CN104156230A - Automatic red and black figure implementation method based on debug system data objectification - Google Patents

Abstract

The invention discloses an automatic red and black figure implementation method based on debug system data objectification. The method includes: data in a system are integrated according to different sources and divided into equipment objects facing a power grid and node objects facing system management; a future power grid structure is described by a red figure, a current power grid structure operating in real time is described by a black figure, smooth transition of the red figure and the black figure is achieved through 'red to black conversion', real-time unification of the figure, network topology and actual on-site conditions is guaranteed, a dispatcher can master the current and future power grid structures timely, and operation monitoring and safe dispatching are achieved. The automatic red and black figure implementation method has the advantages that the problems, generally exist in China's power distribution automation system, that power grid figure construction is slow and poor in accuracy and terminals not being operated cannot be debugged under a red figure state are solved, and equipment model integrity and conversion efficiency during red to black conversion can be increased at the same time.

Description

The red-black figure implementation method of robotization based on debug system object-oriented data technology

Technical field

The present invention relates to the red-black figure implementation method of a kind of robotization based on debug system object-oriented data technology, belong to system for distribution network of power technical field.

Background technology

Needs due to urban construction, road enlarging and transformation, the network structure of power distribution network and topology thereof are almost all changing everyday, within sometimes one day, the track remodelling in a plurality of places may carry out simultaneously, this with regard to make auxiliary tone yardman must face a network that at every moment all may change dispatch and instruction issue.

For distribution construction with transform situation frequently, distribution network model dynamic change treatment mechanism solved real model and following model in real time and scheduling problem.In distribution management, take the lead at home proposing red-black figure concept, electricity distribution network model/figure is managed network model according to planning and design, actual motion, for auxiliary tone puts into operation prerequisite for real-time, following wiring diagram in circuit power transmission, guarantee according to operation.

The present invention is under the red-black figure application of electrical power distribution automatization system present situation, and the red-black figure application function of a new generation based on debug system object-oriented data technology in dispatching of power netwoks control system, can solve a plurality of difficult problems of the red-black figure good application of current puzzlement preferably.

Summary of the invention

For solving the deficiency existing for current red-black figure application in prior art, use for reference the red and black figure application of debug system technical research based on object-oriented data, the object of the present invention is to provide a kind of power distribution automation red and black figure implementation method based on debug system object-oriented data technology that can solve the key issues such as the many versions of model and rollback in red-black figure, terminal debugging, parallel importings of multi-model.

In order to realize above-mentioned target, the present invention adopts following technical scheme:

The red-black figure implementation method of robotization based on debug system object-oriented data technology, is characterized in that, comprising:

1), according to the set distribution management service management flow of electric company, in electrical power distribution automatization system debug system, set up the circuit wiring diagram relevant to current business and equipment topological model at interior equipment zero level model; Current business refers to current distribution scheduling business, and for example the power transmission of stopping before and after circuit reconfiguration some day operates.

2) according to described equipment zero level model, by described distribution scheduling business apparatus for establishing one-level data model; Described equipment one-level data model comprises device real-time monitoring model, applied analysis model and other computation models; According to described equipment one-level data model, generate equipment secondary data simulator again; According to the actual needs of different distribution scheduling business, system can be configured to generate real-time monitoring model, high soft applied analysis model and other models, in the mutually independently user demand of prerequisite lower support different application; Described equipment secondary data model comprises preposition measurement model, Information Interaction Model, system simulation model and other models; Described preposition measurement model and Information Interaction Model are by device real-time monitoring model generation; Described system simulation model and other models are by applied analysis model generation.

3) according to described step 1) and 2) in the generative process of equipment zero level model, equipment one-level data model and equipment secondary data model, according to empirical value, be that described equipment zero level model, equipment one-level data model and equipment secondary data model supplement the device parameter that meets data object integrality standard; Described device parameter comprises equipment in passage, period and second-level message interaction models etc. in the preposition model of unit type, cable length/specification, rated capacity, rated current, secondary in zero level model.

