CN104573986B - One realizes GCRMS and electrical network multi-source operation system interoperability integrated approach - Google Patents
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Abstract
The invention discloses one and realize GCRMS and electrical network multi-source operation system interoperability integrated approach, described method comprises: plan as a whole GCRMS and EMS, application integration between DAS, GIS, PMS based on PIIF framework interoperability level, make electric power resource expanded application in GCRMS; GCRMS utilizes PMS equipment account and GIS artwork, space information resource realizes power network topology association and generates power communication net topology application target; GCRMS obtains DAS power distribution network terminal passage operating mode by interoperability and carries out real-time monitoring, using power distribution network terminal passage operating mode and power telecom network operating condition as important criterion; Fill up DAS channel failure and study and judge blind area, realize the application target that communication service and operation of power networks interoperability support, achieve the interoperability application between multi-source system, all kinds of business organically blended between multi-source system, the efficient management of GCRMS is higher, the operation flow between cross-system can be supported, the technique effect that communication network fault handling efficiency is higher.
Description
Technical field
The present invention relates to power distribution network information integerated field, particularly relate to one and realize GCRMS and electrical network multi-source operation system interoperability integrated approach.
Background technology
For a long time, owing to there is no unified information integerated standard and the logical architecture of pool, in electric system, each service technique support system is independently built, business integration degree is not high, identical information existence repeats to safeguard more frequently, reusable information can not get maximized sharing, the independent not easily extensible of business of different levels, and limited information integerated still adopts the mutual architectural framework of traditional non-international standard, originally the information supplemented and complemented each other that can be combined with each other can not get efficient fusion, cause that the information of power distribution network different angles is natural isolates, limit power business to promote further.
The current collection communication equipment of GCRMS, communication network link (as EPON, communication network) real-time working condition information, the remote measure and communication information of the terminal devices such as DAS main website current Real-time Collection DTU, FTU, PMS safeguards main distribution net equipment account information at present, GIS safeguards main distribution figure and model topology information at present, the location that OMS mainly realizes fault is at present dispatched with repairing, but the information integration method lacking standard between multi-source system instructs, and limits the effectively multiplexing of share class information.
By the analysis and summary to problem, the following aspects problem should be solved, thus realize organically blending of business:
Information integerated privatization between multi-source system; Main manifestations is that business interface lacks unified standard;
Electric power resource model between multi-source system is failed unified; Main manifestations is the source maintenance identical transformer station, cable and shaft tower etc. not being realized to equipment;
Non-electricity resource between multi-source system does not carry out modeling based on electrical network spatial information; Main manifestations is that telecommunication network resource only maintains base profile information, does not have visual space orientation means;
The isolated design of operation flow between multi-source system, can not merge multiplexing; Main manifestations is that communication network operation flow is not coupled with other multi-source system operation flows, the self-closing management of system.
In sum, present inventor, in the process realizing invention technical scheme in the embodiment of the present application, finds that above-mentioned technology at least exists following technical matters:
In the prior art, there is business and do not organically blend in existing GCRMS and electrical network multi-source operation system, the interoperability between intelligent grid assembly is poor, and the GCRMS efficiency of management is lower, the operation flow between cross-system can not be supported, the technical matters that the treatment effeciency of communication network fault is lower.
Summary of the invention
The invention provides one and realize GCRMS and electrical network multi-source operation system interoperability integrated approach, solve existing GCRMS and electrical network multi-source operation system to there is business and do not organically blend, interoperability between intelligent grid assembly is poor, the GCRMS efficiency of management is lower, the operation flow between cross-system can not be supported, the technical matters that the treatment effeciency of communication network fault is lower, achieve the interoperability application between multi-source system, all kinds of business organically blended between multi-source system, the efficient management of GCRMS is higher, the operation flow between cross-system can be supported, the technique effect that communication network fault handling efficiency is higher.
For solving the problems of the technologies described above, the embodiment of the present application provides one and realizes GCRMS and electrical network multi-source operation system interoperability integrated approach based on PIIF framework, and described method comprises:
Step one: based on PIIF framework interoperability step analysis GCRMS(communications network management system), EMS(dispatch automated system), DAS(electrical power distribution automatization system), GIS(Geographic Information System) and PMS(production management system) between operation flow between communication network work condition inspection business, the function use-case of operation flow links, the standard interaction models that each function use-case is corresponding, the communication protocol of standard and the interface module of corresponding function use-case between system, described PIIF is powerinteroperableandinterchangeableframework, i.e. electric system interoperability framework,
Step 2: GCRMS is by interoperability integrated PMS equipment account, GIS artwork and space information resource, and association generates power communication net topology;
Step 3: GCRMS obtains DAS power distribution network passage operating mode by interoperability, carries out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode;
Step 4: DAS obtains GCRMS communication network operating condition by interoperability, carries out studying and judging of channel failure, fill up the blind area that traditional DAS channel failure is studied and judged in conjunction with communication network operating condition and power distribution network terminal passage operating mode.
