CN104484271B - A kind of method of calibration of integrated business platform reduced model - Google Patents

Abstract

The present invention relates to a kind of method of calibration of integrated business platform reduced model, this method design integration business platform reduced model correction verification module, reduced model standardization syntactic verification is carried out using Schema, content being associated property one by onechecking is extended to Access Model using the checking routine based on pugixml, both examine in mixing, complement each other.Node and its Attribute transposition in Access Model for that and must can match two major classes, is judged to export or alert error message in the case where verification is inconsistent by module as standard.This method will improve transformer station's integrated business platform and level is debugged in senior application, improve the compatibility with integrated business platform, the application of different manufacturers is quickly and easily carried out information exchange, promote integrated business platform and merging for applying.

Description

A kind of method of calibration of integrated business platform reduced model

Technical field

The present invention relates to a kind of method of calibration of electric substation automation system technical field, in particular to a kind of integration The method of calibration of business platform reduced model.

Background technology

Intelligent substation is to use advanced, reliable, integrated and environmentally friendly smart machine, with whole station information digitalization, communication Platform network, information sharing are standardized as basic demand, are automatically performed information gathering, measurement, control, protection, metering and examine The basic function such as survey, meanwhile, possess support power network automatically control in real time, Intelligent adjustment, on-line analysis decision-making and collaboration interaction etc. The transformer station of Premium Features.

Intelligent substation mainly includes intelligent high-voltage equipment and transformer station's integration information platform two parts.Intelligent high-voltage equipment Mainly include intelligent transformer, Intelligent high voltage switch device, electronic mutual inductor etc..Intelligent transformer is with control system by logical Believe that optical fiber is connected, transformer state parameter and service data can be grasped in time.When the method for operation changes, equipment is according to being Voltage, the power situation of system, decide whether to adjust tap；When equipment goes wrong, early warning can be sent and state ginseng is provided Number etc., reduces operational management cost to a certain extent, reduces hidden danger, improves transformer station high-voltage side bus reliability.Intelligent high-pressure is switched Equipment is switchgear and control device with superior performance, equipped with electronic equipment, sensor and actuator, with monitoring and Diagnostic function.Electronic mutual inductor refers to pure optical fiber mutual inductor, magneto-optic glass transformer etc., effectively conventional electromagnetic can be overcome mutual The shortcoming of sensor.Transformer station's integration information platform function has two, and one is the horizontal information sharing of system, is mainly shown as management system Various upper layer applications unitize to information acquisition in system；Two be the standardization of the longitudinal information of system, is mainly shown as that each layer is right The transparence of its upper layer application support.

Intelligence is hommization, and imaging people the same, power transformation when low-voltage load amount increase in regulation is exactly done by transformer station Stand to send out to meet and increase the electricity of load, when low-voltage load amount reduces, transformer station sends out electricity and reduced therewith, it is ensured that save The energy.

At present, New Generation of Intelligent Substation Design and building-up work are just actively pushed forward, it is intended to realize that power network development mode turns Become and scientific and technical innovation.In New Generation of Intelligent transformer station contemporary technology scheme, it is mainly technically characterized by using " integrated intelligence The mode of equipment+integrated business system ", starts with from overall, changes a point design and operational mode for specialty, realizes whole station intelligence The target that can change and optimize.Compared with the breakthrough that integrated intelligence equipment is obtained, New Generation of Intelligent transformer station is in integrated services Substantially fall behind with the progress in terms of intelligent use, be mainly reflected in following two aspects：

One is, new business demand is constantly produced, and such as electric energy quality monitoring, distributed energy, which are accessed, power electronics is idle mends The new business such as monitoring and control, the technology of Internet of things of device are repaid, these business demands and existing prison to current intelligent substation The fusion band of control system carrys out new challenge.

On the other hand it is that the degree of being practical of senior application is unsatisfactory, is primarily due to lack the flat of opening Platform.Because application and the existing platform degree of coupling are high, system integrator can not the suitable specialized function module of unrestricted choice, it is impossible to The system for meeting different user business demand is customized out, the development of intelligent substationization application is constrained.

The content of the invention

In view of the shortcomings of the prior art, it is an object of the invention to provide a kind of verification of integrated business platform reduced model Method, this method design integration business platform reduced model correction verification module carries out reduced model standardization language using Schema Method is verified, and extends content being associated property one by onechecking to Access Model using the checking routine based on pugixml, both mix Examine, complement each other.Node and its Attribute transposition in Access Model is that and must can match two major classes by module, as mark Standard come judge verify it is inconsistent in the case of should export or alert error message.This method will improve transformer station's integrated business Platform debugs level with senior application, improves the compatibility with integrated business platform, the application of different manufacturers is facilitated, Information exchange is quickly carried out, promotes integrated business platform and merging for applying.

