CN104484271A - Calibration method of integrated business platform discharge model - Google Patents

Abstract

The invention relates to a calibration method of an integrated business platform discharge model. In the calibration method, a calibration module of the integrated business platform discharge model is designed, the discharge model is subjected to standard grammar calibration by Schema, extension content of an access model is subjected to relevance one-by-one detection on the basis of a calibration program of pugixml, and standard grammar calibration and relevance one-by-one detection are combined and mutually complementary. The calibration module classifies nodes and attributes thereof in the access module into a must category and an optional category as reference so as to judge whether to output or alarm error information under the condition of non-uniform calibration. By the calibration method, debugging level of an integrated business platform and advanced applications of a transformer substation and compatibility of the integrated business platform are improved, so that applications of different manufacturers can be conveniently and quickly interacted, and integration of the integrated business platform and the applications is promoted.

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, specifically relate to a kind of method of calibration of integrated business platform reduced model.

Background technology

Intelligent substation adopts smart machine that is advanced, reliable, integrated and environmental protection; basic demand is standardized as with information digitalization of entirely standing, communications platform networking, information sharing; automatically the basic functions such as information acquisition, measurement, control, protection, metering and detection are completed; meanwhile, the transformer station supporting the Premium Features such as electrical network control automatically in real time, Intelligent adjustment, on-line analysis decision-making and collaborative interaction is possessed.

Intelligent substation mainly comprises intelligent high-voltage equipment and transformer station's integration information platform two parts.Intelligent high-voltage equipment mainly comprises intelligent transformer, Intelligent high voltage switch device, electronic mutual inductor etc.Intelligent transformer and control system rely on telecommunication optical fiber to be connected, and can grasp transformer state parameter and service data in time.When the method for operation changes, equipment, according to voltage, the power situation of system, determines whether regulate tap; When equipment goes wrong, can early warning be sent and state parameter etc. is provided, reducing operational management cost to a certain extent, lessen the hidden dangers, improving transformer operational reliability.Intelligent high voltage switch device is switchgear and the opertaing device with superior performance, is furnished with electronic equipment, sensor and actuator, has detection and diagnosis function.Electronic mutual inductor refers to pure optical fiber mutual inductor, magneto-optic glass mutual inductor etc., effectively can overcome the shortcoming of conventional electromagnetic mutual inductor.Transformer station's integration information platform function has two, and one is the horizontal information sharing of system, and main manifestations is various upper layer application unitizing to information acquisition in management system; Two is standardization of the longitudinal information of system, and main manifestations is the transparence that each layer supports its upper layer application.

Intelligence is hommization, and exactly imaging people is in transformer station the same in adjustment, when low-voltage load amount increases, transformer station sends the electricity meeting and increase load, and when low-voltage load amount reduces, transformer station sends electricity and reduces thereupon, guarantees to save the energy.

At present, New Generation of Intelligent Substation Design and building-up work are just actively pushed forward, and are intended to realize power network development mode and change and scientific and technical innovation.In New Generation of Intelligent transformer station contemporary technology scheme, its technical characteristics is the mode adopting " integrated intelligence equipment+integrated business system ", start with from entirety, change a point design and running pattern for specialty, realize the intellectuality of full station and optimized target.Compared with the breakthrough obtained with integrated intelligence equipment, the progress of New Generation of Intelligent transformer station in integrated services and intelligent use obviously backwardness, is mainly reflected in following two aspects:

One is, new business demand constantly produces, as the new business such as monitor and forecast, technology of Internet of things of electric energy quality monitoring, distributed energy access, power electronics reactive power compensator, bring new challenge to the fusion of these business demands of current intelligent substation and existing supervisory system.

That the degree of being practical of senior application cannot be satisfactory on the other hand, mainly because lack open platform.Because application and the existing platform degree of coupling are high, system integrator cannot the suitable specialized function module of unrestricted choice, can not customize out the system meeting different user business demand, constrain the development of intelligent substationization application.

