CN101577839B - Method and system for processing links between network elements of intelligent network platform - Google Patents

Abstract

The invention discloses a method for processing links between network elements of an intelligent network platform, comprising the following steps that all network elements report the configuration files, analyze the reported configuration files and process the links according to the analysis results. The invention also discloses a system for processing links between network elements of an intelligent network platform simultaneously. The method and the system can automatically detect the link structure between the network elements and can simplify the modification operation of the link structure, thereby reducing the workload of the operator and improving the working efficiency of the operators.

Description

The method and system that a kind of links between network elements of intelligent network platform is handled

Technical field

The present invention relates to intelligent net system, relate in particular to the method and system that a kind of links between network elements of intelligent network platform is handled.

Background technology

Along with developing rapidly of intelligent net system, the application of intelligent network platform more and more widely, as: the structure that has developed into many SCP, multiple database from the structure of single Service Control Point, single database gradually, thereby the NE quantity in the whole intelligent net system constantly increases, and network configuration becomes increasingly complex.Here, described network element is SCP, service management point intelligent equipments such as (SMP).Owing to need mutual link setup between each network element, that is: need mutual link setup between each SCP, each SCP needs respectively to the SMP link setup, and therefore, the link between each network element concerns more complicated.For example: Fig. 1 is the networking structure figure of a SMP and five network elements of four SCP, and only five network elements just need be set up ten links.So, if the network element number increases, will cause network configuration complicated more, link relation between each network element also will be complicated more, if change the network configuration of described complexity, for example: increase or delete certain network element SCP, then need to revise the configuration file of other SCP in the network thereupon.

In the prior art, the modification of SCP configuration file is all finished by operating personnel's manual modification on every intelligent equipment, increasingly sophisticated along with the intelligent network platform network configuration, there is following defective in this traditional manual manipulation method in implementation process: manual modification amount is big, and the operating time is long; The probability height of misoperation, and misoperation will cause whole intelligent net system all to be paralysed; Professional skill to operating personnel is had relatively high expectations.

Summary of the invention

In view of this, main purpose of the present invention is to provide a kind of method and system of links between network elements of intelligent network platform processing, can detect the link structure between network element automatically, simplifies the retouching operation of links between network elements structure.

For achieving the above object, technical scheme of the present invention is achieved in that

The invention provides the method that a kind of links between network elements of intelligent network platform is handled, this method comprises:

The configuration file of each reported by network elements self;

Analyze the configuration file that has reported, according to analysis result when described handle link is operating as when detecting link, analysis result according to former configuration file generates correct network structure, and the link setup situation in link setup situation between each network element that gets access in the configuration file and the correct network structure made comparisons, under the situation that both do not conform to, the link that deletion and correct network structure the are not inconsistent newly-built true link of attentioning of laying equal stress on generates new configuration file according to newly-established link; When handle link is operating as the renewal link, according to the original network structure of analysis result generation of configuration file; On original network structure, upgrade network element and relevant link, generate new network structure; Generate new configuration file according to newly-generated network structure.

Wherein, described renewal link operation is for increasing network element SCP and relevant link; Described network element and the relevant link of upgrading on original network structure generates new network structure and is specially: increase network element SCP on original network structure, and list the network element that need establish a connection with newly-increased network element SCP; Increase the link relevant according to module No. with the link setup principle with increasing SCP newly.

Wherein, described renewal link operation is deletion network element SCP and relevant link; Described network element and the relevant link of upgrading on original network structure generates new network structure and is specially: deletion network element SCP on original network structure, and list and wait to delete the network element that there is annexation in network element SCP; Deletion network element SCP and the link relevant with SCP.

Further, this method also comprises: newly-generated configuration file is issued to each network element.

