CN100450087C

CN100450087C - Method of implementing a set of specific stream QoS control

Info

Publication number: CN100450087C
Application number: CNB2005100988375A
Authority: CN
Inventors: 黄勇
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2005-09-02
Filing date: 2005-09-02
Publication date: 2009-01-07
Anticipated expiration: 2025-09-02
Also published as: WO2007025461A1; CN1863149A

Abstract

The invention relates to a method for realizing QoS management of a group of specific flows, which comprises a core: firstly, a service control layer originates resource requests to a carrying control layer in the structure of a next generation network (NGN), and messages of the resource requests carry flow relation indicating information which is used for indicating the relation between service flows corresponding to the requests and other specific flows; then, the carrying control layer makes a resource decision of the service flows corresponding to the requests according to the flow relation indicating information and the information of the specific flows, and can deliver the resource decision to a data carrying layer which can manage QoS of the service flows. The present invention adds information of flow relations to the flows with specific relations, and RACS can parse the information of the flow relations and can control the service flows according to the flow relations, to realize the control and the management of QoS and save network resources.

Description

Realize the method for the QoS control of one group of specific stream

Technical field

The present invention relates to the communications field, relate in particular to a kind of controlled method of managing one group of specific stream QoS of supporting next generation network (NGN).

Background technology

NGN is based on the network of grouping, and telecommunication service can be provided; The tranmission techniques that utilizes multiple broadband ability and QoS to guarantee; Its professional correlation function is independent mutually with its tranmission techniques.NGN makes the user can freely be linked into different service providers; NGN supports universal mobility.

The essential characteristic of NGN is as follows: grouping transmits; Controlled function is separated from carrying, call/session, application/business; Business provides and network detach, and open interface is provided; Utilize each basic business to form module, provide professional widely and use (comprising real-time, stream, non real-time and multimedia service); Have end-to-end QoS and transparent transmittability; By open interface and legacy network intercommunication; Has universal mobility; Allow the user freely to insert different business provider; Support various sign system, and it can be resolved to the IP address to be used for the IP network route; Same business has unified traffic performance; Converged fixed and mobile service; Business function is independent of the bottom tranmission techniques; Adapt to all management expectancys, as requirements such as emergency communication, fail safe and privacies.

The English full name of QoS is " Quality of Service ", Chinese " service quality " by name.QoS is a kind of security mechanism of network, is with a kind of technology that solves problems such as network delay and obstruction.

The classification of QoS and definition: QoS is classified and the purpose that defines is that network can be managed according to dissimilar QoS and Resources allocation.

Access control and negotiation:, allow the user to enter network and carry out the multimedia messages transmission and consult its QoS promptly according to the operating position of resources in network.

Resource reservation.For satisfied QoS is provided to the user, must peer-to-peer system, corresponding resources such as router and transmission bandwidth preengage, by other do not used to guarantee these resources that institute is strong to be used.

Scheduling of resource and management.After resource preengage, whether these resources be can obtain, corresponding scheduling of resource and management system also depended on.

Multicast.A kind of correspondence of multi-point.It is described the data message that sends from a source point and receives to specific a plurality of purpose end points simultaneously, is only carrying out the communication mode that message duplicates on the branch's routing device at the most close purpose end points on the transmission channel, to save Internet resources.

Appoint and broadcast.A kind of correspondence of multi-point.It describes the data message that sends from a source point can be reached communication objective communication mode by any one reception a plurality of points of destination.

Along with the Internet networks development is popularized, the telecommunication service with QoS (Quality of Service) guarantee is also being moved for the packet network on basis to IP.Because the core concept of Internet net is shared and does one's best, and telecommunication service needs strict QoS to ensure, both fail to agree at theory.Therefore need research and design new internet architecture and the architecture of QoS management, guarantee to move on the internet telecommunication service.

Next generation network is made up of three logical layers, is respectively Data-carrying layer, bearer control layer, service control layer.Data-carrying layer carrying user service data stream; Bearer control layer applies the control behavior to each network element of data bearing bed, makes network possess can to manage and can run characteristic.Bearer control layer provides unified access interface to service control layer simultaneously, the difference of shielding different loading network; Service control layer is responsible for professional relevant control, and it provides the management of various services for the user.