Summary of the invention

For the deficiencies in the prior art, the object of this invention is to provide a kind of method of calibration of integrated business platform reduced model, the method design integration business platform reduced model correction verification module, Schema is adopted to carry out reduced model standardization syntactic verification, the checking routine based on pugixml is adopted to carry out relevance one by onechecking to Access Model expansion content, both mixing inspections, complement each other.Node in Access Model and Attribute transposition thereof are and must can match two large classes by module, judge should export or alarm error message when verifying inconsistent as standard.The method will improve transformer station's integrated business platform and level is debugged in senior application, improve the compatibility with integrated business platform, will enable the application of different manufacturers carry out information interaction quickly and easily, promote the fusion of integrated business platform and application.

The object of the invention is to adopt following technical proposals to realize:

The invention provides a kind of method of calibration of integrated business platform reduced model, its improvements are, described reduced model is verified by model checking module, and correction verification module adopts on-line testing and static check mode; Described method of calibration derives module from the verification of following aspect:

(1) employing carries out the verification of reduced model basic function based on the mode of extend markup language framework Schema;

(2) adopt and operate the mode of storehouse pugixml based on xml and obtain reduced model node object and attribute thereof, and the internodal incidence relation of judgment models item by item.

Further, the syndrome module of described reduced model correction verification module by Access Model RDF Schema, the syndrome module based on pugixml and data access interface form;

The syndrome module of described Access Model RDF Schema is for verifying reduced model basic function;

The described syndrome module based on pugixml is for obtaining reduced model node object and attribute thereof, and the internodal incidence relation of judgment models item by item;

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

Further, when correction verification module adopts on-line testing mode, being integrated in one of correction verification module business platform, by obtaining parent object function ICS_GetParentObject, acquisition subobject numerical function ICS_GetChildObjNum, acquisition subobject tabulated function ICS_GetChildObjects interface obtains mould derivation type node data and verifies, in checking procedure, integrated business platform ejects alarm window, simultaneously output verification result log file;

When correction verification module adopts static check mode, reduced model is derived by from integrated business platform, forms xml formatted file, correction verification module off-line verification xml formatted file, output verification result log file simultaneously.

Further, described employing is carried out the verification of reduced model basic function based on the mode of extend markup language framework Schema and is comprised the steps:

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

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

3. checking parameter completeness;

Further, 1. described step comprises:

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

2) RDF objectification: all nodes of Access Model and reduced model are created as OO RDF data object example, nested or incidence relation between Access Model RDF Schema and all nodes of reduced model is created as the association of RDF data object, all nodes of Access Model and reduced model are stored in OO RDF data object example with the form of RDF data object;

3) in the RDF that Access Model is corresponding, search object corresponding to reduced model, and carry out consistency desired result.

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

Further, 2. described step comprises:

A, syntactic verification:

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

(II) start-tag and end-tag verify, and both should mate;

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

(IV) element property can not repeat, and attribute representation must in quotation marks;

B, semantic verification:

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

II) check-node and Attribute consistency thereof: namely verify the transformer powertransformer of reduced model, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog and quantity of state status and whether attribute is consistent with RDF Schema;

C, verification Access Model and reduced model consistance, comprising:

Transformer powertransformer object and attribute description description, connected node 1terminal1, connected node 2terminal2, connected node 3terminal3, call number id, affiliated plant stand parentid, title name, reference reference are consistent;

B () winding winding object and attribute description description, call number id, affiliated main transformer parentid, title name, reference reference, association interval relatebay are consistent;

C () electric pressure voltagelevel object and attribute description description, type voltage, call number id, affiliated plant stand parentid, title name, reference reference are consistent;

D () interval bay object and attribute description description, call number id, affiliated electric pressure parentid, title name, reference reference are consistent;

E () device equipment object and 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 are consistent;

G () measurement amount analog object and attribute description description, dimension dimension, type type, call number id, corresponding device parentid, reference reference are consistent;

H () quantity of state status object and attribute thereof retouch description, type type, call number id, corresponding device parentid, title name, reference reference are consistent.

