CN1996887A - A resource allocation method, device and system with high-service quality - Google Patents

Abstract

This invention discloses one media materials align method, device and system, wherein, in aligning materials to network terminal, getting high service quality type and set information of the terminal and aligning the integral type quality materials to the terminal with one set of information; with one set of information each terminal occupies aligned materials priority; when all terminals high service quality materials ends, releasing all terminal materials with high service quality.

Description

A kind of high quality-of-service resource allocation methods, Apparatus and system

Technical field

The present invention relates to a kind of Resource Allocation in Networks method, Apparatus and system, particularly a kind of distribution method of high quality-of-service resource, Apparatus and system.

Background technology

Continuous development along with network, network access equipment is by access concentrator (AC, Accessconcentrator) develop into BAS Broadband Access Server (BAS, Broadband access server), develop into Broadband Remote Access Server (BRAS by BAS, Broadband remote access server), though function is from strength to strength on user access administration for BRAS, but continuous enhancing along with its function, business is constantly perfect, cause its network site to improve constantly too, but the raising of network site directly requires comprehensive traffic handing capacity also will improve, such as broadband services and various three layer virtual private network (VPN, Virtual Private Networks), two-layer VPN, multiprotocol label switching (MPLS, MultiProtocolLabel Switching), relation such as MPLS Tunnel is also more and more tightr, its network status also by BRAS gradually to business router (SR, Service router) changes, cause its user management mode also will change so too, require management convenient, flexibly, for the high quality-of-service (H-QoS that inserts the user, High Quality of Service) these functions wish that more network management can be convenient, flexible.

Common QoS just provides effective service to some nodes or some levels, but H-QoS can provide complete QoS at all levels, such as hiberarchy scheduling, be exactly said Pyatyi scheduling etc. (the session level-＞the vc level-＞the vc-group level-＞the vp level-＞the OQ level).Hiberarchy scheduling is by being provided with the multilevel logic scheduler, control the total bandwidth of one group of subordinate's scheduler by higher level's scheduler, and higher level's scheduler can be according to the rank of subordinate's scheduler and the guaranteed bandwidth (CIR) and the peak bandwidth (PIR) of weight reasonable distribution subordinate scheduler.The mode of this hiberarchy scheduling has been taken the flexibility of bandwidth control to a new height, promptly can control the total bandwidth of a plurality of formations by the multi-stage scheduling device, and these a plurality of formations may come from user's same business or different business, have really realized controlling the overall quality of service of a business or a plurality of business.

As in single user H-QoS uses, suppose that total access bandwidth that the user buys is 10Mb/s.The data that transmitted can be divided into four kinds of ranks, according to being respectively from high to low the requirement of QoS: speech, video, prioritized data (as ERP) and general data.Different with common single level QoS is that speech and video can not take the bandwidth resources that are assigned to always, and always can preferentially transmit the speech and the video data of high priority.

In the multiple users share physical link is used, to suppose to net under the situation of access commercial building multi-user, total access bandwidth in whole building is 100Mb/s, is shared by some users.In this case, the advantage of multilevel service quality technology is able to further performance.The same with the situation of single user H-QoS, the bandwidth resources on the multi-stage scheduling device control different aspects, it is fully shared that the bandwidth resources in whole building are obtained, and the service quality of each customer service also can meet with a response simultaneously.For the resident of Ethernet to the building, said method is suitable equally.

H-QoS can realize providing the H-QoS that meets the demands by various configurations when the device network level is lower; Even access device operation strategy changes, also can directly revise the relevant configuration of access device, or user terminal change relevant configuration below the notice, because the access device network layer is lower, therefore it is all less to carry out coverages such as equipment change or informing user terminal change, less to the operating cost of operator influence.But concerning the higher equipment in network sites such as BRAS or SR, the change of operation scheme will be paid very big cost, carrying out along with Triple Play business in recent years particularly, the quality of service requirement that customer service is provided is more and more higher, and the ease for maintenance of network has also been proposed more and more higher requirement.

