CN101150431B - A method for alarm processing streamline and alarm processing - Google Patents
A method for alarm processing streamline and alarm processing Download PDFInfo
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- CN101150431B CN101150431B CN2007101106287A CN200710110628A CN101150431B CN 101150431 B CN101150431 B CN 101150431B CN 2007101106287 A CN2007101106287 A CN 2007101106287A CN 200710110628 A CN200710110628 A CN 200710110628A CN 101150431 B CN101150431 B CN 101150431B
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Abstract
The invention provides an alarm process pipeline including multiple alarm process nodes arranged according to a sequence by which the warning is processed; only processing one alarm data packet generated by the alarm at the same time; receiving the alarm data packet sent by the last alarm process node and processing the same during idles; if being a last one, then releasing the alarm data packet after finishing the process, if not, after finishing the process, judging if the next alarm process node is idle, if so, sending the alarm data packet to the next alarm process node. This invention also provides an alarm process method including: (a), setting up the alarm process pipeline, b, controlling data packets to be processed by alarm process nodes according to the sequence of the alarm process nodes in the alarm process pipeline. By using the invention, the alarm can be concurrently processed on multi-level and the alarm process flow can be flexibly configured.
Description
Technical field
The present invention relates to the communications field, relate in particular to the alarming processing streamline in telecommunication management network (TMN) fault management capability and the method for alarming processing.
Background technology
Along with the continuous expansion of telecommunications network scale, the equipment that transmission network management system is managed is more and more, makes that the alarm data amount in the webmaster is becoming very huge.Simultaneously alarm management is again the critical function that the user is concerned about, this just has higher requirement to the ability that a large amount of alarm datas are handled in transmission network management.And because the change of demand is more and more frequent, function expansion is more and more, and is also more and more higher for the extensibility requirement of the handling process of alarming.
Because the particularity that alarm data is handled, alarm must be handled in order, and promptly the alarm that produces earlier in time must be by priority treatment.This requirement has limited the parallel processing of alarm.
Usually adopt the unified method of handling of big data quantity for the treatment effeciency that improves alarm in the prior art, the a large amount of alarm uniform packing that are about to produce in the short time are handled, but this method had no idea to change in the same moment, have only data to wrap in the present situation of processing in the alarming processing flow process, can't increase substantially alarming processing efficient.Simultaneously,, need make amendment, can not adapt to flexible and changeable alarming processing mode source program if the alarming processing flow process changes.
Summary of the invention
At above-mentioned situation, the technical problem to be solved in the present invention is the method that proposes a kind of alarming processing streamline and alarming processing, and is low to solve alarming processing efficient, the alarming processing flow process can't flexible configuration etc. problem.
The technical solution used in the present invention is:
A kind of alarming processing streamline comprises a plurality of alarming processing nodes, and each alarming processing node is according to the processed sequence arrangement of alarm; Described each alarming processing node can only be handled an alarm packet that is generated by alarm at synchronization; Described each alarming processing node is used for when it is idle, receives alarm packet that a last alarming processing node sends and it is handled; Be arranged in a last alarming processing node, then also be used for after finishing dealing with, alarm packet being discharged; Be arranged in each the alarming processing node before last alarming processing node, also be used for after finishing dealing with, judge whether next alarming processing node is idle, if free time then alarm packet is sent to next alarming processing node;
Contain the configuration information that reflects its disposal ability in the described alarming processing streamline, comprise information such as priority and maximum processing capability; Alarming processing interstitial content that described maximum processing capability is comprised by described alarming processing streamline and the decision of the processing time of alarming processing node the most consuming time; During many alarming processing streamline coexistences, the alarming processing streamline that priority is high is carried out by priority scheduling.
Further, also comprise a buffer queue, be used for depositing the manageable alarm packet of alarming processing streamline, first alarming processing node of handling in the streamline also is used for when it is idle the alarm packet that receiving cache queue is sent.
Further, comprise buffer memory in alarm each alarming processing node in the streamline, buffer memory is used at it discontented, and this alarming processing node receives the alarm packet that a last alarming processing node is sent when busy; And when this alarming processing node is idle, be used for the alarming processing bag is sent to this alarming processing node; When the alarming processing node is used for also at next alarming processing node that not idle and buffer memory is discontented alarm packet is sent to the buffer memory of next alarming processing node.
Further, have different processing branches in the alarming processing streamline, a plurality of alarming processing nodes that are in the different branches can the parallel processing alarm packet.
