CN1767537A - Model driven fused business generating method adapt to different interfaces and platform technique - Google Patents

Model driven fused business generating method adapt to different interfaces and platform technique Download PDF

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CN1767537A
CN1767537A CN 200510115058 CN200510115058A CN1767537A CN 1767537 A CN1767537 A CN 1767537A CN 200510115058 CN200510115058 CN 200510115058 CN 200510115058 A CN200510115058 A CN 200510115058A CN 1767537 A CN1767537 A CN 1767537A
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model
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compiler
service
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CN100459613C (en
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李晓峰
乔秀全
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北京邮电大学
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Abstract

This invention relates to a method and a system for generating telecommunication merging services suitable for different interfaces and platforms, in which, the system is composed of service model edit/express tools, a model decoder container and various kinds of model decoders and related model image rule library stationed in it and model storage storehouse and information interaction among the components is realized via a standard interface. The method includes: generating a general service model independent of the concrete interface technology and the platform technology then carrying out images from the general technology model to the concrete interface technology related model , to the model for realizing platform technology, then to the codes realized to the program languages then arranging the executive service logic to an available service.

Description

模型驱动、适合不同接口和平台技术的融合业务生成方法 Model-driven, for different interfaces and converged services platform technology generation method

技术领域 FIELD

本发明涉及一种下一代电信网络融合业务的生成技术,确切地说,涉及一种采用模型驱动、融合互联网和通信网的、对外开放而适合不同接口和平台技术的电信业务的生成方法和系统,属于电信和计算机应用技术领域。 The present invention relates to a technique for generating a next generation telecommunications network integration services and, more particularly, to a method and system for generating uses model-driven, and the integration of Internet communication network, and the open interfaces for different platforms and technologies telecommunications services , belonging to the telecommunications and computer technology applications.

背景技术 Background technique

业务生成技术最早起源于智能网(IN,Intelligent Network),智能网以快速、经济地开发新业务为目标,成功地提出了一种通过业务独立的构建模块(SIB,Service Independent Building Block)来搭建业务逻辑,再对其进行编译或者解释执行的方法完成代码的自动生成,包括业务的运行环境、测试/仿真环境在内的一整套业务生成方法。 Business generation technology originated in the intelligent network (IN, Intelligent Network), intelligent network to quickly and cost-effectively develop new business as the goal, successfully proposed to build an independent business building block (SIB, Service Independent Building Block) by the method of automatically generating service logic, and then be compiled or interpreted code execution is completed, the operating environment including service, testing / simulation environment including a set of service creation method. 但是,由于这种业务生成技术严重依赖于具体的网络和协议,以及具体的业务逻辑执行环境(即业务控制点SCP),其封闭性和局限性无法适应下一代开放式网络的业务生成要求。 However, since this technique is heavily dependent on service creation specific networks and protocols, as well as the particular service logic execution environment (i.e., the SCP Service Control Point), which is closed and unable to adapt to traffic limitations generation request generation open network.

为了向用户提供丰富的应用,下一代网络采用了开放式的业务体系结构,通过统一的应用编程接口API(Application Programming Interface)技术向第三方服务提供商开放下层网络的服务能力。 In order to provide users with rich applications, next generation networks using an open service architecture, open service capabilities of the underlying network through a unified application programming interface API (Application Programming Interface) technology to third-party service providers. 目前比较成熟的API有3GPP和ParlayGroup联合制定的Parlay/OSA接口规范,SUN公司为融合网络提出的一套JavaAPI-JAIN(Java API for Integrated Network)以及为基于会话发起协议SIP(Session Initiation Protocol)网络的SIP Servlet API等。 There are currently more mature API 3GPP and ParlayGroup jointly developed by Parlay / OSA interface specification, a set of JavaAPI-JAIN (Java API for Integrated Network) as well as the SUN-based company raised converged network session initiation protocol SIP (Session Initiation Protocol) network the SIP Servlet API and so on. 在分布式业务环境中,第三方业务提供商采用各种分布式计算技术,如CORBA、DCOM、RMI以及Web Service技术等,利用这些标准的接口就可以调用下层的电信网资源来开发各种增值服务。 In a distributed business environment, third-party service providers using a variety of distributed computing technologies such as CORBA, DCOM, RMI and Web Service technology, the use of these standard interfaces you can call the underlying telecommunications network resources to develop a variety of value-added service. 由于各种API技术都有各自的利益代表在推动,因此距离实现接口技术的统一还要走很长的路。 Due to a variety of API technology has its own representatives in the interests of promoting, and therefore a long way to go to achieve a unified interface technology distance. 这就意味着业务开发人员需要面对不同的开放API技术,如果采用直接基于API的业务生成模式,将造成业务逻辑在不同API间的移植性比较差。 This means that developers need to face different business open API technology, if using direct API-based service creation model, business logic will result in poor portability between different API. 因此人们开始尝试各种新的业务生成方法。 So people began to try a variety of new business generation.

目前各种中间件平台技术(如CORBA、DCOM、EJB、Web Service、.Net等)以及编程语言(C、C++、Java、C#)也是层出不穷,而且都在不停地演进和发展中。 Currently a variety of middleware platform technologies (such as CORBA, DCOM, EJB, Web Service, .Net, etc.) and programming languages ​​(C, C ++, Java, C #) is endless, and are constantly evolution and development. 如果采用基于“代码”的业务开发模式,业务的功能逻辑设计与实现平台技术会紧密相关。 If based on the "source" business development model, business logic design function is closely related platform technology will achieve. 由于业务提供商跨越多个运营商网络提供业务的情况非常普遍,而中间件、编程语言和接口技术的发展日新月异,新技术还在不断涌现,因此当需要将同样的业务部署到不同的实现平台上时,业务就需要重新设计、编码。 As the situation service providers across multiple carrier networks to provide services is very common, and the development of middleware, programming language and interface technology advances, new technology is still emerging, so when you need to deploy the same service to different platforms to achieve when on, the business will need to re-design, coding. 因此采用基于“直接编写业务实现代码”的开发模式,业务逻辑在不同技术(如不同编程语言或部署平台之间)的移植性和重用性非常差。 Thus pattern-based development using "direct write service implementation code", the business logic is very poor in different technologies (e.g. between different programming languages ​​or deployment platform) portability and reusability.

直接基于API的业务开发模式可以获得最大程度的控制灵活性,但是,如果API复杂,开发难度比较大,对开发人员的技术要求比较高,尤其需要具有比较深厚的通信知识背景。 You can get the greatest degree of control flexibility based directly on business development model API, however, if the API complicated, more difficult to develop technical requirements for developers is relatively high, in particular, needs to have a more profound knowledge of the communications background.

基于脚本/模板级的业务开发允许开发人员使用图形用户界面GUI(GraphicUser Interface)通过“拖-拉”(Drag and Drop)工件和配置参数来生成业务;其好处是屏蔽掉了API的具体细节,业务开发简单快速,但灵活性较差;而且许多地方会与厂家专用的业务平台相关联,不同的软件开发工具包SDK(SoftwareDevelopment Kit)提供的是其专有的API,业务组件的通用性比较差。 Based on the script / template class service development allows developers to use the graphical user interface GUI (GraphicUser Interface) by "drag - pull" (Drag and Drop) of the workpiece and the configuration parameters to generate traffic; benefit is masked specific details API, business development simple and fast, but less flexibility; and many local manufacturers will be dedicated to the business associated with the platform, different software development kit SDK (SoftwareDevelopment Kit) provides is its proprietary API, versatility compare the business component difference. 因此,至今支持Parlay应用的建模和开发的工具和指导方法都很少,即使有,也都具有上述缺陷,使得业务功能逻辑的通用性和移植性受到很大制约。 Therefore, so far support tools and guidance and modeling methods developed by Parlay applications are few, if any, have the above-mentioned defects, making the versatility and portability of business logic function has been greatly restricted.

