CN104219404A - Communication network emergency plan drill method, system and server - Google Patents

Abstract

The invention relates to a communication network emergency plan drill method, system and server. The method comprises the following steps: generating a drill task tree according to the script of an emergency scene selected by an user, distributing tasks to referred roles in the drill task tree from a root node to leaf nodes of the drill task tree; traversing executable tasks in the drill task tree according to dependencies of the drill task tree and the tasks therein after task completion information sent by the roles is received, and distributing the executable tasks to the corresponding roles until all tasks in the drill task tree are finished. The problems existing in the operation of a communication network and resources required by various emergency tasks can be simulated through the method, system and server, and the automatic deduction of a scene type emergency plan is realized.

Description

Communication network emergency preplan drilling method, system and server

Technical field

The disclosure relates to network safety guard technology field, especially, relates to a kind of communication network emergency preplan drilling method, system and server.

Background technology

China is the country that disaster takes place frequently, disaster is wide, casualty loss is serious.Along with the fast development of national economy, more and more higher to the dependence of communication network, burst fire-disaster event will directly have influence on carrying out smoothly and carrying out of national work in every to the heavy damage that communication network causes.Therefore, the communication support of Base communication net is an organic part of National Emergency Emergency management system, is also the key link of National Emergency emergency guarantee.

At present, country's each functional office, each operation enterprise emergency guarantee system of all having oneself complete.Emergency drilling, as the important ring in this system, is responsible for the important function of inspection emergency guarantee system efficiency and effect.Common emergency drilling means mostly are the modes such as survey, desktop rehearsal and reality simulation rehearsal.The audience of these rehearsal modes is less, is unfavorable for spread; And each rehearsal needs concentrated carrying out, and comparatively consumes manpower, financial resources and material resources.Under computer technology greatly develops the background universal with network service, a kind of electronic platform, provides the new method of emergency drilling mentioned by masses gradually and realize with the form of virtual scene.

But, common electronic drilling platforms often lays particular emphasis on representing of scene and authenticity, main employing 3-D view technology, the disaster damage model of all kinds of building of analog simulation and infrastructure, emphasize the execution utilizing three-dimensional real-time physical engine technique simulant building thing and infrastructure, simulate the disaster field effects such as various smog, flame.These technology lack the analog simulation to information technoloy equipment/system, when the emergency disposal of disaster scene relates to internet system, computer or communication equipment, cannot effectively provide emergency drilling ability, have certain limitation.

Summary of the invention

The disclosure proposes new technical scheme in view of at least one in above problem.

The disclosure provides a kind of communication network emergency preplan drilling method in one, and the problem that can run in the operation of analog communication network and the resource needed for every contingency tasks, the automation realizing scene-type emergency preplan is deduced.

The disclosure provides on the other hand a kind of communication network emergency preplan rehearsal server at it, and its problem that can run in the operation of analog communication network and the resource needed for every contingency tasks, the automation realizing scene-type emergency preplan is deduced.

The disclosure provides a kind of communication network emergency preplan drilling system in it is another, and its problem that can run in the operation of analog communication network and the resource needed for every contingency tasks, the automation realizing scene-type emergency preplan is deduced.

According to the disclosure, provide a kind of communication network emergency preplan drilling method, comprising:

Rehearsal Task Tree is generated according to the script of user-selected emergent scene;

The role related in rehearsal Task Tree to leaf node from the root node of rehearsal Task Tree distributes task;

Receiving after task that each role sends completes message, dependence according to rehearsal Task Tree and wherein each task travels through executable task drilling in Task Tree, and executable task is distributed to corresponding role, until all tasks in rehearsal Task Tree are all performed complete.

In embodiments more of the present disclosure, the method also comprises:

Receive the emergent scene that user selects according to self-demand;

The IT system related in the emergent scene of configuration and equipment;

Client automatically loads and presents emergent scene to user;

Receive the role that user selects, think that role distributes corresponding task.

In embodiments more of the present disclosure, the method also comprises:

Range ranking method according to Task Tree travels through executable task in rehearsal Task Tree.

In embodiments more of the present disclosure, the method also comprises:

Time triggered is utilized to drill the execution of root node task in Task Tree.