Further, the alarming processing node is used to also judge whether next alarming processing node exists branch, if, then alarm packet being copied as many parts, its umber equals the number of branch in the alarming processing streamline, mails to next alarming processing node again.
A kind of method of alarming processing is applied to the server end of transmission network management, may further comprise the steps:
(1) set up the alarming processing streamline, be specially:
(11) the alarming processing node in all alarming processing streamlines of initialization makes it be in upstate;
(12) the alarming processing node is made into the alarming processing streamline according to the alarming processing der group;
(13) attribute of described each alarming processing streamline is set, comprises its maximum processing capability and precedence information; Alarming processing interstitial content that described maximum processing capability is comprised by described alarming processing streamline and the decision of the processing time of alarming processing node the most consuming time; During many alarming processing streamline coexistences, the alarming processing streamline that priority is high is carried out by priority scheduling;
(14) start described each alarming processing streamline, make it in running order;
(2) will alarm the pending alarm packet of generation, be specially:
(21) reception is from the alarm of lower floor's webmaster or equipment;
(22) judge its alarm type according to the warning information that receives after, described alarm type and warning information are together generated the manageable alarm packet of alarming processing streamline;
(23) select and the corresponding alarming processing streamline of described alarm according to described alarm type, and described alarm packet is put into the buffer queue of described alarming processing streamline, wait pending;
(3) the control alarm data wraps in and is alarmed processing node according to the order of alarming processing node in the alarming processing streamline and handle successively, is specially:
(31) priority of described each the alarming processing streamline of inspection, in the buffer queue of the high alarming processing streamline of priority, alarm packet is arranged, the alarm packet quantity of handling in its first alarming processing node free time and the described alarming processing streamline does not exceed it and handles upward in limited time, according to first in first out the alarm packet in the buffer queue of described pending alarm packet is taken out, put into first alarming processing node of described alarming processing streamline; After treatment, carry out next step;
(32) judge whether described alarming processing streamline finishes, if, execution in step (37) then, otherwise, execution in step (33);
(33) judge whether next alarming processing node is in the bifurcation of described alarming processing streamline, if, then described alarm packet is copied as many parts, after its umber equals the number of branch in the described alarming processing streamline, execution in step (34); Otherwise, direct execution in step (34);
(34) judge that next alarming processing node is whether idle, if, execution in step (36) then, otherwise, execution in step (35);
(35) judge whether the buffer memory of described next alarming processing node is full, if then described alarm packet still is kept in this alarming processing node execution in step (35); Otherwise, described alarm packet is sent in the buffer memory of described next alarming processing node, when described next alarming processing node does not have processed alarm packet, execution in step (36);
(36) alarm packet is sent to described next alarming processing node according to the principle of first in first out, it is handled in described next alarming processing node, execution in step (32) after finishing dealing with;
(37) processing finishes.
Further, whether first warning information comprises: generation time, extinction time, alarm grade, reporting information.
Further, step (b) also comprises afterwards: when alarm data wrapped in that processing finishes on last alarming processing node of alarming processing streamline, then processing procedure finished, the release alarm packet.
Further, in the step (a2), the alarming processing node is made into the alarming processing streamline according to the alarming processing der group according to alarming processing pipeline configuration information.
Compared with prior art, the present invention has following advantage:
Concurrent processing on many levels: many alarming processing streamlines can the dissimilar alarm of parallel processing, and a plurality of alarming processing nodes in same alarming processing streamline can a plurality of alarms of parallel processing.Along with the segmentation of alarming processing function, the increase of alarming processing flowing water number of lines and alarming processing node number will be multiplied the treating number of alarming in the unit interval, and treatment effeciency significantly promotes.
The alarming processing flow process can flexible configuration: when the alarming processing flow process changes, as long as revise alarming processing pipeline configuration information, need not revise source program, destroy original handling process.When the alarming processing flow process increases (deletion), as long as when increasing (deletion) alarming processing node, increase the configuration information of alarming processing streamline.
Description of drawings
Fig. 1 is an alarming processing streamline schematic diagram in the embodiment of the invention;
Fig. 2 is the detailed maps of alarming processing streamline in the embodiment of the invention;
Fig. 3 a sets up the alarming processing pipeline flow chart in the embodiment of the invention; 3b is a handle packet flow chart in the embodiment of the invention;
Fig. 4 wraps in the processed flow chart of alarming processing streamline for control data in the embodiment of the invention.