综上所述,现有的业务生成技术存在着以下的缺陷:a)智能网业务生成技术依赖于具体网络和协议,以及具体的业务执行环境:智能网的业务生成技术严重依赖于智能网的设定功能,开放性和通用性比较差。 In summary, the prior art service creation existence of the following defects: a) generating intelligent network service depends on the specific technology and network protocols, as well as specific service execution environment: the intelligent network service creation technique relies heavily on the intelligent network setting function, openness and versatility relatively poor.

b)开放API技术虽然独立于具体的网络(固网或移动网)和编程语言,但直接基于API的业务开发模式,开发人员需要了解比较多的电信专业知识,对于一般的IT技术人员来说,技术难度较高。 b) open API technology, while independent of the specific network (fixed or mobile network) and programming languages, but the direct business development model based on the API, developers need to understand more about the telecommunications expertise for the general IT skill high technical difficulty. 另外,直接基于API的业务开发严重依赖于具体的API技术,从而造成业务逻辑在不同开放接口技术间的移植性比较差。 Further, based on direct business development depends heavily on the specific API of API technology, resulting in service logic portability between different open interface technology is relatively poor. 甚至有的API直接依赖于实现平台,如JAIN就是基于Java实现平台。 Even some API directly dependent on the implementation platform, such as JAIN is a Java-based implementation platform.

c)虽然Parlay/OSA接口规范的提出解决了网络能力在组件层面上的重用,但应用模型层面上的重用仍然没有得到很好解决。 c) While Parlay / OSA interface specification proposed to solve the network ability to reuse the component level, but reuse the application model level still not been solved. 为了解决此问题,出现了各种高层的业务开发技术,提出采用高层抽象的构件或组件来提供业务构建元素,但是,这些业务构建元素缺乏统一的建模语言,导致用这些构建元素搭建的业务逻辑基本上为厂家专用或依赖于具体的业务平台,业务的移植性也比较差。 To solve this problem, there has been a variety of high-level technology business development, proposed the use of high-level abstract component or components to provide business building elements, however, these business elements to build lack of a unified modeling language, resulting in a build these elements to build business manufacturers dedicated logic or substantially depending on the particular service platform portability service is also relatively poor.

d)传统的业务开发过程是以概要设计(low-level)、详细设计和编码驱动的,无论是采用增量开发还是迭代开发,或者是传统的瀑布式开发途径,文档和相关的设计图表都是在前三个阶段(需求捕获,需求分析,设计)中产生。 d) traditional business development process is based on the outline design (low-level), detailed design and coding drive, whether it is an incremental development or iterative development, or traditional waterfall development approach, documentation and related design charts It is generated in the first three stages (capture demand, demand analysis, design). 业务的需求分析和设计往往使用文本和图的方式来描述,其中的图经常采用UML图(例如例图、类图、交互图、活动图等)。 Analysis and design business requirements often use text and graphics will be described, wherein FIG UML diagram is frequently used (e.g. FIG embodiment, class, interaction, events, etc). 当编码开始时,前三个阶段产生的文档和相关图片就迅速失去了它们的价值。 When coding started the first three stages to produce documents and picture quickly lose their value. 随着编码阶段的继续进行,文档和代码之间的关联逐渐减弱,它们不再是对代码的精确描述。 With the continued association between the coding phase, documentation and code gradually weakened, they are no longer an accurate description of the code. 随着时间的推移,系统不断地被修改,文档、设计图表和代码之间的距离就越来越疏远。 Over time, the system is constantly being modified, the distance between documents, design diagrams and code more and more alienated. 在修改了代码之后,还要修改文档和设计图表。 After modifying the code, but also to modify the document and design diagrams. 由于业务开发的各个阶段的设计工件之间缺乏紧密的关联,从而导致业务的开发和维护所要花费的代价十分巨大。 Due to the lack of a close relationship between the various stages of business development of design artifacts, resulting in the cost of development and maintenance services to be spent enormous.

可以看出,现有的业务生成技术或者与具体网络相关,或者与具体开放接口API相关,或者与具体实现技术平台(如JAVA、EJB等)相关,造成业务逻辑与具体实现技术的紧耦合,从而使得业务功能逻辑的移植性和通用性比较差,导致业务的开发费用和维护费用非常昂贵。 As can be seen, the prior art service creation or associated with a particular network or a particular open interfaces associated with the API, or internet technology is implementation dependent (e.g., JAVA, EJB, etc.), resulting in tightly coupled business logic implementation-specific technology, so that the portability and versatility of the logic of business functions relatively poor, leading to the development and maintenance costs are very expensive business. 因此,急需一种通用的业务生成方法,保证业务逻辑在不同开放接口技术、不同实现平台技术之间的灵活移植性,提高业务逻辑应对技术变化的能力,从而降低业务的开发和维护费用。 Therefore, the need for a universal service creation methods to ensure that the business logic of different open interface technology, flexible portability between different platforms implement technology to improve the operational capacity of logic to deal with technological change, thereby reducing development and maintenance costs in the business.

发明内容 SUMMARY

有鉴于此,本发明的目的是提供一种采用模型驱动、融合互联网和通信网的、对外开放而适合不同接口和平台技术的电信业务的生成方法和系统,以解决现有的业务生成技术与具体网络、具体开放接口API、或实现技术平台相互关联,即生成的业务逻辑与具体实现技术之间存在紧耦合,使业务功能逻辑的移植性和通用性差的缺陷,增强业务模型在不同开放接口技术、不同实现平台技术之间的灵活移植性,提高业务逻辑应对技术变化的水平和能力,并提高电信新业务的开发速度和效率。 In view of this, object of the present invention is to provide a use of model-driven, and the integration of Internet communication network, and open systems and methods for generating different interfaces and telecommunication services platform technology, to solve the conventional technology and service creation particular network, particularly open interfaces the API, or implementation technology platform interrelated, i.e., generating business logic with the presence of tight coupling between the technology embodied, a graft and general poor defect business function logic, enhanced business models in different open Interface technology and flexible portability between different platforms implement technology to improve the level of business logic and ability to respond to technological change and to improve telecommunications new business development speed and efficiency.