The system that the present invention also provides a kind of links between network elements of intelligent network platform to handle, this system comprises reporting module and analysis and processing module; Wherein,

Reporting module is used to report the configuration file of each network element;

Analysis and processing module, be used to analyze the configuration file that has reported, be operating as when detecting link in handle link according to analysis result, analysis result according to former configuration file generates correct network structure, and the link setup situation in link setup situation between each network element that gets access in the configuration file and the correct network structure made comparisons, under the situation that both do not conform to, the link that deletion and correct network structure the are not inconsistent newly-built true link of attentioning of laying equal stress on generates new configuration file according to newly-established link; When handle link is operating as the renewal link, according to the original network structure of analysis result generation of configuration file; On original network structure, upgrade network element and relevant link, generate new network structure; Generate new configuration file according to newly-generated network structure.

Wherein, described reporting module comprises: the resident module of first equipment and the resident module of one or more second equipment that is arranged at each SCP that are arranged at SMP;

Described analysis and processing module comprises: terminal control module and user interface module; Wherein,

The resident module of described first equipment is used to collect, store the configuration file of SMP; The configuration file of each SCP that the resident module of second equipment that receives sends, and the configuration file of SMP and each SCP offered the terminal control module; The resident module of described second equipment is used to collect the configuration file of each SCP, and uploads to the resident module of first equipment;

Described terminal control module is used for from the configuration file of the resident module extraction SMP of first equipment and each SCP, and generates new network structure according to module No. that gets access to from configuration file and link setup principle; Be used to receive the relevant information of the network structure that the user interface module sends, or the relevant information of network structure is sent to the user interface module; Generate new network structure according to module No. of importing on the user interface module and link setup principle; Relevant information according to new network structure regenerates configuration file; Described user interface module is used for the relevant information display network structure chart according to the network structure of terminal control module transmission, or sends the relevant information of network structure to the terminal control module.

Wherein, described terminal control module comprises: transport module and analysis display module; Wherein,

Described transport module is used for extracting the configuration file of SMP and each SCP and being transferred to the analysis display module from the resident module of first equipment;

Described analysis display module is used to receive the configuration file of each network element that transport module sends, and obtains the module No. of each network element and the link setup situation between each network element from configuration file; Generate new network structure according to module No. that gets access in the configuration file and descending link setup principle;

Also be used to receive the relevant information of the network structure that the user interface module sends, or the relevant information of network structure is sent to the user interface module; Generate new network structure according to module No. of importing on the user interface module and descending link setup principle; From the new network structure that the user interface module generates, obtain the module No. of each network element and the link setup information between each network element, and regenerate configuration file;

Accordingly, the resident module of described first equipment offers the terminal control module with the configuration file of SMP and each SCP and is: the configuration file of SMP and each SCP is offered transport module;

Described user interface module is according to the relevant information display network structure chart of the network structure of terminal control module transmission, or be to the relevant information that the terminal control module sends network structure: according to the relevant information display network structure chart of analyzing the network structure that display module sends, or to analyzing the relevant information that display module sends network structure.

Wherein, described analysis display module is further used for newly-generated configuration file is sent to transport module;

Described transport module is further used for the configuration file of newly-generated SMP and each SCP is transferred to the resident module of first equipment;

The resident module of described first equipment is further used for new SMP configuration file stores that transport module is sent, and new SCP configuration file is issued to the resident module of second equipment on each SCP;

The resident module of described second equipment is further used for receiving the configuration file of each SCP that the resident module of first equipment issues.

The method and system that links between network elements of intelligent network platform provided by the invention is handled are installed corresponding control module, the configuration file of each reported by network elements self respectively on each network element; Analyze the configuration file that has reported, according to the analysis result handle link; Further, newly-generated configuration file is issued to each network element.The present invention can realize detecting automatically the link structure between network element, and the retouching operation of energy reducible chain line structure, thereby has reduced operating personnel's workload, has improved operating personnel's operating efficiency; Among the present invention, described control module is application module independently, does not rely on the application module of existing intelligent net system, and therefore, the control module fitting operation is easy, and does not influence the normal operation of existing intelligent net system application module.

