CN101547382A - Separation method for active-Standby service resource of different source and sink for grid network - Google Patents
Separation method for active-Standby service resource of different source and sink for grid network Download PDFInfo
- Publication number
- CN101547382A CN101547382A CN200910136299A CN200910136299A CN101547382A CN 101547382 A CN101547382 A CN 101547382A CN 200910136299 A CN200910136299 A CN 200910136299A CN 200910136299 A CN200910136299 A CN 200910136299A CN 101547382 A CN101547382 A CN 101547382A
- Authority
- CN
- China
- Prior art keywords
- node
- business
- module
- resource
- route
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Landscapes
- Data Exchanges In Wide-Area Networks (AREA)
Abstract
Separation method for active-standby service resource of different source and sink for grid network is as follows: 1 source node service management module receives establish request of first service, triggers routing computing module for computing route; signal control module starts to establish the first service; 2 routing flooding module completes resource mark information update; 3 source node service management module receives establish request of second service, triggers routing computing module for computing route according to active-standby service resource separation strategy; 4 signal control module starts to establish the second service; 5 routing flooding module completes resource mark information update. The inventive method can process active-standby service resource separation of three conditions: different source but same sink, same source but different sink, and different source and different sink; the method can be applied network combined by grid network and ring networking, or independent grid network; the method is highly reliable and stable.
Description
Technical field
The present invention relates to the separation of active-standby service resource in the grid network, the method for non-homogeneous chummage active-standby service resource separation in a kind of specifically grid network.
Background technology
Along with the fast development of Automatic Switched Optical Network Technology, it has brought the control device of a lot of automations to optical-fiber network in recent years, and for example: neighbours find automatically, automatic topological discover or the like, and the change that brings aspect optical network reliability simultaneously also is huge.
The introducing of control plane requires ASON node (for example: based on the optical switch node of SDH) to have distributed processing power.Distributed processing power makes grid network recovery that the possibility that realizes arranged---the centralized recovery in the grid network is because its recovery time long (for minute level), and be not widely used, and distributed grid network can shorten to recovery time a millisecond magnitude, thereby makes the practicability of grid network recovery become possibility.
Along with the fast development of Automatic Switched Optical Network Technology, the advantage of grid network is people's finding day by day in recent years.It not only has protection and the restore funcitons that approaches looped network; And the interconnectivity height between its internal node, business configuration is flexible; Share the formula recovery owing to adopt, its resource redundancy is few, and resource utilization is than higher.Grid network can overcome the SDH looped network intrinsic shortcoming, simultaneously in conjunction with Automatic Switched Optical Network Technology, for it has increased a lot of intelligentized functions, for example node is found automatically, automatic foundation of connection or the like.
Because the SDH looped network has obtained a large amount of application in communication network, the line interface transmission rate to 10Gb/s, is mainly used in long-distance backbone network, local network and metropolitan area network from 155Mb/s, 622Mb/s, 2.5Gb/s respectively.The SDH ring network is simple, and the looped network protection time is short, reliability height, technology maturation.Industry being is also is being researched and developed the SDH equipment of 40Gb/s speed at present.Can see that the SDH looped network will exist concurrent exhibition to go down in a very long time in future.So SDH looped network and grid network must co-exist in the network in short-term.The hybrid network of being made up of SDH looped network and grid network not only has looped network protection time weak point, the advantage that reliability is high; And also improved the interconnectivity of network to a certain extent, make that professional configuration is more flexible; Also protected simultaneously the existing network investment of operator to a certain extent.
The situation of grid network may appear passing through simultaneously in the active and standby business in the hybrid network, in this case, can't guarantee active and standby business in the inlet of grid network or outlet all on same node, for the consideration of risk, need avoid active and standby business all to pass through same node simultaneously.The situation of non-homogeneous chummage will appear in active and standby business for grid network like this.
Active-standby service resource separation is that grid network protection restore funcitons is realized requisite precondition.For the business of homology chummage, control plane can be realized separating of active-standby service resource with mechanism by the information of series of standards agreement regulation; And, also do not realize the method for active-standby service resource separation now for the business of non-homogeneous chummage.