为了达到上述目的,本发明提供了一种采用模型驱动、融合互联网和通信网的、适合不同接口和平台技术的电信业务的生成系统,其特征在于:该系统包括下述组成部件:业务模型编辑/表示工具,用于提供各种“即拖即用”式的可视化的通用业务构建元素SBE以及各种流程控制原语,以便生成由多个通用SBE和作用于这些SBE上的相应的流程控制原语表示的、独立于具体接口技术和实现平台技术的通用业务逻辑模型,以支持对通用业务逻辑模型的可视化的编辑和修改;模型编译器容器及驻留其中的各种类型的模型编译器和相对应的模型映射规则库,其中模型编译器容器提供各种类型模型编译器的运行环境;模型编译器的类型包括通用模型到接口模型的编译器,接口模型到实现平台模型的编译器,以及实现平台模型到具体代码的编译器;每个编译器都有相 To achieve the above object, the present invention provides a use of model-driven, the integration of Internet and communications networks, and interfaces for different telecommunication service platform technology generation system, wherein: the system comprises the following components: Business Model Editor / represents a tool for providing the various architectural elements and various SBE flow control primitives "drag-and-use" universal visualization type service, in order to generate a corresponding plurality of flow control and general SBE acting on those of SBE primitive representation, independent of the specific technical interfaces and general business logic model implementation platform technology to support editing and modification of the visual model of the generic service logic; model compiler for various types of containers and wherein the model compiler residing and the corresponding mapping rule base model, wherein the model compiler provides runtime container types model compiler; type model compiler comprising a common interface model to model compiler, the compiler interface model to achieve platform model, and a platform model to achieve specific code compiler; have each compiler phase 对应的模型映射规则库,用于指导相邻模型层之间的模型转化;模型编译器容器和业务模型编辑/表示工具之间通过消息接口实现指示信息的交互;所述指示信息至少包括输入的源模型标识信息、选用的模型编译器的类型、输出存放的目标模型、或代码的标识信息;模型存储仓库,用于存储各个层次的业务逻辑模型和业务构建元素SBE库,业务模型编辑/表示工具和各种模型编译器通过模型存储仓库提供的模型存取接口进行业务逻辑模型的创建、修改或存取。 Mapping rule base model corresponding to guide the model conversion model between adjacent layers; and business model compiler vessel model editor / interface interaction is represented by a message indicating the information between the tool; the indication information includes at least input target model identification information source model, the choice of the type of model compiler output storage, code or identification information; model repository for all levels of the business model and service logic storage elements SBE library constructed, the business model edit / represents model access interface compiler tools and various models provided by the model repository service logic models are created, modified or accessed.

该系统还包括各种应用服务器,用于提供该业务生成系统输出的、与各种具体接口技术和实现平台相关的确定业务逻辑的执行环境,实现与电信网络的交互。 The system also includes a variety of application server for providing the service to generate the system output, and various specific implementation platform interface technology and associated service logic execution environment is determined, interact with the telecommunications network.

所述业务模型编辑/表示工具提供的各种通用业务构建元素SBE至少包括呼叫能力、发送消息能力、定位能力、或获取用户状态能力;所述流程控制原语包括但不限于流程的起始、流程的终止、顺序执行、分支执行、循环执行和并发执行。 The business model editor / tools represent various Generic Construction element comprising at least SBE call capability, the ability to send messages, positioning capabilities, or the ability to obtain the user status; the flow control primitives include but are not limited to the starting process, the termination of a process, the order of execution, branch execution, and executed cyclically performed concurrently.

所述模型编译器内设有两种模块:扫描模块—用于对输入模型进行识别和扫描,映射模块—用于将扫描到的模型元素和流程控制原语按照设定的映射规则映射到相应的目标元素和流程控制原语上。 The model compiler equipped with both modules: a scanning module - is used to identify the model and the input scanning, mapping module - for the model elements to scan and process control primitives according to the mapping rule corresponding to the set mapping the target element and process control primitives.

为了达到上述目的,本发明还提供了一种采用模型驱动、融合互联网和通信网的、对外开放的电信业务的生成方法,其特征在于:包括下列步骤:(1)采用通用的业务构建元素SBE和流程控制原语生成独立于具体开放接口技术和实现平台技术的通用业务逻辑模型;(2)由通用模型到接口模型的模型编译器接收通用业务逻辑模型作为输入,再根据设定的映射规则将该通用的业务逻辑模型映射到与具体的接口技术相关的业务逻辑模型;(3)由接口模型到实现平台模型的编译器接收所输入的独立于实现平台技术的、与具体接口技术相关的业务逻辑模型后,根据设定的映射规则将该与具体接口技术相关的业务逻辑模型映射到与实现平台技术相关的业务逻辑模型;(4)由实现平台模型到代码的模型编译器接收所输入的与实现平台技术相关的业务逻辑模型后,根据设定的 To achieve the above object, the present invention also provides a use of model-driven, and the integration of Internet communication network, opening of telecommunication services generating method, characterized by: comprising the steps of: (1) Construction elements common business SBE and a flow control primitive is generated independent of the specific implementation of general open interface technology and internet technology business logic models; (2) by a general purpose interface model to model a model compiler receives generic service logic model as input, and then mapping rules set mapping the generic service logic model to model the business logic associated with a particular interface technology; (3) received by the interface to model compiler implementation platform independent model input to achieve platform technology, associated with a particular interface technology after the business logic model, according to the mapping rule maps a service set associated with a particular logical model interface technology to model the business logic associated with the implementation platform technology; (4) a model-to-code implementation platform model compiler receives input after the implementation platform and technology-related business logic model, according to the set 射规则将该与实现平台技术相关的业务逻辑模型映射到具体编程语言相关的代码;(5)将可执行的业务逻辑代码加载到相应的应用服务器的业务逻辑执行环境中运行。 The business rule mapping outgoing logical model related to the specific technical implementation platform programming language dependent code; (5) business logic executable code is loaded into service logic execution environment corresponding application server running.

所述步骤(1)中由通用的业务构建元素和流程控制原语生成的通用业务逻辑模型,独立于具体的网络开放接口技术、实现平台技术和实现语言,即该业务逻辑模型与三者都不相关;其中开放接口技术包括但不限于Parlay/OSA、JAIN、Parlay X、SIP Servlet;实现平台技术包括但不限于CORBA、Web Service、DCOM、J2EE的各种中间件平台技术;实现语言包括但不限于Java、C、C++、C#。 Said step (1) is constructed from elements of common business and general service logic flow control primitives generated model, independent of the specific network open interface technology, implementation language and platform technology, i.e. the service logic and all three model irrelevant; wherein open interfaces including but not limited to Parlay / OSA, JAIN, Parlay X, SIP Servlet; implementation platform including but not limited to various middleware platform technology CORBA, Web Service, DCOM, J2EE; the implementation language, including but not limited to Java, C, C ++, C #.

所述步骤(2)中进一步包括下列操作内容:针对不同的开放接口技术,分别选用相对应的通用模型到该接口模型的编译器,由该编译器接收通用业务逻辑模型作为输入,由该编译器中的扫描模块对输入的通用业务逻辑模型进行扫描,再将扫描到的实现确定业务的通用SBE和描述业务逻辑的流程控制原语映射为与具体接口技术相关的SBE和相应的描述这些SBE之间逻辑关系的流程控制原语的有序组合,进而输出独立于实现平台技术的、与具体接口技术相关的业务逻辑模型。 Said step (2) further comprises the following elements: open for different interface technologies, respectively, using generic model corresponding to the compiler interface model compiler received by the common business logic model as input by the compiler General description and implement business logic SBE determined traffic flow reactor scanning module for generic service logic model input scan, then the scan control primitives and corresponding mapped SBE description associated with a particular interface technology these SBE between the flow control logic primitives ordered combination, whereby the output implementation platform independent technology, associated with a particular interface technology business logic model.