TISPAN working group of ETSI (ETSI) is devoted to the formulation work of next generation network (NGN) demand, the network architecture and related protocol.TISPAN is divided into two systems, NASS and RACS with Access Network bearer control layer face.The CAMEL-Subscription-Information that subsystem (NASS) storage has the user is adhered in network insertion, main responsible access user's access authentication accounting, address assignment, user network parameter configuration, client equipment management etc.Resource and Admission Control Sub-system (RACS) mainly is responsible for end to end, and QOS lays and management.The RACS framework carries out some explanations to the RACS framework as shown in Figure 1 below.

Wherein, SPDF is based on professional policy functional module, and it provides Gq ' interface to service control layer, for application function AF provides the carrying service.This interface is accepted the QOS request based on business from service control layer.When user's requested service, can set up a session with AF, AF is this conversation request carrying QOS according to the service request in the session, resource request is a unit with medium (media), can comprise a plurality of streams (flow) in each medium again.Request comprises the five-tuple information of professional type, bandwidth, stream and user ID, flow operation indication etc., i.e. service control layer request bearer control layer sets up a QOS passage for its specific transactions.

SPDF preserves policing rule, has the ability of carrying out the local policy decision-making, and the information that AF sets up in the request is translated into the QOS parameter.

By Rq, SPDF passes to A_RACF with the result of decision and QOS parameter.

A_RACF is responsible for the admittance control of QOS, and it receives QOS request to the Access Network of being managed by Rq, and obtains user's subscription data and positional information by the e4 interface from NASS, adjudicates present network and whether can provide QOS for this user.

A_RACF sends clear and definite admittance/do not admit response to SPDF after reserving or implementing QOS.

For enforceable QOS request, according to stream mode is indicated in the request, Access-Resource and Admission Control Function passes to RCEF and access node AN by Re and Ra interface with order.RCEF is arranged in Access Network IP edge device, is responsible for the concrete enforcement of QOS.

Among Fig. 1, SPDF implements QOS and carries out network address translation or the network parameter conversion operations to C-BGF by Ia interface.

The RACS function structure can be supported to realize management, the control of the end-to-end QOS of user and implement.Simultaneously, for different operators such as Virtual network operator, service provider provide can reference function divide and interface.The authentication between the different operators and the ability of charging are provided.

In existing RACS ergasia framework, be based on session from the application function AF of service control layer the request the bearer control layer of passing to based on the conversation strategy decision function SPDF of business, adopt Gq ' interface between them.In the message of Gq ' interface, have only the description of stream itself, as medium type, bandwidth information etc., but not description about concerning between the stream.

Illustrating, is the center when setting up one with an end points T0, and what arrive a plurality of end points T1, T2, T3 has as multicast relations, appoints when broadcasting the professional QOS of specific flow relations such as relation, just produces difficulty and maybe can't implement.Such as for multicast, can only realize multicast service from three pipelines that end points T0 is established to T1, T2 and T3 respectively.Both wasted bandwidth resources at bearing bed like this, T0 also needs to carry out the information copy of multiple spot simultaneously.Broadcast for appointing, can only divide by AF and send the request of foundation to bearer control layer three times, and manage the result that these requests bring.

The description of relation between existing RACS function structure system can't be supported to flow, thus can't support to have each other the resource management of particular kind of relationship stream and admit control.Realize the complex management of these relations and poor efficiency by AF, may bring the waste of carrying bandwidth simultaneously.

Summary of the invention

In view of above-mentioned existing in prior technology problem, thereby the purpose of this invention is to provide a kind of method that can control the QoS control that realizes one group of specific stream to stream with particular kind of relationship.

The objective of the invention is to be achieved through the following technical solutions:

A kind of method that realizes one group of specific stream QoS management comprises:

When A, service control layer initiate resource request to bearer control layer, carrying in the described resource request message be used to indicate this request corresponding service to flow and other specific streams between the flow relation indication information that concerns;

When carrying out resource request control, B, bearer control layer difference in functionality inter-entity in this layer transmits described flow relation indication information, and this request corresponding service stream is carried out resource decision according to described flow relation indication information and specific stream information, the control data bearing bed, the QoS to described Business Stream manages by the Data-carrying layer.