Further, described based on PIIF framework interoperability step analysis GCRMS, EMS, DAS, operation flow between GIS and PMS between communication network work condition inspection business, the function use-case of operation flow links, the standard interaction models that each function use-case is corresponding, between system, the communication protocol of standard and the interface module of corresponding function use-case are specially: based on PIIF framework interoperability level by GCRMS and power grid GIS, EMS, DAS, between PMS, the real-time monitoring business application decomposition of communication network operating mode is to operation layer, functional layer, Information Level, communication layers and component layer, the protocol specification that unified planning is mutual and service regulation.
Further, based on PIIF framework interoperability level by GCRMS and power grid GIS, between EMS, DAS, PMS the real-time monitoring business application decomposition of communication network operating mode to operation layer, functional layer, Information Level, communication layers and component layer, the protocol specification that unified planning is mutual and service regulation, comprising:
Combing communication network operating mode monitors this kind of service application in real time, forms data flowchart;
Step flow process related to decomposes the function use-case of correspondence system, and carries out interoperability analysis to each function use-case;
According to the interoperability analysis result between function use-case, the standard interaction models of definition interoperability;
According to the interoperability analysis result between function use-case, the standard interaction protocol of definition interoperability;
For different function use-cases, research and develop corresponding interface module, thus the interoperability between practical function use-case.
Further, described GCRMS is by interoperability integrated PMS equipment account, GIS artwork and space information resource, association generates power communication net topology and is specially: GCRMS is based on GIS artwork and space information resource, and calling GIS figure display function assembly is with reference to drawing power communication net topology and utilizing PMS equipment account to be associated with power network resources by telecommunication network resource with power network topology.
Further, described GCRMS is based on GIS artwork and space information resource, and calling GIS figure display function assembly is with reference to drawing power communication net topology and utilizing PMS equipment account to be associated with power network resources by telecommunication network resource with power network topology, comprising:
Based on GIS figure and space information resource, GCRMS calls GIS figure display function assembly and depends on electric network model topology drafting power communication net topology;
In power communication net topology drawing process, utilize the equipment account of PMS, telecommunication network resource is associated with power network resources by GCRMS.
Further, described GCRMS obtains DAS power distribution network passage operating mode by interoperability, carry out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode to be specially: GCRMS obtains DAS power distribution network terminal passage operating mode by interoperability and carries out real-time monitoring, using power distribution network terminal passage operating mode and power telecom network operating condition as important criterion, adopt communication network operating condition piecewise analysis method, carry out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode, improve the treatment effeciency of communication network fault.
Further, described GCRMS obtains DAS power distribution network terminal passage operating mode by interoperability and carries out real-time monitoring, using power distribution network terminal passage operating mode and power telecom network operating condition as important criterion, adopt communication network operating condition piecewise analysis method, studying and judging of channel failure is carried out in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode, improve the treatment effeciency of communication network fault, comprising:
DAS researches and develops the interface module of grid operating monitoring function use-case, issues power distribution network terminal passage operating mode; GCRMS researches and develops the interface module of power telecom network operation monitoring function use-case, subscribes to power distribution network terminal passage operating mode;
Power distribution network terminal passage operating mode and power telecom network operating condition are merged, the communication network operating mode joining GCRMS is studied and judged in logic, adopts the method for communication network operating condition piecewise analysis, improves the treatment effeciency of communication network fault.
Further, described DAS obtains GCRMS communication network operating condition by interoperability, studying and judging of channel failure is carried out in conjunction with communication network operating condition and power distribution network terminal passage operating mode, fill up the blind area that traditional DAS channel failure studies and judges to be specially: GCRMS issues communication network operating condition, communication network operating condition and electrical network real time execution operating mode merge after subscribing to by DAS mutually, fill up DAS channel failure and study and judge blind area, realize the application target that communication service and operation of power networks interoperability support.