4) according to described step 1), 2) and 3), described debug system generates corresponding red figure.

5) in debug system, described red figure is carried out to testing authentication.

6) according to the testing authentication result of described step 5), determine whether and meet service feature, described service feature is that equipment zero level model, equipment one-level data model, equipment secondary data model and the circuit wiring diagram in system is all consistent with the scene of described distribution scheduling business: if discontented unabridged version time service feature, return again successively by described step 1), 2), 3), 4) and 5) build red figure, until meet the demands; If meet this service feature, carry out next step.

7) according to stopping power transmission business, in electrical power distribution automatization system operational system, have access to the red figure in debug system, carry out the red black operation that turns, become the black figure in operational system.

The red-black figure implementation method of the aforesaid robotization based on debug system object-oriented data technology, it is characterized in that, the circuit wiring diagram of setting up in described step 1) and equipment topological model method are: utilize system artwork storehouse integrated tool to draw and do storehouse and utilize system GIS/PMS artwork interface to import external system to form described circuit wiring diagram and equipment topological model.

The red-black figure implementation method of the aforesaid robotization based on debug system object-oriented data technology, it is characterized in that, described GIS/PMS artwork interface comprises: workflow management interface, and described workflow management interface is used for the workflow of electrical power distribution automatization system being connected with the workflow of external system and forming closed loop workflow; Model introducting interface, described model introducting interface is used for importing the CIM/XML of external system derivation or the model data of CIM-E standard with incremental mode; Figure introducting interface, described figure introducting interface is for importing the CIM/SVG of external system derivation or the graph data of CIM-G standard; Bus adapter, described bus adapter meets the bus realization of IEC61968 standard criterion and communicates by letter with external system for connecting.

The red-black figure implementation method of the aforesaid robotization based on debug system object-oriented data technology, it is characterized in that, in described step 4), described red figure comprises: do not put into operation the device object model in primary connection figure, debug system, the different life of equipment in debug system; Described life cycle comprises the phase of not putting into operation, Yunqi, treat the date of retirement.

The red-black figure implementation method of the aforesaid robotization based on debug system object-oriented data technology, is characterized in that, described device object model comprises: equipment zero level model, and described equipment zero level model comprises graph topology model and equipment topological model; Equipment first-order model, described equipment first-order model comprises device real-time monitoring model, applied analysis model and other computation models; Equipment second-level model, described equipment second-level model comprises preposition measurement model, Information Interaction Model, system simulation model and other models; Object integrity verification, described object integrity verification is carried out in described equipment zero level model, equipment first-order model and equipment second-level model according to system configuration.

The red-black figure implementation method of the aforesaid robotization based on debug system object-oriented data technology, it is characterized in that, described object integrity verification comprises: the hierarchical relationship in described equipment topological model, unique coding, electric pressure, affiliated apply property be not for sky or meet foreign key constraint; Signal in described real-time monitoring model is associated with equipment; Passage in described front-collection model, period, stipulations are not empty and can set up and communicate by letter with acquisition terminal.

The red-black figure implementation method of the aforesaid robotization based on debug system object-oriented data technology, it is characterized in that, in described step 7), describedly redly turn black operation and comprise: in operational system or debug system, initiate, the red figure of the debug system of take is basis, analyze all devices object that the feeder line that comprises in red figure and described feeder line comprise, compare with figure and device object identical in black figure, variance data be take to device object as base unit incremental mode is synchronized in operational system, become the black figure in operational system.

The beneficial effect that the present invention reaches: the invention provides the red-black figure implementation method of power distribution network based on debug system object-oriented data technology, can solve in domestic electrical power distribution automatization system ubiquitous distribution artwork and build that speed is slow, the scene of poor accuracy, the problem of the terminal that do not put into operation cannot be under red figure state, debugged, red integrality and the conversion efficiency that turns device model when black can be improved simultaneously.

Accompanying drawing explanation

Fig. 1 the present invention is based on the red-black figure application data object processing logic schematic diagram of debug system;

The Distribution Network Equipment objectification schematic diagram that Fig. 2 the present invention relates to.

