CN103412741A - Transformer SVG image splicing method and system of relevant CIM model - Google Patents
Transformer SVG image splicing method and system of relevant CIM model Download PDFInfo
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- CN103412741A CN103412741A CN2013102625629A CN201310262562A CN103412741A CN 103412741 A CN103412741 A CN 103412741A CN 2013102625629 A CN2013102625629 A CN 2013102625629A CN 201310262562 A CN201310262562 A CN 201310262562A CN 103412741 A CN103412741 A CN 103412741A
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Abstract
The invention provides a transformer SVG image splicing method and system of a relevant CIM model. The transformer SVG image splicing method of the relevant CIM model includes the following steps that a graphic element of a transformer is defined to be a roll graphic element with a roll as a unit, the roll graphic element of the transformer is spliced to obtain a transformer SVG image, and the transformer SVG image is rendered. The transformer SVG image and the CIM model are related with the roll graphic element of the transformer as a unit through a label which is a metadata label. A transformer winding graphic element, a transformer self-coupling winding graphic element, a star-shaped wiring graphic element, an angular wiring graphic element and an on-load voltage regulation graphic element compose the roll graphic element of the transformer in a spliced mode. The graphic element of the transformer is defined to be the roll graphic element with the roll as the unit. The roll graphic element of the transformer is formed by splicing five basic graphic elements namely, the transformer winding graphic element, the transformer self-coupling winding graphic element, the star-shaped wiring graphic element, the angular wiring graphic element and the on-load voltage regulation graphic element so as to solve the problems that sorts of the graphic elements among heterogeneous systems of the transformer are complicated and relation of the CIM model can not be performed according to a winding.
Description
Technical field
The present invention relates to the dispatching automation technical field, particularly relate to the transformer SVG graphic joining method and system of associated CIM model.
Background technology
At present, for the ease of the integrated (EMS of energy management system from different manufacturers, Energy Management System) inner various application, by inner other system interconnect of EMS and dispatching center, and realize that the model between the different EMS of dispatching center exchanges, (the IEC of International Electrotechnical Commission, International Electrotechnical Commission) formulated the serial international standard of IEC61970 energy management system application programming interfaces (EMS-API), the domestic power industry standard DL890 equity of China is quoted this international standard.IEC61970 is mainly by interface reference model, common information model (CIM, Common Information Model) and component interface standard three parts form, the interface reference model has illustrated the mode of the system integration, common information model has defined the semanteme of message exchange, the component interface standard the is clear and definite grammer of message exchange.The CIM model is the core of whole IEC61970, by the CIM modeling, can access the abstract and expression of entity in management domain, comprises their attribute, operation and relation.Such Model Independent, in any concrete database, application, agreement and platform, makes the application based on different platform that different developers provide all adopt a kind of form of standard to describe management data, so that data can be shared between multiple application.
Scalable vector graphics (SVG, Scalable Vector Graphics) be a kind of new two-dimension vector graphics form that the Internet normal structure was formulated in August, 2000, based on extend markup language, it is also the mutual vector graphics standard adopted of electric system common graphics that IEC working group is recommended.Concrete, in power industry, SVG has been carried out to refinement, the definition figure be take tree-shaped hierarchical structure and is basic exchanging form, is divided into graphical definition and graph rendering two large divisions.The graphical definition part mainly comprises definition and the pel definition of figure display properties, sets up the mapping relations between take over party and transmit leg figure metaset.Graph rendering part mainly comprises to be quoted the pel definition or uses basic pixel to carry out the content of graphic plotting, support with the CIM model in the domain objects such as first and second equipment associated.
For most of power equipments, adopt said method can realize comparatively easily the associated of SVG figure and CIM model, but transformer ' s type equipment is because of himself intrinsic electricity characteristic, each producer inner all according to self formal definition a large amount of transformer model, with external system, carry out when mutual take whole transformer and be single pel, because pel definition between each system differs greatly, the effect extreme difference that causes graphical interaction between heterogeneous system, need artificial the adjustment correctly to show, and to define whole transformer be single pel, the winding of can not effectively take carries out the association of CIM model as unit.