Further, described GCRMS issues communication network operating condition, and communication network operating condition and electrical network real time execution operating mode merge after subscribing to by DAS mutually, fill up DAS channel failure and study and judge blind area, realize the application target that communication service and operation of power networks interoperability support, comprising:
GCRMS researches and develops the interface module of power telecom network operation monitoring function use-case, issues communication network operating condition; DAS researches and develops the interface module of grid operating monitoring function use-case, subscribes to communication network operating condition;
Communication network operating condition incorporates in operation of power networks controlling unit in the monitor procedure of terminal passageway operating mode by DAS, fills up DAS channel failure and studies and judges blind area, realizes the application target that communication service and operation of power networks interoperability support.
The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:
GCRMS will be realized based on PIIF framework and electrical network multi-source operation system interoperability integrated approach is designed to comprise: step one: based on PIIF framework interoperability step analysis GCRMS(communications network management system) owing to have employed, EMS(dispatch automated system), DAS(electrical power distribution automatization system), GIS(Geographic Information System) and PMS(production management system) between operation flow between communication network work condition inspection business, the function use-case of operation flow links, the standard interaction models that each function use-case is corresponding, the communication protocol of standard and the interface module of corresponding function use-case between system, step 2: GCRMS is by interoperability integrated PMS equipment account, GIS artwork and space information resource, and association generates power communication net topology, step 3: GCRMS obtains DAS power distribution network passage operating mode by interoperability, carries out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode, step 4: DAS obtains GCRMS communication network operating condition by interoperability, studying and judging of channel failure is carried out in conjunction with communication network operating condition and power distribution network terminal passage operating mode, fill up the technical scheme of the blind area that traditional DAS channel failure is studied and judged, namely, based on PIIF framework integrated technology combing multi-source system between flow scheme design, integrated framework etc. between standardization multi-source system, thus the interoperability application realized between multi-source system, all kinds of business organically blended between multi-source system, electrical network artwork and communication network artwork are associated and utilizes electrical network spatial information to realize the efficient management to GCRMS from various dimensions.Multi-source system can be shared reciprocity resource and realize how new application function, as mutually sharing of communicate operating condition and DAS main website passage operating condition then can support distribution and regulate and control center and carry out omnibearing monitoring to communication network fault, treatment and analysis, optimize communicate net fault study and judge process, improve the treatment effeciency of communication network fault, fault is carried out to the location of various dimensions, analysis is studied and judged and rapid rush-repair, so, efficiently solve existing GCRMS and electrical network multi-source operation system to there is business and do not organically blend, interoperability between intelligent grid assembly is poor, the GCRMS efficiency of management is lower, the operation flow between cross-system can not be supported, the technical matters that the treatment effeciency of communication network fault is lower, and then the interoperability application achieved between multi-source system, all kinds of business organically blended between multi-source system, the efficient management of GCRMS is higher, the operation flow between cross-system can be supported, the technique effect that communication network fault handling efficiency is higher.
Accompanying drawing explanation
Fig. 1 is the process flow diagram realizing GCRMS and electrical network multi-source operation system interoperability integrated approach in the embodiment of the present application one based on PIIF framework;
Fig. 2 is PIFF framework three-dimensional model schematic diagram in the embodiment of the present application one;
Fig. 3 is the integrated schematic diagram of PIFF framework in the embodiment of the present application one;
Fig. 4 is GCRMS business datum flow process schematic diagram in the embodiment of the present application one;
Fig. 5 is GCRMS interaction models definition schematic diagram in the embodiment of the present application one.
Embodiment
The invention provides one and realize GCRMS and electrical network multi-source operation system interoperability integrated approach, solve existing GCRMS and electrical network multi-source operation system to there is business and do not organically blend, interoperability between intelligent grid assembly is poor, the GCRMS efficiency of management is lower, the operation flow between cross-system can not be supported, the technical matters that the treatment effeciency of communication network fault is lower, achieve the interoperability application between multi-source system, all kinds of business organically blended between multi-source system, the efficient management of GCRMS is higher, the operation flow between cross-system can be supported, the technique effect that communication network fault handling efficiency is higher.