Further, 3. described step comprises:

I, verification key node and attribute thereof: comprise and detect transformer powertransformer, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog object and quantity of state status object and whether attribute is empty;

II, verification name attribute: comprise verification element plant stand station, whether primary equipment primary and secondary device secondary have uniqueness under same plant stand; Whether each element id has uniqueness in full station; Whether each element property has uniqueness under identity element.

Further, the mode that described employing operates storehouse pugixml based on xml obtains reduced model node object and attribute thereof, and the internodal incidence relation of judgment models comprises item by item:

1> operates storehouse pugixml by xml and takes out each node and attribute information thereof, verify the reference of transformer powertransformer, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog and quantity of state status item by item, whether the reference of check-node corresponds to its father node reference;

2> operates storehouse pugixml by xml and takes out each node and attribute information thereof, verify the parentID of element transformer powertransformer, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog and quantity of state status item by item, whether the reference of check-node corresponds to his father's node ID;

3> operates by xml the relativeID of child node measurand that storehouse pugixml takes out primary equipment winding winding and device equipment, measuring value analog or dynanalog that traversal verification relativeID is corresponding or status Property ID whether unique.

Further, when reduced model and Access Model verification time, node and attribute inconsistent time, if node and attribute thereof are necessary, provide error message; If node and attribute thereof can be matched, provide warning information; When relevance verification is inconsistent item by item for pugixml, all provide error message; Check results is output error message and warning information log file respectively.

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

Method of calibration design integration business platform reduced model correction verification module provided by the invention, Schema is adopted to carry out reduced model standardization syntactic verification, adopt the checking routine based on pugixml to carry out relevance one by onechecking to Access Model expansion content, both mix inspection, complement each other.Node in Access Model and Attribute transposition thereof are and must can match two large classes by module, judge should export or alarm error message when verifying inconsistent as standard.Module by integrated business platform unified interface on-line testing reduced model, outputting alarm window and log file; Also can reduced model information, static check, output verification log file.Correction verification module carries out the verification of regulation and standardization to integrated business platform reduced model, to meet Access Model Standardization Requirement.Integrated business platform is the platform of an opening, and the standardization of reduced model and standardization will promote that constituent parts plays an active part in the exploitation of service application.Simultaneously, model checking will improve transformer station's integrated business platform and level is debugged in senior application, improve the compatibility with integrated business platform, enable the application of different manufacturers carry out information interaction quickly and easily, promote the fusion of integrated business platform and application.

Accompanying drawing explanation

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

Fig. 2 is reduced model Schema schematic diagram provided by the invention;

Fig. 3 is the process flow diagram of the method for calibration of integrated business platform reduced model provided by the invention.

Embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in further detail.

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, formulates standardized interface and constrained qualification, guide New Generation of Intelligent transformer station to provide more, the exploitation of more professional application.Integrated business platform is the function platform supporting intelligent substation station level service application (as intelligent alarm, sequential control, production management), be made up of basic platform, unified access interface and applied function module three part, by standard interface access third-party application expanded application module, complete power system monitor, monitoring of equipment and all kinds of operational management and maintenance service, platform is open, easily expansion, can safeguard, configures as required.

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

Mapping between Access Model and application platform internal data structure is realized by application platform oneself.Access Model adopts XML file to describe, and the model information that application platform is supplied to application developer defines in the Access Model configuration file of agreement.On this basis, application platform and external module can arrange the content needing expansion voluntarily.

Reduced model is Access Model instantiation configuration file.For supporting open integrated business platform, supporting that each application services module can be applied easily on the platform of different manufacturers or R&D institution, tackling each platform reduced model and carry out standardization verification.

