CN104346154A - Service-oriented model building method on basis of scenes - Google Patents

Abstract

The invention provides a service-oriented model building method on the basis of scenes. The service-oriented model building method includes registering a reusable support model into an intelligent service-oriented system; for specific service requirements, creating appointed service models used for describing specific services by a modeling tool; registering the appointed service models into the intelligent service-oriented system, inquiring correspondence of the registered support model and categorical service attributes by the intelligent service-oriented system utilizing the appointed categorical service attributes so as to obtain appointed support models matched with the appointed service models; driving the appointed support models and the appointed service models to project and map on an integrated platform jointly by the intelligent service-oriented system to obtain an integrated platform meta-model. The service-oriented model building method on the basis of scenes can track changes of user demands and has the advantages of high software development efficiency and short software development period.

Description

Based on the business-driven model building method of sight

Technical field

The invention belongs to computer programming technical field of automation, be specifically related to a kind of business-driven model building method based on sight.

Background technology

In application system development process, system designer generally adopts unitive search to carry out modeling, and UML is a kind of visual modeling language, have definition good, be easy to express, powerful and blanket feature.The definition of UML comprises UML semanteme and UML representation two parts, and UML semanteme is by its meta-model strict difinition.The syntax and semantics of all elements that meta-model is UML provides simple, consistent, general definitional explanation.UML representation defines the expression symbol of UML, and the developer for modeling person and modelling support instrument provides graphical symbol and the textual syntax of standard.Expressed by these graphical symbols and word is the model of application layer, semantically it is the example of UML meta-model.

But, at present, be difficult to the change of track user demand based on the model constructed by UML, therefore, the application system finally obtained usually cannot be met consumers' demand completely, needs to redesign the new application system of exploitation, has the deficiency that software development efficiency is low and software development cycle is long.

Summary of the invention

For the defect that prior art exists, the invention provides a kind of business-driven model building method based on sight, can the change of track user demand, there is the advantage that software development efficiency is high and software development cycle is short.

The technical solution used in the present invention is as follows:

The invention provides a kind of business-driven model building method based on sight, comprise the following steps:

S1, is registered to reusable bolster model in business intelligence drive system; Described bolster model is hierarchical structure, and the 1st layer is pattern model; 2nd layer is frame model; 3rd layer is component model; Also specify the class of service attribute corresponding respectively with each layer of bolster model simultaneously, be specially: the operation flow type corresponding with pattern model, the business activity type corresponding with frame model, the entity object type corresponding with component model;

S2, for concrete business demand, creates the specified services model for describing concrete business by modeling tool; Described specified services model is hierarchical structure; 1st layer is business domains; 2nd layer is operation flow; 3rd layer is business activity; 4th layer is entity object; Wherein, described specified services model has specified services category attribute, be specially: described operation flow has the attribute of operation flow type, described business activity has the attribute of business activity type, and described entity object has the attribute of Business Entity by object classification;

S3, by described specified services model registration in described business intelligence drive system; Described business intelligence drive system for key word of the inquiry, inquires about the corresponding relation of registered bolster model and class of service attribute with described specified services category attribute, obtains the appointment bolster model with described specified services Model Matching;

S4, specifies bolster model and described specified services model jointly to carry out projection mapping to integrated platform, obtains integrated platform meta-model described in described business intelligence drive systems.

Preferably, in S1, described bolster model obtains in the following manner:

By carrying out encapsulation be converted into described bolster model to application function, data object, framework, layout, driving relationship, component model.

Preferably, described bolster model and described specified services model hierarchy symmetry, be specially: the corresponding described pattern model of described operation flow; The corresponding described frame model of described business activity; The corresponding described component model of described entity object.

Preferably, described class of service attribute is specifically divided into following three classes: operation flow classification, activity classification, Business Entity are by object classification.