According to the disclosure, additionally provide a kind of communication network emergency preplan rehearsal server, comprising:

Task Tree generation unit, for generating rehearsal Task Tree according to the script of user-selected emergent scene;

Task dispatch unit, the role related in rehearsal Task Tree to leaf node from the root node of rehearsal Task Tree distributes task, receiving after task that each role sends completes message, dependence according to rehearsal Task Tree and wherein each task travels through executable task drilling in Task Tree, and executable task is distributed to corresponding role, until all tasks in rehearsal Task Tree are all performed complete.

In embodiments more of the present disclosure, server also comprises:

Receiving element, for receiving emergent scene that user selects according to self-demand and the role that user selects, thinks that role distributes corresponding task;

Scene configuration unit, for configuring the IT system and equipment that relate in emergent scene.

In embodiments more of the present disclosure, task dispatch unit also travels through executable task according to the range ranking method of Task Tree in rehearsal Task Tree.

In embodiments more of the present disclosure, task dispatch unit also utilizes time triggered to drill the execution of root node task in Task Tree.

According to the disclosure, additionally provide a kind of communication network emergency preplan drilling system, comprise the communication network emergency preplan rehearsal server in communication network emergency preplan rehearsal client and previous embodiment.

In technical scheme of the present disclosure, owing to generating rehearsal Task Tree according to user-selected emergent scene, and travel through wherein executable task from the root node of this tree to leaf node, until all tasks in tree are all performed complete.In the process of implementation, just can perform the every other task in rehearsal Task Tree after starting to perform the task of root node, wherein, user-selected emergent scene can for the various problems that may occur in communication network operator full automation.Therefore, the problem that can run in the operation of analog communication network and the resource needed for every contingency tasks, the automation realizing scene-type emergency preplan is deduced.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide further understanding of the disclosure, forms a application's part.In the accompanying drawings:

Fig. 1 is the schematic flow sheet of the communication network emergency preplan drilling method of a disclosure embodiment.

Fig. 2 is the schematic diagram of the rehearsal Task Tree of a disclosure embodiment.

Fig. 3 is the structural representation of the communication network emergency preplan rehearsal server of a disclosure embodiment.

Fig. 4 is the structural representation of the communication network emergency preplan rehearsal server of another embodiment of the disclosure.

Fig. 5 is the structural representation of the communication network emergency preplan drilling system of a disclosure embodiment.

Fig. 6 is the structural representation of the communication network emergency preplan drilling system of another embodiment of the disclosure.

Fig. 7 is that the task of a disclosure embodiment distributes schematic flow sheet.

Embodiment

Below with reference to accompanying drawings the disclosure is described.It should be noted that following being described in is only explanatory and exemplary in essence, never as any restriction to the disclosure and application or use.Unless stated otherwise, otherwise positioned opposite and numerical expression and the numerical value of the parts of setting forth in an embodiment and step do not limit the scope of the present disclosure.In addition, technology well known by persons skilled in the art, method and apparatus may not be discussed in detail, but are intended to the part becoming specification in appropriate circumstances.

In order to solve the problem, the following embodiment of the disclosure proposes the new method of a kind of communication network emergency preplan rehearsal.The free editting function of rehearsal scene is realized by electrifies technique, such as interruption of optical cables, Communication Building paralysis, the various network failure of network attack and the IT(Information Technology required for troubleshooting can be simulated, information technology) system and equipment are (such as, network management system, IT server etc.), and then simulate the problem and every basic task that may run in existing network network operation, such as, network management system inquiry fault warning, the analyzing and positioning of fault, the traffic scheduling etc. of circuit.Simultaneously, realize the queue of emergency recovery flow tasks according to enterprise's emergency recovery flow process and simulate O&M personage emergency recovery task state machine, the emergency recovery tasks carrying designed by predefine is searched and distributes algorithm, realizes the automation of scene-type emergency preplan and deduces.

Fig. 1 is the schematic flow sheet of the communication network emergency preplan drilling method of a disclosure embodiment.

As shown in Figure 1, this embodiment can comprise following flow process:

S102, generates rehearsal Task Tree according to the script of user-selected emergent scene;

Particularly, the procedure information of all emergent scene rehearsals of protection in the script of each emergent scene, therefore can generate rehearsal Task Tree based on this procedure information.

