CN1859300A

CN1859300A - Method for transmitting multiple service quality service stream for mobile terminal users

Info

Publication number: CN1859300A
Application number: CNA200610001922XA
Authority: CN
Inventors: 蒋铭
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2006-01-19
Filing date: 2006-01-19
Publication date: 2006-11-08
Anticipated expiration: 2026-01-19
Also published as: CN100433720C

Abstract

The present invention discloses transmitting multiple service quality traffic stream method for mobile terminal user. It contains establishing one grouped data protocol tunnel between wireless access network and gateway universal grouping wireless service supporting node GGSN for each mobile terminal user; GGSN labeling said service quality QoS corresponded mark on Differentiated Services Code Point DSCP in different traffic stream corresponded IP head; through tunnel transmitting said mobile terminal user's different DSCP labeled IP traffic stream; service universal grouping wireless service supporting node SGSN and wireless network controller RNC to make QoS ensuring to said tunnel transmission variety QoS traffic stream according to each traffic stream DSCP. The present invention can make network borne QoS strategy completely being controlled by network.

Description

Method for the mobile phone users transmitting multiple service quality service stream

Technical field

The present invention relates to communication technical field, be specifically related to a kind of for the method for mobile phone users transmitting multiple service quality service stream.

Background technology

The characteristics of 3G (Third Generation) Moblie are multimedization and intellectuality.Polynary transmission rate, high-performance, high quality services can be provided.WCDMA (Wideband Code Division Multiple Access (WCDMA)) is the mainstream technology in the 3G (Third Generation) Moblie, and the multimedia mobile communication service from sound, fax, data, image to animation etc. can be provided.Its network configuration is as shown in Figure 1:

Wherein, UE is a subscriber terminal equipment, carry out data interaction by the Uu interface and the network equipment, for the user provides the function of the miscellaneous service in circuit domain and the packet domain, comprise common speech, data communication, mobile multimedia, Internet use (as E-mail, WWW browse, file transfer protocol (FTP) FTP etc.).UTRAN is a land radio access web, is divided into base station node B and radio network controller (RNC) two parts.Core network CN is responsible for and being connected of other networks and communicating by letter and management to UE.SGSN (Serving GPRS Support Node) and GGSN (Gateway GPRS Support Node) are WCDMA core net PS (packet switching) domain-functionalities nodes.The major function of SGSN provides the functions such as routing forwarding, mobile management, session management, authentication and encryption in PS territory.GGSN provides route and the encapsulation of packet between WCDMA mobile network and external data network.HLR (attaching position register) is the total functional node in WCDMA core net CS (circuit switching) territory and PS territory, is used to provide user's CAMEL-Subscription-Information to deposit, the functions such as authentication of new business support, enhancing.

When multimedia service was provided, dissimilar business had different quality of service requirements, and communication network has only and satisfies these requirements and could provide satisfied service for the user.Fig. 2 is that the terminal use of support who defines in WCDMA network 3GPP (third generation partner program) agreement is transmitted the method that multiple QoS (service quality) flows simultaneously.The key technology of this method is to use tunneling technique between RNC and GGSN, and the method for use Tunnel technology has a variety of, in the Release version of 3GPP before Release 7, has used GTP (general tunnel protocol) agreement between RNC and GGSN.And for each user, its user's IP address difference, the QoS difference of the Session that uses (session); Even its IP address is identical, the Session of each different QoS all will set up the tunnel of a GTP.The tunnel of this GTP has determined the QoS of Session above it.With reference to Fig. 2, GGSN (ggsn) is diverted to the coupling that the blended data that receives flows by TFT (traffic flow template) in different PDP (packet data protocol) tunnel, the corresponding TFT (traffic flow template) of each PDP, and there is different QoS attributes in different PDP tunnels.Like this, the QoS of the different attribute of the multiple QoS stream service quality that just can be required has separately guaranteed.

The process of setting up in many PDP tunnel is as shown in Figure 3:

1. the course application layer is initiated service request on the terminal, and for example: user key-press starts streaming media service;

The terminal applies layer by network (this moment terminal to network activation a basic PDP tunnel) initiate application request to service server, the request application service;

3. the service server application layer is initiated the quality of service request according to user's application request to PDF (strategy decisive function) node, and this quality of service request is the application service that provides according to customer requirements and fixed;

4.PDF the request according to service server distributes token (may not refuse if there is resource), and this token is returned to service server;

5. service server is replied quality request and is given the terminal applies layer according to the return results of PDF;

6. the terminal applies layer is according to the return results of service server, initiates the quality of service request to network, and this request carries that service server returns, the token of PDF server-assignment.The quality of service request is to carry out with the form that secondary PDP activates;

7. this request is used PDP secondary activating message to pass to GGSN by SGSN;

8.GGSN will adopt token to apply for resource from Go interface to PDF;

9. GGSN applies for local resource after the resource usage license of acquisition PDF;

10.GGSN local resource is finished application back return messages and is given SGSN;

11.SGSN initiate the resource bid request according to the local resource of application as a result that returns and to RAN;

12.RAN SGSN replys terminal resource application success after the Resources allocation.