Technical scheme during the application implements is for solving the problems of the technologies described above.General thought is as follows:
Have employed and will realize GCRMS based on PIIF framework and electrical network multi-source operation system interoperability integrated approach is designed to comprise: step one: based on PIIF framework interoperability step analysis GCRMS(communications network management system), EMS(dispatch automated system), DAS(electrical power distribution automatization system), GIS(Geographic Information System) and PMS(production management system) between operation flow between communication network work condition inspection business, the function use-case of operation flow links, the standard interaction models that each function use-case is corresponding, the communication protocol of standard and the interface module of corresponding function use-case between system, step 2: GCRMS is by interoperability integrated PMS equipment account, GIS artwork and space information resource, and association generates power communication net topology, step 3: GCRMS obtains DAS power distribution network passage operating mode by interoperability, carries out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode, step 4: DAS obtains GCRMS communication network operating condition by interoperability, studying and judging of channel failure is carried out in conjunction with communication network operating condition and power distribution network terminal passage operating mode, fill up the technical scheme of the blind area that traditional DAS channel failure is studied and judged, namely, based on PIIF framework integrated technology combing multi-source system between flow scheme design, integrated framework etc. between standardization multi-source system, thus the interoperability application realized between multi-source system, all kinds of business organically blended between multi-source system, electrical network artwork and communication network artwork are associated and utilizes electrical network spatial information to realize the efficient management to GCRMS from various dimensions.Multi-source system can be shared reciprocity resource and realize how new application function, as mutually sharing of communicate operating condition and DAS main website passage operating condition then can support distribution and regulate and control center and carry out omnibearing monitoring to communication network fault, treatment and analysis, optimize communicate net fault study and judge process, improve the treatment effeciency of communication network fault, fault is carried out to the location of various dimensions, analysis is studied and judged and rapid rush-repair, so, efficiently solve existing GCRMS and electrical network multi-source operation system to there is business and do not organically blend, interoperability between intelligent grid assembly is poor, the GCRMS efficiency of management is lower, the operation flow between cross-system can not be supported, the technical matters that the treatment effeciency of communication network fault is lower, and then the interoperability application achieved between multi-source system, all kinds of business organically blended between multi-source system, the efficient management of GCRMS is higher, the operation flow between cross-system can be supported, the technique effect that communication network fault handling efficiency is higher.
In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.
Embodiment one:
In embodiment one, provide one and realize GCRMS and electrical network multi-source operation system interoperability integrated approach, please refer to Fig. 1-Fig. 5, described method comprises:
Step one: based on PIIF framework interoperability step analysis GCRMS(communications network management system), EMS(dispatch automated system), DAS(electrical power distribution automatization system), GIS(Geographic Information System) and PMS(production management system) between operation flow between communication network work condition inspection business, the function use-case of operation flow links, standard interaction models that each function use-case is corresponding, the communication protocol of standard and the interface module of corresponding function use-case between system;
Step 2: GCRMS is by interoperability integrated PMS equipment account, GIS artwork and space information resource, and association generates power communication net topology;
Step 3: GCRMS obtains DAS power distribution network passage operating mode by interoperability, carries out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode;
Step 4: DAS obtains GCRMS communication network operating condition by interoperability, carries out studying and judging of channel failure, fill up the blind area that traditional DAS channel failure is studied and judged in conjunction with communication network operating condition and power distribution network terminal passage operating mode.
Wherein, in the embodiment of the present application, described based on PIIF framework interoperability step analysis GCRMS, EMS, DAS, operation flow between GIS and PMS between communication network work condition inspection business, the function use-case of operation flow links, the standard interaction models that each function use-case is corresponding, between system, the communication protocol of standard and the interface module of corresponding function use-case are specially: based on PIIF framework interoperability level by GCRMS and power grid GIS, EMS, DAS, between PMS, the real-time monitoring business application decomposition of communication network operating mode is to operation layer, functional layer, Information Level, communication layers and component layer, the protocol specification that unified planning is mutual and service regulation.
Wherein, in the embodiment of the present application, based on PIIF framework interoperability level by GCRMS and power grid GIS, between EMS, DAS, PMS the real-time monitoring business application decomposition of communication network operating mode to operation layer, functional layer, Information Level, communication layers and component layer, the protocol specification that unified planning is mutual and service regulation, comprising:
Combing communication network operating mode monitors this kind of service application in real time, forms data flowchart;
Step flow process related to decomposes the function use-case of correspondence system, and carries out interoperability analysis to each function use-case;
According to the interoperability analysis result between function use-case, the standard interaction models of definition interoperability;
According to the interoperability analysis result between function use-case, the standard interaction protocol of definition interoperability;
For different function use-cases, research and develop corresponding interface module, thus the interoperability between practical function use-case.
Wherein, in the embodiment of the present application, described GCRMS is by interoperability integrated PMS equipment account, GIS artwork and space information resource, association generates power communication net topology and is specially: GCRMS is based on GIS artwork and space information resource, and calling GIS figure display function assembly is with reference to drawing power communication net topology and utilizing PMS equipment account to be associated with power network resources by telecommunication network resource with power network topology.