S104, the role related in rehearsal Task Tree to leaf node from the root node of rehearsal Task Tree distributes task;

Wherein, the time can be utilized to trigger the execution of root node task in rehearsal Task Tree.Such as, the execution that can trigger root node task what time somewhat can be specified in; Also the task-performance instructions that user is initiated by interface can be received, to trigger the execution of root node task.

S106, receiving after task that each role sends completes message, dependence according to rehearsal Task Tree and wherein each task travels through executable task in rehearsal Task Tree, and executable task is distributed to corresponding role, until all tasks drilled in Task Tree are all performed complete.

In an example, as shown in Figure 2, after task at root node R1 place is finished by corresponding role, can find out according to the dependence between task, now executable task comprises R11 and R12, can distribute to corresponding role by the task of these two Nodes, after R11 returns tasks carrying, the execution that can traverse the task at node R 111 place only depends on the execution of node R 11 place task, then now the task at leaf node R111 place can be distributed to corresponding role.Again according to Fig. 2, the execution of the task at leaf node R112 and R121 place then depends on the execution of the task at node R 11 place and node R 12 place simultaneously.After the task at node R 11 place and node R 12 place is all finished, the task at leaf node R112 and R121 place is just in executable state.Task due to leaf node R122 place only depends on the execution of the task at node R 12 place, and therefore, after the tasks carrying at node R 12 place, the task at leaf node R122 place is just in executable state.

Again see Fig. 2, in another example, executable task can also be traveled through according to the range ranking method of Task Tree in rehearsal Task Tree.

Particularly, after the task at root node R1 place is finished by corresponding role, can successively perform each task in tree structure.As can be seen from Figure 2, the execution of the task at second layer node R 11 place and R12 place depends on the execution of the task at root node R1 place, therefore, after the tasks carrying at root node R1 place, the task at second layer node R 11 place and R12 place is all in executable state, now, these two tasks can be distributed to corresponding role respectively.The execution of the task at third layer node R 111 place depends on the execution of R11 place task; The execution of the task at node R 112 and R121 place depends on the execution of the task at node R 11 and R12 place, the execution of the task at node R 122 place depends on the execution of node R 12 place task, therefore, after the task at second layer node R 11 place and R12 place is all finished, the task at third layer node R 111, R112, R121 and R122 place is all in executable state.After each task of third layer Nodes is all finished, all tasks in whole task rehearsal tree are all performed complete.

It is pointed out that the execution of each task in rehearsal Task Tree can also be realized by other modes of chained list.

In this embodiment, owing to generating rehearsal Task Tree according to user-selected emergent scene, and wherein executable task is traveled through from the root node of this tree to leaf node, until all tasks in tree are all performed complete.In the process of implementation, just can perform the every other task in rehearsal Task Tree after starting to perform the task of root node, wherein, user-selected emergent scene can for the various problems that may occur in communication network operator full automation.Therefore, the problem that can run in the operation of analog communication network and the resource needed for every contingency tasks, the automation realizing scene-type emergency preplan is deduced.

Further, before step S102, the emergent scene receiving user and select according to self-demand can also be comprised; The IT system related in the emergent scene of configuration and equipment; Client automatically loads and presents emergent scene to user; Receive the role that user selects, think that role distributes corresponding task.

Automatically load in client and after presenting emergent scene to user, user just can recognize the information such as the equipment that comprises in emergent scene selected by it and role by man-machine interface mode on the client.

One of ordinary skill in the art will appreciate that, realize the whole of said method embodiment to have been come by the hardware that program command is relevant with part steps, aforesaid program can be stored in a computing equipment read/write memory medium, this program is when performing, perform and comprise the step of said method embodiment, and aforesaid storage medium can comprise ROM, RAM, magnetic disc and CD etc. various can be program code stored medium.

Fig. 3 is the structural representation of the communication network emergency preplan rehearsal server of a disclosure embodiment.