所述步骤(3)中,不同的接口技术可以映射转换为不同的实现平台技术,同一种接口技术也可以映射转换为不同的实现平台技术;由各种相应类型的接口模型到实现平台模型的模型编译器来负责二者之间的映射转换。 Said step (3), different interfaces can be mapped into a different implementation platform technology, the same interface technique may be mapped into a different implementation platform technology; various types of interface model corresponding to the model implementation platform model compiler to convert responsible for mapping between the two.

所述步骤(3)进一步包括下列操作内容:接口模型到实现平台模型的模型编译器在接收到输入的独立于实现平台技术的、与具体接口技术相关的业务逻辑模型后,利用接口技术相关的业务模型扫描模块对输入的业务逻辑模型的组织结构进行模型扫描,再在扫描过程中,将接口技术相关的SBE和相关的流程控制原语映射为与该具体接口技术相关SBE的平台实现模型和相关的流程控制原语,进而输出与具体接口技术相关的业务逻辑模型的实现平台技术模型。 Said step (3) further comprises the following elements: an interface to model compiler implementation model platform after receiving a model for implementing platform independent technology, associated with a particular interface technology business logic model input, using the interface related art business model scan module model scan organization business logic model inputs, and then during the scanning process, the interface technology SBE and related processes associated control primitive maps implemented model platform with the particular interface technology related SBE and primitives associated process control, whereby the output model to achieve platform technology associated with a particular interface technology business logic model.

所述步骤(4)中进一步包括下列操作内容:针对不同的实现语言或代码,分别选用相对应的实现平台模型到该代码的模型编译器,由该编译器接收与具体接口技术相关的业务逻辑模型的实现平台技术模型作为输入后,由与实现平台技术相关的业务模型扫描模块对接收到的模型进行扫描,再由与实现平台技术相关的业务逻辑模型到代码的映射模块将扫描到的实现模型元素及这些模型元素之间的关系映射为相应的实现代码,进而输出可执行的业务逻辑执行代码。 Said step (4) further comprises the following elements: different implementation language or code, respectively, corresponding to the choice of implementation platform model to model the compiler code, receiving service logic associated with the particular interface technology by compiler implementation of the model implemented as a platform technology model after input by the docking platform technology relevant to the achievement of the business model of the scanning module to scan the received model, and then model the business logic associated with the implementation platform technology to scan code mapping module to the relationship between these models and model elements are mapped to corresponding elements implementation code, and thus the service logic execution of the executable code output.

本发明是一种基于模型驱动、融合互联网和通信网的、对外开放的下一代电信业务的生成系统和方法,该方法采用可视化的模型或图标编写业务逻辑,生成过程与具体的开放接口技术和实现平台技术相互分离,所生成的新的电信业务大大增强了其在不同开放接口技术和不同实现平台技术之间的移植性和重用性,提高了业务逻辑应对技术变化的水平和能力,也大大提高了电信新业务的开发速度和效率。 The present invention is based on model driven, the integration of Internet and communications networks, opening next generation telecommunications systems and methods for generating traffic, the method uses visual models or icon write the business logic, the generation process of the specific technology and the open interfaces separated from each other achieve platform technology, the new generation of telecommunications services greatly enhances its portability and reusability between different technologies and different implementations of the open interface platform technology, to improve the business logic level and ability to respond to technological change, but also greatly improve development speed and efficiency of new telecommunication services. 此外,本发明具有下述技术特点:A、采用模型驱动的电信业务开发模式:采用标准的建模语言进行扩展,构建表示电信业务网络能力的通用的业务构建元素库—通用的SBE库。 Further, the present invention has the following technical features: A, using the telecommunications business model-driven development model: standard modeling language is extended to build represents telecommunication service common business capability network element library construction - general SBE library. 每个通用业务逻辑模型则由多个通用SBE和流程控制原语组成,藉此脱离了直接基于代码的业务开发模式。 Each common business model by a plurality of generic logic SBE primitives and process control, whereby from direct service development based on model code. 其优点是提高了业务开发的抽象层次,降低了业务开发的技术门槛和费用,所创建的业务模型也保持了对技术的中立性,便于移植。 The advantage is to improve the level of abstraction of business development, reducing the technical barriers and costs of business development, business model created also maintained neutrality of technology, portable.

B、通用业务模型对具体接口技术的中立性和可移植性:现阶段,多种网络开放接口技术并存,包括Parlay/OSA,JAIN,SIP Servlet等,造成业务的生成依赖于具体的接口技术。 B, common business model for specific interface technology neutrality and portability: at this stage, open multiple network interface technologies exist, including Parlay / OSA, JAIN, SIP Servlet, resulting in traffic is generated depends on the specific interface technology. 本发明的方法将业务模型与具体接口技术相分离,保证了对各种开放接口技术中立性,并由具体的通用模型到接口模型的编译器来负责通用业务逻辑模型到具体接口技术相关模型之间的映射,以建立二者之间的联系、转换。 The method of the present invention will interface technology specific business models with phase separation techniques to ensure that the various open interfaces neutrality pairs by a specific generic model to model compiler interface logic responsible for common business model related to the specific model of the interfacing between mapping, in order to establish the link between the two, conversion. 同样地,通用业务逻辑模型可以选用不同种类的通用模型到接口模型的编译器分别映射到不同接口技术相关的业务模型上,从而保证了通用业务逻辑模型在不同开放接口技术间的中立性和移植性能。 Similarly, common business logic model can use generic model different types of interface to model compiler are mapped to different interface technologies related business model, thus ensuring the neutrality of the general service logic models between different open interface technologies and transplantation performance. 例如通用模型到Parlay接口模型的编译器在接收到输入的通用业务模型后,通过扫描和映射过程,将输出与Parlay接口技术相关的业务模型;而通用模型到JAIN接口模型的编译器在接收到输入的通用业务模型后,通过扫描和映射过程,输出与JAIN接口技术相关的业务模型。 For example, a generic model to the compiler Parlay interface model after receiving a common business model input, by scanning and mapping process, the output associated with the Parlay interface technology business models; the generic model to JAIN interface model compiler receiving after the input common business model, by scanning and mapping procedure, the business model related to the output interface technology JAIN.

C、与具体接口技术相关模型对实现平台技术的中立性和可移植性:通用的业务模型映射为具体接口技术相关的模型后,只是将通用的SBE映射为相应的有序的接口技术相关的SBE,并不涉及具体的实现平台技术细节,保证了接口技术相关模型对具体实现平台技术的中立性。 C, as the particular interface technology relevant to achieve neutrality model and technology platform portability: the common business model map interface technology is particularly relevant model, only the general mapping SBE corresponding ordered interface technology related SBE, does not involve specific technical implementation details of the platform to ensure the realization of the concrete platform technology neutrality interface technology related models. 再由具体的接口模型到实现平台模型的编译器来负责接口技术相关的业务逻辑模型到具体实现平台技术相关模型之间的映射,建立二者之间的联系。 Then by the specific interface model to achieve the compiler platform models to be responsible for the relevant business logic interface technology model to achieve the mapping between platform specific technology-related model, establish a link between the two. 同样地,与接口技术相关的业务逻辑模型也可以选用不同种类的接口模型到实现平台模型的编译器,分别映射到不同实现平台技术相关的业务模型上,从而保证了接口技术相关的业务逻辑模型在不同实现平台技术间的中立性和移植性。 Similarly, associated with the interface technology business logic model can also use different interface models to achieve compiler platform model, mapped to the business model technique related to different implementation platform, thus ensuring interfacing business logic model related neutrality and portability across different implementations of the platform technology. 例如Parlay的开放接口技术可以采用CORBA的分布式调用机制来实现,也可以采用Web Service的面向服务的机制来实现;业务的编写可以用纯Java来实现,也可以用C++来实现,还可以采用EJB的组件来开发。 For example Parlay open interface technology distributed calling mechanism CORBA can be used to implement the mechanism Web Service-oriented services can also be used to achieve; writing business users can use Java to achieve, you can also use C ++ to achieve, can also be used EJB components to develop. 因此,通过不同种类的接口模型到实现平台模型的编译器,可以确保同样的接口技术相关的业务模型在不同实现技术之间的中立性和移植性。 Therefore, different types of interface model compiler platform to implement the model, to ensure neutrality and portability between different implementations of the same interface technology in the related business models.