Embodiment

Below in conjunction with accompanying drawing, the invention will be further described.Following examples are only for technical scheme of the present invention is more clearly described, and can not limit the scope of the invention with this.

The red-black figure implementation method of robotization based on debug system object-oriented data technology, step is as follows:

1), according to the set distribution management service management flow of electric company, in electrical power distribution automatization system debug system, set up the circuit wiring diagram relevant to current business and equipment topological model at interior equipment zero level model.Current business refers to current distribution scheduling business, and for example the power transmission of stopping before and after circuit reconfiguration some day operates.The method of setting up is to utilize system artwork storehouse integrated tool to draw to do storehouse and utilize system GIS/PMS artwork interface to import external system to form described circuit wiring diagram and equipment topological model.Wherein, GIS/PMS artwork interface comprises: workflow management interface, for the workflow of electrical power distribution automatization system being connected with the workflow of external system and forming closed loop workflow; Model introducting interface, is used for importing the CIM/XML of external system derivation or the model data of CIM-E standard with incremental mode; Figure introducting interface, for importing the CIM/SVG of external system derivation or the graph data of CIM-G standard; Bus adapter, the bus realization that meets IEC61968 standard criterion for connecting is communicated by letter with external system.

2), according to equipment zero level model, generate equipment one-level data model; Equipment one-level data model comprises device real-time monitoring model, applied analysis model and other computation models; According to equipment one-level data model, generate equipment secondary data simulator again; Equipment secondary data model comprises preposition measurement model, Information Interaction Model, system simulation model and other models; Preposition measurement model and Information Interaction Model are by device real-time monitoring model generation; System simulation model and other models are by applied analysis model generation.

3) according to step 1) and 2) in the generative process of equipment zero level model, equipment one-level data model and equipment secondary data model, according to empirical value, be that equipment zero level model, equipment one-level data model and equipment secondary data model supplement the device parameter that meets data object integrality standard.Device parameter comprises equipment in passage, period and second-level message interaction models etc. in the preposition model of unit type, cable length/specification, rated capacity, rated current, secondary in zero level model.

4) according to step 1), 2) and 3), debug system generates corresponding red figure.Red figure comprises do not put into operation the device object model in primary connection figure, debug system, the different life of equipment in debug system.Life cycle comprises the phase of not putting into operation, Yunqi, treat the date of retirement.

5) in debug system, by topology connectedness, device parameter integrality and on-site terminal interlock test, red figure is carried out to testing authentication.

6) according to the testing authentication result of step 5), determine whether and meet service feature, service feature refers to that equipment zero level model, equipment one-level data model, equipment secondary data model and the circuit wiring diagram in the system of this test is all consistent with the scene of described distribution scheduling business: if do not meet service feature, return again successively by step 1), 2), 3), 4) and 5) build red figure, until meet the demands; If meet service feature, carry out next step.

7) according to stopping power transmission business, in electrical power distribution automatization system operational system, have access to the red figure in debug system, carry out the red black operation that turns, become the black figure in operational system.Redly turn black operation and comprise: in operational system or debug system, initiate, the red figure of the debug system of take is basis, analyze all devices object that the feeder line that comprises in red figure and described feeder line comprise, compare with figure and device object identical in black figure, variance data be take to device object as base unit incremental mode is synchronized in operational system, become the black figure in operational system.

As Fig. 1, system is divided into debug system, operational system two parts.

Debug system is orientated artwork data construct and verification, terminal debugging and software module testing as, and data are by the backward running subsystem issue artwork data of test and preposition information.Operational system is orientated power distribution network operation monitoring as, towards dispatch application.

Between debug system, operational system, by data, issue with synchronizing function and keep two system datas consistent.Issue refers to that debug system data write operational system, synchronously refer to operational system data are write to debug system.

From entire system macroscopic perspective, the figure of debug system, model data are as red figure and the following model of system, and operational system is as black figure and the real-time model of system.

In debug system, pass through the correctness of model checking functional assessment model, figure.Operational system is turned black function red graph model is converted to black graph model by red.

