signaling includes service characteristics, that is, media stream types and corresponding QoS parameters, etc.

Step 204: The UE establishes several bearer channels with different QoS for the media stream according to the service characteristics included in the application layer signaling interaction; the number of media stream bearer channels that need to be established is related to the QoS parameters of the media stream, and generally different QoS service types need to be established Different bearer channels. And the UE sends the binding information to the GGSN when the bearer channel is established, and the GGSN finds the address of the policy controller through the binding information sent by the UE, and combines the media flow PDP Context bearer channel with the service policy information related to the IP flow provided by the policy controller Associated.

Step 205: The UE transmits the media stream with the application server through the signaling bearer channel, and at the same time, there may be signaling interaction at the application layer.

Step 206: The application server communicates with the policy controller when necessary, performs dynamic service quality control on the media stream bearing channel through the policy controller, and sends relevant service policy information to the GGSN for execution by the GGSN. The GGSN initiates processes such as QoS modification or deletion of the media stream bearer channel.

The basic principles of the above mobile data service implementation process are as follows:

(1) The data service communication between the user terminal and an application server is divided into two parts: the first is control information interaction, such as SIP signaling interaction of IP multimedia services, RTSP signaling interaction of packet stream services, multimedia message client server Interface signaling interaction, etc., different types of business control signaling is also different; then the transmission of media stream content, such as IP multimedia service media stream, streaming media content, multimedia message content, download file content, etc.; in the process of media stream transmission , and at the same time, there can be control information interaction.

(2) Bearing of control information: the user terminal activates a PDPcontext dedicated to carrying control information. When the user has multiple data services at the same time, if the access point name APN is the same, that is, through the same GGSN, multiple control information can be transmitted Use the same PDP context to carry, otherwise use multiple PDP contexts to carry. The main reason is that the control information of different services has many common characteristics, such as small bandwidth, high real-time requirements, and a retransmission mechanism to ensure reliable transmission. Since all services are initiated by the user terminal, the user terminal needs to be able to identify the PDP context dedicated to carrying control information.

(3) Bearing of media streams: The user terminal activates one or more PDP contexts for media stream bearing according to the service characteristics of the application layer, carrying different service QoS parameters. For IP multimedia services, the QoS requirements of different media such as voice and picture are completely different, and the user terminal can activate multiple PDPcontexts to carry media streams.

(4) Application of dynamic QoS policy control: Since media streams of different QoS are carried by independent PDP context, the conditions for applying 3GPP's service-based dynamic QoS policy control are met. The connection among GGSN, UE, policy controller and application server is realized through binding mechanism. The binding information includes the authentication token and the flow identifier, is generated by the policy controller, includes the identifier, and is transmitted to the application server, and the application server transmits it to the UE through application layer signaling. The UE sends the PDP Context activation and modification message to the GGSN to associate the PDP Context bearer with the service policy information related to the IP flow provided by the policy controller. At the same time, the GGSN uses the binding information to obtain the policy controller address. According to the business characteristics understood by the application server and the QoS policy in the policy controller, dynamic QoS control is performed on the PDP context carrying the media stream, and the GGSN is the QoS policy enforcement point to dynamically adjust the QoS.

(5) The need for application layer control signaling: (A) The application server is required to transmit the binding information to the user terminal. Business policy information is associated. This is a new requirement for current data service application layer signaling; (B) establish an independent PDP context for control signaling and media stream bearing, generally speaking, it is determined by the user terminal itself. Another way is that the application server decides whether to create a new PDP context for the media stream bearer, and indicates to the user terminal through the application layer control signaling, and the user terminal creates a new PDP context for the media stream bearer according to the instruction of the application server.

(6) Requirements for user terminals: establish an independent PDP context for control signaling and media stream bearing different QoS requirements. When there are multiple data services in parallel, if the access point name is the same as APN, that is, through the same GGSN, the control signaling can be carried by the same or different PDP context; otherwise, it can be carried by different PDP contexts, requiring the user terminal to identify Control the PDP context of information; create multiple PDP contexts for media streams with different QoS; if there are media streams with the same QoS requirements and pass through the same GGSN, the same PDP context can also be used to carry, which can save network resources. When the user terminal is implemented internally, the service application layer and the bearer layer need to have an interface, and the operations and parameters of the bearer layer are controlled according to the information of the application layer.

(7) Consideration of creating a new PDP context: For the control signaling and media flow of the same service, generally speaking, only the QoS parameters are different. When more than one PDP context is needed, one or more Second PDP contexts can be created instead of Create a completely independent PDP context. When a user has multiple services in parallel, if the access point names are the same APN, that is, through the same GGSN, multiple Second PDP contexts can be created, or completely independent PDP contexts can be created for different services. The former can properly save network resources. When a user has multiple services in parallel, if the access point names are different APNs, that is, through different GGSNs, only completely independent PDP contexts can be created for different services.

Claims (6)

1. An implementation method of a mobile data service using dynamic service quality control, applied in a network structure comprising GGSN, application server and policy controller, characterized in that the method comprises: A. After the GGSN receives the control signaling sent by the user terminal through the signaling bearer channel, it selects a policy controller, and the policy controller generates binding information and sends it to the application server. The application server includes the binding information in the application layer information The command is sent to the user terminal; B. The application layer signaling communication is performed between the user terminal and the application server. The user terminal judges whether it is necessary to establish a media stream bearing channel according to the service characteristics of the application layer signaling, and if necessary, establishes a corresponding service characteristic according to the instruction One or more media stream bearer channels, different QoS service types establish different media stream bearer channels, and the GGSN uses the binding information from the user terminal to link the media stream bearer channel with the service policy corresponding to the IP stream provided by the policy controller Information association, otherwise, jump out of this process; C. Perform media stream transmission between the user terminal and the application server; the application server communicates with the policy controller, and performs dynamic service quality control on the media stream bearing channel corresponding to the service characteristics through the policy controller, and sends the corresponding service policy information It is delivered to the GGSN, and the GGSN performs dynamic service quality control. 2. The method according to claim 1, wherein the service characteristics in the application layer signaling in step B include service type and service quality parameters. 3. The method according to claim 1, wherein the binding information includes an authentication token, a flow identifier and a policy controller identifier. 4. The method according to claim 1, wherein the dynamic service quality control in step C comprises: after the GGSN receives the service policy information issued by the policy controller, as a policy enforcement point, the GGSN initiates an open service to the user terminal , Modify or close the process of media stream bearing channel. 5. The method according to claim 1, characterized in that, before performing step A, the method comprises: A1. Determine whether the user terminal has established a signaling bearer channel with the network side, and if so, perform step A2, otherwise, establish a signaling bearer channel between the user terminal and the network side; A2. Determine whether the bearer channel meets the quality of service requirements of the application layer signaling bearer. If so, the user terminal marks the bearer channel as a signaling bearer channel. Otherwise, the user terminal establishes a signaling bearer channel with the network side. 6. The method according to claim 5, wherein in step A2, whether the quality of service requirement carried by the application layer signaling is satisfied is judged from aspects of bandwidth, real-time performance, and retransmission mechanism.

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