Summary of the invention
Based on this, be necessary can't well realize for the correlating method of general SVG figure and CIM model the problem of transformer SVG figure and CIM model interaction, a kind of transformer SVG graphic joining method and system that can well realize associated CIM model is provided.
A kind of transformer SVG graphic joining method of associated CIM model comprises step:
Take volume as the pel of unit definition transformer be the volume pel;
The volume pel that splices described transformer, draw described transformer SVG figure;
Play up the SVG figure of described transformer;
Pass through label, take the volume pel of described transformer as unit by described transformer SVG figure and CIM model interaction, wherein, the volume pel of described transformer comprises Transformer Winding pel, transformer self coupling winding pel, star-star connection pel, angle scheme pel and on-load voltage regulation pel.
A kind of transformer SVG graphic joining system of associated CIM model comprises:
The pel definition unit: for take volume as the pel of unit definition transformer be the volume pel;
Pel concatenation unit: be used to splicing the volume pel of described transformer, draw described transformer SVG figure;
Rendering unit: be used to playing up the SVG figure of described transformer;
Associative cell: be used to passing through label, take the volume pel of described transformer as unit by described transformer SVG figure and described CIM model interaction, wherein, the volume pel of described transformer comprises Transformer Winding pel, transformer self coupling winding pel, star-star connection pel, angle scheme pel and on-load voltage regulation pel.
The transformer SVG graphic joining method and system of the associated CIM model of the present invention, the volume of take defines described transformer as unit pel is the volume pel, the volume pel of transformer is by the Transformer Winding pel, transformer self coupling winding pel, the star-star connection pel, 5 kinds of element figures of angle scheme pel and on-load voltage regulation pel form, thereby it is of a great variety to have eliminated between the transformer heterogeneous system pel, can not with the CIM model, carry out associated problem by winding, the transformer SVG graphic joining method of the associated CIM model of the present invention can well realize the associated of transformer SVG figure and CIM model.
The accompanying drawing explanation
Fig. 1 is the schematic flow sheet of first embodiment of transformer SVG graphic joining method of the associated CIM model of the present invention;
Fig. 2 is the schematic flow sheet of second embodiment of transformer SVG graphic joining method of the associated CIM model of the present invention;
Fig. 3 is the structural representation of first embodiment of transformer SVG graphic joining system of the associated CIM model of the present invention;
Fig. 4 is the structural representation of second embodiment of transformer SVG graphic joining method of the associated CIM model of the present invention.
Embodiment
In order to make purpose of the present invention, technical scheme and advantage clearer, below reach with reference to the accompanying drawings embodiment, the present invention is further elaborated.Should be appreciated that concrete enforcement described herein, only in order to explain the present invention, does not limit the present invention.
As shown in Figure 1, a kind of transformer SVG graphic joining method of associated CIM model comprises step:
S100: take volume as the pel of unit definition transformer be the volume pel.
The pel definition time does not define separately transformer model, is the unit definition pel but take volume, and the transformer pel after definition is the volume pel.
S200: the volume pel of the described transformer of splicing draws described transformer SVG figure.
The volume pel of transformer comprises: Transformer Winding pel, transformer self coupling winding pel, star-star connection pel, angle scheme pel and on-load voltage regulation pel, Transformer Winding pel, transformer self coupling winding pel, star-star connection pel, angle scheme pel and the splicing of on-load voltage regulation pel form the volume pel of described transformer.
Here, for ensureing the versatility of transformer pel self, each transformer volume pel is spliced by 5 basic pels of transformer such as Transformer Winding pel, transformer self coupling winding pel, star-star connection pel, angle scheme pel, on-load voltage regulation pels.
S300: the SVG figure of playing up described transformer.