D、实现平台技术相关模型对具体编程语言的可移植性:由于具体的编程语言也在不停的升级和演进中,因此直接基于代码的业务逻辑的维护和升级费用会越来越高。 D, implementation platform portability technology-related models for specific programming languages: Due to specific programming languages ​​are constantly upgrading and evolving, and therefore directly based on business logic code maintenance and upgrade costs will be higher. 而通过实现平台到代码的模型编译器就可以减轻这个负担。 And by implementing the platform to model code compiler can alleviate this burden.

附图说明 BRIEF DESCRIPTION

图1是本发明采用模型驱动、面向融合和对外开放的下一代电信业务的生成系统结构组成示意图。 FIG. 1 is a system configuration of the present invention is employed to generate a model-driven, and for the integration of the next generation telecommunication services opening schematic composition.

图2是本发明采用模型驱动、面向融合和对外开放的下一代电信业务的生成方法的步骤流程图。 FIG 2 is a model-driven present invention employs a flow chart for the method step of generating next generation telecommunications services and integration opening.

图3是采用本发明方法生成下一代电信融合业务的实现步骤细化示意图。 Figure 3 is a schematic generating method of the present invention to refine the next step to achieve fusion of telecommunication services.

图4是采用本发明方法在不同接口技术和实现平台技术之间生成下一代电信融合业务的可移植性实施方式的实施步骤示意图。 Figure 4 is a schematic view of the method of the present invention in various embodiments portability interface technology and the next generation embodiment telecommunication traffic between convergence platform technology implementation steps.

具体实施方式 Detailed ways

为使本发明的目的、技术方案和优点更加清楚,下面结合附图对本发明作进一步的详细描述。 To make the objectives, technical solutions, and advantages of the invention more apparent, the accompanying drawings The present invention will be further described in detail with.

参见图1,介绍本发明模型驱动的业务生成系统的结构组成,该业务生成系统提供了对业务逻辑进行编辑、编译的软硬件环境。 Referring to Figure 1, describes the structure model driven service creation system of the present inventions, the service generation system provides service logic edit, compile the hardware and software environment. 该业务生成系统主要包括有三个组成部分:业务模型编辑/表示工具1,模型编译器容器2及驻留其中的各种类型的模型编译器和相对应的模型映射规则库,模型存储仓库3。 The service creation system comprises three main components: the business model editor / 1 represents a tool, the container 2 and the model compiler residing therein various types of model compiler and a corresponding mapping rule base model, the model repository 3.

其中业务模型编辑/表示工具1提供各种“即拖即用”式的可视化的通用业务构建元素SBE(Service Building Element),包括呼叫能力、发送消息能力、定位能力、获取用户状态能力等,以及各种流程控制原语(包括流程起始、流程的终止、顺序执行、分支执行、循环执行、并发执行等),负责生成由有限数量个通用SBE和作用于这些SBE上的相应的流程控制原语表示的、独立于具体接口技术和实现平台技术的通用业务逻辑模型,以支持对该通用业务逻辑模型的可视化的编辑、修改功能。 Wherein the business model editing / represents tool 1 provides various architectural elements SBE (Service Building Element) "drag-and-use" visualization common business type, including call capabilities, messaging capabilities, positioning capabilities, obtaining user status capability, and various flow control primitives (including process initiation, termination process, the order of execution, branch execution cycle execution, concurrent execution, etc.), is responsible for generating the respective process on the original SBE control of a limited number and universal role SBE language represented, independent of the specific interface technology and achieve common business logic modeling platform technology to support the visual editing common business logic model modification. 同时,该业务模型编辑/表示工具1也可以对中间编译生成的接口技术相关模型或实现平台相关模型进行可视化编辑/表示。 Meanwhile, the service model editor / tool 1 may represent intermediate compiler generated correlation model interface technology or implementation platform specific model visual editing / FIG.

模型编译器容器2提供各种类型模型编译器的运行环境,模型编译器的类型包括通用模型到接口模型的编译器、接口模型到实现平台模型的编译器和实现平台模型到具体代码的编译器。 Model compiler vessel 2 provide various types of model compiler runtime environment, the type of model compiler comprising a generic model to model compiler interface, an interface to model compiler implementation platform model and model implementation platform specific code to the compiler . 每个模型编译器都设有两种模块:对输入模型进行识别和扫描的扫描模块,以及将扫描到的模型元素和流程控制原语按照设定的映射规则映射到相应的目标元素和流程控制原语上的映射模块。 Each model compiler both modules are provided: input and model identification module scans the scanning, and the scanning process to the model elements and the primitives are mapped to the corresponding control target elements and process control according to the set mapping rule mapping module in the original language. 每个编译器对应一个相应的模型映射规则库,用来指导相邻模型层之间的模型转化。 Each compiler corresponding to a respective mapping rule base model, the model is used to guide the transformation model between adjacent layers.

模型仓库3主要用于存储各个层次的业务逻辑模型以及业务构建元素(SBE)库。 3 main warehouse model for all levels of the storage business model and business logic building element (SBE) library.

该业务生成环境组成部分通过标准接口实现彼此信息的交互。 The service creation environment interface part interact with each other by standard information. 其中模型仓库提供公用的模型存取接口,业务模型编辑/表示工具和各种模型编译器利用该接口对业务逻辑模型实现创建、编辑、修改和存储。 Wherein the model provides a common repository model access interface, editing business model / models represent various tools and compilers use the business logic of the interface model to create, edit, modify, and store. 业务模型编辑/表示工具1和模型编译器容器2通过消息接口实现指示信息的交互,指示信息至少包括输入的源模型标识信息、选用的模型编译器的类型、输出存放的目标模型、或代码的标识信息等。 Business model editor / represents the tool 1 and the model compiler container 2 interface interaction indication information by message indication information comprising at least the source model identification information input, the target model type chosen model compiler output stored, or code identification information.

本发明的业务生成系统还包括各种应用服务器,用于提供该业务生成系统输出的、与各种具体接口技术和实现平台相关的确定业务逻辑的执行环境,实现与电信网络的交互。 Service creation system of the present invention further includes a variety of application servers for providing the service to generate the system output, and various specific implementation platform interface technology and associated service logic execution environment is determined, interact with the telecommunications network.