As shown in Figure 3, the server 20 in this embodiment can comprise Task Tree generation unit 302 and task dispatch unit 304.Wherein,

Task Tree generation unit 302, for generating rehearsal Task Tree according to the script of user-selected emergent scene;

Task dispatch unit 304, the role related in rehearsal Task Tree to leaf node from the root node of rehearsal Task Tree distributes task, receiving after task that each role sends completes message, dependence according to rehearsal Task Tree and wherein each task travels through executable task drilling in Task Tree, and executable task is distributed to corresponding role, until all tasks in rehearsal Task Tree are all performed complete.

In this embodiment, owing to generating rehearsal Task Tree according to user-selected emergent scene, and wherein executable task is traveled through from the root node of this tree to leaf node, until all tasks in tree are all performed complete.In the process of implementation, just can perform the every other task in rehearsal Task Tree after starting to perform the task of root node, wherein, user-selected emergent scene can for the various problems that may occur in communication network operator full automation.Therefore, the problem that can run in the operation of analog communication network and the resource needed for every contingency tasks, the automation realizing scene-type emergency preplan is deduced.

Fig. 4 is the structural representation of the communication network emergency preplan rehearsal server of another embodiment of the disclosure.

As shown in Figure 4, compared with the embodiment in Fig. 3, the server 40 in this embodiment can also comprise receiving element 402 and scene configuration unit 404.Wherein,

Receiving element 402, for receiving emergent scene that user selects according to self-demand and the role that user selects, thinks that role distributes corresponding task;

Scene configuration unit 404, for configuring the IT system and equipment that relate in emergent scene.

Further, task dispatch unit also travels through executable task according to the range ranking method of Task Tree in rehearsal Task Tree.

In addition, task dispatch unit also utilizes time triggered to drill the execution of root node task in Task Tree.

Fig. 5 is the structural representation of the communication network emergency preplan drilling system of a disclosure embodiment.

As shown in Figure 5, the system 50 in this embodiment can comprise communication network emergency preplan rehearsal client 502 and communication network emergency preplan rehearsal server 504.Wherein, communication network emergency preplan rehearsal server 504 can be realized by previous embodiment.

Fig. 6 is the structural representation of the communication network emergency preplan drilling system of another embodiment of the disclosure.

As shown in Figure 6, drilling system mainly contains three parts, and Part I is communication network emergency preplan rehearsal client 502, mainly realizes the long-range access of user, rehearsal scene loads and rehearsal task resolves the functions such as execution; Part II is communication network emergency preplan rehearsal server 504, mainly realize two parts function: one is rehearsal scene editor and Scene case generation, scene can be realized customize and automation generation, another is rehearsal task controller, can generate and distribute emergency recovery task, automation advances rehearsal process; Part III is rehearsal scene library 602, the various scene library file of main carrying and the resource file needed for rehearsal.

Wherein, scene editting function, mainly through AVP(Attribute-Length-Value, property value to) the various conventional scene (such as, hinge building paralysis, optical cable disconnected fibre, network attack etc.) of communication network emergency drilling required for the abstract simulation of form of tlv triple.The various conventional IT focusing on may comprising in scene of simulation or IP device and system, may be B/S(Browser/Server, browser/server) WEB system, the C/S(Client/Server of structure, client/server) dedicated system, the equipment such as IT server or ip router of structure.Emergent scene can also select the function of adding to edit element required in scene by providing user, and automatically generate the emergent scene of rehearsal, wherein, element required in scene can include but not limited to emergency recovery needs under certain special scenes equipment or system, comprise " conventional IT or IP device and system; may be the equipment such as the WEB system of B/S structure, the dedicated system of C/S structure, IT server or ip router " noted earlier, these elements can support the operations needed for the emergency drilling under special scenes.