The interface that transmits described flow relation indication information comprises Gq ', the Rq that defines among the Resource and Admission Control Sub-system RACS.

The identification information and the described flow relation indication information of specific stream group are sent simultaneously.

The method of determining the identification information of specific stream group comprises:

Adopt the sign of the stream of first foundation in this group stream; Perhaps, the application function AF by service control layer distributes a specific global unique identification in addition for this group stream.

Relation between the described specific stream comprises multicast relations, appoints the relation of broadcasting.

In the NGN network bearer control layer according to the identification information of described specific stream group to carry out unified release, modification or new management more for the resource of this specific stream set of dispense.

B, bearer control layer carry out resource decision according to described flow relation indication information and specific stream information to this request corresponding service stream in this layer, and issue and be used to indicate the indication information that concerns between this request corresponding service stream and other specific streams to the Data-carrying layer;

C, Data-carrying layer can search related streams according to described flow relation indication, and enforcement indicates corresponding specific operation with flow relation, to realize one group of control of flowing.

In steps A, the interface that transmits described flow relation indication information comprises Gq ', the Rq that defines among the Resource and Admission Control Sub-system RACS;

In step B, the interface that transmits described flow relation indication information comprises Re, Ra or the Ia interface that defines among the Resource and Admission Control Sub-system RACS.

When described specific stream is group business stream, when bearer control layer will be handed down to the Data-carrying layer enforcement functive that possesses the IP forwarding capability at the Control Parameter of described group business stream, the unicast ip address that issues corresponding multicast receiving terminal point is simultaneously given this functive, this functive obtains receiving the physics and the logic port at end points place by the routing inquiry to unicast ip address, and carries out corresponding QoS management.

When described specific stream is group business stream, when bearer control layer will be handed down to the network access facility body that does not possess the IP transfer capability at the Control Parameter of described group business stream, issue the user simultaneously and insert sign in the physics and/or the logic of access device, this functive inserts sign identification user port by user's physics and/or logic, and carries out corresponding QoS management.

When described specific stream is group business stream, QoS control/enforcement the functive of bearer control layer or Data-carrying layer, need safeguard a count value for each multicast QoS stream, when the multicast QoS that finds a request had identical inbound port and outbound port in the equipment that this functive is managed, this functive count value added one; When receiving the request of a release multicast QoS stream, count value subtracts one; When count value is zero, discharge the resource that this multicast data flow takies.

Described method also comprises: in the NGN network bearer control layer according to the identification information of described specific stream group to carry out unified release, modification or new management more for the resource of this specific stream set of dispense.

As seen from the above technical solution provided by the invention, the present invention has the stream of particular kind of relationship to have increased flow relation information, RACS understands and according to flow relation Business Stream is controlled this flow relation information, realizes control and management to QoS, saves Internet resources.

Description of drawings

Figure 1 shows that the structure of RACS in the bearer control layer;

Figure 2 shows that multicast QoS implements control flow chart;

Figure 3 shows that multicast QoS implements control and data flow diagram.

Embodiment

Core of the present invention is to initiate to have the resource request of flow relation indication information by the service control layer in the NGN framework to bearer control layer, thereby bearer control layer is controlled the QoS control that realizes specific stream according to the indication information of flow relation to one group of stream.

In the present invention, each stream in the one group of stream that need to transmit has specific relation, as multicast relations, appoint the relation etc. of broadcasting.This particular kind of relationship between each stream is recorded in the middle of the flow relation information that transmits jointly with this group stream.Bearer control layer applies control according to described flow relation information to each network element of data bearing bed, realizes this QoS that organizes specific stream control and management.

So-called flow relation is meant for the relation between a specific stream or a plurality of stream and other stream, its relation can or appoint the relation broadcast still to be not limited to this for multicast relations, it can also be other relation, and the present invention in follow-up description process only being that example describes at the line pipe reason of flowing to multicast relations, but be not limited to this multicast application example.

Described flow relation information specifically comprises:

Flow relation indication: be a value, be used to indicate the relation between the different stream, can represent with enumeration type usually, different values can be used for expression＜independence respectively, and multicast times is broadcast ... 〉, this is the essential option of flow relation.