Debug system and operational system all configure preposition application, communicate by letter respectively with on-site terminal, coordinate and terminal communication the communication linkage that both set up by exclusive mode and terminal for two preposition by heartbeat.

As shown in Figure 2, device object model in the method comprises:

Equipment zero level model, comprises graph topology model and equipment topological model;

Equipment first-order model, comprises device real-time monitoring model, applied analysis model and other computation models;

Equipment second-level model, comprises preposition measurement model, Information Interaction Model, system simulation model and other models; Preposition measurement model and Information Interaction Model are by device real-time monitoring model generation; System simulation model and other models are by applied analysis model generation;

Object integrity verification, according to system configuration, in equipment zero level model, equipment first-order model and equipment second-level model, carry out, particular content comprises: the hierarchical relationship in equipment topological model, unique coding, electric pressure, affiliated apply property be not for sky or meet foreign key constraint; Signal in monitoring model is associated with equipment in real time; Passage in described front-collection model, period, stipulations are not empty and can set up and communicate by letter with acquisition terminal.

Debug system forms autonomous system by database server, application server, front server, workstation.Background system is connected with operational system by fire wall, and externally responsible connection with EMS/GIS/PMS system realized artwork exchange;

In operational system, increase red-black figure server, for responding, the data that debug system initiates are synchronous, analysis, issue work.

The preposition of debug system and operational system is deployed in the identical preposition network segment, and both are by heartbeat coordination, exclusive mode and terminal communication.

Method and the prior art that the present invention relates to compare:

A) provide the stable many version management mechanisms of model, figure, support model rollback: by the supporting debug system quantity of configuration and operational system, can realize the network models such as different editions, graphics management, each debug system is all a model, graphics versions of its corresponding operational system; When some debug system artworks make a mistake, can utilize from operational system to debug system the mode that rewrites data to realize the rollback of debug system artwork version.

B) provide standard, easy-operating workflow management instrument, possess the model/figure of different editions is managed;

System has developed for the artwork data maintenance flow process of debug system, operational system the operation flow configuration tool can customize, to user flow definition is provided, and by workflow management different editions artwork data.

C) in debug system, can complete all terminal debug functioies such as period typing, passage configuration, remote-controlled test, debug system is synchronized to operational system after having debugged, in operational system without again terminal being debugged; It is preposition heartbeat technology, by office terminal, at synchronization, connect that debug system is preposition or operational system is preposition, before putting equipment in service, terminal is only communicated by letter with debug system is preposition, completes the test jobs such as remote control test, realizes and debugging with on-site terminal before putting equipment in service.

D) the heartbeat mechanism that multisystem is coordinated, avoids security risk.Preposition heartbeat links with terminal by coordinated operation system, a plurality of debug system, has following several safety assurance mechanism: 1, guarantee a timeslice only with a system communication; 2,, only when system discharges terminal communication link, another system just can be set up communication link with terminal; 3,, during putting equipment in service, terminal is only set up communication link with operational system, otherwise when equipment does not put into operation, only sets up communication link with debug system.

E) on affecting a little less than overall system performance: all to figure, mould testing authentication work all completes in debug system, avoided completing a large amount of analytical works in operational system, reduces system overhead; When putting into operation, only the data division changing in debug system is synchronized in operational system, therefore synchronous data volume is less, operational system is not produced to pressure.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, do not departing under the prerequisite of the technology of the present invention principle; can also make some improvement and distortion, these improvement and distortion also should be considered as protection scope of the present invention.