In the ASON that grid network is formed, the business that has protection or recover attribute may have following four kinds of situations according to its active and standby sourcesink difference: active and standby homology chummage, active and standby not homology but chummage, active and standby homology be also chummage not of chummage, active and standby not homology not.The source node that active and standby homology chummage refers to working traffic and standby business is identical, and destination node is also identical; It is inequality that active and standby not homology but chummage refer to the source node of working traffic and standby business, but destination node is identical; Active and standby homology not chummage to refer to the source node of working traffic and standby business identical, but destination node is inequality; Active and standby not homology also not chummage to refer to the source node of working traffic and standby business inequality, destination node is also inequality, can be referred to as the active and standby business of non-homogeneous chummage for three kinds of situations of back.The method of existing active-standby service resource separation only only limits to handle first kind of situation, can't handle for three kinds of situations of back.
Summary of the invention
At the defective that exists in the prior art, the object of the present invention is to provide the method for non-homogeneous chummage active-standby service resource separation in a kind of grid network, can handle active and standby not homology but chummage, the active and standby homology also active-standby service resource separation under three kinds of situations of chummage not of chummage, active and standby not homology not, and can be applied in grid network and the common network of forming of ring network, also can be used for the network that grid network is formed separately, method reliability height, good stability.
For reaching above purpose, the technical scheme that the present invention takes is:
The method of non-homogeneous chummage active-standby service resource separation in a kind of grid network is characterized in that may further comprise the steps:
Step 1: source node service management module receives the foundation request of first business, trigger routing calculation module and calculate route, first business that obtains from the source node to the destination node each intermediate node and the link of process, the service management module can send the first professional foundation request to the signaling control module after route was calculated and finished, the signaling control module begins the first professional distributed signaling process of setting up, in this distributed signaling process, the signaling control module need be notified each intermediate node of process and the resource management module of destination node the call number of this first business of sign, source node, the resource management module of each intermediate node and destination node identifies the resource that first business takies with this business call number, and said resource refers to link;
Step 2: source node, the resource management module of each intermediate node and destination node sends to the first professional resource information occupied after the professional call number of the usefulness of its this locality sign the local route module that floods respectively, each route module that floods is finished resource identification information and is upgraded, the route module that floods is carried out the whole network by its intrinsic information from flooding mechanism with this information and is flooded, notify each node of the whole network, the route module that floods is finished routing database according to the result notification routing calculation module returned and is upgraded then, after the routing database renewal was finished, the signaling control module of source node was sent the first professional information of finishing of setting up to the service management module;
Step 3: after the first professional foundation is finished, source node service management module receives the foundation request of second business, the same routing calculation module that triggers is calculated route, routing calculation module is at first according to the call number resource that finds first business to take of sign first business, and then carry out route according to the active-standby service resource separation strategy and calculate, second business that obtains from the source node to the destination node each intermediate node and the link of process; Said active-standby service resource separation strategy can be for node separation, link disjoint, shared risk link group separate, one or more the combination of shared risk node group in separating;
Step 4: the service management module can send the second professional foundation request to the signaling control module after route was calculated and finished, the signaling control module begins the second professional distributed signaling process of setting up, in this distributed signaling process, the signaling control module need be notified each intermediate node of process and the resource management module of destination node the call number of this second business of sign, and the resource management module of source node, each intermediate node and destination node identifies the resource that second business takies with professional call number;
Step 5: source node, the resource management module of each intermediate node and destination node sends to the second professional resource information occupied after the professional call number of the usefulness of its this locality sign the local route module that floods respectively, each route module that floods is finished resource identification information and is upgraded, the route module that floods is carried out the whole network by its intrinsic information from flooding mechanism with this information and is flooded, notify each node of the whole network, the route module that floods is finished routing database according to the result notification routing calculation module returned and is upgraded then, after the routing database renewal was finished, the signaling control module of source node was sent the second professional information of finishing of setting up to the service management module;
When setting up after the foundation of working traffic elder generation, the standby business, said first business is a working traffic, and second business is standby business; When standby professional foundation earlier, when setting up behind the working traffic, said first business is standby business, and second business is a working traffic.