When transformer SVG graph rendering, only need by<use,<xlink:href > label, quote the ID of transformer volume pel, can realize that the SVG of transformer figure describes; For example: two winding transformer is quoted 2 transformer volume pels, and three-circuit transformer is quoted 3 transformer volume pels, and autotransformer is quoted and comprised that self coupling twists in 2 interior transformers volume pels.
S400: by label, take the volume pel of described transformer as unit by described transformer SVG figure and described CIM model interaction.
After transformer SVG graph rendering completes, only need realize take associated as unit and CIM model of transformer volume by the metadata label.
The transformer SVG graphic joining method of the associated CIM model of the present invention, the volume of take defines described transformer as unit pel is the volume pel, the volume pel of transformer is by the Transformer Winding pel, transformer self coupling winding pel, the star-star connection pel, 5 kinds of element figure splicings of angle scheme pel and on-load voltage regulation pel form, thereby it is of a great variety to have eliminated between the transformer heterogeneous system pel, can not with the CIM model, carry out associated problem by winding, the transformer SVG graphic joining method of the associated CIM model of the present invention can well realize the associated of transformer SVG figure and CIM model
Therein in embodiment, described Transformer Winding pel, described transformer self coupling winding pel, described star-star connection pel, described angle scheme pel and described on-load voltage regulation pel for self not with the element figure of terminal.
In the present embodiment, described Transformer Winding pel, described transformer self coupling winding pel, described star-star connection pel, described angle scheme pel and described on-load voltage regulation pel not with the element figure of terminal, so just can add suitable terminal information according to the needs of practical application for self.
As shown in Figure 2, therein in embodiment, before described step S300 also in steps,
S220: according to the volume pel needs of the described transformer of splicing, supplement the terminal information of described element figure.
According to the needs of practical application, supplement the terminal information of element figure, strengthen the applicability of transformer SVG figure, can also guarantee the integrality of transformer SVG graph topology relation simultaneously.
In embodiment, described transformer SVG figure is associated with device model and measurement model in described CIM model therein.
As shown in Figure 3, a kind of transformer SVG graphic joining system of associated CIM model comprises:
Pel definition unit 100: for take volume as the pel of the described transformer of unit definition be the volume pel;
Pel concatenation unit 200: be used to splicing the volume pel of described transformer, draw described transformer SVG figure;
Rendering unit 300: be used to playing up the SVG figure of described transformer;
Associative cell 400: for by label, take the volume pel of described transformer as unit by described transformer SVG figure and described CIM model interaction;
The volume pel of described transformer comprises: Transformer Winding pel, transformer self coupling winding pel, star-star connection pel, angle scheme pel and on-load voltage regulation pel.
The transformer SVG graphic joining system of the associated CIM model of the present invention, the pel definition unit take volume as the pel of the described transformer of unit definition be the volume pel, the volume pel of transformer is by the Transformer Winding pel, transformer self coupling winding pel, the star-star connection pel, 5 kinds of element figure splicings of angle scheme pel and on-load voltage regulation pel form, thereby it is of a great variety to have eliminated between the transformer heterogeneous system pel, can not with the CIM model, carry out associated problem by winding, the transformer SVG graphic joining system of the associated CIM model of the present invention can well realize the associated of transformer SVG figure and CIM model.
Therein in embodiment, described Transformer Winding pel, described transformer self coupling winding pel, described star-star connection pel, described angle scheme pel and described on-load voltage regulation pel for self not with the element figure of terminal.
As shown in Figure 4, in embodiment, the transformer SVG graphic joining system of described associated CIM model also comprises therein:
Terminal information supplementary units 220: for the volume pel needs according to the described transformer of splicing, supplement the terminal information of described element figure.
In embodiment, described transformer SVG figure is associated with device model and measurement model in described CIM model therein.
The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.
Claims (8)
1. the transformer SVG graphic joining method of an associated CIM model, is characterized in that, comprises step:
Take volume as the pel of unit definition transformer be the volume pel;
The volume pel that splices described transformer, draw the SVG figure of described transformer;
Play up the SVG figure of described transformer;
Pass through label, take the volume pel of described transformer as unit by the SVG figure of described transformer and CIM model interaction, wherein, the volume pel of described transformer comprises Transformer Winding pel, transformer self coupling winding pel, star-star connection pel, angle scheme pel and on-load voltage regulation pel.