Preferably, S3 is specially:

S31, with the operation flow type of described specified services model for key word of the inquiry, searches the corresponding relation of registered bolster model and class of service attribute, obtains the designated mode model with the operation flow type matching of described specified services model; Wherein, the lower floor of described designated mode model comprises multiple frame model;

S32, further with the business activity type of described specified services model for key word of the inquiry, mate in the multiple frame models included by described designated mode model lower floor, obtain the appointment frame model with the business activity type matching of described specified services model; Wherein, the lower floor of described appointment frame model comprises multiple component model;

S33, further with the entity object type of described specified services model for key word of the inquiry, mate in the multiple component models included by described appointment frame model lower floor, obtain the assignment component model with the entity object type matching of described specified services model;

S34, use assembly method and entity relationship, and assembly event and entity relationship, the matching result of S31, S32 and S33 is verified, only have when all the match is successful for S31, S32 and S33, just think and obtain the bolster model with described specified services Model Matching; Wherein, the ground floor of this bolster model is designated mode model; The second layer is for specifying frame model; Third layer is assignment component model; If S31, S32 or S33 exist the step that it fails to match, then the back of the step that returns that it fails to match mates again.

Preferably, S4 is specially: described integrated platform meta-model comprises: system model, application model, component frame-work model, data object model and procedural model; Projection process specifically comprises:

S41, the business domains of described specified services model carries out projection mapping to integrated platform, obtains described system model;

S42, after obtaining described system model, the operation flow of described specified services model and the pattern model of coupling carry out projection mapping to integrated platform jointly, obtain described application model;

S43, after obtaining described application model, the business activity of described specified services model and the frame model of coupling carry out projection mapping to integrated platform jointly, obtain described component frame-work model;

S44, after obtaining described component frame-work model, the entity object of described specified services model and the component model of coupling carry out projection mapping to integrated platform jointly, obtain described data object model;

S45, after obtaining described data object model, operation flow and the business activity of described specified services model carry out projection mapping to integrated platform jointly, obtain described procedural model.

Preferably, S41 is specially:

Described business domains business domains definition, flow nodes and business domains version three subitems describe; Described business domains definition, described flow nodes and described business domains version project to integrated platform respectively, obtain the system definition of described system model, application node and system version respectively;

S42 is specially:

Described operation flow operation flow attribute definition and business activity node two subitem describe; Described operation flow attribute definition and described business activity node project to integrated platform respectively, obtain the definition of application function attribute and the definition of application function directory tree of described application model respectively;

S43 is specially:

The business activity business activity attribute definition of described specified services model describes, and described business activity attribute definition projects to integrated platform, obtains the functional attributes definition of described component frame-work model;

Described frame model frame container definition and component definition two subitem describe; Described frame container definition and described component definition project to integrated platform respectively, obtain frame layout definition and the component definition of described component frame-work model;

Business Entity entity subset relation and physical characteristics value two subitem describe, component model event definition and method define two subitems and describe, entity subset relation, physical characteristics value, event definition and method definition acting in conjunction, project to integrated platform, obtain the driving relationship definition of described component frame-work model;

S44 is specially:

The business domains business domains attribute description of described specified services model, described business domains attribute projects to integrated platform, obtains the table space of described data object model;

The Business Entity entity subset of described specified services model, entity subset relation and physical characteristics are worth three subitems and describe; Described entity subset, described entity subset relation and described physical characteristics value project to integrated platform respectively, obtain the database table of described data object model, table relation and literary name section respectively;

S45 is specially:

Described operation flow flow process attribute definition, business activity definition associate three subitems descriptions with the movable object that participates in result object; Described business activity movable constraint and movable participant two subitems describe; The definition of described flow process attribute, described business activity definition, described activity participate in that object associates with result object, described movable constraint and described movable participant carry out projection mapping respectively to integrated platform, obtain the flow process attribute definition of described procedural model, campaign definitions, activity association, activity jump condition and movable participant respectively.

Beneficial effect of the present invention is as follows:

(1), after business personnel sets up business model, select the bolster model mated with it, the two projects to platform, and be namely applied software; This application software is owing to generating, because can meet the business demand of business personnel completely for business model drive;

(2) after business demand changes, re-establish business model, then to platform projection, namely obtain new application software, there is the advantage that application system development is simple, efficiency is high and the cycle is short.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of the business-driven model building method based on sight provided by the invention;

Fig. 2 is the hierarchical chart of bolster model provided by the invention;

Fig. 3 is the hierarchical chart of business model provided by the invention;

Fig. 4 is the general frame figure that projection provided by the invention obtains integrated platform meta-model;

Fig. 5 is the structural representation of system model provided by the invention projection;

Fig. 6 is the structural representation of application model provided by the invention projection;

Fig. 7 is the structural representation of component frame-work model provided by the invention projection;

Fig. 8 is the structural representation of data object model provided by the invention projection;

Fig. 9 is the structural representation of procedural model provided by the invention projection;

Figure 10 is the structural representation built from business demand to operation system provided by the invention;

Figure 11 is Service Component structural representation provided by the invention.

