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引用次数: 7
摘要
本文介绍了一种支持云上系统工程的体系结构。它利用了云的主要优势:可伸缩性、并行性、成本效益、多用户访问和灵活性。该体系结构包括一个开放工具箱,它提供工具作为服务来支持系统工程的各个阶段。该体系结构使用生命周期协作的开放服务(Open Services for Life-cycle Collaboration, OSLC)技术来创建响应式中间件,该中间件通知所有涉众开发工件中的任何更改。它促进了工具的互操作性,并使工具工作流能够支持复杂的工程步骤。该体系结构的另一个组件是工件的共享存储库。在系统工程过程中生成的所有工件都存储在存储库中,相关涉众可以访问它们。共享存储库还可以作为平台来支持正式模型分解和对分解模型进行分组工作的协议。最后,体系结构包括确保系统工程过程可靠性的组件。
A reactive architecture for cloud-based system engineering
The paper introduces an architecture to support system engineering on the cloud. It employs the main benefits of the cloud: scalability, parallelism, cost-effectiveness, multi-user access and flexibility. The architecture includes an open toolbox which provides tools as a service to support various phases of system engineering. The architecture uses the Open Services for Life-cycle Collaboration (OSLC) technology to create a reactive middleware that informs all stakeholders about any changes in the development artefacts. It facilitates the interoperability of tools and enables the workflow of tools to support complex engineering steps. Another component of the architecture is a shared repository of artefacts. All the artefacts generated during a system engineering process are stored in the repository, and can be accessed by relevant stakeholders. The shared repository also serves as a platform to support a protocol for formal model decomposition and group work on the decomposed models. Finally, the architecture includes components for ensuring the dependability of the system engineering process.
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