At this moment, business that terminal can request for utilization.In this process, terminal need be finished following function:

The terminal applies layer receives token from service server; Reply to network side initiation secondary activating according to service server; In secondary activating message, correctly carry token and resource request.

But these three requirements all are difficult to be met on present terminal, because application layer varied also makes the unusual difficulty of the consistency support of these three functions, operator also is difficult to the requirement user because this function is changed existing terminal.

Therefore the subject matter of this technology is that terminal and terminal applies layer are too relied on, and it requires terminal must discern various flows could set up different PDP tunnels for the data flow that each different QoS requires to the requirement of different QoS and to network initiation secondary activating.

Summary of the invention

The purpose of this invention is to provide a kind of for the method for mobile phone users transmitting multiple service quality service stream, to overcome in the prior art mode by the Business Stream of different packet data protocol PDP tunnel transmission different QoS, need terminal must discern the requirement of various flows to different QoS, and initiate the shortcoming that secondary activating could be set up different PDP tunnels for the data flow that each different QoS requires to network, the qos policy that makes the network carrying is fully by network control, and convenient operation is disposed.

For this reason, the invention provides following technical scheme:

A kind of is the method for mobile phone users transmitting multiple service quality service stream, said method comprising the steps of:

A, between wireless access network and ggsn GGSN, set up a grouped data protocol tunnel for each mobile phone users;

B, stamp mark that should quality QoS by the difference code-point DSCP in GGSN the IP head that different business stream is corresponding;

C, send described mobile terminal user's different DSCP labeled IP traffic stream by described tunnel;

D, service universal grouping wireless business supporting node SGSN and radio network controller (RNC) carry out QoS according to the DSCP of each Business Stream respectively to the Business Stream of the various QoS that transmit in the described tunnel and guarantee.

Described steps A comprises:

A1, described portable terminal are initiated application request to network side;

A grouped data protocol tunnel is set up or activated to A2, network side according to described application request for this mobile phone users.

Described steps A 2 comprises:

GGSN distributes local resource, and sets up local stream identification context;

GGSN sends resource request message to SGSN;

SGSN is according to the information updating local resource allocation of GGSN;

SGSN sends resource request message to wireless access network;

Wireless access network upgrades interface-free resources by the RAB process.

The corresponding service quality context in described tunnel.

Described service quality context comprises:

Maximum rate, assurance speed, stream grade;

Described maximum rate is the maximum of the maximum rate that requires in all Business Streams that transmit in the described tunnel;

Described guarantee speed be the assurance speed that requires in all Business Streams that transmit in the described tunnel and;

Described stream grade is the highest stream grade that requires in all Business Streams that transmit in the described tunnel.

Described step B comprises:

B1, described user's different service quality business stream is shunted by GGSN;

DSCP in the corresponding IP head of B2, the stream of the different business after will shunting stamps mark that should QoS of survice.

Alternatively, GGSN shunts user's different service quality business stream according to the IP five-tuple, and described IP five-tuple comprises: source IP address, purpose IP address, source port, destination interface, protocol type.

Alternatively, GGSN shunts user's different service quality business stream according to upper layer information.

DSCP mark in the described IP head comprises at least: conversation class, stream class, interactive class, background classes.

By above technical scheme provided by the invention as can be seen, the present invention only sets up a PDP tunnel for each mobile phone users, the corresponding QoS context in this tunnel, GGSN carries out the blended data diverting flow according to IP five-tuple or upper layer information, DSCP in the IP packet header of different QoS data flow correspondence (difference code-point) is stamped different marks, guarantee thereby make RNC and SGSN can carry out different QoS according to IP DSCP different in the same PDP tunnel.The present invention realizes simply, do not need terminal to participate in just can to finish in the QoS assurance process different QoS of different data streams is handled, and makes network can support various different terminals.