Embodiment

Below in conjunction with accompanying drawing, the present invention is described in detail:

As shown in Figure 1, the invention provides a kind of business-driven model building method based on sight, comprise the following steps:

S1, is registered to reusable bolster model in business intelligence drive system;

Bolster model is the output products of engineering customization librarian use Customization Tool customization, comprising: application function, data object, framework, layout, driving relationship, component model etc.Be converted into bolster model by carrying out encapsulation to these products, make its can as assembly reusable.

As shown in Figure 2, bolster model is hierarchical structure, and the 1st layer is pattern model; 2nd layer is frame model; 3rd layer is component model.Below each layer of bolster model is introduced in detail:

(1) pattern model: pattern model is the realization of business model in computing machine, pattern model defines rule constrain under class of service.According to the feature of available frame, be divided in pattern, for embodying all situations of whole operation flow.Such as: in pattern model, contain the framework of the display of a lot of data, data processing, report capability, just can mate general office workflow.

(2) frame model: for defining embody rule function, definition application function interface layout, driving relationship in each layout areas between component instance and component instance.Directly can be interpreted as a display page, this page can process any function, and business personnel from information such as framework display effect figure, can be directly acquainted with.Such as: design sketch shows in this framework and contains selector assembly and browsing data assembly, then, this framework just may be used for the function of inquiring about, and such as boss selects month, just can arrive the statisticss such as the single month achievement of each employee and inquire about.

In addition, be positioned at same level with frame model, also comprise type of drive model: for the type of drive that definition of activities is concrete, as event-driven and message-driven.Type of drive model is divided into framework driving, Component driver.Framework drives: will jump to which frame page after the complete submission of this frame page, this driving need set according to business concrete condition.Component driver, acts in framework, and as example above, selector assembly is exactly for driving data navigation mechanism.Must have a container in each framework, container and framework are undivided, and container, for dividing the layout pattern in framework, controls position and the size of each assembly.Such as: selector switch must be placed on topmost, and tree-like assembly must be placed on the left side of framework, browsing data assembly to need to be placed on below selector switch etc.

(3) component model: for defining the information of assembly, contain the event of assembly, method, parameter.Component model is embedded in container in the layout divided out, and each layout can only put an assembly, and assembly is the simplified package to data and method, for the treatment of concrete data event.Such as: browsing data assembly is used for data display, statistical graph assembly is used for the display of user's icon.

Component model lower floor divides into: assembly event definition and assembly method definition:

Assembly event definition: assembly event is all triggered by manual operation, such as: double-click event, can excite with double mouse click.

Assembly method defines: assembly method is being triggered by assembly event, and assembly event is only concrete function, and such as: assembly event is switch, telepilot, assembly method is then household electrical appliance.

The trigger range of assembly event and assembly method is in a framework, and the event of any one assembly in a framework, can activate the method for another one assembly in theory.Such as: the selection event of selector assembly, have activated the data load method of browsing data assembly, browsing data assembly could be allowed to refresh according to the parameter imported into and to demonstrate the data message that will show.

While registration, also specify the class of service attribute corresponding respectively with each layer of bolster model, be specially: the operation flow type corresponding with pattern model, the business activity type corresponding with frame model, the entity object type corresponding with component model.

It should be noted that, in registration process, specify in the class of service attribute corresponding respectively with each layer of bolster model, specific mode can be specified automatically for system, also can be that user manually specifies.Such as, if there are 3 frame models all associate same business activity type, when needing to specify the frame model corresponding with this business activity type, system can select Default Frame model automatically; Also in 3 frame models, a frame model can be selected by user arbitrarily.

Because business all has its complete business categorizing system, the taxonomic hierarchies of business is to better identify business and managing.And the object that business model exists is description business, therefore business model also has class of service attribute.Class of service attribute is specifically divided into following three classes:

(1) operation flow classification: 1. management, 2. scientific research, 3. engineering/construction, 4. decision-making, 5. resource management, as equipment, data etc.

(2) activity classification: 1. far-seeing plan, 2. design/plan, 3. human resources, 4. organizing and implementing, 5. analysis/evaluate, 6. achievement summary.

(3) Business Entity presses object classification: 1. effective object, 2. participation object, 3. operand, 4. result object.