Embodiment
Below in conjunction with drawings and Examples technical scheme of the present invention is described in detail.
As shown in Figure 1, the alarming processing streamline comprises a plurality of alarming processing nodes, and each alarming processing node is according to the processed sequence arrangement of alarm; Each alarming processing node can only be handled a packet that is generated by alarm at synchronization.This streamline also comprises a buffer queue, is used for depositing the manageable packet of alarming processing streamline.
The alarming processing node is used to receive packet that an alarming processing node, buffer queue or its buffer memory send and this packet is handled.If last alarming processing node then also is used for after finishing dealing with this packet being discharged; If not last alarming processing node, also be used for after finishing dealing with, judge whether next alarming processing node is idle, if free time then this packet is sent to next alarming processing node, otherwise whether the buffer memory of judging next alarming processing node is full, if then this packet is kept in this alarming processing node, when buffer memory is discontented, this packet is sent in the buffer memory of next alarming processing node; If not, then this packet is sent in the buffer memory of next alarming processing node; Be used to also judge whether next alarming processing node exists branch, if, then this packet is copied as many parts (its umber equals the number of branch in the alarming processing streamline) after, mail to next alarming processing node again.
Contain the configuration information that reflects its disposal ability in this alarming processing streamline, comprise information such as priority and maximum processing capability; Alarming processing interstitial content that maximum processing capability is comprised by the alarming processing streamline and the decision of the processing time of alarming processing node the most consuming time; During many alarming processing streamline coexistences, the alarming processing streamline that priority is high is carried out by priority scheduling.
Can have different processing branches in the alarming processing streamline, a plurality of alarming processing nodes that are in the different branches can the parallel processing alarm packet.The treatment step that this makes original order execution can concurrently be carried out now, has improved treatment effeciency.
Be applied to the method for alarming processing of the server end of transmission network management, may further comprise the steps:
(1) set up the alarming processing streamline that comprises one or more alarming processing nodes, specifically comprise:
(11) the alarming processing node in all alarming processing streamlines of initialization makes it be in upstate;
(12) according to alarming processing pipeline configuration information the alarming processing node is made into the alarming processing streamline according to the alarming processing der group;
(13) attribute of each alarming processing streamline is set, comprises information such as its maximum processing capability and priority;
(14) start each alarming processing streamline, make it in running order;
(15) setting up the alarming processing pipelined process finishes.
(2) will alarm the pending packet of generation, specifically comprise:
(21) reception is from the alarm of lower floor's webmaster or equipment;
(22) judge its alarm type according to the warning information that receives after, alarm type and warning information are together generated the manageable packet of alarming processing streamline;
(23) select and the corresponding alarming processing streamline of alarm according to alarm type, and packet is put into the buffer queue of the pending packet of this alarming processing streamline, wait pending;
(24) generating pending process data packet finishes.
(3) control data wraps in and is alarmed processing node according to the alarming processing order in the alarming processing streamline and handle successively, specifically comprises:
(31) check the priority of each alarming processing streamline, in the buffer queue of the high alarming processing streamline of priority, packet is arranged, the alarm packet quantity of handling in its first alarming processing node free time and the alarming processing streamline does not exceed it and handles upward in limited time, according to first in first out the packet in the buffer queue is taken out, put into first alarming processing node of alarming processing streamline; After treatment, execution in step (32);
(32) judge whether the alarming processing streamline finishes, if, execution in step (37) then, otherwise, execution in step (33);
(33) judge whether next alarming processing node is in the bifurcation of alarming processing streamline, if, then alarm packet is copied as many parts (its umber equals the number of branch in the alarming processing streamline) after, execution in step (34); Otherwise, direct execution in step (34);
(34) judge the alarm data whether other is arranged in next alarming processing node wraps in the processing (promptly whether idle), if having, execution in step (35) then, otherwise, execution in step (36);
(35) judge whether the buffer memory of next alarming processing node is full, if then alarm packet still is kept in this alarming processing node execution in step (35); Otherwise, alarm packet is sent in the buffer memory of next alarming processing node, when next alarming processing node is idle, execution in step (36);
(36) alarm packet is sent to next processing node, it is handled in next processing node, execution in step (32) after finishing dealing with;
(37) processing finishes.
(4) when alarm data wrapped in that processing finishes on last alarming processing node of alarming processing streamline, then processing procedure finished, and discharges the packet that flows out from the alarming processing streamline.