参见图2,说明本发明基于模型驱动、独立于具体开放接口技术和实现平台技术的下一代电信融合业务生成方法,其包括下列步骤:(1)采用通用的业务构建元素SBE和流程控制原语生成独立于具体开放接口技术和实现平台技术的通用业务逻辑模型; Referring to Figure 2, the present invention is described based on model driven, open interface technology independent of the specific implementation platform and the next generation of telecommunication technologies converged services generating method, comprising the steps of: (1) build service using a common elements and process control primitives SBE generating a generic service independent of the particular logic model open interface technology and internet technology implemented;

(2)由通用模型到接口模型的模型编译器接收通用业务逻辑模型作为输入,再根据设定的映射规则将该通用的业务逻辑模型映射到与具体的接口技术相关的业务逻辑模型;(3)由接口模型到实现平台模型的编译器接收所输入的独立于实现平台技术的、与具体接口技术相关的业务逻辑模型后,根据设定的映射规则将该与具体接口技术相关的业务逻辑模型映射到与实现平台技术相关的业务逻辑模型;(4)由实现平台模型到代码的模型编译器接收所输入的与实现平台技术相关的业务逻辑模型后,根据设定的映射规则将该与实现平台技术相关的业务逻辑模型映射到具体编程语言相关的代码;(5)将可执行的业务逻辑代码加载到相应的应用服务器的业务逻辑执行环境中运行。 (2) by a general purpose interface model to model a model compiler receives generic service logic model as input, then in accordance with the general mapping rule set mapping logic model business model business logic associated with a particular interface technology to; (3 ) implemented by the interface platform model to model compiler accepts the input for implementing platform independent technology, the business logic associated with a particular interface technology model, according to the mapping rule set associated with the particular interface technology business logic model mapped to model the business logic associated with the implementation platform technology; (4) a model of the platform to implement the model compiler code associated with receiving platform technology to achieve business logic model input, according to the mapping rule set and implemented platform technology relevant business logic model mapped to specific programming language dependent code; (5) business logic executable code is loaded into the corresponding service logic execution environment of the application server running.

为了说明本发明基于模型、独立于具体开放接口技术和实现平台技术的业务生成方法,可参见图3对本发明生成电信业务的具体实施步骤的细化描述,可以得到更好的理解。 To illustrate the invention based on the model, independent of the specific implementation platform and open interface technology art service creation method, see FIG. 3 generates the telecommunications services of the present invention is described with specific embodiments refining step may be better understood.

参见图3,先介绍图中各个单元的数字标注含义:以1开头的十位数分别表示不同层次的业务逻辑模型,以1开头的百位数则分别表示在与其前两位数字相同的层次模型中所包含的不同组成单元。 Referring to FIG. 3, the drawing figures introduce each unit denoted meanings: 1 at the beginning of the ten digits represent different logic levels of the business model to the beginning of a hundreds digit is two digits represent the same level as their different constituent unit contained in the model. 以2开头的十位数分别表示不同模型层次间的编译器,以2开头的百位数则分别表示在与其前两位数字相同类型的编译器中所包含的不同组成单元。 2 tens to indicate the beginning of the compiler levels between different models, to hundreds digit 2 indicates the beginning of the different constituent elements respectively in its first two digits of the same type contained in the compiler. 以3开头的十位数分别表示不同模型层次使用的构建元素库。 3 beginning with tens of building elements represent the different model levels of library use. 以4开头的十位数分别表示不同模型层间进行映射的规则库。 4 to tens beginning of each representation rule base mapping between different model layer. 本发明生成电信业务方法的具体实施步骤是:第一步,生成独立于具体接口技术和实现平台技术的通用业务模型:首先在本发明的业务生成系统1中利用业务模型编辑/表示工具生成和定义确定业务的通用的、独立于具体开放接口技术和实现平台技术的业务逻辑模型10,该通用的业务逻辑模型是由有限数量的、能实现业务相关功能的通用业务构建元素SBE(100)和将这些SBE按设定的逻辑执行顺序组织起来的流程控制原语101组成。 The present invention is a method of generating a specific telecommunication service implementation steps are: first, to generate the interface independent of the specific technologies and implementations common business model platform technology: First, in a business model editing using the service creation system according to the present invention / and represents the tool generates define certain common operations are independent of the specific open interface technology and to achieve platform technology business logic model 10, the generic business logic model is constructed elements SBE by a limited number, to generic service for business-related functions (100) and these SBE logic setting the execution order of the organized flow control primitives 101 components.

第二步,进行通用业务模型到具体接口技术相关模型的映射:业务模型编辑/表示工具向模型编译器容器发出向设定接口技术相关模型的转化指示信息,模型编译器容器会选择相应的通用模型到接口模型的编译器20,在完成该编译器的初始化后,该模型编译器20接收通用业务逻辑模型作为输入,由通用的业务模型扫描模块200负责根据模型元素间的组织关系扫描通用的业务逻辑模型,并在扫描模型的过程中,将扫描到的实现确定业务的通用SBE(100)和描述业务逻辑的流程控制原语101映射为具体接口技术相关的SBE(110)和相应的描述这些SBE之间逻辑关系的流程控制原语101的有序组合,从而输出独立于实现平台技术的、与具体接口技术相关的业务逻辑模型11,并存储到模型仓库中,同时也可以选择将接口技术相关的业务模型在业务模型编辑/表示工具中可视化地表 Second step, common business model related to the mapping interface technology specific model: the business model edit / send a message showing the conversion tool set indicating correlation model interface technology to model compiler vessel, vessel model compiler will select the appropriate universal model interface to model compiler 20, after initialization of the compiler 20 receives the model compiler generic service logic model as input from 200 responsible for common business model scan module according to organizational relationships scanning between model elements common business logic models, and in the process of scanning pattern of the scan to achieve the determined service universal SBE (100) control primitives and described business logic flow 101 maps to particular interface technology related SBE (110) and the corresponding description logical relationship between these flow control primitives ordered assemblies of SBE 101, thereby outputting implementation platform independent technology, associated with a particular interface technology business logic model 11 and stored in the model repository, but can also choose interface technology-related business model in the business model editor / presentation tool in visualizing surface 出来。 come out.

第三步,进行接口技术相关模型到实现平台技术相关模型的映射:业务模型编辑/表示工具向模型编译器容器发出向具体实现平台技术相关模型的转化指示信息,模型编译器容器会选择相应的接口模型到实现平台模型的编译器21,在完成该模型编译器21的初始化后,该模型编译器21接收到输入的独立于实现平台技术的、与具体接口技术相关的业务逻辑模型11后,利用接口技术相关的业务模型扫描模块210根据输入的业务逻辑模型的组织结构进行模型扫描,并在扫描过程中,将接口技术相关的SBE(110)和相关的流程控制原语101映射为该具体接口技术相关SBE的平台实现模型120,以及相关的流程控制原语101,从而输出具体接口技术相关的业务逻辑模型的实现平台技术模型12,并存储到模型仓库中。 The third step, an interface related technologies to implement the mapping model platform technology related models: edit business model / model represents compiler tools issued to the conversion instruction information container platform technology embodied correlation model, the model compiler will select the appropriate container interface model to achieve compiler platform model 21, after initialization 21, the model compiler, the model compiler 21 receives input independent implementation platform technology, associated with the particular interface technology business logic model 11, With the interface technology related to the business model of the scanning module 210 scans the model according to the organizational structure of the business model of the logic input, and during the scanning process, the interface technology related SBE (110) and the associated flow control primitives 101 for mapping specific SBE associated interface technology platform to model 120, and associated process control primitives 101, thereby outputting internet technology to achieve business logic model 12 models associated interface technology specific, and stored in the model repository. 同时也可以选择将实现平台技术相关的业务模型在业务模型编辑/表示工具中可视化地表示出来。 Also can choose to implement the platform technology related business models in the business model editor / presentation tool visually represented.

