Architectures of Cloud-enabled Cyber Physical Systems — a Systematic Mapping Study

2020 46th Euromicro Conference on Software Engineering and Advanced Applications (SEAA) Pub Date : 2020-08-01 DOI:10.1109/SEAA51224.2020.00078

A. Reuter, V. Andrikopoulos

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引用次数: 1

Abstract

Cloud-enabled Cyber Physical Systems (CCPS) combine embedded systems with highly scalable cloud services. Such systems provide opportunities to offload computing or data analytics tasks which require more resources than an embedded device can offer. The development of a CCPS involves multiple stakeholders as well as engineers and developers from different disciplines, which makes the description and communication of the system architecture a challenging task. Additionally, the architecture design of CCPS has the inherent challenge to determine which functionality should be placed on the device, in the cloud, or on a possible fog/edge device within or close to the system. This systematic mapping study evaluates how CCPS architectures are discussed in the current literature and which topics are associated with cloud computing in CCPS architectures. The results show a significant increase in CCPS publications over the last years, a focus on a specific architectural viewpoint and application areas, and a potential misalignment with the common understanding of cloud computing as a paradigm.

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支持云计算的网络物理系统的体系结构——系统映射研究

支持云的网络物理系统(CCPS)将嵌入式系统与高度可扩展的云服务相结合。这样的系统提供了卸载计算或数据分析任务的机会，这些任务需要比嵌入式设备提供更多的资源。CCPS的开发涉及多个利益相关者以及来自不同学科的工程师和开发人员，这使得系统架构的描述和沟通成为一项具有挑战性的任务。此外，CCPS的架构设计存在固有的挑战，即确定哪些功能应该放在设备上、云中，或者放在系统内部或靠近系统的可能的雾/边缘设备上。这个系统的映射研究评估了当前文献中如何讨论CCPS架构，以及哪些主题与CCPS架构中的云计算相关。结果显示，在过去几年中，CCPS出版物有了显著的增长，关注于特定的体系结构观点和应用领域，并且与将云计算作为一种范式的普遍理解存在潜在的偏差。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 46th Euromicro Conference on Software Engineering and Advanced Applications (SEAA)

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