On the basis of technique scheme, after adopting technique scheme to set up active and standby business, the active and standby professional unified dismounting mode that adopts, professional concrete steps of removing are as follows:
Step 1: source node service management module is received the dismounting request of business, trigger the signaling control module and initiate professional distributed signaling process of removing, in this distributed signaling process, need be the resource management module of this professional call number passage of sign to each node of the whole network, the resource management module of each node will discharge the resource of this business call number sign and delete this business call number, and said resource refers to link;
Step 2: the resource information after the resource management module of each node will discharge sends to the local route module that floods, each route module that floods is finished resource identification information and is upgraded, the route module that floods is carried out the whole network by its intrinsic information from flooding mechanism with this information and is flooded, notify each node of the whole network, the route module that floods is finished routing database according to the result notification routing calculation module returned and is upgraded then, after the routing database renewal was finished, the signaling control module of source node was sent the professional information of finishing of removing to the service management module.
The method of non-homogeneous chummage active-standby service resource separation in the grid network of the present invention, can handle active and standby not homology but chummage, the active and standby homology also active-standby service resource separation under three kinds of situations of chummage not of chummage, active and standby not homology not, and can be applied in grid network and the common network of forming of ring network, also can be used for the network that grid network is formed separately, method reliability height, good stability.Method of the present invention has solved the problem that can't realize non-homogeneous chummage service resource separation in the grid network automatically, thereby various routes can be separated application of policies in the process of setting up of non-homogeneous chummage primary channel, further strengthen the intelligent characteristic and the ease for use of network, also strengthened the flexibility of networking between grid network and the SDH looped network simultaneously.
Description of drawings
The present invention has following accompanying drawing:
Fig. 1, individual node control plane controll block block diagram
The working traffic that Fig. 2, working traffic are set up earlier under the situation is set up
Fig. 3, working traffic are set up standby professional foundation the under the situation earlier
Fig. 4, standby business are set up standby professional foundation the under the situation earlier
The working traffic that Fig. 5, standby business are set up earlier under the situation is set up
Fig. 6, the professional dismounting
Fig. 7, non-homology but the example of active and standby service node of chummage and link disjoint
Fig. 8, non-homology but example that the active and standby professional shared risk link of chummage separates with shared risk node
Fig. 9, the different hosts of homology are equipped with the example of service node and link disjoint
Figure 10, the different hosts of homology are equipped with the example that professional shared risk link separates with shared risk node
Figure 11, the different hosts of non-homology are equipped with the example of service node and link disjoint
Figure 12, the different hosts of non-homology are equipped with the example that professional shared risk link separates with shared risk node
Embodiment
Below in conjunction with accompanying drawing the present invention is described in further detail.
Problem to be solved by this invention how in active and standby not homology but chummage, active and standby homology chummage, active and standby not homology do not realize that the resource of active and standby business separates under these three kinds of situations of chummage yet.The control plane controll block block diagram of the individual node of the grid network that Fig. 1 relates to for the method for the invention.As shown in Figure 1, generally the control plane on the individual node by service management, route calculate, signaling control, route flood, these five functional modules of resource management constitute.These five modules are known prior art, and the hardware control unit that the method for the invention need have this block diagram function is carried.These five functional modules itself can be corresponding to a hardware entities, or a plurality of hardware entities, and this can control and method of the present invention be irrelevant flexibly according to prior art.
The method of the invention has been considered following problem:
1. can separate according to different strategies: the separation strategy of active and standby business mainly contains node separation, link disjoint, the separation of shared risk link group, shared risk node group is separated and the above combination of two or more separate modes arbitrarily;
2. need consider the situation of active and standby service reconstruction: in actual application, may need one in the active and standby business is adjusted, business also can satisfy the strategy that active and standby resource is separated after this method also needed to consider adjustment.
The technical scheme that the present invention provides is only considered the control plane scheme of network node, do not limit and (refer to transmission planar technique SDH, OTN to bottom or the like here and do not do differentiation for transmitting planar technique, that is to say and to use), requestor for business is that UNI client or EMS/NMS do not do differentiation (promoter who refers to business does not do differentiation, that is to say to use) here simultaneously.Just begin to set up after requiring working traffic foundation to finish simultaneously and just begin to set up working traffic after standby business or standby professional foundation are finished.Do not do consideration (pointing out mainly that here this method can't be used for initiating simultaneously the situation of active and standby business) for the situation that active and standby business is asked simultaneously because promoter's behavior is not in this method limit of consideration.