Wherein, in the embodiment of the present application, described GCRMS is based on GIS artwork and space information resource, and calling GIS figure display function assembly is with reference to drawing power communication net topology and utilizing PMS equipment account to be associated with power network resources by telecommunication network resource with power network topology, comprising:
Based on GIS figure and space information resource, GCRMS calls GIS figure display function assembly and depends on electric network model topology drafting power communication net topology;
In power communication net topology drawing process, utilize the equipment account of PMS, telecommunication network resource is associated with power network resources by GCRMS.
Wherein, in the embodiment of the present application, described GCRMS obtains DAS power distribution network passage operating mode by interoperability, carry out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode to be specially: GCRMS obtains DAS power distribution network terminal passage operating mode by interoperability and carries out real-time monitoring, using power distribution network terminal passage operating mode and power telecom network operating condition as important criterion, adopt communication network operating condition piecewise analysis method, studying and judging of channel failure is carried out in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode, improve the treatment effeciency of communication network fault.
Wherein, in the embodiment of the present application, described GCRMS obtains DAS power distribution network terminal passage operating mode by interoperability and carries out real-time monitoring, using power distribution network terminal passage operating mode and power telecom network operating condition as important criterion, adopt communication network operating condition piecewise analysis method, carry out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode, improve the treatment effeciency of communication network fault, comprising:
DAS researches and develops the interface module of grid operating monitoring function use-case, issues power distribution network terminal passage operating mode; GCRMS researches and develops the interface module of power telecom network operation monitoring function use-case, subscribes to power distribution network terminal passage operating mode;
Power distribution network terminal passage operating mode and power telecom network operating condition are merged, the communication network operating mode joining GCRMS is studied and judged in logic, adopts the method for communication network operating condition piecewise analysis, improves the treatment effeciency of communication network fault.
Wherein, in the embodiment of the present application, described DAS obtains GCRMS communication network operating condition by interoperability, studying and judging of channel failure is carried out in conjunction with communication network operating condition and power distribution network terminal passage operating mode, fill up the blind area that traditional DAS channel failure studies and judges to be specially: GCRMS issues communication network operating condition, communication network operating condition and electrical network real time execution operating mode merge after subscribing to by DAS mutually, fill up DAS channel failure and study and judge blind area, realize the application target that communication service and operation of power networks interoperability support.
Wherein, in the embodiment of the present application, described GCRMS issues communication network operating condition, communication network operating condition and electrical network real time execution operating mode merge after subscribing to by DAS mutually, fill up DAS channel failure and study and judge blind area, realize the application target that communication service and operation of power networks interoperability support, comprising:
GCRMS researches and develops the interface module of power telecom network operation monitoring function use-case, issues communication network operating condition; DAS researches and develops the interface module of grid operating monitoring function use-case, subscribes to communication network operating condition;
Communication network operating condition incorporates in operation of power networks controlling unit in the monitor procedure of terminal passageway operating mode by DAS, fills up DAS channel failure and studies and judges blind area, realizes the application target that communication service and operation of power networks interoperability support.
Wherein, in the embodiment of the present application, described based on PIIF framework interoperability level pool GCRMS and EMS, application integration between DAS, GIS, PMS, electric power resource expanded application in GCRMS is specially: based on PIIF framework interoperability level by GCRMS and power grid GIS, between EMS, DAS, PMS the real-time monitoring business application decomposition of communication network operating mode to operation layer, functional layer, Information Level, communication layers and component layer, the integration mode that unified planning is mutual, realizes the in-depth expanded application of electric power resource in GCRMS.
Wherein, in the embodiment of the present application, described GCRMS utilizes PMS equipment account and GIS artwork, space information resource realizes power network topology association and generates power communication net topology application target and be specially: GCRMS, based on GIS artwork and space information resource, is with reference to drawing power communication net topology and utilizing PMS equipment account to be associated with power network resources by telecommunication network resource with power network topology.
Wherein, in the embodiment of the present application, described GCRMS obtains DAS power distribution network terminal passage operating mode by interoperability and carries out real-time monitoring, power distribution network terminal passage operating mode and power telecom network operating condition are specially as important criterion: GCRMS obtains DAS power distribution network terminal passage operating mode by interoperability and carries out real-time monitoring, using power distribution network terminal passage operating mode and power telecom network operating condition as important criterion, adopt communication network operating condition piecewise analysis method, improve the treatment effeciency of communication network fault.