The purpose of the present invention is realized using following technical proposals：

The present invention provides a kind of method of calibration of integrated business platform reduced model, and it is theed improvement is that, described to lead Go out model to be verified by model checking module, correction verification module uses on-line testing and static check mode；The method of calibration is under State aspect verification export module：

(1) reduced model basic function verification is carried out by the way of based on extensible markup language framework Schema；

(2) reduced model node object and its attribute are obtained by the way of based on xml operations storehouse pugixml, and item by item Incidence relation between judgment models node.

Further, the reduced model correction verification module by Access Model RDF Schema verification submodule, be based on Pugixml verification submodule and data access interface composition；

The verification submodule of the Access Model RDF Schema is used to verify reduced model basic function；

The verification submodule based on pugixml is used to obtain reduced model node object and its attribute, and sentences item by item Incidence relation between disconnected model node；

The integrated business platform carries out data interaction by data access interface and correction verification module.

Further, when correction verification module uses on-line testing mode, correction verification module being integrated in one business platform leads to Acquisition parent object function ICS_GetParentObject is crossed, subobject numerical function ICS_GetChildObjNum is obtained, obtains Subobject tabulated function ICS_GetChildObjects interfaces obtain mould export type node data and verified, in checking procedure Integrated business platform ejection alarm window, while output verification result log files；

When correction verification module uses static check mode, reduced model is exported from integrated business platform, forms xml lattice Formula file, correction verification module verifies xml formatted files offline, while output verification result log files.

Further, it is described to carry out reduced model basic training by the way of based on extensible markup language framework Schema It can verify and comprise the steps：

1. the resource description framework RDF Schema models of reduced model are set up；

2. RDF Schema model consistencies are verified；Element in reduced model is verified according to Access Model RDF Schema Nest relation；

3. checking parameter completeness；

Further, 1. the step includes：

1) the RDF Schema models of reduced model are set up according to Access Model；

2) RDF objectifications：All nodes of Access Model and reduced model are created as to the RDF data object of object-oriented Example, RDF data is created as by the nesting or incidence relation between Access Model RDF Schema and all nodes of reduced model Object is associated, and all nodes of Access Model and reduced model store the RDF numbers to object-oriented in the form of RDF data object According in object instance；

3) the corresponding object of reduced model is searched in the corresponding RDF of Access Model, and carries out consistency desired result.

Further, in the RDF Schema model checking reduced models according to Access Model element nest relation.

Further, 2. the step includes：

A, syntactic verification：

(I) reduced model has a root element apppdata, and other elements are its daughter elements；

(II) start-tag is verified with end-tag, and both should match；

(III) element nest relation is verified, and reduced model father and son's node is correctly nested；

(IV) element property can not be repeated, and represent must be in quotation marks for attribute；

B, semantic verification：

I) reduced model prefix label meets regulation in RDF Schema, including capital and small letter on form；

II) check-node and its Attribute consistency：Verify transformer powertransformer, the winding of reduced model Winding, voltage class voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement analog and Whether quantity of state status and its attribute are consistent with RDF Schema；

C, verification Access Model and reduced model uniformity, including：

Transformer powertransformer objects and its attribute description description, connecting node 1terminal1, Connecting node 2terminal2, connecting node 3terminal3, call number id, affiliated plant stand parentid, title name, reference Reference is consistent；

(b) winding winding objects and its attribute description description, call number id, affiliated main transformer parentid, Title name, reference reference, association interval relatebay are consistent；

(c) voltage class voltagelevel objects and its attribute description description, type voltage, call number Id, affiliated plant stand parentid, title name, reference reference are consistent；

(d) interval bay objects and its attribute description description, call number id, affiliated voltage class parentid, Title name, reference reference are consistent；

(e) device equipment objects and its attribute description, id, terminal1, terminal2, type, Id, parentid, name, reference are consistent；

(f) intelligent apparatus IED describes description, call number id, affiliated interval parentid, title name, reference Reference is consistent；

(g) measurement analog objects and its attribute description description, dimension dimension, type type, rope Quotation marks id, corresponding device parentid, reference reference are consistent；

(h) quantity of state status objects and its attribute retouch description, type type, call number id, corresponding device Parentid, title name, reference reference are consistent.