S2, for concrete business demand, creates the specified services model for describing concrete business by modeling tool;

Business model is the suitable stipulations model language for describing concrete business, business personnel can be known and describe its business understood.By the standardization of business model to business demand, can realize by computer analyzing process business demand.

Specified services model is hierarchical structure, as shown in Figure 3, comprising: the 1st layer is business domains; 2nd layer is operation flow; 3rd layer is business activity; 4th layer is entity object; Wherein, described specified services model has specified services category attribute, be specially: described operation flow has the attribute of operation flow type, described business activity has the attribute of business activity type, and described entity object has the attribute of Business Entity by object classification.Below business model is described in detail:

(1) business domains (Business Area): for describing an independently business scope, that the abstract of business activity field is wanted to corporate boss, instead of the indiscriminately imitating of existing institutional sector, abstract method can according to effective object, business-subject, professional technique etc.There is clear and definite business activity effective object, as: finance, office, well, pipeline ....The size of this business scope needs setting by user, uses business model tools build business model by the business expert of this area.Such as: financial field, office realm, oil field.Again such as, the division Main Basis business object of In Oil Field Exploration And Development business domains is carried out, as: pit shaft is " pit shaft engineering ", and oil reservoir is " reservoir engineering " etc.

(2) operation flow (Business Process, BP): there is clear and definite target and complete implementation process.Be made up of one group of activity scene be closely connected of forming a connecting link.Define an operation flow, Main Basis is movable continuity and the definition of result, there is clear and definite incipient activity and ending activity, there is clear and definite specialized service concept, can summarize the title of effect, have determine summary, evaluation and achievement document report, content can be acted on to it and carry out accurate description.Identify and definition operation flow extremely important to business model.All multiple operation flow can be had in business domains.Such as financial field has paying out wages flow process, flow process of declaring dutiable goods, reimbursement flow process, and each operation flow has multiple business activity, but these activities are all launching for a target.

(3) business activity (Business Activity, BA): be the elementary cell that business function describes, there is stable business scenario, the task that can examine and describable document information, accurately can express with 6W Activity Description model.Such as submit an expense account flow process, comprise my submit applications and reimbursement document, departmental manager's signature, administrative authority's examination & verification document, Finance Department's examination & approval, financial manager's signature, Finance Department make loans to I haven't seen you for ages, these are all business activities.Its principal character is activity scene constant (time, place, business object etc.), has clear and definite object and result.The name of business activity adopts the phrase of V-O construction.In general, an operation flow can comprise several business activities.

(4) business object (Business Object, BO): all things with the performance of clear and definite feature, in business activity describes, participant's object, effective object, result object, equipment, facility all belong to business object.The concept of object is the concept of a broad sense, and it may comprise concrete object, also may comprise abstract object, as: " research project " is abstract object, and " oil reservoir " and " data inventory " is concrete object.In the activities such as oil field prospecting, exploitation, operation and management, referent is quite various, and " business object " wherein had both included space topological object, equipment and materials object, included again document specification object; And space topological object is refined as orientable object and spatial object, spatial object here mainly comprises point, line, surface, body etc.Orientable object had both included the geologic feature object obtained by seismic interpretation, included again the Interpretive object to geologic feature in pit shaft simultaneously.To as if produced by activity, such as " geologic structure diagram ", it produces " document specification object " by " structure elucidation " activity.So activity is object-oriented, object and activity influence each other and derive from, and the effect between object creates activity, and activity creates new object and plant characteristic.

The effective object of all business activities in a business procedure is identical.Such as: reimbursement flow process, faced by everyone is all a reimbursement application, and submits the invoice document come up to.

(5) business unit (Business Unit, BU): the feature performance set of the different business object in same activity, it is the fundamental classification foundation of business activity, also be the elementary cell of business description, emphasizing movable the feature performance and the movement content etc. that participate in object, is the basis of the more educated management of business activity task.Such as: people uses the action of object.

(6) traffic performance (Business Character, BC): also claim " business factor " (BusinessEssential), the general designation expressing " business object characteristic " or " business activity characteristic " with " data ", consistent with conventional data metanotion.There is the effect that two are main, one, static characteristics for description object itself, i.e. those characteristics of description object invariable attribute, as: the information such as numbering, position of individual well, this part characteristic is centered by object; Two, description object and movable interaction and the process characteristic that produces is used for, i.e. the dynamic perfromance of object, as: the mud property in drilling process, bit size etc.They are centered by activity, have aprowl both created new characteristic, likely produce again some new objects, as " mud " and " drill bit ".Utilize traffic performance can from the attribute of different angle defining objects, to realize the object of aspect description object from different and activity.