Triple Play business is meant a plurality of terminals in the one family (such as there being three), different terminals is linked on the network equipment by a network equipment, can use as customer premises equipment, CPE (CPE, CustomerPremise Equipment), home gateway (HG, Home Gateway) etc. as the network equipment, in Triple Play business, be that unit is this family's different terminals uniform authorization like this with the family, and provide the different stage service to different terminals in the same family, such as can be according to the COS of different terminals, service priority waits the service that provides different etc. of distinguishing, but how different terminals is sorted out respectively, and different terminals belongs to which group (class) combinations of services of which family or same family, and provide stable thus, there is not the scheme of processing in unified network services such as H-QoS in the prior art.

Equipment is distinguished different home or business now, provides the method for different H-QoS to have:

Port when (1) inserting according to the user, VLAN (VLAN, Virtual LAN) information position provide unified H-QoS service;

Port when (2) inserting according to the user, inner VLAN, outside VLAN information provide unified H-QoS service.

Port when inserting according to the user, VLAN or internal layer add outside VLAN to be provided in the scheme of H-QoS service, exist the restriction that is subjected to physical location easily, especially in Triple Play business, distinguish one family, and make that different terminals can adopt same H-QoS strategy in the same family, under the situation that adopts resource-sharing, when same family different terminals carries out resource contention, different terminals must adopt same port in these families of inevitable requirement, VLAN or internal layer or outside VLAN are reached the standard grade, yet when resource is provided, the different terminals of these same ports is all independently asked, just provide resource allocation alone for each terminal, so also just exist when reality is runed and can be very restricted, network planning meeting is more inflexible, the deficiency of underaction.

As a same reason, if certain some business in the differentiation one family, and when providing with a kind of H-QoS scheme, because all H-QoS functions all have very strong relevance with physical location, therefore, exist in the prior art in case professional the variation just need carry out the network planning again, be unfavorable for the deficiency of actual operation.

Summary of the invention

The invention provides a kind of distribution method, Apparatus and system of high quality-of-service resource, stablize unified H-QoS Internet resources service in order to solve one family or which group (class) business provided, after further how distinguishing one family or which group (class) business, provide and stablize unified H-QoS Internet resources service in order to solution.

A kind of high quality-of-service resource allocation methods of the present invention, technical scheme is as follows:

Obtain the high quality-of-service H-QoS resource type of distributing to terminal and the grouping information of terminal;

High quality-of-service H-QoS resource to terminal unified distribution same type with same grouping information.

Preferably, further comprise the steps:

Described terminal with same grouping information is seized by the priority of terminal the high quality-of-service H-QoS resource of described unified distribution.

Preferably, further comprise the steps:

When described all terminals with same grouping information all do not re-use the high quality-of-service H-QoS resource of this unified distribution, discharge described high quality-of-service H-QoS resource.

Preferably, described grouping information is obtained by user's negotiation packet.

Preferably, described grouping information is obtained by option82 in user's negotiation packet.

The present invention also provides a kind of high quality-of-service resource allocation device, and technical scheme comprises:

Acquisition module is used to obtain the high quality-of-service H-QoS type of distributing to terminal and the grouping information of terminal;

Distribution module is used for the high quality-of-service H-QoS resource to the terminal unified distribution same type with same grouping information.

Preferably, described device further comprises policy module, is used for the high quality-of-service H-QoS resource of distributing to the terminal with same grouping information is formulated preemptive policy by the priority of terminal;

Described terminal with same grouping information is seized by preemptive policy the high quality-of-service H-QoS resource of described unified distribution.

Preferably, further comprise:

Release module is used for discharging described high quality-of-service H-QoS resource when described all terminals with same grouping information all do not re-use the high quality-of-service H-QoS resource of this unified distribution.

Preferably, described acquisition module comprises the message acquiring unit, is used for obtaining grouping information by user's negotiation packet.

Preferably, described message acquiring unit comprises that grouping information obtains subelement, is used for obtaining grouping information by user's negotiation packet option82.