Further, 3. the step includes：

I, verification key node and its attribute：Including detection transformer powertransformer, winding winding, electricity Press grade voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement analog objects and quantity of state Whether status objects and its attribute are empty；

II, verification name attribute：Including verification element plant stand station, primary equipment primary and secondary device Whether secondary has uniqueness under same plant stand；Whether each element id has uniqueness in whole station；Each element attribute Whether there is uniqueness under identity element.

Further, it is described to obtain reduced model node object and its category by the way of based on xml operations storehouse pugixml Property, and the incidence relation between judgment models node includes item by item：

1>Operate storehouse pugixml to take out each node and its attribute information by xml, transformer is verified item by item Powertransformer, winding winding, voltage class voltagelevel, interval bay, device equipment, intelligence Whether device IED, measurement analog and quantity of state status reference, the reference of check-node correspond to it Father node reference；

2>Operate storehouse pugixml to take out each node and its attribute information by xml, element transformer is verified item by item Powertransformer, winding winding, voltage class voltagelevel, interval bay, device equipment, intelligence Whether device IED, measurement analog and quantity of state status parentID, the reference of check-node correspond to it Father node ID；

3>Storehouse pugixml taking-ups primary equipment winding winding and device equipment child node is operated by xml The corresponding measuring value analog or dynanalog or status of measurand relativeID, traversal verification relativeID Whether Property ID is unique.

Further, when reduced model and Access Model are verified, when node and its inconsistent attribute, if node and its category Property is necessary, provides error message；If node and its attribute can be matched, warning information is provided；When pugixml is closed item by item When the verification of connection property is inconsistent, error message is provided；Check results distinguish output error message and warning information log files.

Compared with immediate prior art, excellent effect of the invention is：

The method of calibration design integration business platform reduced model correction verification module that the present invention is provided, is carried out using Schema Reduced model standardization syntactic verification, being associated property of content is extended using the checking routine based on pugixml to Access Model One by onechecking, both mix inspection, complemented each other.Node and its Attribute transposition in Access Model is necessary and optional by module With two major classes, judge to export or alert error message in the case where verification is inconsistent as standard.Module can pass through Integrated business platform unified interface on-line testing reduced model, outputting alarm window and log files；Can also reduced model letter Breath, static check, output verification log files.Correction verification module carries out regulation and standardization to integrated business platform reduced model Verification, to meet Access Model Standardization Requirement.Integrated business platform is an open platform, the specification of reduced model Change and standardize the exploitation that constituent parts will be promoted to play an active part in service application.Meanwhile, model checking will improve transformer station's integration Business platform debugs level with senior application, improves the compatibility with integrated business platform, enables the application of different manufacturers Information exchange is quickly and easily carried out, promotes integrated business platform and merging for applying.

Brief description of the drawings

Fig. 1 is the model checking module architectures schematic diagram that the present invention is provided；

Fig. 2 is the reduced model Schema schematic diagrames that the present invention is provided；

Fig. 3 is the flow chart of the method for calibration for the integrated business platform reduced model that the present invention is provided.

Embodiment

The embodiment to the present invention is described in further detail below in conjunction with the accompanying drawings.

Intelligent substation is commenced business the research of data model and integrated business platform, sets up open transformer station's business Model and application system, formulate the interface and constrained qualification of standardization, and guiding New Generation of Intelligent transformer station provides more, more professional The exploitation of application.Integrated business platform is to support intelligent substation station level service application (such as intelligent alarm, sequential control, life Production management) function platform, be made up of basic platform, unified access interface and the part of applied function module three, pass through standardization Interface access third-party application expanded application module, completion power system monitor, monitoring of equipment and all kinds of operational managements and maintenance service, Platform opens, easily extends, can safeguard, configures on demand.

Application platform provides complete message reference mechanism in the way of " service interface+Access Model ".Access Model is Data structure that application platform is pre-defined, can directly being accessed by external module, concrete model is defined as follows：

Mapping between Access Model and application platform internal data structure is realized by application platform oneself.Access Model is adopted Described with XML file, application platform is supplied to the model information of application developer to enter in the Access Model configuration file of agreement Row definition.On this basis, application platform and external module can voluntarily arrange the content for needing to extend.

Reduced model is Access Model instantiation configuration file.For the open integrated business platform of support, respectively should it support It can easily be applied with business module on different manufacturers or the platform of R＆D institution, tackle each platform reduced model and enter rower Standardization is verified.