The method of the invention concrete steps are as follows:
1. shown in Fig. 2,3, its process is as follows when setting up after the foundation of working traffic elder generation, the standby business:
Step 1: source node service management module receives the foundation request of working traffic, trigger routing calculation module and calculate route, obtain working traffic from the source node to the destination node each intermediate node and the link of process, the service management module can send working traffic to the signaling control module and set up request after route was calculated and finished, the signaling control module begins the distributed signaling process that working traffic is set up, in this distributed signaling process, the signaling control module need be notified each intermediate node of process and the resource management module (explorer) of destination node the call number of this working traffic of sign, source node, the resource management module of each intermediate node and destination node identifies the resource that working traffic takies with this business call number, and said resource refers to link;
Step 2: source node, the resource management module of each intermediate node and destination node sends to the working traffic resource information occupied after the professional call number of the usefulness of its this locality sign the local route module that floods respectively, each route module that floods is finished resource identification information and is upgraded, the route module that floods is carried out the whole network by its intrinsic information from flooding mechanism with this information and is flooded, notify each node of the whole network, the route module that floods is finished routing database according to the result notification routing calculation module returned and is upgraded then, after the routing database renewal was finished, the signaling control module of source node was sent working traffic to the service management module and is set up the information of finishing;
Step 3: after working traffic is set up and finished, source node service management module receives the foundation request of standby business, the same routing calculation module that triggers is calculated route, the resource that routing calculation module at first finds working traffic to take according to the call number that identifies working traffic, and then carry out route according to the active-standby service resource separation strategy and calculate, obtain standby business from the source node to the destination node each intermediate node and the link of process; Said active-standby service resource separation strategy can be for node separation, link disjoint, shared risk link group separate, one or more the combination of shared risk node group in separating;
Step 4: the service management module can send the standby professional request of setting up to the signaling control module after route was calculated and finished, the signaling control module begins the standby professional distributed signaling process of setting up, in this distributed signaling process, the signaling control module need be notified each intermediate node of process and the resource management module of destination node the call number of this standby business of sign, and the resource management module of source node, each intermediate node and destination node identifies the resource that standby business takies with professional call number;
Step 5: source node, the resource management module of each intermediate node and destination node sends to the standby professional resource information occupied after the professional call number of the usefulness of its this locality sign the local route module that floods respectively, each route module that floods is finished resource identification information and is upgraded, the route module that floods is carried out the whole network by its intrinsic information from flooding mechanism with this information and is flooded, notify each node of the whole network, the route module that floods is finished routing database according to the result notification routing calculation module returned and is upgraded then, after the routing database renewal was finished, the signaling control module of source node was sent the standby professional information of finishing of setting up to the service management module.
2. shown in Fig. 4,5, standby professional elder generation sets up, and its process is as follows when setting up behind the working traffic:
Step 1: source node service management module receives the foundation request of standby business, trigger routing calculation module and calculate route, obtain standby business from the source node to the destination node each intermediate node and the link of process, the service management module can send the standby professional request of setting up to the signaling control module after route was calculated and finished, the signaling control module begins the standby professional distributed signaling process of setting up, in this distributed signaling process, the signaling control module need be notified each intermediate node of process and the resource management module (explorer) of destination node the call number of this standby business of sign, source node, the resource management module of each intermediate node and destination node identifies the resource that standby business takies with this business call number, and said resource refers to link;
Step 2: source node, the resource management module of each intermediate node and destination node sends to the standby professional resource information occupied after the professional call number of the usefulness of its this locality sign the local route module that floods respectively, each route module that floods is finished resource identification information and is upgraded, the route module that floods is carried out the whole network by its intrinsic information from flooding mechanism with this information and is flooded, notify each node of the whole network, the route module that floods is finished routing database according to the result notification routing calculation module returned and is upgraded then, after the routing database renewal was finished, the signaling control module of source node was sent the standby professional information of finishing of setting up to the service management module;
Step 3: after standby professional foundation is finished, source node service management module receives the foundation request of working traffic, the same routing calculation module that triggers is calculated route, the resource that routing calculation module at first finds standby business to take according to the call number that identifies standby business, and then carry out route according to the active-standby service resource separation strategy and calculate, obtain working traffic from the source node to the destination node each intermediate node and the link of process; Said active-standby service resource separation strategy can be for node separation, link disjoint, shared risk link group separate, one or more the combination of shared risk node group in separating;
Step 4: the service management module can send working traffic to the signaling control module and set up request after route was calculated and finished, the signaling control module begins the distributed signaling process that working traffic is set up, in this distributed signaling process, the signaling control module need be notified each intermediate node of process and the resource management module of destination node the call number of this working traffic of sign, and the resource management module of source node, each intermediate node and destination node identifies the resource that working traffic takies with professional call number;
Step 5: source node, the resource management module of each intermediate node and destination node sends to the working traffic resource information occupied after the professional call number of the usefulness of its this locality sign the local route module that floods respectively, each route module that floods is finished resource identification information and is upgraded, the route module that floods is carried out the whole network by its intrinsic information from flooding mechanism with this information and is flooded, notify each node of the whole network, the route module that floods is finished routing database according to the result notification routing calculation module returned and is upgraded then, after the routing database renewal was finished, the signaling control module of source node was sent working traffic to the service management module and is set up the information of finishing.