The present invention also provides a kind of high quality-of-service resource allocation system, and technical scheme is as follows:

Network to the terminal distribution resource, comprises acquisition module, distribution module by the network equipment, wherein:

Acquisition module links to each other with terminal by the network equipment, is used to obtain the high quality-of-service H-QoS type of distributing to terminal and the grouping information of terminal;

Distribution module links to each other with acquisition module, and links to each other with terminal by the network equipment, is used for the information obtained according to described acquisition module, to the high quality-of-service H-QoS resource of the terminal unified distribution same type with same grouping information.

Preferably, further comprise policy module, link to each other, be used for the high quality-of-service H-QoS resource of distributing to the terminal with same grouping information is formulated preemptive policy by the priority of terminal with terminal;

Described terminal with same grouping information is seized by preemptive policy the high quality-of-service H-QoS resource of described unified distribution.

Preferably, further comprise:

Release module links to each other with terminal by the network equipment, is used for discharging described high quality-of-service H-QoS resource when described all terminals with same grouping information all do not re-use the high quality-of-service H-QoS resource of this unified distribution.

Preferably, described acquisition module comprises the message acquiring unit, is used for obtaining grouping information by user's negotiation packet.

Preferably, described message acquiring unit comprises that grouping information obtains subelement, is used for obtaining grouping information by user's negotiation packet option82.

Beneficial effect of the present invention is as follows:

Because in the present invention, concerning different terminals with same grouping information, when distributing the H-QoS resource to them, it no longer is each terminal independent allocation, but the Service Source of this group terminal is carried out unified distribution, each terminal is carried out resource race to control again in inside, thereby make one family or professional the providing of which group (class) are stablized unified H-QoS Internet resources service, therefore also having overcome the H-QoS function all has the characteristics of very strong relevance with physical location, no longer because of physical location is very restricted, it is flexible that the network planning becomes when making actual the operation.When business changes, do not need to carry out the network planning again yet, in actual operation, have important value.

Further, the present invention is according to user's negotiation packet, especially in user's negotiation packet option82 information as the information of same grouping, thereby for different terminals or a certain group of (class) business in the one family provides H-QoS, make and not limited by physical location when distinguishing one family or a certain group (class) business, it is professional and H-QoS is provided only need just can to distinguish one family or one group (class) according to Option82, adopt make behind the present invention the change of double layer network to business without any influence.

Description of drawings

Fig. 1 is the implementing procedure of H-QoS resource allocation methods described in an embodiment schematic diagram;

Fig. 2 is the schematic network structure of the business of Triple Play described in the embodiment;

Fig. 3 is based on the H-QoS scheduling mechanism schematic diagram of Option82 described in the embodiment;

Fig. 4 is the structural representation of H-QoS resource allocation device described in the embodiment;

Fig. 5 is the structural representation of H-QoS resource allocation system described in the embodiment.

Embodiment

Below in conjunction with accompanying drawing the specific embodiment of the present invention is described.

The present invention design is, at first obtains the high quality-of-service H-QoS type of distributing to terminal and the grouping information of terminal; Distribute the identical terminal resource of high quality-of-service H-QoS type then unitedly, described terminal has same grouping information.

Further, make the different H-QoS strategies and the physical location of different user not produce very strong relevance, but carry out association with the grouping information that the information of some account number or special implication is used as terminal, work as the user like this and selected different Internet service provider (ISP, Internet Service Provider) after, terminal is just passable as long as change according to the requirement of operator, just the different operators terminal is in the negotiations process of reaching the standard grade, the grouping information of carrying is different, the network equipment of upstream just can provide different networks to serve according to these different grouping informations like this, thereby does not need network organizing is planned again.

In the enforcement, these account numbers or these information need have the information that the same terminal feature is divided into a class, just to reach and have identical scheduling attribute, can finish purpose with end packet or classification, such as, these grouping informations can be obtained in user's the negotiation packet of reaching the standard grade.From the present invention's design as can be known, it is diversified can be used in the information that realizes this category feature of the present invention, therefore, the present invention is that example comes concrete enforcement of the present invention is described with Option82, and, further illustrate and to realize the required feature that possesses of various information of the present invention by in force to the use of the various functions of Option82.