Description of drawings

Fig. 1 is the networking structure schematic diagram of a SMP and five network elements of four SCP;

Fig. 2 is the composition structural representation of the system of links between network elements of intelligent network platform processing of the present invention;

The method realization flow schematic diagram that Fig. 3 handles for links between network elements of intelligent network platform of the present invention;

Fig. 4 carries out the detecting operation schematic flow sheet for the present invention to links between network elements;

Fig. 5 increases network element SCP and relevant link operating process schematic diagram for the present invention;

Fig. 6 deletes network element SCP and relevant link operating process schematic diagram for the present invention;

Fig. 7 is the networking structure schematic diagram of link detecting one embodiment of the present invention;

Fig. 8 increases the networking structure schematic diagram of network element SCP and relevant link front and back for the present invention;

Fig. 9 deletes the networking structure schematic diagram of network element SCP and relevant link front and back for the present invention.

Embodiment

Basic thought of the present invention is: corresponding control module, the configuration file of each reported by network elements self are installed respectively on each network element; Analyze the configuration file that has reported, according to the analysis result handle link.

Further, newly-generated configuration file can be issued to each network element.

Among the present invention, described control module comprises: the resident module of analysis and processing module and equipment, and wherein, described analysis and processing module is made up of terminal control module and user interface module; Described terminal control module is made up of transport module and analysis display module; Described network element comprises: SCP, SMP and SMAP (SMAP).Accordingly, described control module in installation correspondence respectively on each network element is: the resident module of erection unit on SCP and SMP, installing analysis processing module on SMAP.

Describedly be: according to analysis result link is carried out detecting operation, or on results of analysis, upgrade link according to the analysis result handle link.Described handle link is operating as when upgrading link, describedly is specially according to the analysis result handle link:

Analysis result according to configuration file generates original network structure; On original network structure, upgrade network element and relevant link, generate new network structure; Generate new configuration file according to newly-generated network structure.Wherein, described renewal link operation is: increase network element SCP and relevant link or deletion network element SCP and relevant link.

Among the present invention, generating new configuration file is meant: break down when detecting link, when perhaps increasing, deleting network element and relevant link, according to the variation of links between network elements annexation generation, new network structure can be produced, then new configuration file can be obtained according to new network structure.

Here, SMP can be considered the transmission medium between SMAP and SCP, that is: SMAP is issued to each SCP by SMP with information; Each SCP arrives SMAP by SMP with information uploading.Accordingly, will the resident module of installed device be called the resident module of first equipment on SMP, the resident module of installed device is called the resident module of second equipment on each SCP.

Among the present invention, whether will detect installation after respectively corresponding control module being installed on each network element successful, concrete detection method is: by receive and dispatch test post between control module, test also guarantees to communicate by letter normally between the resident module of first equipment on terminal control module and the SMP, and it is normal to communicate by letter between the resident module of second equipment on the resident module of first equipment on the SMP and each SCP, in order to subsequent operation.

Below in conjunction with drawings and the specific embodiments the present invention is described in further detail.

The system that links between network elements of intelligent network platform of the present invention is handled comprises: reporting module and analysis and processing module; Wherein, described reporting module is used to report the configuration file of each network element; Described analysis and processing module is used to analyze the configuration file that has reported, and according to the analysis result handle link.

Concrete, Fig. 2 is the composition structural representation of the system of this links between network elements of intelligent network platform processing, corresponding, described reporting module is: resident module of first equipment and the resident module of second equipment; Described analysis and processing module comprises: terminal control module and user interface module.

Concrete, described terminal control module comprises transport module and analyzes display module; Wherein,

Described transport module is used for extracting the configuration file of SMP and each SCP from the resident module of first equipment, and is transferred to the analysis display module; The configuration file that maybe will analyze the newly-generated SMP of display module and each SCP is transferred to the resident module of first equipment;

Described analysis display module is used to receive the configuration file of each network element that transport module sends, and obtains the module No. of each network element and the link setup situation between each network element from configuration file; Generate new network structure according to module No. that gets access in the configuration file and descending link setup principle;

Described analysis display module also is used to receive the relevant information of the network structure that the user interface module sends, or the relevant information of network structure is sent to the user interface module; Generate new network structure according to module No. of importing on the user interface module and descending link setup principle; From the new network structure that the user interface module generates, obtain the module No. of each network element and the link setup information between each network element, regenerate configuration file and be transferred to transport module;

Here, the relevant information of described network structure comprises: the annexation between the module No. of network element, the link that does not meet the link setup principle that has identified and each network element;

Described transport module also is used for and the mutual test transmission message of the resident module of first equipment.