2. the transformer SVG graphic joining method of associated CIM model according to claim 1, it is characterized in that, described Transformer Winding pel, described transformer self coupling winding pel, described star-star connection pel, described angle scheme pel and described on-load voltage regulation pel for self not with the element figure of terminal.
3. the transformer SVG graphic joining method of associated CIM model according to claim 2, is characterized in that, described step is played up before the SVG figure of described transformer also in steps:
According to the volume pel needs of the described transformer of splicing, supplement the terminal information of described element figure.
4. according to the transformer SVG graphic joining method of claim 1,2 or 3 described associated CIM models, it is characterized in that, described transformer SVG figure is associated with device model and measurement model in described CIM model.
5. the transformer SVG graphic joining system of an associated CIM model, is characterized in that, comprising:
The pel definition unit: for take volume as the pel of unit definition transformer be the volume pel;
Pel concatenation unit: be used to splicing the volume pel of described transformer, draw described transformer SVG figure;
Rendering unit: be used to playing up the SVG figure of described transformer;
Associative cell: be used to passing through label, take the volume pel of described transformer as unit by described transformer SVG figure and described CIM model interaction, the volume pel of wherein said transformer comprises Transformer Winding pel, transformer self coupling winding pel, star-star connection pel, angle scheme pel and on-load voltage regulation pel.
6. the transformer SVG graphic joining system of associated CIM model according to claim 5, it is characterized in that, described Transformer Winding pel, described transformer self coupling winding pel, described star-star connection pel, described angle scheme pel and described on-load voltage regulation pel for self not with the element figure of terminal.
7. the transformer SVG graphic joining system of associated CIM model according to claim 6, is characterized in that, also comprises:
Terminal information supplementary units: for the volume pel needs according to the described transformer of splicing, supplement the terminal information of described element figure.
8. according to the transformer SVG graphic joining system of claim 5,6 or 7 described associated CIM models, it is characterized in that, described transformer SVG figure is associated with device model and measurement model in described CIM model.
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CN104361617A (en) * | 2014-11-07 | 2015-02-18 | 广州市科创电脑技术开发有限公司 | Plan splicing and combining method and plan splicing and combining device |
CN106095471A (en) * | 2016-08-22 | 2016-11-09 | 国家电网公司 | The graphic configuration method and system of on-line monitoring |
CN106648914A (en) * | 2015-11-04 | 2017-05-10 | 中国南方电网有限责任公司 | Remote retrieval method for complex primitives in heterogeneous system picture |
CN110807113A (en) * | 2019-10-30 | 2020-02-18 | 北京工商大学 | Non-iterative elimination method for rectangular primitive overlap in visual layout |
CN111414107A (en) * | 2020-03-17 | 2020-07-14 | 中国银行股份有限公司 | Scalable vector graphics processing method and system |
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104361617A (en) * | 2014-11-07 | 2015-02-18 | 广州市科创电脑技术开发有限公司 | Plan splicing and combining method and plan splicing and combining device |
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CN106648914A (en) * | 2015-11-04 | 2017-05-10 | 中国南方电网有限责任公司 | Remote retrieval method for complex primitives in heterogeneous system picture |
CN106095471A (en) * | 2016-08-22 | 2016-11-09 | 国家电网公司 | The graphic configuration method and system of on-line monitoring |
CN110807113A (en) * | 2019-10-30 | 2020-02-18 | 北京工商大学 | Non-iterative elimination method for rectangular primitive overlap in visual layout |
CN110807113B (en) * | 2019-10-30 | 2021-11-19 | 北京工商大学 | Non-iterative elimination method for rectangular primitive overlap in visual layout |
CN111414107A (en) * | 2020-03-17 | 2020-07-14 | 中国银行股份有限公司 | Scalable vector graphics processing method and system |
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