Fig. 1 is a H-QoS resource allocation methods implementing procedure schematic diagram, according to the above, as shown in the figure, comprises the steps: during the invention process

Step 101, obtain the high quality-of-service H-QoS type of distributing to terminal and the grouping information of terminal.

Step 102, to the high quality-of-service resource of terminal unified distribution same type, described terminal has same grouping information.

Step 103, each terminal with same grouping information are according to priority seized the resource of distributing.

Step 104, when all the terminal high quality-of-service H-QoS resource request with same grouping information finish, discharge high quality-of-service H-QoS resource to all terminals.

Grouping information can be obtained by option82 in user's negotiation packet in the enforcement, below just enforcement of the present invention is launched to describe.

Option82 is an option in the DHCP (DHCP, Dynamic Host ConfigurationProtocol), because this option property value is 82 (decimal systems), so be called option82, the relevant criterion document is RFC 3046.Option 82 is the expanded application to DHCP option, and this new option is called as: DHCP relay agent information option (relay agent information option).The DHCPOOPTION82 option arrives user's DHCP message with user's merchandise news and facility information usually, and Dynamic Host Configuration Protocol server is by discerning OPTION82 for carrying out IP address assignment strategy or other strategy.Dhcp client (Client) is to DHCP service end (Server) applied address the time, the DHCP message that can consult in the centre in carry this option82 attribute, thereby the access service equipment on the network just can get access to the option82 information of correspondence when resolving the DHCP message.

The method of obtaining option82 information mainly contains two kinds: the DHCP message that a kind of DHCP of being Client sends terminates on this access service equipment, access service equipment just provides DHCP Server or Relay function like this, and access service equipment can directly obtain the option82 information that DHCP Client carries from message when analytic message; Another kind is that the DHCP message that DHCP Client sends does not terminate on access device, but be transparent on other the access service equipment, can pass through DHCP Snooping like this, the option82 information analysis that carries in the message is come out, for the back provides various services to prepare according to this option82.

Fig. 2 is the schematic network structure of Triple Play business, as shown in the figure, three terminals of one family have been listed among the figure: home terminal A201, home terminal B202, home terminal C203, pass through home network device 204 in three terminals, in the enforcement, home network device can use customer premises equipment, CPE (CPE as shown in the figure, Customer Premise Equipment) or home gateway (HG, Home gateway), be connected on the access service equipment 206 by intermediary network device 205 again, there is not intermediary network device 205 in the network that has in the enforcement yet, access service equipment 206 is connected on the various authorization servers by the network equipment 207 again, authorization server can be mandate as shown in the figure, checking (authentication) and accounting server 208 (AAA:Authorization, Authentication and Accounting Server), Dynamic Host Configuration Protocol server 209 (DHCP Server).

Fig. 3 is the H-QoS scheduling mechanism schematic diagram based on Option82, and as shown in the figure, as can be seen from Figure 2, the terminal under each family or a group (class) are professional all is the terminal with same grouping information, describes with family in the enforcement.When certain terminal began to reach the standard grade in the family, a kind of mode was: terminal can be to filling out the Option82 information of this family of expression in the DHCP negotiation packet that sends; Another kind of mode is: " CPE or HG " or " intermediary network device " can add the option82 information of this family of expression according to user's customizing messages.

When initiating to consult request, access server is various control table entries for the user creates, then according to this user's option82 information applications H-QoS resource, in order to get access to identical H-QoS resource with other-end in this family, access server is according to this family of option82 information searching, after searching this family, if other-end is reached the standard grade in this family, just can get access to the H-QoS information that application is arrived, if this family does not also have other-end to reach the standard grade, will apply for the H-QoS resource so, and the H-QoS information that this family applies for is recorded in as shown in Figure 3 the tables of data, such as Option82 for after the A terminal reaches the standard grade, will find the list item of option82 A, when other-end is reached the standard grade in this family of back, just can get access to the QoS information of the correspondence of this family, thereby can make the identical same family of same option82 adopt identical H-QoS.Then common resource is seized for the different terminals in the family, in resource contention, can be with priority as seizing basis, the terminal that has higher priority in the same like this family can obtain higher H-QoS service, the Terminal Service that priority is lower will be subjected to the terminal of higher priority and disturb, thereby has guaranteed the H-QoS of the higher business of one family medium priority.