The resident module of described first equipment is used to collect, store the configuration file of SMP; The configuration file of each SCP that the resident module of second equipment that receives sends, the new SMP configuration file stores that the configuration file of SMP and each SCP is offered transport module or transport module is sent, and new SCP configuration file is issued to the resident module of second equipment on each SCP;

The resident module of described first equipment also is used for test transmission message between transport module and the resident module of second equipment.

The resident module of described second equipment is used to collect the configuration file of each SCP and uploads to the resident module of first equipment, or receives the configuration file of each SCP that the resident module of first equipment issues;

The resident module of described second equipment also is used for and the mutual test transmission message of the resident module of first equipment.

Among the present invention, be provided with one the second resident module of equipment among each SCP, therefore, when a plurality of SCP was arranged, this system just comprised the resident module of a plurality of second equipment.

Described user interface module is used for the relevant information display network structure chart according to the network structure of analyzing the display module transmission, or to analyzing the relevant information that display module sends network structure;

In actual applications, can on the network structure that shows, directly increase or deletion network element and relevant link according to the link setup demand.

Fig. 3 is the realization flow schematic diagram of the method for links between network elements of intelligent network platform processing of the present invention, and as shown in Figure 3, this flow process may further comprise the steps:

Step 301: corresponding control module is installed respectively on each network element;

Here, installing analysis processing module on SMAP is installed the resident module of first equipment on SMP, the resident module of second equipment is installed on each SCP.

Step 302:SMP and each SCP collect the configuration file of this network element, and each SCP reports SMP with the configuration file of this network element;

Be specially: the resident module of second equipment on the resident module of first equipment on the SMP and each SCP is collected the configuration file of this network element, each SCP adds module No. before the filename of Home Network unit configuration file, in order to distinguish the configuration file of different SCP, the resident module of second equipment of each SCP transfers to the configuration file of this network element under the SMP assigned catalogue afterwards; The configuration file of this network element of the resident module stores of first equipment of SMP and is done respective handling to the filename of configuration file under assigned catalogue, add module No. before filename that is:;

Here, the described reason that adds module No. before the filename of configuration file is: the filename of the configuration file that the resident module of the equipment on each network element is collected is all identical, therefore, in order in subsequent operation, to determine each network element and the corresponding relation of configuration file separately, the filename of configuration file is done above-mentioned processing.

Among the present invention, described module No. is: the numbering of each network element, be provided with during each network element in configuration, as shown in Fig. 1 and Fig. 2 133,134 etc.

Step 303:SMAP extracts and analyzes the configuration file of each network element;

Be specially: the transport module in the SMAP terminal control module extracts the configuration file of SMP and each SCP down and is transferred to the analysis display module from the SMP assigned catalogue, analyze display module according to the configuration file that receives, obtain the module No. of each network element and the link setup situation between each network element;

Here, the link setup situation between described each network element is: the link annexation between each network element, and the link setup situation should meet the link setup principle; Described link setup principle can be: it is descending to press module No. between each network element, that is: the network element that the module No. numeral is bigger is initiatively set up link, arrow annexation as shown in fig. 1 to the less network element of module No. numeral.

Step 304:, and generate new configuration file according to the analysis result handle link of former configuration file;

Wherein, described processing is meant: the link that detects link or increase or delete network element SCP and be correlated with on the basis of former link;

Here, if realize link detecting function, then execution in step 304a; If realize increasing the function of network element SCP and relevant link, then execution in step 304b; If realize the function of deletion network element SCP and relevant link, then execution in step 304c.