In addition, due to the Ability of emergency management of this Emergency system high spot reviews communication network when there is major event and bursting problem and recovery operation, and then actual management ability and maintenance technology level can be investigated in electronic platform.Emergency drilling relates to the operating process of a multi-person synergy, and relating in flow process between polygonal look of task is mutual, and carries out according to stage and step in mutual process.Therefore, design flow of task controller is needed.By server end unification to each role's distributed tasks of taking part in a performance, or dissemination system task, particularly, a task controller can be realized in the server, owing to having certain incidence relation between each task of emergency drilling, certain task complete the trigger condition that can be counted as another task, all tasks can be seen as completing one by one of streaming, the mode that therefore can control with task flow, rehearsal Task Tree is generated by Task-list, according to the range sort algorithm of Task Tree, stream selection of executing the task distributes function, realize fast finding and the deletion of tree node (namely each emergency recovery task), namely, searching a certain moment needs to perform which contingency tasks, once task completes, this task is just deleted, task reduces gradually, until whole rehearsal terminates, all tasks (tree node) deleted fall.Wherein, range sort algorithm can the range sort algorithm of reference computers tree.Each emergency drilling task can be seen as a tree node, and whole emergency drilling scene can generate a rehearsal task multiway tree, in task implementation, preferentially completes and is in the task of tree structure with a line

As mentioned above, this system mainly comprises several large parts such as task flow controlling functions, messenger service function and scene editting function.Before system starts, user's scene editting function is provided, user can involved IT system and equipment in self-defined prediction scheme scene and scene as required, after completing Scenario Design, subscription client can load the system scenarios generated automatically, (that is, pseudo-three-dimensional with 2.5D form, be also called false 3D, rehearsal virtual portrait, scene, some equipment are pseudo-3D forms) provide user to use.

Emergency recovery process is when performing, and system according to business demand, can travel through the prediction scheme scene of specifying when scene loads, and generates rehearsal Task Tree according to the emergent script of scene.User is when the system of use, and can automatically realize distributing of contingency tasks according to the lookup algorithm of Task Tree, intellectuality completes the propelling of emergent flow process.

Flow process is particularly as follows:

Step one, user can pass through this drilling system of browser Telnet, once after completing registration login, user can carry out example selection.

Step 2, after the selected specific emergent scene type of user, server can configure concrete emergent scene, during configuration, the emergent flow process required for can being selected by graphic interface and rehearsal operation.After full content is determined, system can generate the script configuration xml file of this scene automatically, and rear extended meeting is read this xml file and carried out scene generation.Meanwhile, the content such as picture, file can be stored in rehearsal scene library.

Step 3, after rehearsal scene is determined, user can carry out role selecting, drills the emergency preplan content of different person liable respectively, after all roles complete rehearsal preparation, can this time rehearsal by promoter.

Step 4, after rehearsal starts, client can generate the rehearsal example hall of 2.5D, and all users complete oneself emergency drilling task in hall.

Step 5, enter rehearsal all users can by server carry out voice, word, video information mutual, meet the needs of linking up cooperation under emergent scene.Server divides into groups to all login user, realizes information broadcasting and the multicast of single information interchange to list and user's group between the prompting of system message, user.

Step 6, in rehearsal, each client can the contingency tasks sent of reception server end always, and task is once have task reminders after receiving.User, according to special scenes and self-skill, by operating each ASS, carries out emergency processing, and after finishing the work, task flow control module can be destroyed current task and be distributed new task, until the end of all tasks and the termination of emergency drilling.

Wherein, drill task controller and carry out principle that task distributes and flow process as shown in Figure 7:

S702, rehearsal task controller receives task end;

S704, takes out the ID ended task;

S706, in rehearsal Task Tree, traversal searches the wait task ID of all role's tasks;

S708, judging whether to comprise the ID ended task, if do not comprised, then turning S706, otherwise, turn S710;

S710, finds associated task, and takes out the ID of wait task;

S712, removes this task ID comprised in the wait task ID of associated task;

S714, judges whether in addition other wait tasks, if any, then terminate and wait for the end of other wait tasks, otherwise turning S716;

S716, issues associated task.

Next, by an instantiation, said process is described in detail.

System is set up and is safeguarded a task queue, wherein, can comprise system task and role's task, and system is the unique task ID of each task matching overall situation.

Each task has a precondition triggered, and precondition may be completing of a task, or the completing of multiple task, and the principle that each task distributes is meeting of its precondition.

The triggering that task distributes is that after the precondition task waited at it completes, the event completed by prerequisite task triggers.

Suppose that the task description of task ID (10001) is: transmission person on duty report to chief operator.

The task description of task ID (10002) is: chief operator replys to transmission person on duty.

After task 10001 completes, all tasks that current wait task 10001 completes can be checked, find wherein task 10002 completing in wait task 10001, now, send task 10002 immediately to chief operator.