Description of drawings

Fig. 1 is the WCDMA schematic network structure;

Fig. 2 is the functional schematic of the many QoS of WCDMA network support in the prior art;

Fig. 3 is the process of the setting up schematic diagram in many PDP tunnel in the prior art;

Fig. 4 is the realization flow figure of the inventive method;

Fig. 5 is the IPv4 header structure;

Fig. 6 is a COS territory schematic diagram in the IPv4 header structure;

Fig. 7 is the transmission mode schematic diagram of the many QoS streams of PDP tunnel transmission in the inventive method;

Fig. 8 is the process of the setting up schematic diagram in PDP tunnel in the inventive method.

Embodiment

Core of the present invention is only to set up a PDP tunnel for each mobile phone users, the corresponding QoS context in this tunnel, GGSN carries out the blended data diverting flow according to IP five-tuple or upper layer information, DSCP in the IP packet header of different QoS data flow correspondence (difference code-point) is stamped different marks, transmit by the PDP tunnel of setting up, guarantee thereby make RNC and SGSN can carry out different QoS according to IP DSCP different in the same PDP tunnel.

In order to make those skilled in the art person understand the present invention program better, the present invention is described in further detail below in conjunction with drawings and embodiments.

With reference to Fig. 4, Fig. 4 shows the realization flow of the inventive method, may further comprise the steps:

Step 401: for each mobile phone users is set up a grouped data protocol tunnel between wireless access network and GGSN.

The corresponding service quality context in this PDP tunnel, this service quality context comprises: maximum rate, assurance speed, stream grade.Its value can be calculated according to the qos requirement of a plurality of Business Streams and obtain, and concrete computational methods are as follows:

The maximum of the maximum rate that requires in all Business Streams that transmit in maximum rate=tunnel;

The assurance speed that requires in all Business Streams that guarantee to transmit in speed=tunnel and;

The highest stream grade that requires in all Business Streams that transmit in stream grade=tunnel.

The present technique field personnel know, the PS territory of UMTS (universal mobile telecommunications system) will ensure for the user provides QoS.Between two user terminals, need to develop and manage different QoS demands.QoS specifically comprises: service availability (connection, call drop etc.), time delay, delay variation, flow, packet loss, the error rate and signal to noise ratio etc.In the PS territory of UMTS, the user plane of GPRS Tunnel Protocol (GTP-U) is set up the tunnel between the GSN of UTRAN (Universal Terrestrial Radio Access Network road), GGSN, backbone network.

GTP_U is a simple tunnel protocol that operates on the user datagram protocol/the Internet protocol (UDP/IP), and being used for is providing route for the bag between RNC, SGSN and the GGSN within the same UMTS backbone network or between the different UMTS backbone networks.The GTP_U tunnel identifies with tunnel endpoint identifier (TEID) at the two ends, tunnel.

The detailed process that the PDP tunnel is set up will be described later.

Step 402: stamp mark that should QoS of survice by the difference code-point DSCP in GGSN the IP head that different business stream is corresponding.

Because the corresponding PDP tunnel of each mobile phone users when this user need be transmitted the Business Stream of multiple QoS simultaneously, just need send the Business Stream of these different QoS simultaneously by this tunnel.In order to make SGSN and RNC can discern and guarantee the service quality of different business, just need these Business Streams of difference.

In the present invention, this user's different service quality business stream is shunted, be that is to say the QoS grade of determining each Business Stream by GGSN.When shunting, specifically can shunt user's different service quality business stream according to IP five-tuple or upper layer information.Described IP five-tuple comprises: source IP address, purpose IP address, source port, destination interface, protocol type.

Such as, determine the QoS grade of this Business Stream according to source IP address, purpose IP address, source port, destination interface, protocol type in each professional IP bag; Also can determine the QoS grade of this Business Stream according to upper layer information, promptly carry QoS information by the data field in the IP bag, GGSN resolves it after receiving the IP bag, thereby determines this professional QoS grade.

Reference IPv4 header structure shown in Figure 5:

There are six bits to be used in TOS in IPv4 packet header (COS) territory, as shown in Figure 6 by DiffServ Code point (difference code-point).

The DSCP coding typically comprises: Best Effort (BE), Expedited Forwarding (EF), Assured Forwarding (AF).Wherein, BE is default forward pass business as possible, and the DSCP value is labeled as 000000; EF be in the differential service redetermination business (RFC2598): the service that is similar to special line or leased line is provided, and the DSCP value is labeled as: 101110; AF defines in RFC2597: the service better slightly than BE is provided, and mainly is the difference on packet loss rate.12 classes are arranged, as shown in table 1 below:

Table 1:

Loss priority	Class	1	Class 2	Class 3	Class 4
Loss priority	Class	1	Class 2	Class 3	Class 4	Low loss priority	001010	010010	011010	100010
Middle loss priority	001100	010100	011100	100100		Low loss priority	001010	010010	011010	100010
Middle loss priority	001100	010100	011100	100100	High loss priority	001110	010110	011110	100110

Like this, each Business Stream is shunted, determined its QoS grade, utilize this grade of DSCP mark in the IP head then by GGSN.SGSN and RNC can implement different QoS to it according to the IP header of the packet that receives and guarantee.