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

(1) data verification: according to the validity of the rule verification XML document made, have in checking: the structure of element and attribute; The order of element; The data value of element and attribute, according to scope, enumerates and pattern matching; The uniqueness etc. of real-valued intermediate value.

(2) data extending: pattern process also can expand XML document, by following methods: for element and attribute add default value and fixed value; Make to have the blank character standardization in the element of simple types and property value.

Pugixml is the storehouse of a lightweight operation C++xml file.It has abundant class DOM interface traversal/modify feature, fast resolving xml file, and this library is very convenient, and accessible site is applied, and obtains node and attribute information thereof by interface.

Carry out reduced model standardization grammer, semantic verification by Schema, adopt the checking routine based on pugixml to carry out one by onechecking to the incidence relation between Access Model element or attribute, both complement each other.

The method of calibration of integrated business platform reduced model provided by the invention, first designs the verification that a reduced model correction verification module carries out platform reduced model.Correction verification module by Access Model RDF Schema, form based on the checking routine of pugixml and unified data-interface, as shown in Figure 1.The syndrome module of Access Model RDF Schema is for verifying reduced model basic function; Based on the syndrome module of pugixml for obtaining reduced model node object and attribute thereof, and the internodal incidence relation of judgment models item by item; Integrated business platform carries out data interaction by data access interface and correction verification module.

Checking routine is from two aspect verification reduced models, and one is adopt to carry out the basic function check of model based on the mode of Schema; Another kind adopts the mode based on pugixml to obtain each node object of model and attribute thereof, and the incidence relation item by item between decision node.Correction verification module can select on-line testing and static check two kinds of modes.Integrated business platform and correction verification module possess unified data access interface.

When adopting on-line testing mode, being integrated in one of correction verification module business platform, obtain model node data by interfaces such as ICS_GetParentObject, ICS_GetChildObjNum, ICS_GetChildObjects to verify, in checking procedure, integrated business platform ejects alarm window, simultaneously the log file of output verification result.

When adopting static check mode, reduced model is derived by from integrated business platform, forms xml formatted file, correction verification module off-line verification xml formatted file, output verification result log file.

The process flow diagram of the method for calibration of integrated business platform reduced model provided by the invention as shown in Figure 3, comprises the steps:

(1) employing carries out the basic function check of model based on the mode of Schema, comprises the steps:

1. set up RDF Schema model, comprising:

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

2) RDF objectification, all nodes of Access Model and reduced model are created as OO RDF data object example, nested or incidence relation between its all node is also created as the association of concrete RDF data object, in Access Model and reduced model, all nodes are stored in object-oriented data model with the form of RDF data object.

Import or obtain model node information: when adopting on-line testing mode, the interface unified by ICS_GetParentObject, ICS_GetChildObjNum, ICS_GetChildObjects etc. obtains model node and attribute information thereof; When adopting off-line verification mode, module imports the model file of xml form.

2. Schema consistency desired result:

A, syntactic verification:

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

(II) start-tag and end-tag verify, and both should mate.

(III) element nest relation verifies, and reduced model father and son node should be correctly nested.

(IV) element property can not repeat, and attribute representation must in quotation marks.

B, semantic verification:

I) model prefix label must meet the requirement specified in RDF Schema on form, must comprise capital and small letter;

II) node and Attribute consistency verification: namely verify the node transformer powertransformer of reduced model, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog and quantity of state status and attribute whether consistent with RDF Schema.