(7) Business Entity (Business Entity, BE): the data acquisition describing business particular content and result, emphasizes the data acquisition relation between business activity, business object, service feature, and the business that is usually expressed as sums up document information.Business object is to things description conceptually, and Business Entity is then that things is described out by metrizable data.Such as submit an expense account flow process: effective object is reimbursement application, just fills in application time, applicant, reimbursement amount; Participate in as if pen, several, what color of ink etc.

Business Entity describing method adopts international DSD method to perform, point series, set, entity, subset sums attribute, wherein serial corresponding business domains, gather corresponding operation flow, the corresponding business activity of entity, the corresponding business unit of subset, the corresponding service feature of attribute.

(8) data model (Data Model, DM): data model is a kind of abstract representation defining data and operation thereof in database field, emphasizes the storage administration to traffic performance.

S3, by described specified services model registration in described business intelligence drive system; Described business intelligence drive system for key word of the inquiry, inquires about the corresponding relation of registered bolster model and class of service attribute with described specified services category attribute, obtains the appointment bolster model with described specified services Model Matching;

Specifically comprise the following steps:

S31, with the operation flow type of described specified services model for key word of the inquiry, searches the corresponding relation of registered bolster model and class of service attribute, obtains the designated mode model with the operation flow type matching of described specified services model; Wherein, the lower floor of described designated mode model comprises multiple frame model;

S32, further with the business activity type of described specified services model for key word of the inquiry, mate in the multiple frame models included by described designated mode model lower floor, obtain the appointment frame model with the business activity type matching of described specified services model; Wherein, the lower floor of described appointment frame model comprises multiple component model;

S33, further with the entity object type of described specified services model for key word of the inquiry, mate in the multiple component models included by described appointment frame model lower floor, obtain the assignment component model with the entity object type matching of described specified services model;

S34, use assembly method and entity relationship, and assembly event and entity relationship, the matching result of S31, S32 and S33 is verified, only have when all the match is successful for S31, S32 and S33, just think and obtain the bolster model with described specified services Model Matching; Wherein, the ground floor of this bolster model is designated mode model; The second layer is for specifying frame model; Third layer is assignment component model; If S31, S32 or S33 exist the step that it fails to match, then the back of the step that returns that it fails to match mates again.

S4, specifies bolster model and described specified services model jointly to carry out projection mapping to integrated platform, obtains integrated platform meta-model described in described business intelligence drive systems.

In the present invention, integrated platform meta-model comprises: system model, application model, component frame-work model, data object model and procedural model; Projection process as shown in Figure 4, specifically comprises:

S41, the business domains of described specified services model carries out projection mapping to integrated platform, obtains described system model;

As shown in Figure 5, the process of system model projection is specially: the definition of business domains business domains, flow nodes and business domains version three subitems describe; Described business domains definition, described flow nodes and described business domains version project to integrated platform respectively, obtain the system definition of described system model, application node and system version respectively.

S42, after obtaining described system model, the operation flow of described specified services model and the pattern model of coupling carry out projection mapping to integrated platform jointly, obtain described application model;

As shown in Figure 6, the process of application model projection is specially: the definition of operation flow operation flow attribute and business activity node two subitem describe; Described operation flow attribute definition and described business activity node project to integrated platform respectively, obtain the definition of application function attribute and the definition of application function directory tree of described application model respectively.

S43, after obtaining described application model, the business activity of described specified services model and the frame model of coupling carry out projection mapping to integrated platform jointly, obtain described component frame-work model;

As shown in Figure 7, the process of component frame-work model projection is specially: the business activity business activity attribute definition of specified services model describes, and described business activity attribute definition projects to integrated platform, obtains the functional attributes definition of described component frame-work model;

Described frame model frame container definition and component definition two subitem describe; Described frame container definition and described component definition project to integrated platform respectively, obtain frame layout definition and the component definition of described component frame-work model;

Business Entity entity subset relation and physical characteristics value two subitem describe, component model event definition and method define two subitems and describe, entity subset relation, physical characteristics value, event definition and method definition acting in conjunction, project to integrated platform, obtain the driving relationship definition of described component frame-work model.