Step 304a: the analysis result according to former configuration file is carried out detecting operation to link, and generates new configuration file, and execution in step 305 afterwards;

Step 304b: increase network element SCP and relevant link on results of analysis, and generate new configuration file, execution in step 305 afterwards;

Step 304c: deletion network element SCP and relevant link on results of analysis, and generate new configuration file, execution in step 305 afterwards;

Step 305:SMAP is transferred to SMP with new configuration file, and SMP is distributed to configuration file on each SCP;

Be specially: the transport module in the SMAP terminal control module will be analyzed the new configuration file of each network element that display module generates and be transferred to the resident module of first equipment on the SMP, after the module No. of the resident module of first equipment before with Home Network unit configuration file filename removes with configuration file stores under the SMP assigned catalogue, the resident module of first equipment on the SMP is distributed to the resident module of second equipment on each SCP to the configuration file of other SCP according to module No. afterwards, and the resident module of second equipment on each SCP stores under each SCP assigned catalogue after the configuration file that receives is removed module No. before the filename;

Here, the resident module of second equipment on the resident module of first equipment on the SMP and each SCP can back up original configuration file earlier before the configuration file that storage is respectively made a fresh start, to keep the relevant information of original link.

With Fig. 7 is example, and the generative process of the configuration file that described each network element is new is specially:

Suppose that the content in the former configuration file is: comprise SMP133, SCP134, SCP135, SCP136 and five network elements of SCP137 in the network structure, SMP133, SCP134 and SCP137 all meet descending link setup principle, that is: SCP134, SCP135, SCP136 and SCP137 all point to SMP133; SCP135, SCP136 and SCP137 all point to SCP134; SCP137 points to SCP135 and SCP136; And SCP135 also points to SCP136, does not then meet the link setup principle;

So, when still comprising SMP133, SCP134, SCP135, SCP136 and five network elements of SCP137 in the network structure, the content in the newly-generated configuration file should be: SCP134, SCP135, SCP136 and SCP137 all point to SMP133; SCP135, SCP136 and SCP137 all point to SCP134; SCP137 and SCP136 all point to SCP135; SCP137 points to SCP136, and like this, each network element just all meets the link setup principle.

Afterwards, when link processing process of the present invention finishes, only need restart the platform of each network element, new configuration file promptly comes into force.

Wherein, step 304a is described to carry out the detecting operation flow process specifically as shown in Figure 4 to links between network elements, may further comprise the steps:

Step 401: the analysis result according to former configuration file generates correct network structure;

Be specially: the analysis display module in the last terminal control module of SMAP generates correct network structure according to module No. that gets access in the former configuration file and descending link setup principle;

Here, described correct network structure is presented on the user interface module, and each network element shows with the form of module No..With Fig. 1 is example, describes in detail described in the present invention and generates network structure according to former configuration file or according to module No. that gets access in the new configuration file and descending link setup principle.

For example: the module No. of the network element that gets access to from configuration file is: SMP133, SCP134, SCP135, SCP136 and SCP137, and descending link setup principle is: SCP134, SCP135, SCP136 and SCP137 should point to SMP133; SCP135, SCP136 and SCP137 should point to SCP134; SCP137 and SCP136 should point to SCP135; SCP137 should point to SCP136, and the then last network structure that generates as shown in Figure 1.

Step 402: the link setup situation in link setup situation between each network element that gets access in the configuration file and the correct network structure is made comparisons,, then finish the link detecting process if both conform to; If both do not conform to, then execution in step 403;

Be specially: the analysis display module in the last terminal control module of SMAP is with the link setup situation between each network element that gets access in the configuration file, make comparisons by the link setup situation in the correct network structure of descending link setup principle generation with described, if both conform to, that is: link to be detected meets descending link setup principle, then finishes the link detecting process; If both do not conform to, that is: link to be detected does not meet descending link setup principle, then carries out subsequent operation.

Step 403: delete the link that is not inconsistent with correct network structure, the newly-built true link of attentioning of laying equal stress on generates new configuration file according to newly-established link;

Be specially: on the user interface module, delete the link that is not inconsistent with correct network structure, that is: do not meet the wrong link of link setup principle, and rebulid correct link according to the link setup principle, analysis display module in the SMAP terminal control module gets access to module No. and link setup information according to newly-established network diagram, generate new configuration file, and add module No. before the filename;