C, Access Model and reduced model consistency desired result: specifically comprise (a) transformer powertransformer object and attribute description, terminal1, terminal2, terminal3, type, id, parentid, name, reference will be consistent; B () winding winding object and attribute description, type, id, parentid, name, reference will be consistent; C () electric pressure voltagelevel object and attribute description, voltage, id, parentid, name, reference will be consistent; D () interval bay object and attribute description, id, parentid, name, reference will be consistent; E () device equipment object and 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 amount 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:

Containing a large amount of parameters of electric power nodal information in reduced model, and each node can not comprise all parameter model information, for some node, or some parameter model of some node is necessary, as node transformer powertransformer, winding winding, description, ID, title name are described, some parameter can be selected as required, as terminal terminal3, dimension dimension, type type.Before Knowledge Verification Model, should according to the demand of integrated business platform, carry out planning classification to the character of all parameters of reduced model, it is necessary for distinguishing which parameter, and which parameter can option and installment.Necessary node or parameter can not be empty.Different substation integrated business platform has different requirements to model parameter, and therefore parameter verification should be able to configure according to demand.

(I) key node and attribute verification thereof:

Some device node and attribute thereof are necessary, must verify, to guarantee that equipment has required attribute to these attributes in reduced model.Whether namely detect transformer powertransformer, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog quantity of state status object and attribute thereof is empty.

(II) name attribute verifies:

Integrated business Platform Requirements element station, primary and secondary will have uniqueness under same plant stand; Require that each element id has uniqueness in full station; Require that each element property will have uniqueness under identity element.

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

1> takes out each node and attribute information thereof by pugixml, verify the reference of transformer powertransformer, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog quantity of state status item by item, whether the reference of check-node corresponds to its father node reference.

2> takes out each node and attribute information thereof by pugixml, verify the parentID of element transformer powertransformer, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog quantity of state status item by item, whether the reference of check-node corresponds to his father's node ID.

3> takes out the relativeID of child node measurand of primary equipment winding winding and device equipment by pugixml, measuring value analog or dynanalog that traversal verification relativeID is corresponding or status Property ID whether unique.

Inconsistent situation information type judges: when reduced model and Access Model verification, when inconsistent situation appears in node and attribute thereof, if node and attribute are necessary, provide error message; If node and attribute can be matched, provide warning message.Relevance verifies inconsistent situation, all provides error message.Check results is output error and warning log file respectively.

Finally should be noted that: above embodiment is only in order to illustrate that technical scheme of the present invention is not intended to limit; although with reference to above-described embodiment to invention has been detailed description; those of ordinary skill in the field still can modify to the specific embodiment of the present invention or equivalent replacement; these do not depart from any amendment of spirit and scope of the invention or equivalent replacement, are all applying within the claims of the present invention awaited the reply.

Claims (10)

1. a method of calibration for integrated business platform reduced model, is characterized in that, described reduced model is verified by model checking module, and correction verification module adopts on-line testing and static check mode; Described method of calibration derives module from the verification of following aspect:

(1) employing carries out the verification of reduced model basic function based on the mode of extend markup language framework Schema;

(2) adopt and operate the mode of storehouse pugixml based on xml and obtain reduced model node object and attribute thereof, and the internodal incidence relation of judgment models item by item.

2. method of calibration as claimed in claim 1, it is characterized in that, the syndrome module of described reduced model correction verification module by Access Model RDF Schema, the syndrome module based on pugixml and data access interface form;

The syndrome module of described Access Model RDF Schema is for verifying reduced model basic function;

The described syndrome module based on pugixml is for obtaining reduced model node object and attribute thereof, and the internodal incidence relation of judgment models item by item;

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

3. method of calibration as claimed in claim 1, it is characterized in that, when correction verification module adopts on-line testing mode, being integrated in one of correction verification module business platform, by obtaining parent object function ICS_GetParentObject, acquisition subobject numerical function ICS_GetChildObjNum, acquisition subobject tabulated function ICS_GetChildObjects interface obtains mould derivation type node data and verifies, in checking procedure, integrated business platform ejects alarm window, simultaneously output verification result log file;

When correction verification module adopts static check mode, reduced model is derived by from integrated business platform, forms xml formatted file, correction verification module off-line verification xml formatted file, output verification result log file simultaneously.