The sign of specific stream group: this sign is a globally unique identifier, is used for as specific stream group information of identification, for example, can be a unification sign of all multicast data flows in the multicast group.This is the option of flow relation, and it is relevant with different traffic identifier realization technology whether to carry this option.

Realization of the present invention mainly concentrates on RACS system and the relevant interface in the bearer control layer.

The structure of described RACS as shown in Figure 1.

Below in conjunction with accompanying drawing method of the present invention is described in further detail.

The specific embodiments example of the method for the invention such as Fig. 2, shown in Figure 3 specifically comprise:

Figure 2 shows that multicast QoS implements control flow chart, Figure 3 shows that multicast QOS implements control and data flow diagram.Now the enforcement control of QoS is described in detail in conjunction with Fig. 2, Fig. 3.

The network configuration that the present invention is used describes at first, in conjunction with the accompanying drawings:

Data-carrying layer in the NGN network comprises access node AN, IP edge configuration of IP EDGE, core Border Gateway function c-BGF and the core net Core Network that connects in turn; Service control layer comprises AF; Bearer control layer comprises accommodating access resource controlled function Access-Resource and Admission Control Function and based on the conversation strategy decision function SPDF of business.

SPDF passes through Gq ' interface and links to each other with AF, links to each other with c-BGF by Ia interface;

Access-Resource and Admission Control Function links to each other with NASS by the e4 port, links to each other with AN by the Ra port, links to each other with RECF by the Re port, links to each other with SPDF by the Rq port.

Dotted line is represented control flows, and solid line is represented data channel.

A, B, C are three user terminals, and wherein A, B are by access device AN1, and C is by the AN2 access network.

IP EDGE is the IP edge device.

Access device AN1 and AN2 can not possess the IP transfer capability.

In conjunction with the accompanying drawings the processing procedure of the method for the invention is described again below:

Realize that one group of specific stream QoS management mainly is divided into two parts:

At first, service control layer initiates to have the resource request of flow relation indication information to bearer control layer, bearer control layer carries out resource decision according to described flow relation indication information and specific stream information to this request corresponding service stream in this layer, its detailed process is as described in step 201, the step 202;

Then, bearer control layer is handed down to the Data-carrying layer with the flow relation indication information, the Data-carrying layer according to described flow relation indication implement corresponding specific operation, realize the control of one group of stream, its detailed process is as described in step 203, step 204 and the step 205.

Above two parts can be considered separate control and management process, if but carry out above-mentioned two-part operation in turn and promptly pass through the final control data bearing bed of bearer control layer by service control layer, realize one group of specific stream QoS management

Each step detailed content is as follows:

Step 201, user terminal A is got in touch with the server A F foundation that multicast service is provided and is successfully set up a QoS pipeline from AF to A by the carrying control system, set up in the process in the QOS of A control, also the indication information that flow relation is designated as multicast can be carried, and stream group identity information (whether carry the stream group identity information and depend on different implementation methods) may be carried.Here, for convenience's sake, claim all that at chain of command and data surface this server is AF.Actual in chain of command, AF may comprise a service control system, as IMS.

Step 202, when user terminal A and server A F set up got in touch and set up a QoS pipeline from AF to A after, terminal use B also sends identical traffic request to AF, this Business Stream has the multicast feature, comes from same multicast data flow with stream to A.

After B was by the AF authentication, AF will be user B request QoS.AF will pass through Gq ' port about the flow relation information of user B and pass to SPDF, comprise the flow relation indication in this flow relation information, and the content of flow relation indication here is a multicast.

Step 203, SPDF carries out the local policy inspection according to the multicast data flow relation indication that comes from AF according to the multicast relative strategy.After local policy is checked, have the QoS of multicast relations, can flow relation information be passed to Access-Resource and Admission Control Function by the Rq port together with the resource control request if SPDF agrees to implement this.

Step 204, Access-Resource and Admission Control Function receive the flow relation information of describing flow relation by the Rq port; Obtain the subscription data of user B and the accessing position information of B by the E4 port from NASS.Access-Resource and Admission Control Function checks whether the subscription data of user B allows this Qos request, checks also simultaneously whether the current QoS resource can admit this QoS request.According to the multicast indication of stream, Access-Resource and Admission Control Function can be checked according to the multicast relative strategy.