3. as shown in Figure 6, after adopting technique scheme to set up active and standby business, the active and standby professional unified method for dismounting that adopts, professional process of removing is as follows:
Step 1: source node service management module is received the dismounting request of business, trigger the signaling control module and initiate professional distributed signaling process of removing, in this distributed signaling process, need be the resource management module of this professional call number passage of sign to each node of the whole network, the resource management module of each node will discharge the resource of this business call number sign and delete this business call number, and said resource refers to link;
Step 2: the resource information after the resource management module of each node will discharge sends to the local route module that floods, each route module that floods is finished resource identification information and is upgraded, the route module that floods is carried out the whole network by its intrinsic information from flooding mechanism with this information and is flooded, notify each node of the whole network, the route module that floods is finished routing database according to the result notification routing calculation module returned and is upgraded then, after the routing database renewal was finished, the signaling control module of source node was sent the professional information of finishing of removing to the service management module.
Below further specify the method for the invention by specific embodiment:
Figure 7 shows that not homology but active and standby service node of chummage and the incoherent example of link, is the grid network that 9 nodes are set up in the example.
Figure 8 shows that homology not but example that the active and standby professional shared risk link of chummage separates with shared risk node, is the grid network that 9 nodes are set up in the example.Wherein node 2 and node 8 shared the node risks, risk numbers 100, link 2-3 and link 5-8 shared link risk, risk numbers 200.
Figure 9 shows that the different hosts of homology are equipped with service node and the incoherent example of link, is the grid network that 9 nodes are set up in the example.
Figure 10 shows that the different hosts of homology are equipped with the example that professional shared risk link separates with shared risk node, is the grid network that 9 nodes are set up in the example.Wherein node 2 and node 8 shared the node risks, risk numbers 100, link 2-3 and link 5-8 shared link risk, risk numbers 200.
Figure 11 shows that non-homogeneous chummage service node and the incoherent example of link, is the grid network that 9 nodes are set up in the example.
Figure 12 shows that non-homogeneous chummage service node and the incoherent example of link, is the grid network that 9 nodes are set up in the example.Wherein node 2 and node 8 shared the node risks, risk numbers 100, link 2-3 and link 5-8 shared link risk, risk numbers 200.
Claims (2)
1. the method for non-homogeneous chummage active-standby service resource separation in the grid network is characterized in that may further comprise the steps:
Step 1: source node service management module receives the foundation request of first business, trigger routing calculation module and calculate route, first business that obtains from the source node to the destination node each intermediate node and the link of process, the service management module can send the first professional foundation request to the signaling control module after route was calculated and finished, the signaling control module begins the first professional distributed signaling process of setting up, in this distributed signaling process, the signaling control module need be notified each intermediate node of process and the resource management module of destination node the call number of this first business of sign, source node, the resource management module of each intermediate node and destination node identifies the resource that first business takies with this business call number, and said resource refers to link;
Step 2: source node, the resource management module of each intermediate node and destination node sends to the first professional resource information occupied after the professional call number of the usefulness of its this locality sign the local route module that floods respectively, each route module that floods is finished resource identification information and is upgraded, the route module that floods is carried out the whole network by its intrinsic information from flooding mechanism with this information and is flooded, notify each node of the whole network, the route module that floods is finished routing database according to the result notification routing calculation module returned and is upgraded then, after the routing database renewal was finished, the signaling control module of source node was sent the first professional information of finishing of setting up to the service management module;