4. method of calibration as claimed in claim 1, is characterized in that, described employing is carried out the verification of reduced model basic function based on the mode of extend markup language framework Schema and comprised the steps:

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

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

3. checking parameter completeness.

5. method of calibration as claimed in claim 4, it is characterized in that, 1. described step comprises:

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

2) RDF objectification: all nodes of Access Model and reduced model are created as OO RDF data object example, nested or incidence relation between Access Model RDF Schema and all nodes of reduced model is created as the association of RDF data object, all nodes of Access Model and reduced model are stored in OO RDF data object example with the form of RDF data object;

3) in the RDF that Access Model is corresponding, search object corresponding to reduced model, and carry out consistency desired result.

6. method of calibration as claimed in claim 4, is characterized in that, the described nest relation according to element in Access Model RDF Schema model checking reduced model.

7. method of calibration as claimed in claim 4, it is characterized in that, 2. described step comprises:

A, syntactic verification:

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

(II) start-tag and end-tag verify, and both should mate;

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

(IV) element property can not repeat, and attribute representation must in quotation marks;

B, semantic verification:

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

II) check-node and Attribute consistency thereof: namely verify the transformer powertransformer of reduced model, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog and quantity of state status and whether attribute is consistent with RDF Schema;

C, verification Access Model and reduced model consistance, comprising:

Transformer powertransformer object and attribute description description, connected node 1terminal1, connected node 2terminal2, connected node 3terminal3, call number id, affiliated plant stand parentid, title name, reference reference are consistent;

B () winding winding object and attribute description description, call number id, affiliated main transformer parentid, title name, reference reference, association interval relatebay are consistent;

C () electric pressure voltagelevel object and attribute description description, type voltage, call number id, affiliated plant stand parentid, title name, reference reference are consistent;

D () interval bay object and attribute description description, call number id, affiliated electric pressure parentid, title name, reference reference are consistent;

E () device equipment object and 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 are consistent;

G () measurement amount analog object and attribute description description, dimension dimension, type type, call number id, corresponding device parentid, reference reference are consistent;

H () quantity of state status object and attribute thereof retouch description, type type, call number id, corresponding device parentid, title name, reference reference are consistent.

8. method of calibration as claimed in claim 4, it is characterized in that, 3. described step comprises:

I, verification key node and attribute thereof: comprise and detect transformer powertransformer, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog object and quantity of state status object and whether attribute is empty;

II, verification name attribute: comprise verification element plant stand station, whether primary equipment primary and secondary device secondary have uniqueness under same plant stand; Whether each element id has uniqueness in full station; Whether each element property has uniqueness under identity element.

9. method of calibration as claimed in claim 1, is characterized in that, the mode that described employing operates storehouse pugixml based on xml obtains reduced model node object and attribute thereof, and the internodal incidence relation of judgment models comprises item by item:

1> operates storehouse pugixml by xml and takes out each node and attribute information thereof, verify the reference of transformer powertransformer, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog and quantity of state status item by item, whether the reference of check-node corresponds to its father node reference;

2> operates storehouse pugixml by xml and takes out each node and attribute information thereof, verify the parentID of element transformer powertransformer, winding winding, electric pressure voltagelevel, interval bay, device equipment, intelligent apparatus IED, measurement amount analog and quantity of state status item by item, whether the reference of check-node corresponds to his father's node ID;

3> operates by xml the relativeID of child node measurand that storehouse pugixml takes out primary equipment winding winding and device equipment, measuring value analog or dynanalog that traversal verification relativeID is corresponding or status Property ID whether unique.

10. the method for calibration as described in claim 7 or 9, is characterized in that, when reduced model and Access Model verification time, node and attribute inconsistent time, if node and attribute thereof are necessary, provide error message; If node and attribute thereof can be matched, provide warning information; When relevance verification is inconsistent item by item for pugixml, all provide error message; Check results is output error message and warning information log file respectively.