Below in conjunction with accompanying drawing, with the current alarm handling process in the transmission network management system be an application example the invention will be described further, but not as a limitation of the invention.
As shown in Figure 2, comprise 6 alarming processing nodes in the present embodiment, be respectively: demonstration is filtered, is saved in the alarm pond, preserves and confirm current alarm, preservation history alarm, query filter and resource status statistics.
Shown in Fig. 3 a, in the above-mentioned steps (1), the handling process of setting up the alarming processing streamline is specific as follows:
(301) the alarming processing node in all alarming processing streamlines of initialization makes it be in upstate;
(302) according to configuration information definition alarming processing streamline (but the method for tissue, definition alarming processing streamline is not limited to the use configuration information), the alarming processing node is made into the alarming processing streamline according to the alarming processing der group.Comprise putting in order of the alarming processing node name that comprises in the alarming processing streamline and each alarming processing node in the configuration information.Putting in order of alarming processing node according to the sequence arrangement among Fig. 2.Wherein after " being saved in the alarm pond " alarming processing node, 2 branches are arranged;
(303) attribute of alarming processing streamline is set, its priority is made as " generally ";
(304) start the alarming processing streamline, make it in running order, when in its buffer queue alarm packet being arranged, can handle;
(305) setting up the alarming processing pipelined process finishes.
Shown in Fig. 3 b, it is as follows that step (2) will be alarmed the flow process that generates pending packet:
(306) reception is from the alarm of lower floor's webmaster or equipment;
(307) judge its alarm type according to warning information (generation time, extinction time, alarm grade, whether report or the like first), if current alarm then together generates the manageable packet of alarming processing streamline with alarm type and warning information;
(308) put it in the buffer queue of pending packet of corresponding alarming processing streamline, wait pending;
(309) generating pending process data packet finishes.
As shown in Figure 4, in the above-mentioned steps (3), control data wraps in the alarming processing streamline that to be alarmed the flow process that processing node handles successively according to the order of alarming processing node as follows:
(401) check the priority of alarming processing streamline, if having other high alarming processing streamlines of priority then first dispatching priority is high.Owing to have only a streamline in this example, therefore can be scheduled;
(402) judge whether alarm packet is arranged in its buffer queue,, then carry out next step, otherwise wait for if having;
(403) judge that whether this alarming processing streamline has the ability to handle (whether the alarm packet quantity of promptly handling exceeds it is handled the upper limit) in the alarming processing streamline, if having the ability to handle, then carry out next step, otherwise wait for;
(404) packet in the buffer queue of pending packet is taken out (according to first-in first-out rule), put into this first node of alarming processing streamline " demonstration is filtered " and handle.When packet " shows and filter " that at first processing node processing finishes, carries out (405)
(405) judge whether the alarming processing streamline finishes, if finish then execution (411), otherwise execution in step (406);
(406) judge whether next alarming processing node exists branch, if there is no execution in step (408) then, otherwise execution in step (407);
(407) in this example, second alarming processing node " is saved in the alarm pond " and has two branches afterwards, therefore alarm packet copied as two, and making all has alarm packet to handle in each branch;
(408) judge whether next processing node is idle, if, execution in step (410); Otherwise, execution in step (409);
(409) whether the buffer memory of judging next processing node has expired (this cache size can be provided with), if not full, then this alarm packet is left in the buffer memory of next node, discharge the right to use of this node simultaneously, when next by the time processing node is idle, carry out (410); Otherwise, alarm packet is left in this node in execution in step (409);
(410) alarm packet is sent to next processing node according to the principle of first in first out, it is handled in next processing node.Execution in step (405) after finishing dealing with;
(411) processing finishes.
In this example owing to adopted " streamline " technology, make that the treatment effeciency of current alarm significantly improves in the transmission network management, make that simultaneously the handling process of alarm can flexible configuration.
The present invention is applicable to transmission network management system and other systems that the processing sequence and the efficient of data are had requirement.
Certainly; the present invention also can have other various embodiments; under the situation that does not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the present invention.