Here, with Fig. 7 the generative process that example illustrates described new configuration file: suppose that the content in the former configuration file is: comprise SMP133, SCP134, SCP135, SCP136 and five network elements of SCP137 in the network structure, SMP133, SCP134 and SCP137 all meet descending link setup principle, that is: SCP134, SCP135, SCP136 and SCP137 all point to SMP133; SCP135, SCP136 and SCP137 all point to SCP134; SCP137 points to SCP135 and SCP136; And SCP135 also points to SCP136, does not then meet the link setup principle;

So, when still comprising SMP133, SCP134, SCP135, SCP136 and five network elements of SCP137 in the network structure, the content in the newly-generated configuration file should be: SCP134, SCP135, SCP136 and SCP137 all point to SMP133; SCP135, SCP136 and SCP137 all point to SCP134; SCP137 and SCP136 all point to SCP135; SCP137 points to SCP136, and like this, each network element just all meets the link setup principle.

In above-mentioned steps 402, if having, the link between each network element of determining to get access to do not meet the link setup principle, then can on correct network structure, identify the link that does not meet the link setup principle, clearly to be shown to the user.Described sign is specially: the analysis display module in the last terminal control module of SMAP is used the color different with former Link color or linear on correct network structure, as: redness or dotted line, identify the link that does not meet the link setup principle, be presented on the user interface module, be illustrated in figure 7 as the networking structure figure of five network elements, link among the figure between SCP135 and the SCP136 does not meet the link setup principle, identifies with dotted line.

Step 304b described increase network element SCP and relevant link operating process may further comprise the steps specifically as shown in Figure 5:

Step 501: the analysis result according to configuration file generates original network structure;

Be specially: the analysis display module in the last terminal control module of SMAP generates original network structure according to module No. that gets access in the configuration file and link setup situation;

Here, described original network structure is presented on the user interface module, and each network element shows with the form of module No.; Described original network structure is: the network structure that meets the link setup principle.

Step 502: on original network structure, increase network element SCP, and list and need the network element that establishes a connection with newly-increased network element SCP;

Be specially: on primitive network structure chart shown on the user interface module, increase one or more network element SCP, and on the user interface module, list and need the network element that establishes a connection with newly-increased network element SCP;

Here, described newly-increased network element reaches and increases network element newly has the network element of annexation all to be presented on the user interface module with the form of module No..

Step 503: increase the link relevant with the link setup principle with increasing SCP newly according to module No.;

The concrete operations of this step are: the analysis display module in the terminal control module is according to module No. of importing on the user interface module and descending link setup principle, in the primitive network structure chart, increase network element SCP and the link relevant, generate new network structure with increasing SCP newly.

Here, be example with schematic network structure shown in Fig. 8, in the primitive network structure chart, increase network element SCP138, and increase the link between SCP138 and SMP133, SCP134, SCP135, SCP136 and the SCP137, the link that the dotted line representative increases newly.

Step 504: generate new configuration file according to newly-generated network structure;

Be specially: the analysis display module in the terminal control module is acquisition module number and link setup information from newly-generated network structure, generates new configuration file, and add module No. before the filename;

Here, be the generative process that example illustrates described new configuration file with Fig. 8: suppose that the content in the former configuration file is: comprise SMP133, SCP134, SCP135, SCP136 and five network elements of SCP137 in the network structure, SCP134, SCP135, SCP136 and SCP137 all point to SMP133; SCP135, SCP136 and SCP137 all point to SCP134; SCP137 and SCP136 all point to SCP135; SCP137 points to SCP136, and each network element all meets the link setup principle.

So, the content that increases in the configuration file newly-generated behind the network element SCP138 is: comprise SMP133, SCP134, SCP135, SCP136, SCP137 and six network elements of SCP138 in the network structure, SCP138 is the network element that increases newly; Each network element all meets the link setup principle, for: SCP134, SCP135, SCP136, SCP137 and SCP138 all point to SMP133; SCP135, SCP136, SCP137 and SCP138 all point to SCP134; SCP136, SCP137 and SCP138 all point to SCP135; SCP137 and SCP138 all point to SCP136, and SCP138 points to SCP137; Dotted line is depicted as newly-increased link among the figure.