Therefrom as can be seen, by Option82 information, to have different terminals is asked in the one family of same grouping information H-QoS resource in the enforcement unifies scheduling and distributes, each terminal is no longer independent in the family asks to distribute to server, and each terminal is carried out internal coordination to the resource that is assigned to and seized.

In preferred the enforcement, after a terminal rolls off the production line in the family, also can check whether also have other-end to use this H-QoS resource in this family, if there is not to discharge this H-QoS resource, otherwise can not discharge this H-QoS resource, thereby can continue as other still online terminals serves, avoided not using resource like this and made other terminal can not use the resource that is assigned to, because server is that the used resource of all terminals that has same grouping information in this family is distributed unitedly in implementing because of a terminal.

Based on same inventive concept, the present invention also provides a kind of H-QoS resource allocation device, describes below in conjunction with the concrete enforcement of accompanying drawing to this device.

Fig. 4 is a H-QoS resource allocation device structural representation, as shown in the figure, comprises acquisition module 401, distribution module 402, policy module 403, release module 404 in the device, and device links to each other with terminal 405 by home network device 204, wherein:

Acquisition module is used to obtain the high quality-of-service H-QoS type of distributing to terminal and the grouping information of terminal;

Distribution module is used for the high quality-of-service H-QoS resource to terminal unified distribution same type, and described terminal has same grouping information;

Policy module is used for according to priority working out preemptive policy to distributing to a plurality of terminal resources with same grouping information;

Release module is used for discharging the high quality-of-service H-QoS resource to all terminals when all the terminal high quality-of-service H-QoS resource request with same grouping information finish.

In the enforcement, each terminal 405 links to each other with network by home network device 204 in the family, and distribution module 402 is obtained information according to acquisition module 40l, the identical terminal resource of unified distribution high quality-of-service H-QoS type, and terminal has same grouping information; Release module 404 links to each other with home network device 406, is used to manage the release of the resource of distributing to each terminal; A plurality of terminals 405 also link to each other with policy module 403 respectively, and the strategy of working out according to policy module 403 carries out resource race to control.

In preferred the enforcement, acquisition module comprises the message acquiring unit, and it obtains grouping information by user's negotiation packet.

The message acquiring unit comprises that grouping information obtains subelement, and it obtains grouping information by option82 in user's negotiation packet.

Acquisition module obtains grouping information by user's negotiation packet, and concrete is to obtain grouping information by option82 in user's negotiation packet.

Based on same inventive concept, the present invention also provides a kind of H-QoS resource allocation system, describes below in conjunction with the concrete enforcement of accompanying drawing to native system.

Fig. 5 is a H-QoS resource allocation system structural representation, as shown in the figure, comprises acquisition module 401, distribution module 402, policy module 403, release module 404, terminal 405, home network device 204 in the system, wherein:

Network passes through home network device 204 to terminal 405 Resources allocation;

Acquisition module 401 links to each other with terminal 405 by the network equipment 204, is used to obtain the high quality-of-service H-QoS type of distributing to terminal and the grouping information of terminal;

Distribution module 402 links to each other with acquisition module 401, and links to each other with terminal 405 by the network equipment 204, is used for the information obtained according to acquisition module, distributes the high quality-of-service H-QoS resource of same type unitedly to the terminal with same grouping information.

Policy module 403 links to each other with terminal 405, is used for the high quality-of-service H-QoS resource of distributing to the terminal with same grouping information is formulated preemptive policy by the priority of terminal; Terminal with same grouping information is seized by preemptive policy the high quality-of-service H-QoS resource of unified distribution.

Release module 404 links to each other with terminal 405 by the network equipment 204, is used for when all terminals with same grouping information all do not re-use the high quality-of-service H-QoS resource of this unified distribution, discharges high quality-of-service H-QoS resource.

Acquisition module can also comprise that the message acquiring unit obtains grouping information by user's negotiation packet.

The message acquiring unit can also comprise that grouping information obtains subelement, is used for obtaining grouping information by user's negotiation packet option82.