Schema is the XML document for following DTD, for describing XML document structure, verifying XML document structure and data class The rule of type validity, can customize data attribute.Schema function embodiment is in two broad aspects：

(1) data verification：According to the validity of the rule verification XML document made, have in checking：Element and category The structure of property；The order of element；The data value of element and attribute, according to scope, is enumerated and pattern matching；Real value intermediate value is only One property etc..

(2) data extending：Pattern process can also expand XML document, can be by the following method：For element and attribute Add default value and fixed value；The blank character in element and property value with simple types is set to standardize.

Pugixml is the storehouse that a lightweight operates C++xml files.It has abundant class DOM interface traversal/modification Function, fast resolving xml document, this library is very convenient, integrated can apply, and can obtain node and its attribute by interface Information.

Reduced model standardization grammer, semantic verification are carried out by Schema, using the checking routine pair based on pugixml Incidence relation between Access Model element or attribute carries out one by onechecking, and both complement each other.

The method of calibration for the integrated business platform reduced model that the present invention is provided, designs a reduced model verification first Module carries out the verification of platform reduced model.Correction verification module is by Access Model RDF Schema, the checking routine based on pugixml Constituted with unified data-interface, as shown in Figure 1.Access Model RDF Schema verification submodule is used to verify reduced model Basic function；Verification submodule based on pugixml is used to obtain reduced model node object and its attribute, and judges mould item by item Incidence relation between type node；Integrated business platform carries out data interaction by data access interface and correction verification module.

Checking routine verifies reduced model in terms of two, and one is that model basic training is carried out by the way of based on Schema Can verification；Another is that each node object of model and its attribute are obtained by the way of based on pugixml, and decision node item by item Between incidence relation.On-line testing and static check two ways may be selected in correction verification module.Integrated business platform and calibration mode Block possesses unified data access interface.

When using on-line testing mode, correction verification module being integrated in one business platform passes through ICS_ The interfaces such as GetParentObject, ICS_GetChildObjNum, ICS_GetChildObjects obtain model node data Verified, integrated business platform ejection alarm window in checking procedure, while the log files of output verification result.

When using static check mode, reduced model is exported from integrated business platform, forms xml formatted files, Correction verification module verifies xml formatted files, output verification result log files offline.

The flow chart of the method for calibration for the integrated business platform reduced model that the present invention is provided is as shown in figure 3, including under State step：

(1) model basic function verification is carried out by the way of based on Schema, is comprised the steps：

1. RDF Schema models are set up, including：

1) the RDF Schema models of reduced model, such as Fig. 2 are set up according to Access Model；

2) RDF objectifications, all nodes of Access Model and reduced model are created as the RDF data object of object-oriented Example, is also created as specific RDF data object by the nesting or incidence relation between its all node and associates, Access Model and All nodes are stored into object-oriented data model in the form of RDF data object in reduced model.

Import or obtain model node information：When using on-line testing mode when, by ICS_GetParentObject, ICS_GetChildObjNum, ICS_GetChildObjects etc. unified interface obtains model node and its attribute information；When During using offline verification mode, module imports the model file of xml forms.

2. Schema consistency desired results：

A, syntactic verification：

(I) reduced model only has a root element apppdata, and other elements are its daughter elements.

(II) start-tag is verified with end-tag, and both should match.

(III) element nest relation is verified, and reduced model father and son node should be correct nested.

(IV) element property can not be repeated, and represent must be in quotation marks for attribute.

B, semantic verification：

I) model prefix label had to comply with form specified in RDF Schema require, it is necessary to including capital and small letter；

II) node and its Attribute consistency verification：The i.e. node transformer powertransformer of verification reduced model, Winding winding, voltage class voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement Whether analog and quantity of state status and its attribute are consistent with RDF Schema.

C, Access Model and reduced model consistency desired result：Specifically include (a) transformer powertransformer objects And its attribute description, terminal1, terminal2, terminal3, type, id, parentid, name, Reference will be consistent；(b) winding winding objects and its attribute description, type, id, parentid, Name, reference will be consistent；(c) voltage class voltagelevel objects and its attribute description, Voltage, id, parentid, name, reference will be consistent；(d) interval bay objects and its attribute Description, id, parentid, name, reference will be consistent；(e) device equipment objects and its attribute Description, id, terminal1, terminal2, type, id, parentid, name, reference will be consistent； (f) intelligent apparatus IED description, id, parentid, name, reference will be consistent；(g) measurement Analog description, dimension, type, id, parentid, reference will be consistent；(h) quantity of state Status description, type, id, parentid, name, reference will be consistent.