Step 3: after the first professional foundation is finished, source node service management module receives the foundation request of second business, the same routing calculation module that triggers is calculated route, routing calculation module is at first according to the call number resource that finds first business to take of sign first business, and then carry out route according to the active-standby service resource separation strategy and calculate, second business that obtains from the source node to the destination node each intermediate node and the link of process; Said active-standby service resource separation strategy can be for node separation, link disjoint, shared risk link group separate, one or more the combination of shared risk node group in separating;
Step 4: the service management module can send the second professional foundation request to the signaling control module after route was calculated and finished, the signaling control module begins the second professional distributed signaling process of setting up, in this distributed signaling process, the signaling control module need be notified each intermediate node of process and the resource management module of destination node the call number of this second business of sign, and the resource management module of source node, each intermediate node and destination node identifies the resource that second business takies with professional call number;
Step 5: source node, the resource management module of each intermediate node and destination node sends to the second professional resource information occupied after the professional call number of the usefulness of its this locality sign the local route module that floods respectively, each route module that floods is finished resource identification information and is upgraded, the route module that floods is carried out the whole network by its intrinsic information from flooding mechanism with this information and is flooded, notify each node of the whole network, the route module that floods is finished routing database according to the result notification routing calculation module returned and is upgraded then, after the routing database renewal was finished, the signaling control module of source node was sent the second professional information of finishing of setting up to the service management module;
When setting up after the foundation of working traffic elder generation, the standby business, said first business is a working traffic, and second business is standby business; When standby professional foundation earlier, when setting up behind the working traffic, said first business is standby business, and second business is a working traffic.
2. the method for non-homogeneous chummage active-standby service resource separation in the grid network as claimed in claim 1 is characterized in that: after adopting technique scheme to set up active and standby business, and the active and standby professional unified dismounting mode that adopts, professional concrete steps of removing are as follows:
Step 1: source node service management module is received the dismounting request of business, trigger the signaling control module and initiate professional distributed signaling process of removing, in this distributed signaling process, need be the resource management module of this professional call number passage of sign to each node of the whole network, the resource management module of each node will discharge the resource of this business call number sign and delete this business call number, and said resource refers to link;
Step 2: the resource information after the resource management module of each node will discharge sends to the local route module that floods, each route module that floods is finished resource identification information and is upgraded, the route module that floods is carried out the whole network by its intrinsic information from flooding mechanism with this information and is flooded, notify each node of the whole network, the route module that floods is finished routing database according to the result notification routing calculation module returned and is upgraded then, after the routing database renewal was finished, the signaling control module of source node was sent the professional information of finishing of removing to the service management module.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2009101362992A CN101547382B (en) | 2009-05-06 | 2009-05-06 | Separation method for active-Standby service resource of different source and sink for grid network |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2009101362992A CN101547382B (en) | 2009-05-06 | 2009-05-06 | Separation method for active-Standby service resource of different source and sink for grid network |
Publications (2)
Publication Number | Publication Date |
---|---|
CN101547382A true CN101547382A (en) | 2009-09-30 |
CN101547382B CN101547382B (en) | 2012-01-04 |
Family
ID=41194202
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2009101362992A Expired - Fee Related CN101547382B (en) | 2009-05-06 | 2009-05-06 | Separation method for active-Standby service resource of different source and sink for grid network |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN101547382B (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102843618A (en) * | 2011-06-20 | 2012-12-26 | 中兴通讯股份有限公司 | Method and device for SNCP (Sub-network Connection Protection) in butt joint of ASON (Automatically Switched Optical Network) and traditional network |
CN107395422A (en) * | 2017-07-27 | 2017-11-24 | 郑州云海信息技术有限公司 | A kind of more machine frame management systems |