Step 304c described deletion network element SCP and relevant link operating process may further comprise the steps specifically as shown in Figure 6:

Step 601: the analysis result according to configuration file generates original network structure;

Be specially: the analysis display module in the last terminal control module of SMAP generates original network structure according to module No. that gets access in the configuration file and link setup situation;

Here, described original network structure is presented on the user interface module, and each network element shows with the form of module No..

Step 602: deletion network element SCP on original network structure, and list and wait to delete the network element that there is annexation in network element SCP;

The concrete operations of this step are: the one or more network element SCP of deletion on primitive network structure chart shown on the user interface module, and on the user interface module, list and wait to delete the network element that there is annexation in network element SCP;

Here, described wait to delete network element and with network element to be deleted have the network element of annexation all to be presented on the user interface module with the form of module No.; Described original network structure is: the network structure that meets the link setup principle.

Step 603: deletion network element SCP and the link relevant with SCP;

Be specially: the analysis display module in the terminal control module is according to the relevant information of importing on the user interface module of waiting to delete network element, and deletion network element SCP and the link relevant with deleting SCP generate new network structure from the primitive network structure chart.

Here, be example with schematic network structure shown in Fig. 9, deletion network element SCP137 from the primitive network structure chart, and the link between deletion SCP137 and SMP133, SCP134, SCP135 and the SCP136, the link of dotted line representative deletion.

Step 604: generate new configuration file according to newly-generated network structure;

Be specially: the analysis display module in the terminal control module is acquisition module number and link setup information from newly-generated network structure, generates new configuration file, and add module No. before the filename;

Here, be the generative process that example illustrates described new configuration file with Fig. 9: suppose that the content in the former configuration file is: comprise SMP133, SCP134, SCP135, SCP136 and five network elements of SCP137 in the network structure, SCP134, SCP135, SCP136 and SCP137 all point to SMP133; SCP135, SCP136 and SCP137 all point to SCP134; SCP137 and SCP136 all point to SCP135; SCP137 points to SCP136, and each network element all meets the link setup principle.

So, content behind the deletion network element SCP137 in the newly-generated configuration file is: comprise SMP133, SCP134, SCP135 and four network elements of SCP136 in the network structure, the link setup situation between each network element is: SCP134, SCP135 and SCP136 all point to SMP133; SCP135 and SCP136 all point to SCP134; SCP136 points to SCP135, and each network element all meets the link setup principle; Dotted line is depicted as the link of deletion among the figure.

The above is preferred embodiment of the present invention only, is not to be used to limit protection scope of the present invention, all any modifications of being done within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims (8)

1. the method handled of a links between network elements of intelligent network platform is characterized in that this method comprises:

The configuration file of each reported by network elements self;

Analyze the configuration file that has reported, according to analysis result when handle link is operating as when detecting link, analysis result according to former configuration file generates correct network structure, and the link setup situation in link setup situation between each network element that gets access in the configuration file and the correct network structure made comparisons, under the situation that both do not conform to, the link that deletion and correct network structure the are not inconsistent newly-built true link of attentioning of laying equal stress on generates new configuration file according to newly-established link; When handle link is operating as the renewal link, according to the original network structure of analysis result generation of configuration file; On original network structure, upgrade network element and relevant link, generate new network structure; Generate new configuration file according to newly-generated network structure.

2. the method that links between network elements of intelligent network platform according to claim 1 is handled is characterized in that, described renewal link operation is for increasing net element business control point SCP and relevant link;

Described network element and the relevant link of upgrading on original network structure generates new network structure and is specially:

On original network structure, increase net element business control point SCP, and list and need the network element that establishes a connection with newly-increased net element business control point SCP; Increase and the relevant link of Added Business control point SCP with the link setup principle according to module No..

3. the method that links between network elements of intelligent network platform according to claim 1 is handled is characterized in that, described renewal link operation is deletion net element business control point SCP and relevant link;

Described network element and the relevant link of upgrading on original network structure generates new network structure and is specially:

Deletion net element business control point SCP on original network structure, and list and wait to delete the network element that there is annexation in net element business control point SCP; Deletion net element business control point SCP and the link relevant with the service control point (SCP).