Claims (8)
1. the system of an alarming processing is applied to the server end of transmission network management, it is characterized in that, comprises apparatus for establishing, generating apparatus and control device:
Apparatus for establishing is used to set up the alarming processing streamline, specifically comprises:
Initial beggar's device is used for the alarming processing node of all alarming processing streamlines of initialization, makes it be in upstate;
Organize sub-device, be used for the alarming processing node is made into the alarming processing streamline according to the alarming processing der group;
Sub-device is set, is used to be provided with the attribute of described each alarming processing streamline, comprise its maximum processing capability and precedence information; Wherein, the alarming processing interstitial content that comprised by described alarming processing streamline of described maximum processing capability and the processing time decision of alarming processing node the most consuming time; During many alarming processing streamline coexistences, the alarming processing streamline that priority is high is carried out by priority scheduling;
The promoter device is used to start described each alarming processing streamline, makes it in running order;
Generating apparatus is used for alarm is generated pending alarm packet, specifically comprises:
Receive sub-device, be used to receive alarm from lower floor's webmaster or equipment;
Generate sub-device, after being used for judging its alarm type, described alarm type and warning information are together generated the manageable alarm packet of alarming processing streamline according to the warning information that receives;
The chooser device is used for selecting and the corresponding alarming processing streamline of described alarm according to described alarm type, and described alarm packet is put into the buffer queue of described alarming processing streamline, waits pending;
Control device is used for controlling alarm data and wraps in described alarming processing streamline and handled successively by described alarming processing node according to the order of alarming processing node, specifically comprises:
Check sub-device, be used to check the priority of described each alarming processing streamline, in the buffer queue of the high alarming processing streamline of priority, alarm packet is arranged, the alarm packet quantity of handling in its first alarming processing node free time and the described alarming processing streamline does not exceed it and handles upward in limited time, according to first in first out the alarm packet in the buffer queue of described pending alarm packet is taken out, put into first alarming processing node of described alarming processing streamline; After treatment, trigger first and judge sub-device;
First judges sub-device, is used to judge whether described alarming processing streamline finishes, if then processing finishes, otherwise, trigger second and judge sub-device;
Second judges sub-device, be used to judge whether next alarming processing node is in the bifurcation of described alarming processing streamline, if then described alarm packet is copied as many parts, after its umber equals the number of branch in the described alarming processing streamline, trigger the 3rd and judge sub-device; Otherwise, directly trigger the 3rd and judge sub-device;
The 3rd judges sub-device, is used to judge whether next alarming processing node is idle, if, then trigger sending sub-device, otherwise, trigger the 4th and judge sub-device;
The 4th judges sub-device, is used to judge whether the buffer memory of described next alarming processing node is full, if, then described alarm packet still is kept in this alarming processing node, trigger the 4th and judge sub-device; Otherwise, described alarm packet is sent in the buffer memory of described next alarming processing node, when described next alarming processing node does not have processed alarm packet, trigger sending sub-device;
Send sub-device, be used for alarm packet is sent to described next alarming processing node according to the principle of first in first out, it is handled in described next alarming processing node, trigger first after finishing dealing with and judge sub-device.
2. whether first the system as claimed in claim 1 is characterized in that, generates the warning information that sub-device receives and comprises: generation time, extinction time, alarm grade, reporting information.
3. the system as claimed in claim 1 is characterized in that, also comprises releasing device: be used for when alarm data wraps in that processing finishes on last alarming processing node of described alarming processing streamline, then processing procedure finishes, and discharges described alarm packet.
4. the system as claimed in claim 1 is characterized in that, organizes sub-device according to alarming processing pipeline configuration information the alarming processing node to be made into the alarming processing streamline according to the alarming processing der group.