Wherein, in the embodiment of the present application, the described DAS of filling up channel failure studies and judges blind area, realize the application target that communication service and operation of power networks interoperability support to be specially: GCRMS issues communication network operating condition, communication network operating condition and electrical network real time execution operating mode merge after subscribing to by DAS mutually, fill up DAS channel failure and study and judge blind area, realize the application target that communication service and operation of power networks interoperability support.
Wherein, in the embodiment of the present application, the embodiment of the present application provides one and realizes communication resource management system (GCRMS) and electrical network multi-source operation system interoperability integrated approach based on PIIF framework, propose based on PIIF framework integrated approach, realize GCRMS and power grid GIS, EMS, DAS main website, PMS, the multi-source system interoperability such as PCS and OMS, support GCRMS utilizes power network resources to realize it and efficiently manages, break through communication self-closing system management mode, utilize electrical network spatial information, electrical network artwork manages and associates and generates communication network artwork, association grid equipment information makes power telecom network closely relevant to electrical network, reach and promote the efficient target timely of communication service support Regulation.Realize controlling multi-source operation system passage operating condition simultaneously, improve the application target that identification communication supports multi-source system application quality.Plan as a whole GCRMS and power grid GIS, EMS, DAS main website, the interface of different business between PMS and OMS, flow scheme design and implementation thereof, innovation is abundant and extend the application of electric power resource in GCRMS, originally isolated resource carried out integrated sharing, GCRMS can subscribe to DAS main website passage work information and monitor in real time power distribution network terminal passage operating mode, converged communication operating condition comes supplemental support distribution regulation and control center as important criterion and processes communication network fault, improve the treatment effeciency of communication network fault, thus ensure the operation of communication link more stability and high efficiency.Communication resource management system can make full use of power network resources PMS and GIS artwork resource realizes new application function, associates and generate the functions such as power communication net topology as power network topology.
Wherein, in the embodiment of the present application, GCRMS is based on PIIF framework integration realization and power grid GIS, EMS, DAS main website, standardization interoperability between the multi-source systems such as PMS and OMS is integrated, logical architecture based on a kind of standard ensures the interoperability between intelligent grid assembly, call electrical network artwork and generate communication network artwork, and both are associated, the standardization interoperability realizing different business flow process and application between GCRMS and multi-source system is integrated, integrated based on the interoperability between GCRMS and multi-source system, by telecommunication network resource, organically blending of power network resources and service application, realize the monitoring to the various dimensions of communication network fault, treatment and analysis.
Wherein, in the embodiment of the present application, compared with current techniques, the advantage of the technical scheme in the application is:
Technical scheme in the application is based on PIIF framework integrated technology, and the logical organization providing a kind of standard ensures the interoperability between intelligent grid assembly, achieves the interoperability of GCRMS and production, repairing and scheduling field multi-source system core business;
Further, technical scheme in the application is based on the interoperability application between GCRMS and multi-source system, utilize electrical network artwork to associate and generate communication network artwork, power telecom network and electric network information, spatial information are organically blended, support the operation flow between the cross-systems such as fault is studied and judged, repairing.
Wherein, in the embodiment of the present application, the embodiment of the present application provides one and realizes communication resource management system (GCRMS) and electrical network multi-source operation system interoperability integrated approach based on PIIF framework, its interoperability schematic flow sheet as shown in Figure 2, and its overall procedure is: based on PIIF framework integrated technology, GCRMS, PMS, DAS main website, GIS and OMS is combing equipment files separately first, graphical model information and flow scheme design, utilize electrical network spatial information, electrical network artwork manages and associates and generates communication network artwork, association grid equipment information makes power telecom network closely relevant to electrical network, ensure that coding unification and the source of power network resources are safeguarded.
In the present embodiment, GCRMS subscribes to DAS main website terminal real-time working condition in real time based on the information interactive bus of standard under PIIF framework integrated technology and regulates and controls center with the distribution of EPON operating condition binding analysis supplemental support and processes communication network fault, real-time subscription communication network on-line alarm real-time release communication network fault carries out visual fault locating analysis, thus realize EPON operating condition, the various dimensions of distribution network terminal operating condition and spatial information are shown, and adopt channel failure piecewise analysis method and the accurate localization method of communication network fault to simplify communication network fault study and judge process, improve the first-aid repair efficiency of communication network fault, thus ensure the operation of communication link more stability and high efficiency.Below step each in the present embodiment is described further:
As shown in Figure 3, in the embodiment of the present application, GCRMS, DAS main website, PMS, GIS and OMS complete the power network resources Unified Models such as transformer station and based on PIIF framework integrated technology by combing equipment files separately, graphical model information and flow scheme design, utilize electrical network spatial information, electrical network artwork manages and associate and generate communication network artwork, association grid equipment information makes power telecom network closely relevant to electrical network, ensure that coding unification and the source of power network resources are safeguarded, and improve new throwing unusual fluctuation mechanism, ensure increment synchronization.