第四步、进行实现平台技术相关模型到具体编程语言实现代码的映射:业务模型编辑/表示工具向模型编译器容器发出生成具体编程语言实现代码的转化指示信息,模型编译器容器会选择相应的实现平台模型到代码的编译器22,在完成该模型编译器22的初始化后,该模型编译器22接收到输入的实现平台技术相关的业务逻辑模型后,利用实现平台技术相关的业务模型扫描模块220对接收到的模型进行扫描,再由实现平台技术相关的业务逻辑模型到代码的映射模块221将扫描到的实现模型元素及其之间的关系映射为相应的实现代码,从而输出业务逻辑代码13,并以代码文件的形式存储。 A fourth step, a platform technology dependent models to achieve specific programming language code mapping: edit business model / model represents a compiler tool container issued to generate specific programming language code conversion instruction information, the model compiler will select the appropriate container after implementation platform model-to-code compiler 22, after initialization 22, the model compiler, the model compiler 22 receives the service logic model implementation platform technology input associated with an implementation platform technology related business model scanning module model 220 received scanned, then the implementation platform technology-related business logic model mapping module 221 to the scan code and the mapping relationship between the model elements to achieve the corresponding implementation code, thereby outputting the business logic code 13, and stored as code files.

第五步,将可执行的业务逻辑代码部署到应用服务器:在生成了业务代码后,就由与该语言相关的编译器22生成可执行业务代码,然后把该可执行代码加载到应用服务器2所提供的业务逻辑执行环境中,业务激活后,就可以与下层网络实体发生交互实现通信。 A fifth step, the business logic code executable to deploy the application server: after generating a service code, service code to generate executable by the associated language with the compiler 22, the executable code is then loaded into the application server 2 SLEE provided in the service activation, interaction occurs can communicate with the underlying physical network.

从图3中可以看出,本发明的不同层次的业务模型都是由相应的业务构建元素SBE库提供的有限数量的SBE作为业务的构建模块或单元,再通过流程控制原语将这些SBE按照设定的逻辑组织成有序的执行过程。 As it can be seen from Figure 3, as a business unit, or building blocks of a limited number of elements SBE SBE library provides different levels of the business model of the present invention are constructed of a corresponding service, and through these flow control primitives according SBE set logic organized into ordered execution. 然后,由相邻模型层之间的模型编译器根据对应的模型映射规则库来实现模型的映射转换,最后,在确定的技术平台上生成所需的电信业务。 Then, the model compiler between adjacent layers to achieve the mapping model transformation model corresponding to the model map according to the rule base, and finally to form the desired telecommunications services established techniques in the internet.

本发明所采用的模型驱动的业务生成方法能够方便、简单地在不同接口技术和实现平台技术间进行移植和重用;图4是其中一种移植性的实施方式流程图,其具体步骤如前所述,不再赘述。 Generating business model-driven approach used in the present invention can be conveniently and easily implemented in various technologies and interfaces to migrate between the internet and reuse technique; FIG. 4 is one embodiment of a flowchart of transplant, the specific steps are as previously described later, is omitted.

Claims (10)