Claims (7)

1. the red-black figure implementation method of the robotization based on debug system object-oriented data technology, is characterized in that, comprising:

1), according to the set distribution management service management flow of electric company, in electrical power distribution automatization system debug system, the circuit wiring diagram of foundation and distribution scheduling traffic aided and equipment topological model are at interior equipment zero level model;

2) according to described equipment zero level model, by described distribution scheduling business apparatus for establishing one-level data model; Described equipment one-level data model comprises device real-time monitoring model, applied analysis model and other computation models; According to described equipment one-level data model, generate equipment secondary data simulator again; Described equipment secondary data model comprises preposition measurement model, Information Interaction Model, system simulation model and other models; Described preposition measurement model and Information Interaction Model are by device real-time monitoring model generation; Described system simulation model and other models are by applied analysis model generation;

3) according to described step 1) and 2) in the generative process of equipment zero level model, equipment one-level data model and equipment secondary data model, according to empirical value, be that described equipment zero level model, equipment one-level data model and equipment secondary data model supplement the device parameter that meets data object integrality standard;

4) according to described step 1), 2) and 3), described debug system generates corresponding red figure;

5) in debug system, described red figure is carried out to testing authentication;

6) according to described step 5) testing authentication result determine whether and meet service feature, described service feature is that equipment zero level model, equipment one-level data model, equipment secondary data model and the circuit wiring diagram in system is all consistent with the scene of described distribution scheduling business: if do not meet described service feature, return again successively by described step 1), 2), 3), 4) and 5) build red figure, until meet the demands; If meet described service feature, carry out next step;

7) according to stopping power transmission business, in electrical power distribution automatization system operational system, have access to the red figure in debug system, carry out the red black operation that turns, become the black figure in operational system.

2. the red-black figure implementation method of the robotization based on debug system object-oriented data technology according to claim 1, is characterized in that, the circuit wiring diagram of setting up in described step 1) and equipment topological model method are:

Utilize system artwork storehouse integrated tool to draw and do storehouse and utilize system GIS/PMS artwork interface to import external system to form described circuit wiring diagram and equipment topological model.

3. the red-black figure implementation method of the robotization based on debug system object-oriented data technology according to claim 2, is characterized in that, described GIS/PMS artwork interface comprises:

Workflow management interface, described workflow management interface is used for the workflow of electrical power distribution automatization system being connected with the workflow of external system and forming closed loop workflow;

Model introducting interface, described model introducting interface is used for importing the CIM/XML of external system derivation or the model data of CIM-E standard with incremental mode;

Figure introducting interface, described figure introducting interface is for importing the CIM/SVG of external system derivation or the graph data of CIM-G standard;

Bus adapter, described bus adapter meets the bus realization of IEC61968 standard criterion and communicates by letter with external system for connecting.

4. the red-black figure implementation method of the robotization based on debug system object-oriented data technology according to claim 1, is characterized in that, in described step 4), described red figure comprises:

Do not put into operation the device object model in primary connection figure, debug system, the different life of equipment in debug system; Described life cycle comprises the phase of not putting into operation, Yunqi, treat the date of retirement.

5. the red-black figure implementation method of the robotization based on debug system object-oriented data technology according to claim 4, is characterized in that, described device object model comprises:

Equipment zero level model, described equipment zero level model comprises graph topology model and equipment topological model;

Equipment first-order model, described equipment first-order model comprises device real-time monitoring model, applied analysis model and other computation models;

Equipment second-level model, described equipment second-level model comprises preposition measurement model, Information Interaction Model, system simulation model and other models;

Object integrity verification, described object integrity verification is carried out in described equipment zero level model, equipment first-order model and equipment second-level model according to system configuration.

6. the red-black figure implementation method of the robotization based on debug system object-oriented data technology according to claim 5, is characterized in that, described object integrity verification comprises:

Hierarchical relationship in described equipment topological model, unique coding, electric pressure, affiliated apply property be not for sky or meet foreign key constraint;

Signal in described real-time monitoring model is associated with equipment;

Passage in described front-collection model, period, stipulations are not empty and can set up and communicate by letter with acquisition terminal.

7. the red-black figure implementation method of robotization based on debug system object-oriented data technology according to claim 1, is characterized in that, in described step 7), describedly redly turns black operation and comprises:

In operational system or debug system, initiate, the red figure of the debug system of take is basis, analyze all devices object that the feeder line that comprises in red figure and described feeder line comprise, compare with figure and device object identical in black figure, variance data be take to device object as base unit incremental mode is synchronized in operational system, become the black figure in operational system.