As Fig. 4 be the embodiment of the present application formulate GCRMS, DAS main website, the interoperability flow process of standard and application integration figure between PMS, GIS and OMS, role A is for serving sender, role B is service beneficiaries, GCRMS subscribes to terminal real-time working condition in real time and regulates and controls center with the distribution of EPON operating condition binding analysis supplemental support and processes communication network fault, in real time subscribes to communication network on-line alarm and real-time release communication network fault carries out visual fault locating analysis.
Technical scheme in above-mentioned the embodiment of the present application, at least has following technique effect or advantage:
GCRMS will be realized based on PIIF framework and electrical network multi-source operation system interoperability integrated approach is designed to comprise: step one: based on PIIF framework interoperability step analysis GCRMS(communications network management system) owing to have employed, EMS(dispatch automated system), DAS(electrical power distribution automatization system), GIS(Geographic Information System) and PMS(production management system) between operation flow between communication network work condition inspection business, the function use-case of operation flow links, the standard interaction models that each function use-case is corresponding, the communication protocol of standard and the interface module of corresponding function use-case between system, step 2: GCRMS is by interoperability integrated PMS equipment account, GIS artwork and space information resource, and association generates power communication net topology, step 3: GCRMS obtains DAS power distribution network passage operating mode by interoperability, carries out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode, step 4: DAS obtains GCRMS communication network operating condition by interoperability, studying and judging of channel failure is carried out in conjunction with communication network operating condition and power distribution network terminal passage operating mode, fill up the technical scheme of the blind area that traditional DAS channel failure is studied and judged, namely, based on PIIF framework integrated technology combing multi-source system between flow scheme design, integrated framework etc. between standardization multi-source system, thus the interoperability application realized between multi-source system, all kinds of business organically blended between multi-source system, electrical network artwork and communication network artwork are associated and utilizes electrical network spatial information to realize the efficient management to GCRMS from various dimensions.Multi-source system can be shared reciprocity resource and realize how new application function, as mutually sharing of communicate operating condition and DAS main website passage operating condition then can support distribution and regulate and control center and carry out omnibearing monitoring to communication network fault, treatment and analysis, optimize communicate net fault study and judge process, improve the treatment effeciency of communication network fault, fault is carried out to the location of various dimensions, analysis is studied and judged and rapid rush-repair, so, efficiently solve existing GCRMS and electrical network multi-source operation system to there is business and do not organically blend, interoperability between intelligent grid assembly is poor, the GCRMS efficiency of management is lower, the operation flow between cross-system can not be supported, the technical matters that the treatment effeciency of communication network fault is lower, and then the interoperability application achieved between multi-source system, all kinds of business organically blended between multi-source system, the efficient management of GCRMS is higher, the operation flow between cross-system can be supported, the technique effect that communication network fault handling efficiency is higher.
Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.
Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.
Claims (9)
1. realize GCRMS and an electrical network multi-source operation system interoperability integrated approach, it is characterized in that, described method comprises:
Step one: based on the communication protocol of standard and the interface module of corresponding function use-case between the function use-case of the operation flow between the step analysis of electric system interoperability framework interoperability GCRMS, EMS, DAS, GIS and PMS between communication network work condition inspection business, operation flow links, standard interaction models that each function use-case is corresponding, system, described GCRMS is communications network management system, described EMS is dispatch automated system, described DAS is electrical power distribution automatization system, described GIS is Geographic Information System, and described PMS is production management system;
Step 2: GCRMS is by interoperability integrated PMS equipment account, GIS artwork and space information resource, and association generates power communication net topology;
Step 3: GCRMS obtains DAS power distribution network passage operating mode by interoperability, carries out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode;
Step 4: DAS obtains GCRMS communication network operating condition by interoperability, carries out studying and judging of channel failure, fill up the blind area that traditional DAS channel failure is studied and judged in conjunction with communication network operating condition and power distribution network terminal passage operating mode.
2. method according to claim 1, it is characterized in that, described based on electric system interoperability framework interoperability step analysis GCRMS, EMS, DAS, operation flow between GIS and PMS between communication network work condition inspection business, the function use-case of operation flow links, the standard interaction models that each function use-case is corresponding, between system, the communication protocol of standard and the interface module of corresponding function use-case are specially: based on electric system interoperability framework interoperability level by GCRMS and power grid GIS, EMS, DAS, between PMS, the real-time monitoring business application decomposition of communication network operating mode is to operation layer, functional layer, Information Level, communication layers and component layer, the protocol specification that unified planning is mutual and service regulation.