4. the method for handling according to claim 1,2 or 3 described links between network elements of intelligent network platform is characterized in that this method also comprises: newly-generated configuration file is issued to each network element.

5. the system that links between network elements of intelligent network platform is handled is characterized in that this system comprises reporting module and analysis and processing module; Wherein,

Reporting module is used to report the configuration file of each network element;

Analysis and processing module, be used to analyze the configuration file that has reported, be operating as when detecting link in handle link according to analysis result, analysis result according to former configuration file generates correct network structure, and the link setup situation in link setup situation between each network element that gets access in the configuration file and the correct network structure made comparisons, under the situation that both do not conform to, the link that deletion and correct network structure the are not inconsistent newly-built true link of attentioning of laying equal stress on generates new configuration file according to newly-established link; When handle link is operating as the renewal link, according to the original network structure of analysis result generation of configuration file; On original network structure, upgrade network element and relevant link, generate new network structure; Generate new configuration file according to newly-generated network structure.

6. the system that links between network elements of intelligent network platform according to claim 5 is handled is characterized in that,

Described reporting module comprises: the resident module of first equipment and the resident module of one or more second equipment that is arranged at each service control point (SCP) that are arranged at service management point SMP;

Described analysis and processing module comprises: terminal control module and user interface module; Wherein,

The resident module of described first equipment is used to collect, the configuration file of storage service management point SMP; The configuration file of each service control point (SCP) that the resident module of second equipment that receives sends, and the configuration file of service management point SMP and each service control point (SCP) offered the terminal control module;

The resident module of described second equipment is used to collect the configuration file of each service control point (SCP), and uploads to the resident module of first equipment;

Described terminal control module is used for extracting the configuration file of service management point SMP and each service control point (SCP) from the resident module of first equipment, and generates new network structure according to module No. that gets access to and link setup principle from configuration file; Be used to receive the relevant information of the network structure that the user interface module sends, or the relevant information of network structure is sent to the user interface module; Generate new network structure according to module No. of importing on the user interface module and link setup principle; Relevant information according to new network structure regenerates configuration file;

Described user interface module is used for the relevant information display network structure chart according to the network structure of terminal control module transmission, or sends the relevant information of network structure to the terminal control module.

7. the system that links between network elements of intelligent network platform according to claim 6 is handled is characterized in that described terminal control module comprises: transport module and analysis display module; Wherein,

Described transport module is used for extracting the configuration file of service management point SMP and each service control point (SCP) and being transferred to the analysis display module from the resident module of first equipment;

Described analysis display module is used to receive the configuration file of each network element that transport module sends, and obtains the module No. of each network element and the link setup situation between each network element from configuration file; Generate new network structure according to module No. that gets access in the configuration file and descending link setup principle;

Also be used to receive the relevant information of the network structure that the user interface module sends, or the relevant information of network structure is sent to the user interface module; Generate new network structure according to module No. of importing on the user interface module and descending link setup principle; From the new network structure that the user interface module generates, obtain the module No. of each network element and the link setup information between each network element, and regenerate configuration file;

Accordingly, the resident module of described first equipment offers the terminal control module with the configuration file of service management point SMP and each service control point (SCP) and is: the configuration file of service management point SMP and each service control point (SCP) is offered transport module;

Described user interface module is according to the relevant information display network structure chart of the network structure of terminal control module transmission, or be to the relevant information that the terminal control module sends network structure: according to the relevant information display network structure chart of analyzing the network structure that display module sends, or to analyzing the relevant information that display module sends network structure.

8. the system that links between network elements of intelligent network platform according to claim 7 is handled is characterized in that described analysis display module is further used for newly-generated configuration file is sent to transport module;

Described transport module is further used for the configuration file of newly-generated service management point SMP and each service control point (SCP) is transferred to the resident module of first equipment;

The resident module of described first equipment is further used for new service management point SMP configuration file stores that transport module is sent, and new service control point (SCP) configuration file is issued to the resident module of second equipment on each service control point (SCP);

The resident module of described second equipment is further used for receiving the configuration file of each service control point (SCP) that the resident module of first equipment issues.

Images