3. checking parameter completeness：

Contain a large amount of parameters of electric power nodal informations in reduced model, and each node can not possibly include all parameter moulds Type information, some parameter models for some nodes, or some nodes are necessary, such as node transformers Powertransformer, winding winding, description description, ID, title name, some parameters are can be according to need To be selected, such as terminal terminal3, dimension dimension, type type., should be according to integrated industry before Knowledge Verification Model Be engaged in the demand of platform, planning classification carried out to the property of all parameters of reduced model, distinguish which parameter be it is necessary, which Parameter can be with option and installment.Necessary node or parameter can not be empty.Different substation integrated business platform is to model Parameter has different requirements, therefore parameter verification should be able to be configured according to demand.

(I) key node and its attribute verification：

Some device nodes and its attribute are necessary, these attributes in reduced model must be verified, to ensure to set It is standby that there is required attribute.Detect transformer powertransformer, winding winding, voltage class Voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement analog quantity of state status objects and Whether its attribute is empty.

(II) name attribute is verified：

Integrated business Platform Requirements element station, primary and secondary will have only under same plant stand One property；It is required that each element id has uniqueness in whole station；It is required that each element attribute will have uniqueness under identity element.

2. verification is associated based on pugixml item by item：

1>Each node and its attribute information are taken out by pugixml, verify item by item transformer powertransformer, around Group winding, voltage class voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement analog Whether quantity of state status reference, the reference of check-node corresponds to its father node reference.

2>Each node and its attribute information are taken out by pugixml, element transformer is verified item by item Powertransformer, winding winding, voltage class voltagelevel, interval bay, device equipment, intelligence Whether device IED, measurement analog quantity of states status parentID, the reference of check-node correspond to his father Node ID.

3>Primary equipment winding winding and device equipment child node measurand is taken out by pugixml RelativeID, the traversal corresponding measuring value analog of verification relativeID or dynanalog or status Property IDs are It is no unique.

Inconsistent situation information type judges：When reduced model and Access Model are verified, node and its attribute occur not During consistent situation, if node and attribute are necessary, error message is provided；If node and attribute can be matched, to responding Accuse information.Relevance verifies inconsistent situation, provides error message.Check results distinguish output error and warning log files.

Finally it should be noted that：The above embodiments are merely illustrative of the technical scheme of the present invention and are not intended to be limiting thereof, to the greatest extent The present invention is described in detail with reference to above-described embodiment for pipe, and those of ordinary skill in the art still can be to this hair Bright embodiment is modified or equivalent substitution, these without departing from spirit and scope of the invention any modification or Equivalent substitution, is applying within pending claims of the invention.

Claims (5)

1. a kind of method of calibration of integrated business platform reduced model, it is characterised in that the reduced model is by model checking Module is verified, and correction verification module uses on-line testing and static check mode；The method of calibration verifies export mould in terms of following Block：

(1) reduced model basic function verification is carried out by the way of based on extensible markup language framework Schema；

(2) reduced model node object and its attribute are obtained by the way of based on xml operations storehouse pugixml, and judged item by item Incidence relation between model node；

Verification submodule of the reduced model correction verification module by Access Model RDF Schema, the syndrome based on pugixml Module and data access interface composition；

The verification submodule of the Access Model RDF Schema is used to verify reduced model basic function；

The verification submodule based on pugixml is used to obtain reduced model node object and its attribute, and judges mould item by item Incidence relation between type node；

The integrated business platform carries out data interaction by data access interface and correction verification module；

When correction verification module uses on-line testing mode, correction verification module being integrated in one business platform, by obtaining parent object Function ICS_GetParentObject, acquisition subobject numerical function ICS_GetChildObjNum, acquisition subobject list letter Number ICS_GetChildObjects interfaces obtain mould export type node data and verified, and integrated business is put down in checking procedure Platform ejection alarm window, while output verification result log files；

When correction verification module uses static check mode, reduced model is exported from integrated business platform, forms xml forms text Part, correction verification module verifies xml formatted files offline, while output verification result log files；

It is described to obtain reduced model node object and its attribute by the way of based on xml operations storehouse pugixml, and judge item by item Incidence relation between model node includes：