5. the method for an alarming processing is applied to the server end of transmission network management, it is characterized in that, may further comprise the steps:
(1) set up the alarming processing streamline, be specially:
(11) the alarming processing node in all alarming processing streamlines of initialization makes it be in upstate;
(12) the alarming processing node is made into the alarming processing streamline according to the alarming processing der group;
(13) attribute of described each alarming processing streamline is set, comprises its maximum processing capability and precedence information; Alarming processing interstitial content that described maximum processing capability is comprised by described alarming processing streamline and the decision of the processing time of alarming processing node the most consuming time; During many alarming processing streamline coexistences, the alarming processing streamline that priority is high is carried out by priority scheduling;
(14) start described each alarming processing streamline, make it in running order;
(2) will alarm the pending alarm packet of generation, be specially:
(21) reception is from the alarm of lower floor's webmaster or equipment;
(22) judge its alarm type according to the warning information that receives after, described alarm type and warning information are together generated the manageable alarm packet of alarming processing streamline;
(23) select and the corresponding alarming processing streamline of described alarm according to described alarm type, and described alarm packet is put into the buffer queue of described alarming processing streamline, wait pending;
(3) the control alarm data wraps in the described alarming processing streamline order according to the alarming processing node and is handled successively by described alarming processing node, is specially:
(31) priority of described each the alarming processing streamline of inspection, in the buffer queue of the high alarming processing streamline of priority, alarm packet is arranged, the alarm packet quantity of handling in its first alarming processing node free time and the described alarming processing streamline does not exceed it and handles upward in limited time, according to first in first out the alarm packet in the buffer queue of described pending alarm packet is taken out, put into first alarming processing node of described alarming processing streamline; After treatment, carry out next step;
(32) judge whether described alarming processing streamline finishes, if, execution in step (37) then, otherwise, execution in step (33);
(33) judge whether next alarming processing node is in the bifurcation of described alarming processing streamline, if, then described alarm packet is copied as many parts, after its umber equals the number of branch in the described alarming processing streamline, execution in step (34); Otherwise, direct execution in step (34);
(34) judge that next alarming processing node is whether idle, if, execution in step (36) then, otherwise, execution in step (35);
(35) judge whether the buffer memory of described next alarming processing node is full, if then described alarm packet still is kept in this alarming processing node execution in step (35); Otherwise, described alarm packet is sent in the buffer memory of described next alarming processing node, when described next alarming processing node does not have processed alarm packet, execution in step (36);
(36) alarm packet is sent to described next alarming processing node according to the principle of first in first out, it is handled in described next alarming processing node, execution in step (32) after finishing dealing with;
(37) processing finishes.
6. whether first method as claimed in claim 5 is characterized in that, described warning information comprises: generation time, extinction time, alarm grade, reporting information.
7. method as claimed in claim 5 is characterized in that, step (3) also comprises afterwards: when alarm data wrapped in that processing finishes on last alarming processing node of described alarming processing streamline, then processing procedure finished, and discharges described alarm packet.
8. method as claimed in claim 5 is characterized in that, in the step (12), according to alarming processing pipeline configuration information the alarming processing node is made into the alarming processing streamline according to the alarming processing der group.
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CN102223247A (en) * | 2011-05-17 | 2011-10-19 | 中兴通讯股份有限公司 | Rapid processing method for batch alarm and system thereof |
CN103023676B (en) * | 2011-09-22 | 2018-05-04 | 中兴通讯股份有限公司 | Alarm synchronization processing method and processing device |
CN103501297B (en) * | 2013-09-27 | 2017-03-15 | 杭州华三通信技术有限公司 | A kind of gate verification method and apparatus |
CN106452840B (en) * | 2016-09-09 | 2019-12-31 | 青岛海信宽带多媒体技术有限公司 | Network terminal event reporting method and device |
US10742483B2 (en) | 2018-05-16 | 2020-08-11 | At&T Intellectual Property I, L.P. | Network fault originator identification for virtual network infrastructure |
CN111435938B (en) * | 2019-01-14 | 2022-11-29 | 阿里巴巴集团控股有限公司 | Data request processing method, device and equipment |
CN113487150A (en) * | 2021-06-24 | 2021-10-08 | 中国航空工业集团公司西安飞行自动控制研究所 | Fault processing method for flight control system driven by multiple data sources |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6414595B1 (en) * | 2000-06-16 | 2002-07-02 | Ciena Corporation | Method and system for processing alarm objects in a communications network |
CN1503508A (en) * | 2002-11-20 | 2004-06-09 | 华为技术有限公司 | Fault coherence analysis of network management system and implement method |
CN1713588A (en) * | 2004-06-15 | 2005-12-28 | 华为技术有限公司 | Alarm data process and its processor in network system |
CN1761245A (en) * | 2004-10-11 | 2006-04-19 | 华为技术有限公司 | Method for treating alarm message |
-
2007
- 2007-06-06 CN CN2007101106287A patent/CN101150431B/en not_active Expired - Fee Related
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6414595B1 (en) * | 2000-06-16 | 2002-07-02 | Ciena Corporation | Method and system for processing alarm objects in a communications network |
CN1503508A (en) * | 2002-11-20 | 2004-06-09 | 华为技术有限公司 | Fault coherence analysis of network management system and implement method |
CN1713588A (en) * | 2004-06-15 | 2005-12-28 | 华为技术有限公司 | Alarm data process and its processor in network system |
CN1761245A (en) * | 2004-10-11 | 2006-04-19 | 华为技术有限公司 | Method for treating alarm message |
Non-Patent Citations (1)
Title |
---|
JP特开平10-242995A 1998.09.11 |
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