CN108337174A (en) * | 2017-12-27 | 2018-07-27 | 瑞斯康达科技发展股份有限公司 | A kind of searching method and device, storage medium of the routing of transmission network teleservice |
CN111342889A (en) * | 2020-03-06 | 2020-06-26 | 中国电力科学研究院有限公司 | Risk separation protection path searching method and system for safety and stability control type service |
CN112231465A (en) * | 2020-10-20 | 2021-01-15 | 南方电网数字电网研究院有限公司 | Service data resource separation method and device, computer equipment and storage medium |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3705222B2 (en) * | 2002-02-06 | 2005-10-12 | 日本電気株式会社 | Path setting method, communication network using the same, and node device |
CN100387035C (en) * | 2003-12-30 | 2008-05-07 | 烽火通信科技股份有限公司 | Method of proceeding failure recovery using shared spare passage in lattice shape network |
CN100555922C (en) * | 2004-09-10 | 2009-10-28 | 华为技术有限公司 | A kind of method that realizes the grid network business recovery |
CN1790960B (en) * | 2005-12-06 | 2010-04-14 | 电子科技大学 | Path protection method for mixed shared link wavelength resource in WDM network |
-
2009
- 2009-05-06 CN CN2009101362992A patent/CN101547382B/en not_active Expired - Fee Related
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102843618A (en) * | 2011-06-20 | 2012-12-26 | 中兴通讯股份有限公司 | Method and device for SNCP (Sub-network Connection Protection) in butt joint of ASON (Automatically Switched Optical Network) and traditional network |
CN102843618B (en) * | 2011-06-20 | 2017-09-29 | 中兴通讯股份有限公司 | The method and device that SNCP is protected when ASON is docked with legacy network |
CN107395422A (en) * | 2017-07-27 | 2017-11-24 | 郑州云海信息技术有限公司 | A kind of more machine frame management systems |
CN108337174A (en) * | 2017-12-27 | 2018-07-27 | 瑞斯康达科技发展股份有限公司 | A kind of searching method and device, storage medium of the routing of transmission network teleservice |
CN108337174B (en) * | 2017-12-27 | 2020-10-23 | 瑞斯康达科技发展股份有限公司 | Method and device for searching end-to-end service route of transmission network and storage medium |
CN111342889A (en) * | 2020-03-06 | 2020-06-26 | 中国电力科学研究院有限公司 | Risk separation protection path searching method and system for safety and stability control type service |
CN111342889B (en) * | 2020-03-06 | 2022-01-07 | 中国电力科学研究院有限公司 | Risk separation protection path searching method and system for safety and stability control type service |
CN112231465A (en) * | 2020-10-20 | 2021-01-15 | 南方电网数字电网研究院有限公司 | Service data resource separation method and device, computer equipment and storage medium |
Also Published As
Publication number | Publication date |
---|---|
CN101547382B (en) | 2012-01-04 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US10454585B2 (en) | Data center network system and signal transmission system | |
CN105325051B (en) | The system and method for sensitive cloud wireless access network | |
Mohan et al. | Lightpath restoration in WDM optical networks | |
CN101605278B (en) | Method for realizing adaptive signaling in distributed control collaborative optical networks | |
JP2023171514A (en) | Optical communication system and optical communication method | |
CN101547382B (en) | Separation method for active-Standby service resource of different source and sink for grid network | |
CN108111411B (en) | Backbone network and dynamic path planning system and planning method thereof | |
US10491487B2 (en) | Network service establishment method, orchestration control center, and network system | |
CN107465966B (en) | Topology reconstruction control method for optical network | |
JP2017516342A (en) | Optical network on chip, and method and apparatus for dynamically adjusting optical link bandwidth | |
CN101674217B (en) | Method for realizing permanent ring network protection in MESH network | |
WO2012065491A1 (en) | Method for protection switching in complicated optical network and network management system | |
CN103581006A (en) | System architecture for global optimization of flexible grid optical networks and global optimization method thereof | |
WO2023015897A1 (en) | Intelligent control method, apparatus and system for optical network | |
CN108965013B (en) | System and method for rapidly opening IP and optical network service | |
CN106160864A (en) | The big data interchange platform network architecture | |
Aibin et al. | Different strategies for dynamic multicast traffic protection in elastic optical networks | |
CN106230952A (en) | Monitor the big data storing platform network architecture | |
CN101360349A (en) | Resistant boundary node and establishing method for connection between resistant boundary nodes | |
CN101567743B (en) | Computation method and device for multiplex section sharing guard ring misconnection squelching table | |
CN101184018B (en) | Automatic exchange optical network and traditional network interconnecting method | |
CN104363152A (en) | Hybrid networking system for electrical power private communication network | |
CN103475440A (en) | Impairment aware route and wavelength assignment method supporting differentiated services | |
CN100466546C (en) | System and method for realizing business protection using LCAS protocol | |
CN102355608B (en) | Improved method for fault recovery of multi-granularity optical network based on GMPLS |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120104 Termination date: 20210506 |