Step 403: send mobile terminal user's different DSCP labeled IP traffic stream by the tunnel of setting up.

The IP operation of transmitting in the PDP tunnel flows as shown in Figure 7:

When a blended data stream sends to PDP tunnel of GGSN, this GGSN just can determine the service quality of this packet correspondence according to the various flows sign context of setting up in this PDP tunnel, and corresponding D SCP coding is set in the dscp field of this packet IP head, for example: DSCP1:EF, DSCP2:AF11, DSCP3:AF22, DSCP4:BE.Downstream node SGSN/RNC just can adopt different grade of service processing modes according to DSCP codings different in the data packet head like this.

In PDP shown in Figure 7 tunnel, comprised the IP operation stream of 4 kinds of different DSCP, seen the data flow that has just realized a PDP tunnel, having supported many QoS from end-to-end angle.

Step 404:SGSN and RNC carry out QoS according to the DSCP of each Business Stream respectively to the Business Stream of the multiple QoS that transmits in the PDP tunnel and guarantee.

When SGSN, RNC receive the packet in a PDP tunnel, carry out different QoS according to IP DSCP marks different on this data packet head and guarantee to handle.Such as:

For session service (EF), need to guarantee bandwidth, and have low time delay; For stream class service (AF12), need to guarantee bandwidth, and have low time delay; For interaction service (AF34), do not need to guarantee bandwidth, but need higher priority; For background business (BE), do not need to guarantee bandwidth, and priority is minimum.

Specifically how to carry out QoS for every kind of business and ensure, existing multiple implementation method when the present invention uses, can be selected for use according to actual needs in the prior art, is not described in detail at this.

As seen, by above technology, the data flow that the different QoS in same PDP requires just will obtain different QoS and guarantee ability.

Further describe the process of setting up in PDP tunnel in the inventive method below.

In the present invention, for each mobile phone users is set up a PDP (packet data protocol) tunnel, tunnel establishment procedure as shown in Figure 8:

3. service server is initiated the quality of service request to PDF;

4.PDF apply for resource to GGSN by Go interface;

5.GGSN the distribution local resource, and set up local stream identification context (IP five-tuple or upper layer information);

6.SGSN information updating local resource allocation according to GGSN;

7.SGSN initiate resource request to RAN (wireless access network);

8.RAN upgrade interface-free resources by RAB (RAB) process.

Can finish the application of Internet resources by the above-mentioned steps mobile subscriber terminal, after service server echo reply message groups terminal, use and just can bring into use.

Transmission mode shown in Figure 7 can be set up after setting up in the PDP tunnel.

Compare with the process of setting up in many PDP tunnel in the prior art shown in Figure 3, as can be seen, among the present invention single PDP tunnel set up that terminal does not need extra operation in the process, the qos policy of the network carrying is fully by network control.

Though described the present invention by embodiment, those of ordinary skills know, the present invention has many distortion and variation and do not break away from spirit of the present invention, wish that appended claim comprises these distortion and variation and do not break away from spirit of the present invention.

Claims

1, a kind of is the method for mobile phone users transmitting multiple service quality service stream, it is characterized in that, said method comprising the steps of:

2, method according to claim 1 is characterized in that, described steps A comprises:

3, method according to claim 2 is characterized in that, described steps A 2 comprises:

GGSN sends resource request message to SGSN;

SGSN sends resource request message to wireless access network;

Wireless access network upgrades interface-free resources by the RAB process.

4, method according to claim 1 is characterized in that, the corresponding service quality context in described tunnel.

5, method according to claim 4 is characterized in that, described service quality context comprises:

Maximum rate, assurance speed, stream grade,

6, method according to claim 1 is characterized in that, described step B comprises:

7, method according to claim 6 is characterized in that, described step B1 is specially:

GGSN shunts user's different service quality business stream according to the IP five-tuple, and described IP five-tuple comprises: source IP address, purpose IP address, source port, destination interface, protocol type.

8, method according to claim 6 is characterized in that, described step B1 is specially:

GGSN shunts user's different service quality business stream according to upper layer information.

According to the method for claim 1, it is characterized in that 9, the DSCP mark in the described IP head comprises at least: conversation class, stream class, interactive class, background classes.