If what task 10002 was waited for is not only task 10001, then dispose this wait condition, that is, to the wait of task 10002, until all tasks that task 10001 is waited for all complete.

In this specification, each embodiment all adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, and part identical with similar between each embodiment can cross-reference.For device embodiment, due to itself and embodiment of the method basic simlarity, so description is fairly simple, relevant part can see the explanation of embodiment of the method part.

Disclosure above-described embodiment compared with prior art, has the following advantages:

(1) by adopting emergency drilling scene Auto, can by the various emergent scene of user's freely generated.Such as, the various conventional scene of the communication network emergency drilling that type is enriched (such as, the paralysis of hinge building, optical cable disconnected fibre, network attack etc.), focus on the various conventional IT that comprises in simulated scenario or IP device and system (network management system, resource system etc.), be applicable to IT class unit of operation;

(2) every management and technology emergency repair measure, flow process and task in rehearsal emergency recovery is emphasized.By design objective controller, the mode controlled with task flow, generate rehearsal Task Tree by Task-list, according to the range sort algorithm of Task Tree, school of executing the task is sent out, and the intellectuality realizing emergency recovery task advances.

Although describe the disclosure with reference to exemplary embodiment, should be understood that the disclosure is not limited to above-mentioned exemplary embodiment.It will be obvious to those skilled in the art that and can revise above-mentioned exemplary embodiment under the condition not deviating from the scope of the present disclosure and spirit.The scope of appended claim should be endowed the widest explanation, to comprise all such amendments and equivalent 26S Proteasome Structure and Function.

Claims (9)

1. a communication network emergency preplan drilling method, is characterized in that, comprising:

Rehearsal Task Tree is generated according to the script of user-selected emergent scene;

The role related in described rehearsal Task Tree to leaf node from the root node of described rehearsal Task Tree distributes task;

Receiving after task that each role sends completes message, dependence according to described rehearsal Task Tree and wherein each task travels through executable task in described rehearsal Task Tree, and described executable task is distributed to corresponding role, until all tasks in described rehearsal Task Tree are all performed complete.

2. communication network emergency preplan drilling method according to claim 1, it is characterized in that, described method also comprises:

Receive the emergent scene that user selects according to self-demand;

Configure the IT system and equipment that relate in described emergent scene;

Client automatically loads and presents described emergent scene to user;

Receive the role that described user selects, think that described role distributes corresponding task.

3. communication network emergency preplan drilling method according to claim 1, it is characterized in that, described method also comprises:

Range ranking method according to Task Tree travels through executable task in described rehearsal Task Tree.

4. communication network emergency preplan drilling method according to claim 1, it is characterized in that, described method also comprises:

Utilize the execution of drilling root node task in Task Tree described in time triggered.

5. a communication network emergency preplan rehearsal server, is characterized in that, comprising:

Task Tree generation unit, for generating rehearsal Task Tree according to the script of user-selected emergent scene;

Task dispatch unit, the role related in described rehearsal Task Tree to leaf node from the root node of described rehearsal Task Tree distributes task, receiving after task that each role sends completes message, dependence according to described rehearsal Task Tree and wherein each task travels through executable task in described rehearsal Task Tree, and described executable task is distributed to corresponding role, until all tasks in described rehearsal Task Tree are all performed complete.

6. communication network emergency preplan rehearsal server according to claim 5, it is characterized in that, described server also comprises:

Receiving element, for receiving emergent scene that user selects according to self-demand and the role that described user selects, thinks that described role distributes corresponding task;

Scene configuration unit, for configuring the IT system and equipment that relate in described emergent scene.

7. communication network emergency preplan rehearsal server according to claim 5, it is characterized in that, described task dispatch unit also travels through executable task according to the range ranking method of Task Tree in described rehearsal Task Tree.

8. communication network emergency preplan rehearsal server according to claim 5, it is characterized in that, described task dispatch unit also utilizes the execution of drilling root node task in Task Tree described in time triggered.

9. a communication network emergency preplan drilling system, is characterized in that, comprises communication network emergency preplan rehearsal client and the rehearsal of the communication network emergency preplan according to any one of claim 5-8 server.