3. method according to claim 2, it is characterized in that, based on electric system interoperability framework interoperability level by GCRMS and power grid GIS, between EMS, DAS, PMS the real-time monitoring business application decomposition of communication network operating mode to operation layer, functional layer, Information Level, communication layers and component layer, the protocol specification that unified planning is mutual and service regulation, comprising:
Combing communication network operating mode monitors this kind of service application in real time, forms data flowchart;
Step flow process related to decomposes the function use-case of correspondence system, and carries out interoperability analysis to each function use-case;
According to the interoperability analysis result between function use-case, the standard interaction models of definition interoperability;
According to the interoperability analysis result between function use-case, the standard interaction protocol of definition interoperability;
For different function use-cases, research and develop corresponding interface module, thus the interoperability between practical function use-case.
4. method according to claim 1, it is characterized in that, described GCRMS is by interoperability integrated PMS equipment account, GIS artwork and space information resource, association generates power communication net topology and is specially: GCRMS is based on GIS artwork and space information resource, and calling GIS figure display function assembly is with reference to drawing power communication net topology and utilizing PMS equipment account to be associated with power network resources by telecommunication network resource with power network topology.
5. method according to claim 4, it is characterized in that, described GCRMS is based on GIS artwork and space information resource, calling GIS figure display function assembly is with reference to drawing power communication net topology and utilizing PMS equipment account to be associated with power network resources by telecommunication network resource with power network topology, comprising:
Based on GIS figure and space information resource, GCRMS calls GIS figure display function assembly and depends on electric network model topology drafting power communication net topology;
In power communication net topology drawing process, utilize the equipment account of PMS, telecommunication network resource is associated with power network resources by GCRMS.
6. method according to claim 1, it is characterized in that, described GCRMS obtains DAS power distribution network passage operating mode by interoperability, carry out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode to be specially: GCRMS obtains DAS power distribution network terminal passage operating mode by interoperability and carries out real-time monitoring, using power distribution network terminal passage operating mode and power telecom network operating condition as important criterion, adopt communication network operating condition piecewise analysis method, studying and judging of channel failure is carried out in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode, improve the treatment effeciency of communication network fault.
7. method according to claim 6, it is characterized in that, described GCRMS obtains DAS power distribution network terminal passage operating mode by interoperability and carries out real-time monitoring, using power distribution network terminal passage operating mode and power telecom network operating condition as important criterion, adopt communication network operating condition piecewise analysis method, carry out studying and judging of channel failure in conjunction with power distribution network terminal passage operating mode and self communication network operation operating mode, improve the treatment effeciency of communication network fault, comprising:
DAS researches and develops the interface module of grid operating monitoring function use-case, issues power distribution network terminal passage operating mode; GCRMS researches and develops the interface module of power telecom network operation monitoring function use-case, subscribes to power distribution network terminal passage operating mode;
Power distribution network terminal passage operating mode and power telecom network operating condition are merged, the communication network operating mode joining GCRMS is studied and judged in logic, adopts the method for communication network operating condition piecewise analysis, improves the treatment effeciency of communication network fault.
8. method according to claim 1, it is characterized in that, described DAS obtains GCRMS communication network operating condition by interoperability, studying and judging of channel failure is carried out in conjunction with communication network operating condition and power distribution network terminal passage operating mode, fill up the blind area that traditional DAS channel failure studies and judges to be specially: GCRMS issues communication network operating condition, communication network operating condition and electrical network real time execution operating mode merge after subscribing to by DAS mutually, fill up DAS channel failure and study and judge blind area, realize the application target that communication service and operation of power networks interoperability support.
9. method according to claim 8, it is characterized in that, described GCRMS issues communication network operating condition, communication network operating condition and electrical network real time execution operating mode merge after subscribing to by DAS mutually, fill up DAS channel failure and study and judge blind area, realize the application target that communication service and operation of power networks interoperability support, comprising:
GCRMS researches and develops the interface module of power telecom network operation monitoring function use-case, issues communication network operating condition; DAS researches and develops the interface module of grid operating monitoring function use-case, subscribes to communication network operating condition;
Communication network operating condition incorporates in operation of power networks controlling unit in the monitor procedure of terminal passageway operating mode by DAS, fills up DAS channel failure and studies and judges blind area, realizes the application target that communication service and operation of power networks interoperability support.
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