S44, after obtaining described component frame-work model, the entity object of described specified services model and the component model of coupling carry out projection mapping to integrated platform jointly, obtain described data object model;

As shown in Figure 8, the process of data object model projection is specially: the business domains business domains attribute description of specified services model, and described business domains attribute projects to integrated platform, obtains the table space of described data object model;

The Business Entity entity subset of described specified services model, entity subset relation and physical characteristics are worth three subitems and describe; Described entity subset, described entity subset relation and described physical characteristics value project to integrated platform respectively, obtain the database table of described data object model, table relation and literary name section respectively.

S45, after obtaining described data object model, operation flow and the business activity of described specified services model carry out projection mapping to integrated platform jointly, obtain described procedural model.

As shown in Figure 9, the process of procedural model projection is specially: the definition of operation flow flow process attribute, business activity definition associate three subitems with movable participation object with result object and describe; Described business activity movable constraint and movable participant two subitems describe; The definition of described flow process attribute, described business activity definition, described activity participate in that object associates with result object, described movable constraint and described movable participant carry out projection mapping respectively to integrated platform, obtain the definition of described procedural model flow process attribute, campaign definitions, activity association, activity jump condition and movable participant respectively.

As shown in Figure 10, be the structural representation built from business demand to operation system, business personnel considers business demand and sets up business model, and engineering staff customizes bolster model, and research staff provides Service Component; Wherein the structure of Service Component as shown in figure 11, and Service Component comprises business logic components, operation flow assembly, UI processing components and UI assembly.The information of assembly is defined, contains the event of assembly, method, parameter.Business component model simulated implementation is as Figure 12, and assembly, when loading, drives engine to be registered in the audiomonitor matched according to dissimilar method in the description handle component of driving relationship.Do not have direct correlation between assembly and assembly, the contact between them is all realized by the scheduling of client framework.Assembly needs the operation of calling background service also to use driving relationship to describe, and is only the use of different audiomonitors.

By the projection effect jointly of bolster model, Service Component and business model, obtain integrated platform meta-model, then integrated platform meta-model is directly changed, namely obtain final application system.

Beneficial effect of the present invention is as follows:

(1), after business personnel sets up business model, select the bolster model mated with it, the two projects to platform, and be namely applied software; This application software is owing to generating, because can meet the business demand of business personnel completely for business model drive;

(2) after business demand changes, re-establish business model, then to platform projection, namely obtain new application software, there is the advantage that application system development is simple, efficiency is high and the cycle is short.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should look protection scope of the present invention.

Claims (7)

1., based on a business-driven model building method for sight, it is characterized in that, comprise the following steps:

S1, is registered to reusable bolster model in business intelligence drive system; Described bolster model is hierarchical structure, and the 1st layer is pattern model; 2nd layer is frame model; 3rd layer is component model; Also specify the class of service attribute corresponding respectively with each layer of bolster model simultaneously, be specially: the operation flow type corresponding with pattern model, the business activity type corresponding with frame model, the entity object type corresponding with component model;

S2, for concrete business demand, creates the specified services model for describing concrete business by modeling tool; Described specified services model is hierarchical structure; 1st layer is business domains; 2nd layer is operation flow; 3rd layer is business activity; 4th layer is entity object; Wherein, described specified services model has specified services category attribute, be specially: described operation flow has the attribute of operation flow type, described business activity has the attribute of business activity type, and described entity object has the attribute of Business Entity by object classification;

S3, by described specified services model registration in described business intelligence drive system; Described business intelligence drive system for key word of the inquiry, inquires about the corresponding relation of registered bolster model and class of service attribute with described specified services category attribute, obtains the appointment bolster model with described specified services Model Matching;

S4, specifies bolster model and described specified services model jointly to carry out projection mapping to integrated platform, obtains integrated platform meta-model described in described business intelligence drive systems.

2. the business-driven model building method based on sight according to claim 1, is characterized in that, in S1, described bolster model obtains in the following manner:

By carrying out encapsulation be converted into described bolster model to application function, data object, framework, layout, driving relationship, component model.

3. the business-driven model building method based on sight according to claim 1, is characterized in that, described bolster model and described specified services model hierarchy symmetry, be specially: the corresponding described pattern model of described operation flow; The corresponding described frame model of described business activity; The corresponding described component model of described entity object.