1.一种采用模型驱动、融合互联网和通信网的、适合不同接口和平台技术的电信业务的生成系统,其特征在于:该系统包括下述组成部件:业务模型编辑/表示工具,用于提供各种“即拖即用”式的可视化的通用业务构建元素SBE以及各种流程控制原语,以便生成由多个通用SBE和作用于这些SBE上的相应的流程控制原语表示的、独立于具体接口技术和实现平台技术的通用业务逻辑模型,以支持对通用业务逻辑模型的可视化的编辑和修改;模型编译器容器及驻留其中的各种类型的模型编译器和相对应的模型映射规则库,其中模型编译器容器提供各种类型模型编译器的运行环境;模型编译器的类型包括通用模型到接口模型的编译器,接口模型到实现平台模型的编译器,以及实现平台模型到具体代码的编译器;每个编译器都有相对应的模型映射规则库,用于指 A use of model-driven, the integration of Internet and communications networks, for various telecommunication services platform technology interfaces and generation system, wherein: the system comprises the following components: the business model editor / represents a tool for providing variety of "drag-and-use" type of visualization elements generic SBE constructs, and various process control primitives, in order to generate the corresponding flow on these SBE controlled by a plurality of primitives and action represented by the general SBE, independent specific generic business logic and interface technology model implementation platform technology to support editing and modifications to the visual model of the generic service logic; model compiler and various types of container model compiler residing therein and a corresponding mapping rule model library, wherein the model compiler provides various types of container model compiler runtime environment; type model compiler comprising a generic model to model compiler interface, an interface to model compiler implementation platform model, the model and the implementation platform specific code compiler; each compiler has a corresponding mapping rule base model, is used to refer 相邻模型层之间的模型转化;模型编译器容器和业务模型编辑/表示工具之间通过消息接口实现指示信息的交互;所述指示信息至少包括输入的源模型标识信息、选用的模型编译器的类型、输出存放的目标模型、或代码的标识信息;模型存储仓库,用于存储各个层次的业务逻辑模型和业务构建元素SBE库,业务模型编辑/表示工具和各种模型编译器通过模型存储仓库提供的模型存取接口进行业务逻辑模型的创建、修改或存取。 Conversion model between the adjacent layer model; and business model compiler vessel model editor / interface interaction is represented by a message indicating the information between the tool; the indication information comprises at least identification information input source model, the model compiler selection type identification information, stored in the target model output, or code; model repository for storing business logic levels of the respective model element constructed and operational SBE library service model editor / tools and various models represented by a model compiler memory model repository provides access interfaces to create business logic model, modified or accessed.
2.根据权利要求1所述的电信业务的生成系统,其特征在于:该系统还包括各种应用服务器,用于提供该业务生成系统输出的、与各种具体接口技术和实现平台相关的确定业务逻辑的执行环境,实现与电信网络的交互。 The telecommunication service generation system according to claim 1, wherein: the system further includes various application server for providing the service to generate the system output, and determining the various specific implementation platform and interface technology related business logic execution environment, interact with the telecommunications network.
3.根据权利要求1所述的电信业务的生成系统,其特征在于:所述业务模型编辑/表示工具提供的各种通用业务构建元素SBE至少包括呼叫能力、发送消息能力、定位能力、或获取用户状态能力;所述流程控制原语包括但不限于流程的起始、流程的终止、顺序执行、分支执行、循环执行和并发执行。 The telecommunication service generation system according to claim 1, wherein: the service model editor / tools represent various Generic Construction element comprising at least SBE call capability, the ability to send messages, positioning capabilities, or to obtain user state capacity; the flow control primitives include, but are not limited to terminating the starting process flow, the order of execution, branch execution, and executed cyclically performed concurrently.
4.根据权利要求1所述的电信业务的生成系统,其特征在于:所述模型编译器内设有两种模块:扫描模块—用于对输入模型进行识别和扫描,映射模块—用于将扫描到的模型元素和流程控制原语按照设定的映射规则映射到相应的目标元素和流程控制原语上。 The telecommunication service generation system according to claim 1, wherein: said model compiler equipped with both modules: a scanning module - is used to identify the model and the input scanning, mapping module - for scanning the model elements and process control primitives mapped to the corresponding target elements and process control in accordance with the mapping rule primitive set.
5.一种采用模型驱动、融合互联网和通信网的、对外开放的电信业务的生成方法,其特征在于:包括下列步骤:(1)采用通用的业务构建元素SBE和流程控制原语生成独立于具体开放接口技术和实现平台技术的通用业务逻辑模型;(2)由通用模型到接口模型的模型编译器接收通用业务逻辑模型作为输入,再根据设定的映射规则将该通用的业务逻辑模型映射到与具体的接口技术相关的业务逻辑模型;(3)由接口模型到实现平台模型的编译器接收所输入的独立于实现平台技术的、与具体接口技术相关的业务逻辑模型后,根据设定的映射规则将该与具体接口技术相关的业务逻辑模型映射到与实现平台技术相关的业务逻辑模型;(4)由实现平台模型到代码的模型编译器接收所输入的与实现平台技术相关的业务逻辑模型后,根据设定的映射规则将该与实现平台技术相关 A use of model-driven, fusion, opening up telecommunications services method for generating a communication network and the Internet, characterized by: comprising the steps of: (1) Construction of common business and process control elements SBE primitive is generated independently DETAILED open interface technology and internet technology to achieve common business logic models; (2) received by the generic model to a model compiler interface common business logic model as input, and then set the mapping rules common business logic model map to model the business logic associated with a particular interface technology; (3) includes an interface to model compiler implementation platform model receives input implementation platform independent technology, the business logic associated with a particular model interface technology, according to a set the mapping rules associated with a particular model of business logic interface technology model is mapped to the business logic associated with the implementation platform technique; (4) a model-to-code implementation platform model compiler receives input relating to technical service implementation platform after the logic model, according to the mapping rule set associated with the technical implementation platform 业务逻辑模型映射到具体编程语言相关的代码;(5)将可执行的业务逻辑代码加载到相应的应用服务器的业务逻辑执行环境中运行。 Service logic mapped to specific programming language model related code; (5) business logic executable code is loaded into the corresponding service logic execution environment of the application server running.
6.根据权利要求5所述的电信业务的生成方法,其特征在于:所述步骤(1)中由通用的业务构建元素和流程控制原语生成的通用业务逻辑模型,独立于具体的网络开放接口技术、实现平台技术和实现语言,即该业务逻辑模型与三者都不相关;其中开放接口技术包括但不限于Parlay/OSA、JAIN、Parlay X、SIPServlet;实现平台技术包括但不限于CORBA、Web Service、DCOM、J2EE的各种中间件平台技术;实现语言包括但不限于Java、C、C++、C#。 The generating method as claimed in claim telecommunication service, wherein: in said step (1) constructed by the generic elements and processes service control generic service logic primitives generated model, independent of the specific network open Interface technology, implementation language and platform technology, i.e., not associated with the service logic model three; wherein open interfaces including but not limited to Parlay / OSA, JAIN, Parlay X, SIPServlet; implementation platform including but not limited to CORBA, a variety of middleware platform technology Web Service, DCOM, J2EE; the implementation language, including but not limited to Java, C, C ++, C #.
7.根据权利要求5所述的电信业务的生成方法,其特征在于:所述步骤(2)中进一步包括下列操作内容:针对不同的开放接口技术,分别选用相对应的通用模型到该接口模型的编译器,由该编译器接收通用业务逻辑模型作为输入,由该编译器中的扫描模块对输入的通用业务逻辑模型进行扫描,再将扫描到的实现确定业务的通用SBE和描述业务逻辑的流程控制原语映射为与具体接口技术相关的SBE和相应的描述这些SBE之间逻辑关系的流程控制原语的有序组合,进而输出独立于实现平台技术的、与具体接口技术相关的业务逻辑模型。 The generating method according to claim telecommunication service, wherein: said step (2) further comprises the following elements: open for different interface technologies, respectively, using generic model corresponding to the interface model compiler, receives the generic service logic model of the compiler as input, scans the generic service logic model input by the compiler scanning module then scans to achieve SBE general description and the service business logic determines flow control primitives and corresponding mapped SBE description associated with a particular interface technology logical relationship between these flow control SBE ordered combinations of primitives, whereby the output implementation platform independent technology, business logic associated with the particular interface technology model.
8.根据权利要求5所述的电信业务的生成方法,其特征在于:所述步骤(3)中,不同的接口技术可以映射转换为不同的实现平台技术,同一种接口技术也可以映射转换为不同的实现平台技术;由各种相应类型的接口模型到实现平台模型的模型编译器来负责二者之间的映射转换。 The generating method as claimed in claim telecommunication service, wherein: said step (3), different interfaces can be mapped into a different implementation platform technology, the same interface technique may be mapped to convert different implementation platform technology; various types of interfaces appropriate model implementation model to model compiler platform responsible for conversion between the mapping.
9.根据权利要求5或8所述的电信业务的生成方法,其特征在于:所述步骤(3)进一步包括下列操作内容:接口模型到实现平台模型的模型编译器在接收到输入的独立于实现平台技术的、与具体接口技术相关的业务逻辑模型后,利用接口技术相关的业务模型扫描模块对输入的业务逻辑模型的组织结构进行模型扫描,再在扫描过程中,将接口技术相关的SBE和相关的流程控制原语映射为与该具体接口技术相关SBE的平台实现模型和相关的流程控制原语,进而输出与具体接口技术相关的业务逻辑模型的实现平台技术模型。 5 or 9. The method of generating the telecommunication service according to claim 8, wherein: said step (3) further comprises the following elements: an interface to model compiler implementation model receiving platform independent model to the input related business models scanning module organization business logic model inputted model scanning implementation platform technology, the business logic model associated with a particular interface technology, the interface technology, then during the scanning process, the interface technology related SBE and flow control primitives associated mapping model and associated processes to achieve the particular interface technology related SBE platform control primitives, and further the model output to achieve platform technology associated with a particular interface technology business logic model.
10.根据权利要求5所述的电信业务的生成方法,其特征在于:所述步骤(4)中进一步包括下列操作内容:针对不同的实现语言,分别选用相对应的实现平台模型到该代码的模型编译器,由该编译器接收与具体接口技术相关的业务逻辑模型的实现平台技术模型作为输入后,由与实现平台技术相关的业务模型扫描模块对接收到的模型进行扫描,再由与实现平台技术相关的业务逻辑模型到代码的映射模块将扫描到的实现模型元素及这些模型元素之间的关系映射为相应的实现代码,进而输出可执行的业务逻辑执行代码。 10. The method of generating the telecommunication service according to claim, wherein: said step (4) further comprises the following elements: for different implementation language, were selected corresponding to the model implementation platform code model compiler, receive traffic associated with a particular logical model interface technology implemented by the compiler as the internet technical model inputs, associated with a docking platform technology implemented business models scanning module scans the received model, and then implemented by the map between platform technology related to the business logic model scan code mapping module to achieve these model elements and model elements corresponding implementation code, and thus the service logic execution of the executable code output.
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