1>Operate storehouse pugixml to take out each node and its attribute information by xml, transformer is verified item by item Powertransformer, winding winding, voltage class voltagelevel, interval bay, device equipment, intelligence Device IED, measurement analog and quantity of state status reference reference, whether the reference reference of check-node Corresponding to its father node reference reference；

2>Operate storehouse pugixml to take out each node and its attribute information by xml, transformer is verified item by item Powertransformer, winding winding, voltage class voltagelevel, interval bay, device equipment, intelligence Whether device IED, measurement analog and quantity of state status parentID, the reference reference of check-node correspond to In his father's node ID；

3>Storehouse pugixml taking-ups primary equipment winding winding and device equipment child node is operated by xml The corresponding measurement analog of measurand relativeID, traversal verification relativeID, dynamic measurement dynanalog Or whether quantity of state status Property IDs are unique；

When reduced model and Access Model are verified, when node and its inconsistent attribute, if node and its attribute are necessary, give Malfunction false information；If node and its attribute can be matched, warning information is provided；When xml operates storehouse pugixml relevances item by item When verifying inconsistent, error message is provided；Check results distinguish output error message and warning information log files.

2. method of calibration as claimed in claim 1, it is characterised in that described using based on extensible markup language framework Schema mode carries out the verification of reduced model basic function and comprised the steps：

1. the resource description framework RDF Schema models of reduced model are set up；

2. Access Model RDF Schema model consistencies are verified；Member in reduced model is verified according to Access Model RDF Schema The nest relation of element；

3. checking parameter completeness.

3. method of calibration as claimed in claim 2, it is characterised in that 1. the step includes：

1) the RDF Schema models of reduced model are set up according to Access Model；

2) RDF objectifications：The RDF data object that all nodes of Access Model and reduced model are created as into object-oriented is real Example, RDF data pair is created as by the nesting or incidence relation between Access Model RDF Schema and all nodes of reduced model As association, all nodes of Access Model and reduced model store the RDF data to object-oriented in the form of RDF data object In object instance；

3) the corresponding object of reduced model is searched in the corresponding RDF of Access Model, and carries out consistency desired result.

4. method of calibration as claimed in claim 2, it is characterised in that 2. the step includes：

A, syntactic verification：

(I) reduced model has a root element apppdata, and other elements are its daughter elements；

(II) start-tag is verified with end-tag, and both should match；

(III) element nest relation is verified, and reduced model father and son's node is correctly nested；

(IV) element property can not be repeated, and represent must be in quotation marks for attribute；

B, semantic verification：

I) reduced model prefix label meets regulation in RDF Schema, including capital and small letter on form；

II) check-node and its Attribute consistency：Verify transformer powertransformer, the winding of reduced model Winding, voltage class voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement analog and Whether quantity of state status and its attribute are consistent with Access Model RDF Schema；

C, verification Access Model and reduced model uniformity, including：

(a) transformer powertransformer objects and its attribute description description, connecting node 1terminal1, Connecting node 2terminal2, connecting node 3terminal3, call number id, affiliated plant stand parentid, title name, reference Reference is consistent；

(b) winding winding objects and its attribute description description, call number id, affiliated main transformer parentid, title Name, reference reference, association interval relatebay are consistent；

(c) voltage class voltagelevel objects and its attribute description description, type voltage, call number id, Affiliated plant stand parentid, title name, reference reference are consistent；

(d) interval bay objects and its attribute description description, call number id, affiliated voltage class parentid, title Name, reference reference are consistent；

(e) device equipment objects and its attribute description description, call number id, connecting node 1terminal1, Connecting node 2terminal2, type, affiliated voltage class parentid, title name, reference reference are consistent；

(f) intelligent apparatus IED describes description, call number id, affiliated interval parentid, title name, reference Reference is consistent；

(g) measurement analog objects and its attribute description description, dimension dimension, type type, call number Id, corresponding device parentid, reference reference are consistent；

(h) quantity of state status objects and its attribute retouch description, type type, call number id, corresponding device Parentid, title name, reference reference are consistent.

5. method of calibration as claimed in claim 2, it is characterised in that 3. the step includes：

I, verification key node and its attribute：Including detection transformer powertransformer, winding winding, voltage etc. Level voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement analog objects and quantity of state Whether status objects and its attribute are empty；

II, verification name attribute：Including verification element plant stand station, primary equipment primary and secondary device Whether secondary has uniqueness under same plant stand；Whether each element id has uniqueness in whole station；Each element attribute Whether there is uniqueness under identity element.