4. the business-driven model building method based on sight according to claim 1, is characterized in that, described class of service attribute is specifically divided into following three classes: operation flow classification, activity classification, Business Entity are by object classification.

5. the business-driven model building method based on sight according to claim 1, it is characterized in that, S3 is specially:

S31, with the operation flow type of described specified services model for key word of the inquiry, searches the corresponding relation of registered bolster model and class of service attribute, obtains the designated mode model with the operation flow type matching of described specified services model; Wherein, the lower floor of described designated mode model comprises multiple frame model;

S32, further with the business activity type of described specified services model for key word of the inquiry, mate in the multiple frame models included by described designated mode model lower floor, obtain the appointment frame model with the business activity type matching of described specified services model; Wherein, the lower floor of described appointment frame model comprises multiple component model;

S33, further with the entity object type of described specified services model for key word of the inquiry, mate in the multiple component models included by described appointment frame model lower floor, obtain the assignment component model with the entity object type matching of described specified services model;

S34, use assembly method and entity relationship, and assembly event and entity relationship, the matching result of S31, S32 and S33 is verified, only have when all the match is successful for S31, S32 and S33, just think and obtain the bolster model with described specified services Model Matching; Wherein, the ground floor of this bolster model is designated mode model; The second layer is for specifying frame model; Third layer is assignment component model; If S31, S32 or S33 exist the step that it fails to match, then the back of the step that returns that it fails to match mates again.

6. the business-driven model building method based on sight according to claim 5, it is characterized in that, S4 is specially: described integrated platform meta-model comprises: system model, application model, component frame-work model, data object model and procedural model; Projection process specifically comprises:

S41, the business domains of described specified services model carries out projection mapping to integrated platform, obtains described system model;

S42, after obtaining described system model, the operation flow of described specified services model and the pattern model of coupling carry out projection mapping to integrated platform jointly, obtain described application model;

S43, after obtaining described application model, the business activity of described specified services model and the frame model of coupling carry out projection mapping to integrated platform jointly, obtain described component frame-work model;

S44, after obtaining described component frame-work model, the entity object of described specified services model and the component model of coupling carry out projection mapping to integrated platform jointly, obtain described data object model;

S45, after obtaining described data object model, operation flow and the business activity of described specified services model carry out projection mapping to integrated platform jointly, obtain described procedural model.

7. the business-driven model building method based on sight according to claim 6, is characterized in that,

S41 is specially:

Described business domains business domains definition, flow nodes and business domains version three subitems describe; Described business domains definition, described flow nodes and described business domains version project to integrated platform respectively, obtain the system definition of described system model, application node and system version respectively;

S42 is specially:

Described operation flow operation flow attribute definition and business activity node two subitem describe; Described operation flow attribute definition and described business activity node project to integrated platform respectively, obtain the definition of application function attribute and the definition of application function directory tree of described application model respectively;

S43 is specially:

The business activity business activity attribute definition of described specified services model describes, and described business activity attribute definition projects to integrated platform, obtains the functional attributes definition of described component frame-work model;

Described frame model frame container definition and component definition two subitem describe; Described frame container definition and described component definition project to integrated platform respectively, obtain frame layout definition and the component definition of described component frame-work model;

Business Entity entity subset relation and physical characteristics value two subitem describe, component model event definition and method define two subitems and describe, entity subset relation, physical characteristics value, event definition and method definition acting in conjunction, project to integrated platform, obtain the driving relationship definition of described component frame-work model;

S44 is specially:

The business domains business domains attribute description of described specified services model, described business domains attribute projects to integrated platform, obtains the table space of described data object model;

The Business Entity entity subset of described specified services model, entity subset relation and physical characteristics are worth three subitems and describe; Described entity subset, described entity subset relation and described physical characteristics value project to integrated platform respectively, obtain the database table of described data object model, table relation and literary name section respectively;

S45 is specially:

Described operation flow flow process attribute definition, business activity definition associate three subitems descriptions with the movable object that participates in result object; Described business activity movable constraint and movable participant two subitems describe; The definition of described flow process attribute, described business activity definition, described activity participate in that object associates with result object, described movable constraint and described movable participant carry out projection mapping respectively to integrated platform, obtain the flow process attribute definition of described procedural model, campaign definitions, activity association, activity jump condition and movable participant respectively.