In sum, spirit of the present invention as can be known is, the H-QoS resource with same type with same grouping information terminal is distributed unitedly, and and then the Option82 that utilizes user's negotiation packet by with the cooperating of Verification System, effectively, the dynamic visit of distinguishing the control user to Internet resources.Obviously, those skilled in the art can carry out various changes and modification to the present invention and not break away from the spirit and scope of the present invention.Like this, if of the present invention these are revised and modification belongs within the scope of claim of the present invention and equivalent technologies thereof, then the present invention also is intended to comprise these changes and modification interior.

Claims (15)

1, a kind of high quality-of-service resource allocation methods is characterized in that, comprises the steps:

Obtain the high quality-of-service H-QoS resource type of distributing to terminal and the grouping information of terminal;

High quality-of-service H-QoS resource to terminal unified distribution same type with same grouping information.

2, the method for claim 1 is characterized in that, further comprises the steps:

Described terminal with same grouping information is seized by the priority of terminal the high quality-of-service H-QoS resource of described unified distribution.

3, the method for claim 1 is characterized in that, further comprises the steps:

When described all terminals with same grouping information all do not re-use the high quality-of-service H-QoS resource of this unified distribution, discharge described high quality-of-service H-QoS resource.

4, the method for claim 1 is characterized in that, described grouping information is obtained by user's negotiation packet.

5, method as claimed in claim 4 is characterized in that, described grouping information is obtained by option82 in user's negotiation packet.

6, a kind of high quality-of-service resource allocation device is characterized in that, comprising:

Acquisition module is used to obtain the high quality-of-service H-QoS type of distributing to terminal and the grouping information of terminal;

Distribution module is used for the high quality-of-service H-QoS resource to the terminal unified distribution same type with same grouping information.

7, device as claimed in claim 6 is characterized in that, described device further comprises policy module, is used for the high quality-of-service H-QoS resource of distributing to the terminal with same grouping information is formulated preemptive policy by the priority of terminal;

Described terminal with same grouping information is seized by preemptive policy the high quality-of-service H-QoS resource of described unified distribution.

8, device as claimed in claim 6 is characterized in that, further comprises:

Release module is used for discharging described high quality-of-service H-QoS resource when described all terminals with same grouping information all do not re-use the high quality-of-service H-QoS resource of this unified distribution.

9, device as claimed in claim 6 is characterized in that, described acquisition module comprises the message acquiring unit, is used for obtaining grouping information by user's negotiation packet.

10, device as claimed in claim 9 is characterized in that, described message acquiring unit comprises that grouping information obtains subelement, is used for obtaining grouping information by user's negotiation packet option82.

11, a kind of high quality-of-service resource allocation system, network, is characterized in that to the terminal distribution resource by the network equipment, comprises acquisition module, distribution module, wherein:

Acquisition module links to each other with terminal by the network equipment, is used to obtain the high quality-of-service H-QoS type of distributing to terminal and the grouping information of terminal;

Distribution module links to each other with acquisition module, and links to each other with terminal by the network equipment, is used for the information obtained according to described acquisition module, to the high quality-of-service H-QoS resource of the terminal unified distribution same type with same grouping information.

12, system as claimed in claim 11 is characterized in that, further comprises policy module, links to each other with terminal, is used for the high quality-of-service H-QoS resource of distributing to the terminal with same grouping information is formulated preemptive policy by the priority of terminal;

Described terminal with same grouping information is seized by preemptive policy the high quality-of-service H-QoS resource of described unified distribution.

13, system as claimed in claim 11 is characterized in that, further comprises:

Release module links to each other with terminal by the network equipment, is used for discharging described high quality-of-service H-QoS resource when described all terminals with same grouping information all do not re-use the high quality-of-service H-QoS resource of this unified distribution.

14, system as claimed in claim 11 is characterized in that, described acquisition module comprises the message acquiring unit, is used for obtaining grouping information by user's negotiation packet.

15, system as claimed in claim 14 is characterized in that, described message acquiring unit comprises that grouping information obtains subelement, is used for obtaining grouping information by user's negotiation packet option82.