If check and pass through, Access-Resource and Admission Control Function will be handed down to all access devices that can arrive B to the qos parameter of B and multicast indication, and access device is AN1 and IP EDGE in the present embodiment.

C-BGF carries setting according to the multicast indication of resource request and stream according to the characteristics of multicast, guarantees the QOS of user B.

Step 205, for AN1, because it does not support the IP route, Access-Resource and Admission Control Function comprises promptly that with the line attachment sign of user B physics and logical identifier are handed down to AN1 simultaneously.AN1 searches and identifies the stream that originally was established to A, increases the multicast QOS passage that this flows to user B.

For IP EDGE, Access-Resource and Admission Control Function can indicate the unicast address with user B to pass to the IPEDGE middle IP device relevant with all according to multicast.IP EDGE finds the stream of original A application, according to the unicast ip address of user B, can find the access interface of user B at IP EDGE simultaneously, is established to the QOS stream of user B.In the present embodiment, IP EDGE finds that user B and original user A at same port, then do not need to do new allocated bandwidth, and counting of stream increase that only need AB is shared gets final product with the releasing operation that is used for multicast data flow.Flow process during more than for user B application group business stream.

Equally, when user C applied for this group business stream, Access-Resource and Admission Control Function carried out the identical operations with B.Different with B is that because the physical port of C is different with A, B, IP EDGE can distribute a QOS passage from IP EDGE up going port to user C place port for C.

Bearer control layer is given when possessing the Data-carrying layer equipment of IP transfer capability issuing control at a group business stream (comprising gate and QOS control), the unicast ip address that issues multicast reception end points is simultaneously given this equipment, and this equipment obtains receiving end points place physics and logic port by the routing inquiry to unicast ip address.

Bearer control layer is given when not possessing the terminal access device of IP transfer capability issuing control at a group business stream (comprising gate and QOS control), issue the user simultaneously and insert sign in the physics and the logic of this equipment, this equipment inserts sign identification user port by user's physics and logic.

Implement functive for a QOS, for each multicast QOS stream is safeguarded a counting.When the multicast QOS that finds a request had identical inbound port and outbound port in the equipment that this functive is managed, this functive counting added one, and returns success.When receiving the request of a release multicast QOS stream, counting subtracts one, when counting reduces to zero, discharges the resource that this multicast data flow takies.

The above; only for the preferable embodiment of the present invention, but protection scope of the present invention is not limited thereto, and anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.

Claims

1, a kind of method that realizes one group of specific stream QoS management is characterized in that:

2, a kind of method that realizes one group of specific stream QoS management according to claim 1 is characterized in that:

3, a kind of method that realizes one group of specific stream QoS management according to claim 1 is characterized in that:

4, a kind of method that realizes one group of specific stream QoS management according to claim 3, the method for the identification information of described definite specific stream group comprises:

Adopt the sign of the stream of first foundation in this group stream;

Perhaps,

Application function AF by service control layer distributes a specific global unique identification in addition for this group stream.

5, a kind of method that realizes one group of specific stream QoS management according to claim 1 is characterized in that:

6, a kind of method that realizes one group of specific stream QoS management according to claim 1 is characterized in that described method also comprises:

7, a kind of method that realizes one group of specific stream QoS management is characterized in that:

C, Data-carrying layer search related streams according to described flow relation indication, and enforcement indicates corresponding specific operation with flow relation, to realize one group of control of flowing.

8, a kind of method that realizes one group of specific stream QoS management according to claim 7 is characterized in that:

9, a kind of method that realizes one group of specific stream QoS management according to claim 7 is characterized in that:

10, a kind of method that realizes one group of specific stream QoS management according to claim 9, the method for the identification information of described definite specific stream group comprises:

Adopt the sign of the stream of first foundation in this group stream;

Perhaps,

11, a kind of method that realizes one group of specific stream QoS management according to claim 7 is characterized in that:

12, a kind of method that realizes one group of specific stream QoS management according to claim 7 is characterized in that:

13, a kind of method that realizes one group of specific stream QoS according to claim 7 is characterized in that:

14, a kind of method that realizes one group of specific stream QoS management according to claim 7 is characterized in that described method also comprises:

15, a kind of method that realizes one group of specific stream QoS management according to claim 7 is characterized in that described method also comprises: